Last data update: May 06, 2024. (Total: 46732 publications since 2009)
Records 1-30 (of 99 Records) |
Query Trace: Goldsmith C[original query] |
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Optimization of Aspergillus versicolor culture and aerosolization in a murine model of inhalational fungal exposure
Blackwood CB , Croston TL , Barnes MA , Lemons AR , Rush RE , Goldsmith T , McKinney WG , Anderson S , Weaver KL , Sulyok M , Park JH , Germolec D , Beezhold DH , Green B . J Fungi (Basel) 2023 9 (11) Aspergillus versicolor is ubiquitous in the environment and is particularly abundant in damp indoor spaces. Exposure to Aspergillus species, as well as other environmental fungi, has been linked to respiratory health outcomes, including asthma, allergy, and even local or disseminated infection. However, the pulmonary immunological mechanisms associated with repeated exposure to A. versicolor have remained relatively uncharacterized. Here, A. versicolor was cultured and desiccated on rice then placed in an acoustical generator system to achieve aerosolization. Mice were challenged with titrated doses of aerosolized conidia to examine deposition, lymphoproliferative properties, and immunotoxicological response to repeated inhalation exposures. The necessary dose to induce lymphoproliferation was identified, but not infection-like pathology. Further, it was determined that the dose was able to initiate localized immune responses. The data presented in this study demonstrate an optimized and reproducible method for delivering A. versicolor conidia to rodents via nose-only inhalation. Additionally, the feasibility of a long-term repeated exposure study was established. This experimental protocol can be used in future studies to investigate the physiological effects of repeated pulmonary exposure to fungal conidia utilizing a practical and relevant mode of delivery. In total, these data constitute an important foundation for subsequent research in the field. |
Single-dose mucosal replicon-particle vaccine protects against lethal Nipah virus infection up to 3 days after vaccination
Welch SR , Spengler JR , Genzer SC , Coleman-McCray JD , Harmon JR , Sorvillo TE , Scholte FEM , Rodriguez SE , O'Neal TJ , Ritter JM , Ficarra G , Davies KA , Kainulainen MH , Karaaslan E , Bergeron É , Goldsmith CS , Lo MK , Nichol ST , Montgomery JM , Spiropoulou CF . Sci Adv 2023 9 (31) eadh4057 Nipah virus (NiV) causes a highly lethal disease in humans who present with acute respiratory or neurological signs. No vaccines against NiV have been approved to date. Here, we report on the clinical impact of a novel NiV-derived nonspreading replicon particle lacking the fusion (F) protein gene (NiVΔF) as a vaccine in three small animal models of disease. A broad antibody response was detected that included immunoglobulin G (IgG) and IgA subtypes with demonstrable Fc-mediated effector function targeting multiple viral antigens. Single-dose intranasal vaccination up to 3 days before challenge prevented clinical signs and reduced virus levels in hamsters and immunocompromised mice; decreases were seen in tissues and mucosal secretions, critically decreasing potential for virus transmission. This virus replicon particle system provides a vital tool to the field and demonstrates utility as a highly efficacious and safe vaccine candidate that can be administered parenterally or mucosally to protect against lethal Nipah disease. |
A Pan-respiratory Antiviral Chemotype Targeting a Transient Host Multiprotein Complex (preprint)
Muller-Schiffmann A , Michon M , Lingappa AF , Yu SF , Du L , Deiter F , Broce S , Mallesh S , Crabtree J , Lingappa UF , Macieik A , Muller L , Ostermann PN , Andree M , Adams O , Schaal H , Hogan RJ , Tripp RA , Appaiah U , Anand SK , Campi TW , Ford MJ , Reed JC , Lin J , Akintunde O , Copeland K , Nichols C , Petrouski E , Moreira AR , Jiang IT , DeYarman N , Brown I , Lau S , Segal I , Goldsmith D , Hong S , Asundi V , Briggs EM , Phyo NS , Froehlich M , Onisko B , Matlack K , Dey D , Lingappa JR , Prasad MD , Kitaygorodskyy A , Solas D , Boushey H , Greenland J , Pillai S , Lo MK , Montgomery JM , Spiropoulou CF , Korth C , Selvarajah S , Paulvannan K , Lingappa VR . bioRxiv 2021 18 We present a small molecule chemotype, identified by an orthogonal drug screen, exhibiting nanomolar activity against members of all the six viral families causing most human respiratory viral disease, with a demonstrated barrier to resistance development. Antiviral activity is shown in mammalian cells, including human primary bronchial epithelial cells cultured to an air-liquid interface and infected with SARS-CoV-2. In animals, efficacy of early compounds in the lead series is shown by survival (for a coronavirus) and viral load (for a paramyxovirus). The drug target is shown to include a subset of the protein 14-3-3 within a transient host multi-protein complex containing components implicated in viral lifecycles and in innate immunity. This multi-protein complex is modified upon viral infection and largely restored by drug treatment. Our findings suggest a new clinical therapeutic strategy for early treatment upon upper respiratory viral infection to prevent progression to lower respiratory tract or systemic disease. Copyright The copyright holder for this preprint is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under a CC-BY-NC-ND 4.0 International license. |
A comparison of performance metrics for cloth face masks as source control devices for simulated cough and exhalation aerosols (preprint)
Lindsley WG , Blachere FM , Beezhold DH , Law BF , Derk RC , Hettick JM , Woodfork K , Goldsmith WT , Harris JR , Duling MG , Boutin B , Nurkiewicz T , Noti JD . medRxiv 2021 Universal mask wearing is recommended by the Centers for Disease Control and Prevention to help control the spread of COVID-19. Masks reduce the expulsion of respiratory aerosols (called source control) and offer some protection to the wearer. However, masks vary greatly in their designs and construction materials, and it is not clear which are most effective. Our study tested 15 reusable cloth masks (which included face masks, neck gaiters, and bandanas), two medical masks, and two N95 filtering facepiece respirators as source control devices for aerosols ≤ 7 µm produced during simulated coughing and exhalation. These measurements were compared with the mask filtration efficiencies, airflow resistances, and fit factors. The source control collection efficiencies for the cloth masks ranged from 17% to 71% for coughing and 35% to 66% for exhalation. The filtration efficiencies of the cloth masks ranged from 1.4% to 98%, while the fit factors were 1.3 to 7.4 on an elastomeric manikin headform and 1.0 to 4.0 on human test subjects. The correlation coefficients between the source control efficacies and the other performance metrics ranged from 0.31 to 0.66 and were significant in all but one case. However, none of the alternative metrics were strong predictors of the source control performance of cloth masks. Our results suggest that a better understanding of the relationships between source control performance and metrics like filtration efficiency, airflow resistance, and fit factor are needed to develop simple methods to estimate the effectiveness of masks as source control devices for respiratory aerosols. |
Inhibition of vaccinia virus L1 N-myristoylation by the host N-myristoyltransferase inhibitor IMP-1088 generates non-infectious virions defective in cell entry (preprint)
Priyamvada L , Kallemeijn WW , Faronato M , Wilkins K , Goldsmith CS , Cotter CA , Ojeda S , Solari R , Moss B , Tate EW , Satheshkumar PS . bioRxiv 2022 13 (10) e1010662 We have recently shown that the replication of rhinovirus, poliovirus and foot-and-mouth disease virus requires the co-translational N-myristoylation of viral proteins by human host cell N-myristoyltransferases (NMTs), and is inhibited by treatment with IMP-1088, an ultrapotent small molecule NMT inhibitor. Here, we reveal the role of N-myristoylation during vaccinia virus (VACV) infection in human host cells and demonstrate the anti-poxviral effects of IMP-1088. N-myristoylated proteins from VACV and the host were metabolically labelled with myristic acid alkyne during infection using quantitative chemical proteomics. We identified VACV proteins A16, G9 and L1 to be N-myristoylated. Treatment with NMT inhibitor IMP-1088 potently abrogated VACV infection, while VACV gene expression, DNA replication, morphogenesis and EV formation remained unaffected. Importantly, we observed that loss of N-myristoylation resulted in greatly reduced infectivity of assembled mature virus particles, characterized by significantly reduced host cell entry and a decline in membrane fusion activity of progeny virus. While the N-myristoylation of VACV entry proteins L1, A16 and G9 was inhibited by IMP-1088, mutational and genetic studies demonstrated that the N-myristoylation of L1 was the most critical for VACV entry. Given the significant genetic identity between VACV, monkeypox virus and variola virus L1 homologs, our data provides a basis for further investigating the role of N-myristoylation in poxviral infections as well as the potential of selective NMT inhibitors like IMP-1088 as broad-spectrum poxvirus inhibitors. Copyright The copyright holder for this preprint is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. This article is a US Government work. It is not subject to copyright under 17 USC 105 and is also made available for use under a CC0 license. |
Aerosol physicochemical determinants of carbon black and ozone inhalation co-exposure induced pulmonary toxicity
Majumder N , Kodali V , Velayutham M , Goldsmith T , Amedro J , Khramtsov VV , Erdely A , Nurkiewicz TR , Harkema JR , Kelley EE , Hussain S . Toxicol Sci 2022 191 (1) 61-78 Air pollution accounts for more than 7 million premature deaths worldwide. Using ultrafine carbon black (CB) and ozone (O3) as a model for an environmental co-exposure scenario, the dose response relationships in acute pulmonary injury and inflammation were determined by generating, characterizing, and comparing stable concentrations of CB aerosols (2.5, 5.0, 10.0mg/m3), O3 (0.5, 1.0, 2.0ppm) with mixture CB+O3 (2.5+0.5, 5.0+1.0, 10.0+2.0). C57BL6 male mice were exposed for 3hours by whole body inhalation and acute toxicity determined after 24h. CB itself did not cause any alteration, however, a dose response in pulmonary injury/inflammation was observed with O3 and CB+O3. This increase in response with mixtures was not dependent on the uptake but due to enhanced reactivity of the particles. Benchmark dose modeling showed several-fold increase in potency with CB+O3 compared to CB or O3 alone. Principal component analysis provided insight into response relationships between various doses and treatments. There was a significant correlation in lung responses with charge-based size distribution, total/alveolar deposition, oxidant generation and antioxidant depletion potential. Lung tissue gene/protein response demonstrated distinct patterns that are better predicted by either particle dose/aerosol responses (IL-1, KC, TGF-) or particle reactivity (TSLP, IL13, IL-6). Hierarchical clustering showed a distinct signature with high dose and a similarity in mRNA expression pattern of low and medium doses of CB+O3. In conclusion, we demonstrate that the biological outcomes from CB+O3 co-exposure are significantly greater than individual exposures over a range of aerosol concentrations and aerosol characteristics can predict biological outcome. |
Inhibition of vaccinia virus L1 N-myristoylation by the host N-myristoyltransferase inhibitor IMP-1088 generates non-infectious virions defective in cell entry.
Priyamvada L , Kallemeijn WW , Faronato M , Wilkins K , Goldsmith CS , Cotter CA , Ojeda S , Solari R , Moss B , Tate EW , Satheshkumar PS . PLoS Pathog 2022 18 (10) e1010662 We have recently shown that the replication of rhinovirus, poliovirus and foot-and-mouth disease virus requires the co-translational N-myristoylation of viral proteins by human host cell N-myristoyltransferases (NMTs), and is inhibited by treatment with IMP-1088, an ultrapotent small molecule NMT inhibitor. Here, we examine the importance of N-myristoylation during vaccinia virus (VACV) infection in primate cells and demonstrate the anti-poxviral effects of IMP-1088. N-myristoylated proteins from VACV and the host were metabolically labelled with myristic acid alkyne during infection using quantitative chemical proteomics. We identified VACV proteins A16, G9 and L1 to be N-myristoylated. Treatment with NMT inhibitor IMP-1088 potently abrogated VACV infection, while VACV gene expression, DNA replication, morphogenesis and EV formation remained unaffected. Importantly, we observed that loss of N-myristoylation resulted in greatly reduced infectivity of assembled mature virus particles, characterized by significantly reduced host cell entry and a decline in membrane fusion activity of progeny virus. While the N-myristoylation of VACV entry proteins L1, A16 and G9 was inhibited by IMP-1088, mutational and genetic studies demonstrated that the N-myristoylation of L1 was the most critical for VACV entry. Given the significant genetic identity between VACV, monkeypox virus and variola virus L1 homologs, our data provides a basis for further investigating the role of N-myristoylation in poxviral infections as well as the potential of selective NMT inhibitors like IMP-1088 as broad-spectrum poxvirus inhibitors. |
Prenatal exposure to polybrominated diphenyl ethers and BMI Z-scores from 5 to 14years
Kupsco A , Sjödin A , Cowell W , Jones R , Oberfield S , Wang S , Hoepner LA , Gallagher D , Baccarelli AA , Goldsmith J , Rundle AG , Herbstman JB . Environ Health 2022 21 (1) 82 BACKGROUND: Polybrominated diphenyl ethers (PBDEs) are flame-retardant compounds widely used in household products until phase out in 2004. PBDEs are endocrine disruptors and are suggested to influence signaling related to weight control. Prenatal exposures to PBDEs may alter childhood adiposity, yet few studies have examined these associations in human populations. METHODS: Data were collected from a birth cohort of Dominican and African American mother-child pairs from New York City recruited from 1998 to 2006. PBDE congeners BDE-47, - 99, - 100, and - 153 were measured in cord plasma (ng/μL) and dichotomized into low (< 80th percentile) and high (>80th percentile) exposure categories. Height and weight were collected at ages 5, 7, 9, 11, and an ancillary visit from 8 to 14 years (n = 289). Mixed-effects models with random intercepts for participant were used to assess associations between concentrations of individual PBDE congeners or the PBDE sum and child BMI z-scores (BMIz). To assess associations between PBDEs and the change in BMIz over time, models including interactions between PBDE categories and child age and (child age)(2) were fit. Quantile g-computation was used to investigate associations between BMIz and the total PBDE mixture. Models were adjusted for baseline maternal covariates: ethnicity, age, education, parity, partnership status, and receipt of public assistance, and child covariates: child sex and cord cholesterol and triglycerides. RESULTS: The prevalence of children with obesity at age 5 was 24.2% and increased to 30% at age 11. Neither cord levels of individual PBDEs nor the total PBDE mixture were associated with overall BMIz in childhood. The changes in BMIz across childhood were not different between children with low or high PBDEs. Results were similar when adjusting for postnatal PBDE exposures. CONCLUSIONS: Prenatal PBDE exposures were not associated with child growth trajectories in a cohort of Dominican and African American children. |
Chapare Hemorrhagic Fever and Virus Detection in Rodents in Bolivia in 2019.
LoayzaMafayle R , Morales-Betoulle ME , Romero C , Cossaboom CM , Whitmer S , AlvarezAguilera CE , AvilaArdaya C , CruzZambrana M , DvalosAnajia A , MendozaLoayza N , Montao AM , MoralesAlvis FL , RevolloGuzmn J , SasasMartnez S , AlarcnDeLaVega G , MedinaRamrez A , MolinaGutirrez JT , CornejoPinto AJ , SalasBacci R , Brignone J , Garcia J , Aez A , Mendez-Rico J , Luz K , Segales A , TorrezCruz KM , Valdivia-Cayoja A , Amman BR , Choi MJ , Erickson BR , Goldsmith C , Graziano JC , Joyce A , Klena JD , Leach A , Malenfant JH , Nichol ST , Patel K , Sealy T , Shoemaker T , Spiropoulou CF , Todres A , Towner JS , Montgomery JM . N Engl J Med 2022 386 (24) 2283-2294 BACKGROUND: In June 2019, the Bolivian Ministry of Health reported a cluster of cases of hemorrhagic fever that started in the municipality of Caranavi and expanded to La Paz. The cause of these cases was unknown. METHODS: We obtained samples for next-generation sequencing and virus isolation. Human and rodent specimens were tested by means of virus-specific real-time quantitative reverse-transcriptase-polymerase-chain-reaction assays, next-generation sequencing, and virus isolation. RESULTS: Nine cases of hemorrhagic fever were identified; four of the patients with this illness died. The etiologic agent was identified as Mammarenavirus Chapare mammarenavirus, or Chapare virus (CHAPV), which causes Chapare hemorrhagic fever (CHHF). Probable nosocomial transmission among health care workers was identified. Some patients with CHHF had neurologic manifestations, and those who survived had a prolonged recovery period. CHAPV RNA was detected in a variety of human body fluids (including blood; urine; nasopharyngeal, oropharyngeal, and bronchoalveolar-lavage fluid; conjunctiva; and semen) and in specimens obtained from captured small-eared pygmy rice rats (Oligoryzomys microtis). In survivors of CHHF, viral RNA was detected up to 170 days after symptom onset; CHAPV was isolated from a semen sample obtained 86 days after symptom onset. CONCLUSIONS: M. Chapare mammarenavirus was identified as the etiologic agent of CHHF. Both spillover from a zoonotic reservoir and possible person-to-person transmission were identified. This virus was detected in a rodent species, O. microtis. (Funded by the Bolivian Ministry of Health and others.). |
A career filled with viruses
Goldsmith CS . Microsc Microanal 2022 28 1380-1381 The different families of viruses can be distinguished morphologically by transmission electron microscopy (EM) and this allows for diagnosis to the level of the family. My career with CDC started in 1983 and I have worked with every family of virus that causes human disease and would like to share my experiences. |
Detection and isolation of rickettsia tillamookensis (rickettsiales: Rickettsiaceae) from ixodes pacificus (acari: Ixodidae) from multiple regions of California
Paddock CD , Slater K , Swei A , Zambrano ML , Kleinjan JE , Padgett KA , Saunders MEM , Andrews ES , Trent E , Zhong J , Sambado S , Goldsmith CS , Pascoe EL , Foley J , Lane RS , Karpathy SE . J Med Entomol 2022 59 (4) 1404-1412 The western black-legged tick (Ixodes pacificus) is the most frequently identified human-biting tick species in the western United States and the principal vector of at least three recognized bacterial pathogens of humans. A potentially pathogenic Rickettsia species, first described in 1978 and recently characterized as a novel transitional group agent designated as Rickettsia tillamookensis, also exists among populations of I. pacificus, although the distribution and frequency of this agent are poorly known. We evaluated DNA extracts from 348 host-seeking I. pacificus nymphs collected from 9 locations in five California counties, and from 916 I. pacificus adults collected from 24 locations in 13 counties, by using a real-time PCR designed specifically to detect DNA of R. tillamookensis. DNA of R. tillamookensis was detected in 10 (2.9%) nymphs (95% CI: 1.6-5.2%) and 17 (1.9%) adults (95% CI: 1.2-3.0%) from 11 counties of northern California. Although site-specific infection rates varied greatly, frequencies of infection remained consistently low when aggregated by stage, sex, habitat type, or geographical region. Four novel isolates of R. tillamookensis were cultivated in Vero E6 cells from individual adult ticks collected from Alameda, Nevada, and Yolo counties. Four historical isolates, serotyped previously as 'Tillamook-like' strains over 40 yr ago, were revived from long-term storage in liquid nitrogen and confirmed subsequently by molecular methods as isolates of R. tillamookensis. The potential public health impact of R. tillamookensis requires further investigation. |
Detection and identification of coronaviruses in human tissues using electron microscopy.
Bullock HA , Goldsmith CS , Miller SE . Microsc Res Tech 2022 85 (7) 2740-2747 The identification of viral particles within a tissue specimen requires specific knowledge of viral ultrastructure and replication, as well as a thorough familiarity with normal subcellular organelles. The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) pandemic has underscored how challenging the task of identifying coronavirus by electron microscopy (EM) can be. Numerous articles have been published mischaracterizing common subcellular structures, including clathrin- or coatomer- coated vesicles, multivesicular bodies, and rough endoplasmic reticulum, as coronavirus particles in SARS-CoV-2 positive patient tissue specimens. To counter these misinterpretations, we describe the morphological features of coronaviruses that should be used to differentiate coronavirus particles from subcellular structures. Further, as many of the misidentifications of coronavirus particles have stemmed from attempts to attribute tissue damage to direct infection by SARS-CoV-2, we review articles describing ultrastructural changes observed in specimens from SARS-CoV-2-infected individuals that do not necessarily provide EM evidence of direct viral infection. Ultrastructural changes have been observed in respiratory, cardiac, kidney, and intestinal tissues, highlighting the widespread effects that SARS-CoV-2 infection may have on the body, whether through direct viral infection or mediated by SARS-CoV-2 infection-induced inflammatory and immune processes. |
Detection of SARS-CoV-2 in Neonatal Autopsy Tissues and Placenta.
Reagan-Steiner S , Bhatnagar J , Martines RB , Milligan NS , Gisondo C , Williams FB , Lee E , Estetter L , Bullock H , Goldsmith CS , Fair P , Hand J , Richardson G , Woodworth KR , Oduyebo T , Galang RR , Phillips R , Belyaeva E , Yin XM , Meaney-Delman D , Uyeki TM , Roberts DJ , Zaki SR . Emerg Infect Dis 2022 28 (3) 510-517 Severe coronavirus disease in neonates is rare. We analyzed clinical, laboratory, and autopsy findings from a neonate in the United States who was delivered at 25 weeks of gestation and died 4 days after birth; the mother had asymptomatic severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection and preeclampsia. We observed severe diffuse alveolar damage and localized SARS-CoV-2 by immunohistochemistry, in situ hybridization, and electron microscopy of the lungs of the neonate. We localized SARS-CoV-2 RNA in neonatal heart and liver vascular endothelium by using in situ hybridization and detected SARS-CoV-2 RNA in neonatal and placental tissues by using reverse transcription PCR. Subgenomic reverse transcription PCR suggested viral replication in lung/airway, heart, and liver. These findings indicate that in utero SARS-CoV-2 transmission contributed to this neonatal death. |
Aberrant Cellular Glycosylation May Increase the Ability of Influenza Viruses to Escape Host Immune Responses through Modification of the Viral Glycome.
Alymova IV , Cipollo JF , Parsons LM , Music N , Kamal RP , Tzeng WP , Goldsmith CS , Contessa JN , Hartshorn KL , Wilson JR , Zeng H , Gansebom S , York IA . mBio 2022 13 (2) e0298321 Individuals with metabolic dysregulation of cellular glycosylation often experience severe influenza disease, with a poor immune response to the virus and low vaccine efficacy. Here, we investigate the consequences of aberrant cellular glycosylation for the glycome and the biology of influenza virus. We transiently induced aberrant N-linked glycosylation in cultured cells with an oligosaccharyltransferase inhibitor, NGI-1. Cells treated with NGI-1 produced morphologically unaltered viable influenza virus with sequence-neutral glycosylation changes (primarily reduced site occupancy) in the hemagglutinin and neuraminidase proteins. Hemagglutinin with reduced glycan occupancy required a higher concentration of surfactant protein D (an important innate immunity respiratory tract collectin) for inhibition compared to that with normal glycan occupancy. Immunization of mice with NGI-1-treated virus significantly reduced antihemagglutinin and antineuraminidase titers of total serum antibody and reduced hemagglutinin protective antibody responses. Our data suggest that aberrant cellular glycosylation may increase the risk of severe influenza as a result of the increased ability of glycome-modified influenza viruses to evade the immune response. IMPORTANCE People with disorders such as cancer, autoimmune disease, diabetes, or obesity often have metabolic dysregulation of cellular glycosylation and also have more severe influenza disease, a reduced immune response to the virus, and reduced vaccine efficacy. Since influenza viruses that infect such people do not show consistent genomic variations, it is generally assumed that the altered biology is mainly related to host factors. However, since host cells are responsible for glycosylation of influenza virus hemagglutinin and neuraminidase, and glycosylation is important for interactions of these proteins with the immune system, the viruses may have functional differences that are not reflected by their genomic sequence. Here, we show that imbalanced cellular glycosylation can modify the viral glycome without genomic changes, leading to reduced innate and adaptive host immune responses to infection. Our findings link metabolic dysregulation of host glycosylation to increased risk of severe influenza and reduced influenza virus vaccine efficacy. |
Poliovirus immunity among adults in the Democratic Republic of the Congo: a cross-sectional serosurvey
Alfonso VH , Voorman A , Hoff NA , Weldon WC , Gerber S , Gadoth A , Halbrook M , Goldsmith A , Mukadi P , Doshi RH , Ngoie-Mwamba G , Fuller TL , Okitolonda-Wemakoy E , Muyembe-Tamfum JJ , Rimoin AW . BMC Infect Dis 2022 22 (1) 30 BACKGROUND: Vaccination efforts to eradicate polio currently focus on children under 5 years of age, among whom most cases of poliomyelitis still occur. However, in the Democratic Republic of the Congo (DRC), an outbreak of wild poliovirus type 1 occurred in 2010-2011 in which 16% of cases occurred among adults; in a related outbreak in the neighboring Republic of Congo, 75% of cases occurred among the same adult age-group. Given that infected adults may transmit poliovirus, this study was designed to assess adult immunity against polioviruses. METHODS: We assessed poliovirus seroprevalence using dried blood spots from 5,526 adults aged 15-59 years from the 2013-2014 Demographic and Health Survey in the DRC. RESULTS: Among adults in the DRC, 74%, 72%, and 57% were seropositive for neutralizing antibodies for poliovirus types 1, 2, and 3, respectively. For all three serotypes, seroprevalence tended to be higher among older age groups, those living in households with more children, and among women. CONCLUSIONS: Protection against poliovirus is generally low among adults in the DRC, particularly for type 3 poliovirus. The lack of acquired immunity in adults suggests a potentially limited poliovirus circulation over the lifetime of those surveyed (spanning 1954 through 2014) and transmission of vaccine-derived poliovirus in this age group while underscoring the risk of these outbreaks among adults in the DRC. |
Teaching a new mouse old tricks: Humanized mice as an infection model for Variola virus
Hutson CL , Kondas AV , Ritter JM , Reed Z , Ostergaard SD , Morgan CN , Gallardo-Romero N , Tansey C , Mauldin MR , Salzer JS , Hughes CM , Goldsmith CS , Carroll D , Olson VA . PLoS Pathog 2021 17 (9) e1009633 Smallpox, caused by the solely human pathogen Variola virus (VARV), was declared eradicated in 1980. While known VARV stocks are secure, smallpox remains a bioterrorist threat agent. Recent U.S. Food and Drug Administration approval of the first smallpox anti-viral (tecovirimat) therapeutic was a successful step forward in smallpox preparedness; however, orthopoxviruses can become resistant to treatment, suggesting a multi-therapeutic approach is necessary. Animal models are required for testing medical countermeasures (MCMs) and ideally MCMs are tested directly against the pathogen of interest. Since VARV only infects humans, a representative animal model for testing therapeutics directly against VARV remains a challenge. Here we show that three different humanized mice strains are highly susceptible to VARV infection, establishing the first small animal model using VARV. In comparison, the non-humanized, immunosuppressed background mouse was not susceptible to systemic VARV infection. Following an intranasal VARV challenge that mimics the natural route for human smallpox transmission, the virus spread systemically within the humanized mouse before mortality (~ 13 days post infection), similar to the time from exposure to symptom onset for ordinary human smallpox. Our identification of a permissive/representative VARV animal model can facilitate testing of MCMs in a manner consistent with their intended use. |
Pathology and pathogenesis of Lassa fever: Novel immunohistochemical findings in fatal cases and clinico-pathologic correlation
Shieh WJ , Demby A , Jones T , Goldsmith CS , Rollin PE , Ksiazek TG , Peters CJ , Zaki SR . Clin Infect Dis 2021 74 (10) 1821-1830 BACKGROUND: Lassa fever is a zoonotic, acute viral illness first identified in Nigeria in 1969. An estimate shows that the "at risk" seronegative population (in Sierra Leone, Guinea, and Nigeria) may be as high as 59 million, with an annual incidence of all illnesses of three million, and fatalities up to 67,000, demonstrating the serious impact of the disease on the region and global health. METHODS: Histopathologic evaluation, immunohistochemical assay, and electron microscopic examination were performed on postmortem tissue samples from 12 confirmed Lassa fever cases. RESULTS: Lassa fever virus antigens and viral particles were observed in multiple organ systems and cells, including cells in the mononuclear phagocytic system and other specialized cells where it had not been described previously. CONCLUSIONS: The immunolocalization of Lassa fever virus antigens in fatal cases provides novel insightful information with clinical and pathogenetic implications. The extensive involvement of the mononuclear phagocytic system, including tissue macrophages and endothelial cells suggests participation of inflammatory mediators from this lineage with the resulting vascular dilatation and increasing permeability. Other findings indicate the pathogenesis of LF is multifactorial and additional studies are needed. |
Oxidant-induced epithelial alarmin pathway mediates lung inflammation and functional decline following ultrafine carbon and ozone inhalation co-exposure
Majumder N , Goldsmith WT , Kodali VK , Velayutham M , Friend SA , Khramtsov VV , Nurkiewicz TR , Erdely A , Zeidler-Erdely PC , Castranova V , Harkema JR , Kelley EE , Hussain S . Redox Biol 2021 46 102092 Environmental inhalation exposures are inherently mixed (gases and particles), yet regulations are still based on single toxicant exposures. While the impacts of individual components of environmental pollution have received substantial attention, the impact of inhalation co-exposures is poorly understood. Here, we mechanistically investigated pulmonary inflammation and lung function decline after inhalation co-exposure and individual exposures to ozone (O(3)) and ultrafine carbon black (CB). Environmentally/occupationally relevant lung deposition levels in mice were achieved after inhalation of stable aerosols with similar aerodynamic and mass median distributions. X-ray photoemission spectroscopy detected increased surface oxygen contents on particles in co-exposure aerosols. Compared with individual exposures, co-exposure aerosols produced greater acellular and cellular oxidants detected by electron paramagnetic resonance (EPR) spectroscopy, and in vivo immune-spin trapping (IST), as well as synergistically increased lavage neutrophils, lavage proteins and inflammation related gene/protein expression. Co-exposure induced a significantly greater respiratory function decline compared to individual exposure. A synthetic catalase-superoxide dismutase mimetic (EUK-134) significantly blunted lung inflammation and respiratory function decline confirming the role of oxidant imbalance. We identified a significant induction of epithelial alarmin (thymic stromal lymphopoietin-TSLP)-dependent interleukin-13 pathway after co-exposure, associated with increased mucin and interferon gene expression. We provided evidence of interactive outcomes after air pollution constituent co-exposure and identified a key mechanistic pathway that can potentially explain epidemiological observation of lung function decline after an acute peak of air pollution. Developing and studying the co-exposure scenario in a standardized and controlled fashion will enable a better mechanistic understanding of how environmental exposures result in adverse outcomes. |
A comparison of performance metrics for cloth masks as source control devices for simulated cough and exhalation aerosols.
Lindsley WG , Blachere FM , Beezhold DH , Law BF , Derk RC , Hettick JM , Woodfork K , Goldsmith WT , Harris JR , Duling MG , Boutin B , Nurkiewicz T , Boots T , Coyle J , Noti JD . Aerosol Sci Technol 2021 55 (10) 1125-1142 Universal mask wearing is recommended to help control the spread of COVID-19. Masks reduce the expulsion of aerosols of respiratory fluids into the environment (called source control) and offer some protection to the wearer. Masks are often characterized using filtration efficiency, airflow resistance, and manikin or human fit factors, which are standard metrics used for personal protective devices. However, none of these metrics are direct measurements of how effectively a mask blocks coughed and exhaled aerosols. We studied the source control performance of 15 cloth masks (face masks, neck gaiters, and bandanas), two medical masks, and two N95 filtering facepiece respirators by measuring their ability to block aerosols ≤7 µm expelled during simulated coughing and exhalation (called source control collection efficiency). These measurements were compared with filtration efficiencies, airflow resistances, and fit factors measured on manikin headforms and humans. Collection efficiencies for the cloth masks ranged from 17% to 71% for coughing and 35% to 66% for exhalation. Filtration efficiencies for the cloth masks ranged from 1.4% to 98%, while the fit factors were 1.3 to 7.4 on headforms and 1.0 to 4.0 on human subjects. The Spearman’s rank correlation coefficients between the source control collection efficiencies and the standard metrics ranged from 0.03 to 0.68 and were significant in all but two cases. However, none of the standard metrics were strongly correlated with source control performance. A better understanding of the relationships between source control collection efficiency, filtration efficiency, airflow resistance, and fit factor is needed. ©, This work was authored as part of the Contributor's official duties as an Employee of the United States Government and is therefore a work of the United States Government. In accordance with 17 USC. 105, no copyright protection is available for such works under US Law. |
Closing the Brief Case: Disseminated Microsporidiosis with Intestinal Cryptosporidium Coinfection in a Patient with Kaposi's Sarcoma and Castleman Disease Presenting with Acute Kidney Injury
Agarwal AN , Shieh WJ , Goldsmith CS , Qvarnstrom Y , Ding Y , Dallas SD , Mais DD . J Clin Microbiol 2021 59 (6) Microsporidia are unicellular obligate parasitic fungi which produce heat-resistant spores. | The spores are infective forms containing a coiled polar tubule, which is extruded in the host cell to inject sporoplasm. | Transmission electron microscopy is the gold standard test for identification of microsporidia. Other tests for identification include Gram stain, Chromotrope 2R, quick-hot Gram chromotrope technique, trichrome blue, acid-fast stain, Warthin-Starry stain, modified trichrome stains, calcofluor white, immunohistochemistry, and PCR. | Encephalitozoon intestinalis commonly infects the gastrointestinal tract. However, it can also infect the kidneys and lungs. Microsporidiosis should be considered as a cause of renal failure in an immunocompromised patient. |
Difficulties in Differentiating Coronaviruses from Subcellular Structures in Human Tissues by Electron Microscopy.
Bullock HA , Goldsmith CS , Zaki SR , Martines RB , Miller SE . Emerg Infect Dis 2021 27 (4) 1023-1031 Efforts to combat the coronavirus disease (COVID-19) pandemic caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) have placed a renewed focus on the use of transmission electron microscopy for identifying coronavirus in tissues. In attempts to attribute pathology of COVID-19 patients directly to tissue damage caused by SARS-CoV-2, investigators have inaccurately reported subcellular structures, including coated vesicles, multivesicular bodies, and vesiculating rough endoplasmic reticulum, as coronavirus particles. We describe morphologic features of coronavirus that distinguish it from subcellular structures, including particle size range (60-140 nm), intracellular particle location within membrane-bound vacuoles, and a nucleocapsid appearing in cross section as dense dots (6-12 nm) within the particles. In addition, although the characteristic spikes of coronaviruses may be visible on the virus surface, especially on extracellular particles, they are less evident in thin sections than in negative stain preparations. |
Best Practices for Correctly Identifying Coronavirus by Transmission Electron Microscopy.
Bullock HA , Goldsmith CS , Miller SE . Kidney Int 2021 99 (4) 824-827 This guidance provides clear, concise strategies for identifying coronaviruses by transmission electron microscopy of ultrathin sections of tissues or infected tissue cultures. These include a description of virus morphology as well as cell organelles that can resemble viruses. Biochemical testing and caveats are discussed. Numerous references provide information for documentation and further study. |
Caution in Identifying Coronaviruses by Electron Microscopy.
Goldsmith CS , Miller SE . J Am Soc Nephrol 2020 31 (9) 2223-2224 We are concerned about the erroneous identification of coronavirus directly in tissues by authors using electron microscopy. Several recent articles have been published that purport to have identified severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) directly in tissue.1–234 Most describe particles that resemble, but do not have the appearance of, coronaviruses.5–67 |
Pathology and Pathogenesis of SARS-CoV-2 Associated with Fatal Coronavirus Disease, United States.
Martines RB , Ritter JM , Matkovic E , Gary J , Bollweg BC , Bullock H , Goldsmith CS , Silva-Flannery L , Seixas JN , Reagan-Steiner S , Uyeki T , Denison A , Bhatnagar J , Shieh WJ , Zaki SR , Covid-Pathology Working Group . Emerg Infect Dis 2020 26 (9) 2005-2015 An ongoing pandemic of coronavirus disease (COVID-19) is caused by infection with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Characterization of the histopathology and cellular localization of SARS-CoV-2 in the tissues of patients with fatal COVID-19 is critical to further understand its pathogenesis and transmission and for public health prevention measures. We report clinicopathologic, immunohistochemical, and electron microscopic findings in tissues from 8 fatal laboratory-confirmed cases of SARS-CoV-2 infection in the United States. All cases except 1 were in residents of long-term care facilities. In these patients, SARS-CoV-2 infected epithelium of the upper and lower airways with diffuse alveolar damage as the predominant pulmonary pathology. SARS-CoV-2 was detectable by immunohistochemistry and electron microscopy in conducting airways, pneumocytes, alveolar macrophages, and a hilar lymph node but was not identified in other extrapulmonary tissues. Respiratory viral co-infections were identified in 3 cases; 3 cases had evidence of bacterial co-infection. |
Isolation and characterization of SARS-CoV-2 from the first US COVID-19 patient.
Harcourt J , Tamin A , Lu X , Kamili S , Sakthivel SK , Murray J , Queen K , Tao Y , Paden CR , Zhang J , Li Y , Uehara A , Wang H , Goldsmith C , Bullock HA , Wang L , Whitaker B , Lynch B , Gautam R , Schindewolf C , Lokugamage KG , Scharton D , Plante JA , Mirchandani D , Widen SG , Narayanan K , Makino S , Ksiazek TG , Plante KS , Weaver SC , Lindstrom S , Tong S , Menachery VD , Thornburg NJ . bioRxiv 2020 The etiologic agent of the outbreak of pneumonia in Wuhan China was identified as severe acute respiratory syndrome associated coronavirus 2 (SARS-CoV-2) in January, 2020. The first US patient was diagnosed by the State of Washington and the US Centers for Disease Control and Prevention on January 20, 2020. We isolated virus from nasopharyngeal and oropharyngeal specimens, and characterized the viral sequence, replication properties, and cell culture tropism. We found that the virus replicates to high titer in Vero-CCL81 cells and Vero E6 cells in the absence of trypsin. We also deposited the virus into two virus repositories, making it broadly available to the public health and research communities. We hope that open access to this important reagent will expedite development of medical countermeasures. |
Severe Acute Respiratory Syndrome Coronavirus 2 from Patient with Coronavirus Disease, United States.
Harcourt J , Tamin A , Lu X , Kamili S , Sakthivel SK , Murray J , Queen K , Tao Y , Paden CR , Zhang J , Li Y , Uehara A , Wang H , Goldsmith C , Bullock HA , Wang L , Whitaker B , Lynch B , Gautam R , Schindewolf C , Lokugamage KG , Scharton D , Plante JA , Mirchandani D , Widen SG , Narayanan K , Makino S , Ksiazek TG , Plante KS , Weaver SC , Lindstrom S , Tong S , Menachery VD , Thornburg NJ . Emerg Infect Dis 2020 26 (6) 1266-1273 The etiologic agent of an outbreak of pneumonia in Wuhan, China, was identified as severe acute respiratory syndrome coronavirus 2 in January 2020. A patient in the United States was given a diagnosis of infection with this virus by the state of Washington and the US Centers for Disease Control and Prevention on January 20, 2020. We isolated virus from nasopharyngeal and oropharyngeal specimens from this patient and characterized the viral sequence, replication properties, and cell culture tropism. We found that the virus replicates to high titer in Vero-CCL81 cells and Vero E6 cells in the absence of trypsin. We also deposited the virus into 2 virus repositories, making it broadly available to the public health and research communities. We hope that open access to this reagent will expedite development of medical countermeasures. |
Electron microscopy of SARS-CoV-2: a challenging task.
Goldsmith CS , Miller SE , Martines RB , Bullock HA , Zaki SR . Lancet 2020 395 (10238) e99 We read with interest the Correspondence by Zsuzsanna Varga and colleagues1 on the possible infection of endothelial cells by SARS-CoV-2 using electron microscopic (EM) images as evidence. However, we believe the EM images in the Correspondence do not show coronavirus particles but instead show cross-sections of the rough endoplasmic reticulum (RER). These spherical structures are surrounded by dark dots, which might have been interpreted as spikes on coronavirus particles but are instead ribosomes. The purported particles are free within the cytoplasm, whereas within a coronavirus-infected cell, accumulations of virus particles would be found in membrane-bound areas in the cisternae of the RER–Golgi area, where the spikes would be located on the inside of the cisternal space.2 In addition, cross-sections through the viral nucleocapsid are not seen in the interior of these structures as would be found with coronavirus particles (figure ). |
Cutaneous microsporidiosis in an immunosuppressed patient
Nadelman DA , Bradt AR , Qvarnstrom Y , Goldsmith CS , Zaki SR , Wang F , Smith EH , Fullen DR . J Cutan Pathol 2020 47 (7) 659-663 Microsporidia are a group of obligate intracellular parasites that naturally infect domestic and wild animals. Human microsporidiosis is an increasingly recognized multisystem opportunistic infection. The clinical manifestations are diverse with diarrhea being the most common presenting symptom. We present a 52-year-old woman with a history of amyopathic dermatomyositis complicated by interstitial lung disease managed with mycophenolate mofetil and hydroxychloroquine who presented with a seven-month history of recurrent subcutaneous nodules as well as intermittent diarrhea and chronic sinusitis. A punch biopsy demonstrated superficial and deep lymphocytic and granulomatous dermatitis with focal necrosis. Tissue stains for microorganisms revealed oval 1-3 mum spores within the necrotic areas in multiple tissue stains. Additional studies at the Centers for Disease Control confirmed cutaneous microsporidiosis. This case is one of very few confirmed examples of cutaneous microsporidiosis reported in the literature. This article is protected by copyright. All rights reserved. |
Cultivation and aerosolization of Stachybotrys chartarum for modeling pulmonary inhalation exposure
Lemons AR , Croston TL , Goldsmith WT , Barnes MA , Jaderson MA , Park JH , McKinney W , Beezhold DH , Green BJ . Inhal Toxicol 2019 31 1-11 Objective: Stachybotrys chartarum is a hydrophilic fungal species commonly found as a contaminant in water-damaged building materials. Although several studies have suggested that S. chartarum exposure elicits a variety of adverse health effects, the ability to characterize the pulmonary immune responses to exposure is limited by delivery methods that do not replicate environmental exposure. This study aimed to develop a method of S. chartarum aerosolization to better model inhalation exposures. Materials and methods: An acoustical generator system (AGS) was previously developed and utilized to aerosolize and deliver fungal spores to mice housed in a multi-animal nose-only exposure chamber. In this study, methods for cultivating, heat-inactivating, and aerosolizing two macrocyclic trichothecene-producing strains of S. chartartum using the AGS are described. Results and discussion: In addition to conidia, acoustical generation of one strain of S. chartarum resulted in the aerosolization of fungal fragments (<2 microm aerodynamic diameter) derived from conidia, phialides, and hyphae that initially comprised 50% of the total fungal particle count but was reduced to less than 10% over the duration of aerosolization. Acoustical generation of heat-inactivated S. chartarum did not result in a similar level of fragmentation. Delivery of dry, unextracted S. chartarum using these aerosolization methods resulted in pulmonary inflammation and immune cell infiltration in mice inhaling viable, but not heat-inactivated S. chartarum. Conclusions: These methods of S. chartarum growth and aerosolization allow for the delivery of fungal bioaerosols to rodents that may better simulate natural exposure within water-damaged indoor environments. |
Inhalation of Stachybotrys chartarum fragments induces pulmonary arterial remodeling
Croston TL , Lemons AR , Barnes MA , Goldsmith WT , Orandle MS , Nayak AP , Germolec DR , Green BJ , Beezhold DH . Am J Respir Cell Mol Biol 2019 62 (5) 563-576 Stachybotrys chartarum is a fungal contaminant within the built environment and a respiratory health concern in the United States. The objective of this study was to characterize the mechanisms influencing pulmonary immune responses to repeatedly inhaled S. chartarum. Groups of B6C3F1/N mice repeatedly inhaled viable trichothecene-producing S. chartarum conidia (Strain A or Strain B), heat-inactivated conidia, or HEPA-filtered air twice a week for 4 and 13 weeks. Strain A was found to produce higher amounts of respirable fragments compared to Strain B. Lung tissue, serum and bronchoalveolar lavage fluid (BALF) were collected at 24 and 48 hours following final exposure and processed for histology, flow cytometry, RNA, and proteomic analyses. At 4 weeks post-exposure, a Th2-mediated response was observed. After 13 weeks, a mixed T-cell response was observed following exposure to Strain A, compared to a Th2-mediated response following Strain B exposure. Following exposure, both strains induced pulmonary arterial remodeling at 13 weeks; however, Strain A-exposed mice progressed more quickly compared to Strain B-exposed mice. BALF was composed primarily of eosinophils, neutrophils, and macrophages. Both the immune response and the observed pulmonary arterial remodeling were supported by specific cellular, molecular, and proteomic profiles. The immunopathological responses occurred earlier in mice exposed to high fragment-producing Strain A. The rather striking induction of pulmonary remodeling by S. chartarum appears to be related to the presence of fungal fragments during exposure. |
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