Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
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Query Trace: Mossel E[original query] |
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Differential pathogenesis of Usutu virus isolates in mice (preprint)
Kuchinsky SC , Hawks SA , Mossel EC , Coutermarsh-Ott S , Duggal NK . bioRxiv 2020 2020.08.31.275149 Usutu virus (USUV; Flavivirus), a close phylogenetic and ecological relative of West Nile virus, is a zoonotic virus that can cause neuroinvasive disease in humans. USUV is maintained in an enzootic cycle between Culex mosquitoes and birds. Since the first isolation in 1959 in South Africa, USUV has spread throughout Africa and Europe. Reported human cases have increased over the last few decades, primarily in Europe, with symptoms ranging from mild febrile illness to severe neurological effects. In this study, we investigated whether USUV has become more pathogenic during emergence in Europe. Interferon α/β receptor knockout (Ifnar1-/-) mice were inoculated with recent USUV isolates from Africa and Europe, as well as the historic 1959 South African strain. The three tested African strains and one European strain from Spain caused 100% mortality in inoculated mice, with similar survival times and histopathology in tissues. Unexpectedly, a European strain from the Netherlands caused only 12% mortality and significantly less histopathology in tissues from mice compared to mice inoculated with the other strains. Viremia was highest in mice inoculated with the recent African strains and lowest in mice inoculated with the Netherlands strain. Based on phylogenetics, the USUV isolates from Spain and the Netherlands were derived from separate introductions into Europe, suggesting that disease outcomes may differ for USUV strains circulating in Europe. These results also suggest that while more human USUV disease cases have been reported in Europe recently, circulating African USUV strains are still a potential major health concern.Author Summary Usutu virus (USUV) is an emerging mosquito-borne virus that causes severe neuroinvasive disease in humans. USUV was first detected in Africa in 1959, and cases of human disease have increased in recent years. Most USUV disease cases are now reported in Europe, where the virus currently circulating. One possibility for the increase in case numbers is that USUV strains have become more pathogenic over time during its spread from Africa into Europe. We compared the pathogenesis of five USUV isolates from Africa and Europe in a mouse model. Three isolates from Africa and one isolate from Europe caused 100% mortality in mice. Surprisingly, one isolate from Netherlands caused only 12% motality. Significantly less histopathology was observed in tissues from mice inoculated with the Netherlands strain compared to mice inoculated with the other four strains. Our results suggest that, even though more human USUV disease cases have been reported in Europe recently, African USUV strains are also highly pathogenic.Competing Interest StatementThe authors have declared no competing interest. |
Yata Virus (Family Rhabdoviridae, Genus Ephemerovirus) Isolation from Mosquitoes from Uganda, the First Reported Isolation since 1969.
Perinet LC , Mutebi JP , Powers AM , Lutwama JJ , Mossel EC . Diseases 2023 11 (1) As a part of a systematic study of mosquitoes and associated viruses in Uganda, a virus was isolated from a pool of Mansonia uniformis collected in July 2017, in the Kitgum District of northern Uganda. Sequence analysis determined that the virus is Yata virus (YATAV; Ephemerovirus yata; family Rhabdoviridae). The only previous reported isolation of YATAV was in 1969 in Birao, Central African Republic, also from Ma. uniformis mosquitoes. The current sequence is over 99% identical at the nucleotide level to the original isolate, indicating a high level of YATAV genomic stability. |
Exposure of Egyptian rousette bats (Rousettus aegyptiacus) and a little free-tailed bat (Chaerephon pumilus) to alphaviruses in Uganda
Kading RC , Borland EM , Mossel EC , Nakayiki T , Nalikka B , Ledermann JP , Crabtree MB , Panella NA , Nyakarahuka L , Gilbert AT , Kerbis-Peterhans JC , Towner JS , Amman BR , Sealy TK , Miller BR , Lutwama JJ , Kityo RM , Powers AM . Diseases 2022 10 (4) The reservoir for zoonotic o'nyong-nyong virus (ONNV) has remained unknown since this virus was first recognized in Uganda in 1959. Building on existing evidence for mosquito blood-feeding on various frugivorous bat species in Uganda, and seroprevalence for arboviruses among bats in Uganda, we sought to assess if serum samples collected from bats in Uganda demonstrated evidence of exposure to ONNV or the closely related zoonotic chikungunya virus (CHIKV). In total, 652 serum samples collected from six bat species were tested by plaque reduction neutralization test (PRNT) for neutralizing antibodies against ONNV and CHIKV. Forty out of 303 (13.2%) Egyptian rousettes from Maramagambo Forest and 1/13 (8%) little free-tailed bats from Banga Nakiwogo, Entebbe contained neutralizing antibodies against ONNV. In addition, 2/303 (0.7%) of these Egyptian rousettes contained neutralizing antibodies to CHIKV, and 8/303 (2.6%) contained neutralizing antibodies that were nonspecifically reactive to alphaviruses. These data support the interepidemic circulation of ONNV and CHIKV in Uganda, although Egyptian rousette bats are unlikely to serve as reservoirs for these viruses given the inconsistent occurrence of antibody-positive bats. |
Phylogenetic analysis of Wesselsbron virus isolated from field-captured mosquitoes during a Rift Valley fever outbreak in Kabale District, Uganda-2016
Kayiwa JT , Mayanja MN , Nakayiki TM , Senfuka F , Mugga J , Koehler JW , Mossel EC , Lutwama JJ . Am J Trop Med Hyg 2022 108 (1) 161-164 After confirmation of two human cases of Rift Valley fever (RVF) in March 2016 in the Kabale district of Uganda, an entomological investigation was conducted with a focus on mosquito species composition and abundance of known and potential mosquito vector species, and virus testing to identify species most likely involved in Rift Valley fever virus transmission. This information could be used to forecast risk and facilitate improvement of prevention and response tools for use in preventing or controlling future outbreaks. From these collections, two virus isolates were obtained, one each from a pool of Aedes tricholabis and Ae. gibbinsi. Next-generation sequencing identified both isolates as Wesselsbron virus, family Flaviviridae, a neglected arbovirus of economic importance. These are the first reported Wesselsbron virus isolates from Uganda since 1966. |
Complete Genome Sequence of O'nyong Nyong Virus Isolated from a Febrile Patient in 2017 in Uganda.
Ledermann JP , Kayiwa JT , Perinet LC , Apangu T , Acayo S , Lutwama JJ , Powers AM , Mossel EC . Microbiol Resour Announc 2022 11 (12) e0069222 Despite causing numerous large outbreaks in the 20th century, few isolates of o'nyong nyong virus (ONNV) have been fully sequenced. Here, we report the complete genome sequence of an isolate of ONNV obtained from a febrile patient in northwest Uganda in 2017, designated ONNV UVRI0804. |
Laboratory evaluation of RealStar Yellow Fever Virus RT-PCR kit 1.0 for potential use in the global yellow fever laboratory network
Basile AJ , Niedrig M , Lambert AJ , Meurant R , Brault AC , Domingo C , Goodman CH , Johnson BW , Mossel EC , Mulders MN , Velez JO , Hughes HR . PLoS Negl Trop Dis 2022 16 (9) e0010770 BACKGROUND: Early detection of human yellow fever (YF) infection in YF-endemic regions is critical to timely outbreak mitigation. African National Laboratories chiefly rely on serological assays that require confirmation at Regional Reference Laboratories, thus delaying results, which themselves are not always definitive often due to antibody cross-reactivity. A positive molecular test result is confirmatory for YF; therefore, a standardized YF molecular assay would facilitate immediate confirmation at National Laboratories. The WHO-coordinated global Eliminate Yellow Fever Epidemics Laboratory Technical Working Group sought to independently evaluate the quality and performance of commercial YF molecular assays relevant to use in countries with endemic YF, in the absence of stringent premarket assessments. This report details a limited laboratory WHO-coordinated evaluation of the altona Diagnostics RealStar Yellow Fever Virus RT-PCR kit 1.0. METHODOLOGY AND PRINCIPAL FINDINGS: Specific objectives were to assess the assay's ability to detect YF virus strains in human serum from YF-endemic regions, determine the potential for interference and cross-reactions, verify the performance claims as stated by the manufacturer, and assess usability. RNA extracted from normal human serum spiked with YF virus showed the assay to be precise with minimal lot-to-lot variation. The 95% limit of detection calculated was approximately 1,245 RNA copies/ml [95% confidence interval 497 to 1,640 copies/ml]. Positive results were obtained with spatially and temporally diverse YF strains. The assay was specific for YF virus, was not subject to endogenous or exogenous interferents, and was clinically sensitive and specific. A review of operational characteristics revealed that a positivity cutoff was not defined in the instructions for use, but otherwise the assay was user-friendly. CONCLUSIONS AND SIGNIFICANCE: The RealStar Yellow Fever Virus RT-PCR kit 1.0 has performance characteristics consistent with the manufacturer's claims and is suitable for use in YF-endemic regions. Its use is expected to decrease YF outbreak detection times and be instrumental in saving lives. |
Laboratory capacity assessments in 25 African countries at high risk of yellow fever, August-December 2018
Johnson BW , Demanou M , Fall G , Betoulle JL , Obiekea C , Basile AJ , Domingo C , Goodman C , Mossel E , Reusken C , Staples E , de Morais JFM , Neto Z , Paixao P , Denon YE , Glitho M , Mahinou J , Kagone T , Nakoune E , Gamougam K , Simbu EP , Ahuka S , Mombouli JV , Goma-Nkoua C , Adjogoua EV , Tayachew A , Beyene B , Sanneh B , Jarju ML , Mendy A , Amelor DK , Ofosu-Appiah L , Opare D , Antwi L , Adade R , Magassouba N , Gomes SF , Limbaso S , Lutomiah J , Gbelee B , Dogba J , Cisse I , Idde Z , Ihekweazu C , Mba N , Faye O , Sall AA , Koroma Z , Juma MA , Maror JA , Eldigail M , Elduma AH , Elageb R , Badziklou K , Komla KA , Kayiwa J , Lutwama JJ , Hampton L , Mulders MN . Pan Afr Med J 2021 38 402 Introduction: accurate and timely laboratory diagnosis of yellow fever (YF) is critical to the Eliminate Yellow Fever Epidemics (EYE) strategy. Gavi, the Vaccine Alliance recognized the need to support and build capacity in the national and regional laboratories in the Global YF Laboratory Network (GYFLN) as part of this strategy. Method(s): to better understand current capacity, gaps and needs of the GYFLN laboratories in Africa, assessments were carried out in national and regional reference laboratories in the 25 African countries at high risk for YF outbreaks that were eligible for new financial support from Gavi. Result(s): the assessments found that the GYFLN in Africa has high capacity but 21% of specimens were not tested due to lack of testing kits or reagents and approximately 50% of presumptive YF cases were not confirmed at the regional reference laboratory due to problems with shipping. Conclusion(s): the laboratory assessments helped to document the baseline capacities of these laboratories prior to Gavi funding to support strengthening YF laboratories. Copyright © Barbara Wilmot Johnson et al. |
Subgenomic flavivirus RNA (sfRNA) associated with Asian lineage Zika virus identified in three species of Ugandan bats (family Pteropodidae).
Fagre AC , Lewis J , Miller MR , Mossel EC , Lutwama JJ , Nyakarahuka L , Nakayiki T , Kityo R , Nalikka B , Towner JS , Amman BR , Sealy TK , Foy B , Schountz T , Anderson J , Kading RC . Sci Rep 2021 11 (1) 8370 Serological cross-reactivity among flaviviruses makes determining the prior arbovirus exposure of animals challenging in areas where multiple flavivirus strains are circulating. We hypothesized that prior infection with ZIKV could be confirmed through the presence of subgenomic flavivirus RNA (sfRNA) of the 3' untranslated region (UTR), which persists in tissues due to XRN-1 stalling during RNA decay. We amplified ZIKV sfRNA but not NS5 from three experimentally-infected Jamaican fruit bats, supporting the hypothesis of sfRNA tissue persistence. Applying this approach to 198 field samples from Uganda, we confirmed presence of ZIKV sfRNA, but not NS5, in four bats representing three species: Eidolon helvum (n = 2), Epomophorus labiatus (n = 1), and Rousettus aegyptiacus (n = 1). Amplified sequence was most closely related to Asian lineage ZIKV. Our results support the use of sfRNA as a means of identifying previous flavivirus infection and describe the first detection of ZIKV RNA in East African bats. |
Differential pathogenesis of Usutu virus isolates in mice
Kuchinsky SC , Hawks SA , Mossel EC , Coutermarsh-Ott S , Duggal NK . PLoS Negl Trop Dis 2020 14 (10) e0008765 Usutu virus (USUV; Flavivirus), a close phylogenetic and ecological relative of West Nile virus, is a zoonotic virus that can cause neuroinvasive disease in humans. USUV is maintained in an enzootic cycle between Culex mosquitoes and birds. Since the first isolation in 1959 in South Africa, USUV has spread throughout Africa and Europe. Reported human cases have increased over the last few decades, primarily in Europe, with symptoms ranging from mild febrile illness to severe neurological effects. In this study, we investigated whether USUV has become more pathogenic during emergence in Europe. Interferon α/β receptor knockout (Ifnar1-/-) mice were inoculated with recent USUV isolates from Africa and Europe, as well as the historic 1959 South African strain. The three tested African strains and one European strain from Spain caused 100% mortality in inoculated mice, with similar survival times and histopathology in tissues. Unexpectedly, a European strain from the Netherlands caused only 12% mortality and significantly less histopathology in tissues from mice compared to mice inoculated with the other strains. Viremia was highest in mice inoculated with the recent African strains and lowest in mice inoculated with the Netherlands strain. Based on phylogenetics, the USUV isolates from Spain and the Netherlands were derived from separate introductions into Europe, suggesting that disease outcomes may differ for USUV strains circulating in Europe. These results also suggest that while more human USUV disease cases have been reported in Europe recently, circulating African USUV strains are still a potential major health concern. |
Dengue fever and chikungunya virus infections: identification in travelers in Uganda - 2017
Kayiwa JT , Nankya AM , Ataliba I , Nassuna CA , Omara IE , Koehler JW , Dye JM , Mossel EC , Lutwama JJ . Trop Dis Travel Med Vaccines 2019 5 21 Arboviruses are (re-) emerging viruses that cause significant morbidity globally. Clinical manifestations usually consist of a non-specific febrile illness that may be accompanied by rash, arthralgia and arthritis and/or with neurological or hemorrhagic syndromes. The broad range of differential diagnoses of other infectious and non-infectious etiologies presents a challenge for clinicians. While knowledge of the geographic distribution of pathogens and the current epidemiological situation, incubation periods, exposure risk factors and vaccination history can help guide the diagnostic approach, the non-specific and variable clinical presentation can delay final diagnosis. This case report summarizes the laboratory-based findings of three travel-related cases of arbovirus infections in Uganda. These include a patient from Bangladesh with chikungunya virus infection and two cases of dengue fever from Ethiopia. Early detection of travel-imported cases by public health laboratories is important to reduce the risk of localized outbreaks of arboviruses such as dengue virus and chikungunya virus. Because of the global public health importance and the continued risk of (re-) emerging arbovirus infections, specific recommendations following diagnosis by clinicians should include obtaining travel histories from persons with arbovirus-compatible illness and include differential diagnoses when appropriate. |
Discovery and Characterization of Bukakata orbivirus ( Reoviridae:Orbivirus ), a Novel Virus from a Ugandan Bat.
Fagre AC , Lee JS , Kityo RM , Bergren NA , Mossel EC , Nakayiki T , Nalikka B , Nyakarahuka L , Gilbert AT , Peterhans JK , Crabtree MB , Towner JS , Amman BR , Sealy TK , Schuh AJ , Nichol ST , Lutwama JJ , Miller BR , Kading RC . Viruses 2019 11 (3) While serological and virological evidence documents the exposure of bats to medically-important arboviruses, their role as reservoirs or amplifying hosts is less well-characterized. We describe a novel orbivirus (Reoviridae:Orbivirus) isolated from an Egyptian fruit bat (Rousettus aegyptiacus leachii) trapped in 2013 in Uganda and named Bukakata orbivirus. This is the fifth orbivirus isolated from a bat, however genetic information had previously only been available for one bat-associated orbivirus. We performed whole-genome sequencing on Bukakata orbivirus and three other bat-associated orbiviruses (Fomede, Ife, and Japanaut) to assess their phylogenetic relationship within the genus Orbivirus and develop hypotheses regarding potential arthropod vectors. Replication kinetics were assessed for Bukakata orbivirus in three different vertebrate cell lines. Lastly, qRT-PCR and nested PCR were used to determine the prevalence of Bukakata orbivirus RNA in archived samples from three populations of Egyptian fruit bats and one population of cave-associated soft ticks in Uganda. Complete coding sequences were obtained for all ten segments of Fomede, Ife, and Japanaut orbiviruses and for nine of the ten segments for Bukakata orbivirus. Phylogenetic analysis placed Bukakata and Fomede in the tick-borne orbivirus clade and Ife and Japanaut within the Culicoides/phlebotomine sandfly orbivirus clade. Further, Bukakata and Fomede appear to be serotypes of the Chobar Gorge virus species. Bukakata orbivirus replicated to high titers (10(6)(-)10(7) PFU/mL) in Vero, BHK-21 [C-13], and R06E (Egyptian fruit bat) cells. Preliminary screening of archived bat and tick samples do not support Bukakata orbivirus presence in these collections, however additional testing is warranted given the phylogenetic associations observed. This study provided complete coding sequence for several bat-associated orbiviruses and in vitro characterization of a bat-associated orbivirus. Our results indicate that bats may play an important role in the epidemiology of viruses in the genus Orbivirus and further investigation is warranted into vector-host associations and ongoing surveillance efforts. |
A cross-cutting approach to surveillance and laboratory capacity as a platform to improve health security in Uganda
Lamorde M , Mpimbaza A , Walwema R , Kamya M , Kapisi J , Kajumbula H , Sserwanga A , Namuganga JF , Kusemererwa A , Tasimwa H , Makumbi I , Kayiwa J , Lutwama J , Behumbiize P , Tagoola A , Nanteza JF , Aniku G , Workneh M , Manabe Y , Borchert JN , Brown V , Appiah GD , Mintz ED , Homsy J , Odongo GS , Ransom RL , Freeman MM , Stoddard RA , Galloway R , Mikoleit M , Kato C , Rosenberg R , Mossel EC , Mead PS , Kugeler KJ . Health Secur 2018 16 S76-s86 Global health security depends on effective surveillance for infectious diseases. In Uganda, resources are inadequate to support collection and reporting of data necessary for an effective and responsive surveillance system. We used a cross-cutting approach to improve surveillance and laboratory capacity in Uganda by leveraging an existing pediatric inpatient malaria sentinel surveillance system to collect data on expanded causes of illness, facilitate development of real-time surveillance, and provide data on antimicrobial resistance. Capacity for blood culture collection was established, along with options for serologic testing for select zoonotic conditions, including arboviral infection, brucellosis, and leptospirosis. Detailed demographic, clinical, and laboratory data for all admissions were captured through a web-based system accessible at participating hospitals, laboratories, and the Uganda Public Health Emergency Operations Center. Between July 2016 and December 2017, the expanded system was activated in pediatric wards of 6 regional government hospitals. During that time, patient data were collected from 30,500 pediatric admissions, half of whom were febrile but lacked evidence of malaria. More than 5,000 blood cultures were performed; 4% yielded bacterial pathogens, and another 4% yielded likely contaminants. Several WHO antimicrobial resistance priority pathogens were identified, some with multidrug-resistant phenotypes, including Acinetobacter spp., Citrobacter spp., Escherichia coli, Staphylococcus aureus, and typhoidal and nontyphoidal Salmonella spp. Leptospirosis and arboviral infections (alphaviruses and flaviviruses) were documented. The lessons learned and early results from the development of this multisectoral surveillance system provide the knowledge, infrastructure, and workforce capacity to serve as a foundation to enhance the capacity to detect, report, and rapidly respond to wide-ranging public health concerns in Uganda. |
Phylogeny of Yellow Fever Virus, Uganda, 2016.
Hughes HR , Kayiwa J , Mossel EC , Lutwama J , Staples JE , Lambert AJ . Emerg Infect Dis 2018 24 (8) 1598-9 In April 2016, a yellow fever outbreak was detected in Uganda. Removal of contaminating ribosomal RNA in a clinical sample improved the sensitivity of next-generation sequencing. Molecular analyses determined the Uganda yellow fever outbreak was distinct from the concurrent yellow fever outbreak in Angola, improving our understanding of yellow fever epidemiology. |
Bunyavirus taxonomy: Limitations and misconceptions associated with the current ICTV criteria used for species demarcation
Blitvich BJ , Beaty BJ , Blair CD , Brault AC , Dobler G , Drebot MA , Haddow AD , Kramer LD , LaBeaud AD , Monath TP , Mossel EC , Plante K , Powers AM , Tesh RB , Turell MJ , Vasilakis N , Weaver SC . Am J Trop Med Hyg 2018 99 (1) 11-16 The International Committee on Taxonomy of Viruses (ICTV) has implemented numerous changes to the taxonomic classification of bunyaviruses over the years. Whereas most changes have been justified and necessary because of the need to accommodate newly discovered and unclassified viruses, other changes are a cause of concern, especially the decision to demote scores of formerly recognized species to essentially strains of newly designated species. This practice was first described in the seventh taxonomy report of the ICTV and has continued in all subsequent reports. In some instances, viruses that share less than 75% nucleotide sequence identity across their genomes, produce vastly different clinical presentations, possess distinct vector and host associations, have different biosafety recommendations, and occur in nonoverlapping geographic regions are classified as strains of the same species. Complicating the matter is the fact that virus strains have been completely eliminated from ICTV reports; thus, critically important information on virus identities and their associated biological and epidemiological features cannot be readily related to the ICTV classification. Here, we summarize the current status of bunyavirus taxonomy and discuss the adverse consequences associated with the reclassification and resulting omission of numerous viruses of public health importance from ICTV reports. As members of the American Committee on Arthropod-borne Viruses, we encourage the ICTV Bunyavirus Study Group to reconsider their stance on bunyavirus taxonomy, to revise the criteria currently used for species demarcation, and to list additional strains of public and veterinary importance. |
Confirmation of Zika virus infection through hospital-based sentinel surveillance of acute febrile illness in Uganda, 2014-2017
Kayiwa JT , Nankya AM , Ataliba IJ , Mossel EC , Crabtree MB , Lutwama JJ . J Gen Virol 2018 99 (9) 1248-1252 Zika virus (ZIKV), transmitted by Aedes species mosquitoes, was first isolated in Uganda in 1947. From February 2014 to October 2017, the Uganda Virus Research Institute, in collaboration with the US Centers for Diseases Control and Prevention, conducted arbovirus surveillance in acute febrile illness (AFI) patients at St Francis hospital in Nkonkonjeru. Three hundred and eighty-four serum samples were collected and tested for IgM antibodies to yellow fever virus (YFV), West Nile virus (WNV), dengue virus (DENV), chikungunya virus (CHIKV) and ZIKV. Of the 384 samples, 5 were positive for ZIKV IgM. Of these five, three were confirmed by plaque reduction neutralization test (PRNT) to be ZIKV infections. Of the remaining two, one was determined to be a non-specific flavivirus infection and one was confirmed to be alphavirus-positive by reverse transcriptase polymerase chain reaction (RT-PCR). This study provides the first evidence of laboratory-confirmed ZIKV infection in Uganda in five decades, and emphasizes the need to enhance sentinel surveillance. |
Development of a real-time RT-PCR assay for the global differentiation of yellow fever virus vaccine adverse events from natural infections.
Hughes HR , Russell BJ , Mossel EC , Kayiwa J , Lutwama J , Lambert AJ . J Clin Microbiol 2018 56 (6) Yellow fever (YF) is a reemerging public health threat with frequent outbreaks prompting large vaccination campaigns in endemic regions of Africa and South America. Specific detection of vaccine-related adverse events is resource-intensive, time-consuming and difficult to achieve during an outbreak. To address this, we have developed a highly transferable, rapid yellow fever virus (YFV) vaccine-specific real-time RT-PCR assay that distinguishes vaccine from wild-type lineages. The assay utilizes a specific hydrolysis probe that includes locked nucleic acids to enhance specific discrimination of the YFV 17D vaccine strain genome. Promisingly, sensitivity and specificity analyses reveal this assay to be highly specific to vaccine strain(s) when tested on clinical samples and YFV cell culture isolates of global origin. Taken together, our data suggest the utility of this assay for use in laboratories of varied capacity for the identification and differentiation of vaccine-related adverse events from wild-type infections of both African and South American origin. |
Neutralizing antibodies against flaviviruses, Babanki virus, and Rift Valley fever virus in Ugandan bats
Kading RC , Kityo RM , Mossel EC , Borland EM , Nakayiki T , Nalikka B , Nyakarahuka L , Ledermann JP , Panella NA , Gilbert AT , Crabtree MB , Peterhans JK , Towner JS , Amman BR , Sealy TK , Nichol ST , Powers AM , Lutwama JJ , Miller BR . Infect Ecol Epidemiol 2018 8 (1) 1439215 Introduction: A number of arboviruses have previously been isolated from naturally-infected East African bats, however the role of bats in arbovirus maintenance is poorly understood. The aim of this study was to investigate the exposure history of Ugandan bats to a panel of arboviruses. Materials and methods: Insectivorous and fruit bats were captured from multiple locations throughout Uganda during 2009 and 2011-2013. All serum samples were tested for neutralizing antibodies against West Nile virus (WNV), yellow fever virus (YFV), dengue 2 virus (DENV-2), Zika virus (ZIKV), Babanki virus (BBKV), and Rift Valley fever virus (RVFV) by plaque reduction neutralization test (PRNT). Sera from up to 626 bats were screened for antibodies against each virus. Results and Discussion: Key findings include the presence of neutralizing antibodies against RVFV in 5/52 (9.6%) of little epauletted fruit bats (Epomophorus labiatus) captured from Kawuku and 3/54 (5.6%) Egyptian rousette bats from Kasokero cave. Antibodies reactive to flaviviruses were widespread across bat taxa and sampling locations. Conclusion: The data presented demonstrate the widespread exposure of bats in Uganda to arboviruses, and highlight particular virus-bat associations that warrant further investigation. |
Mosquitoes of northwestern Uganda
Mutebi JP , Crabtree MB , Kading RC , Powers AM , Ledermann JP , Mossel EC , Zeidner N , Lutwama JJ , Miller BR . J Med Entomol 2018 55 (3) 587-599 Despite evidence of arbovirus activity in northwestern Uganda (West Nile Sub-region), there is very limited information on the mosquito fauna of this region. The only published study reported 52 mosquito species in northwestern Uganda but this study took place in 1950 and the information has not been updated for more than 60 yr. In January and June 2011, CO2 baited-light traps were used to collect 49,231 mosquitoes from four different locations, Paraa (9,487), Chobe (20,025), Sunguru (759), and Rhino Camp (18,960). Overall, 72 mosquito species representing 11 genera were collected. The largest number of distinct species was collected at Chobe (43 species), followed by Paraa (40), Sunguru (34), and Rhino Camp (25). Only eight of the 72 species (11.1%) were collected from all four sites: Aedes (Stegomyia) aegypti formosus (Walker), Anopheles (Cellia) funestus group, Culex (Culex) decens group, Cx. (Culex) neavei Theobald, Cx. (Culex) univittatus Theobald, Cx. (Culiciomyia) cinereus Theobald, Cx. (Oculeomyia) poicilipes (Theobald), and Mansonia (Mansonoides) uniformis (Theobald). Fifty-four species were detected in northwestern Uganda for the first time; however, these species have been detected elsewhere in Uganda and do not represent new introductions to the country. Thirty-three species collected during this study have previously been implicated in the transmission of arboviruses of public health importance. |
Ability to serologically confirm recent Zika virus infection in areas with varying past incidence of dengue virus infection in the United States and U.S. territories in 2016
Lindsey NP , Staples JE , Powell K , Rabe IB , Fischer M , Powers AM , Kosoy OI , Mossel EC , Munoz-Jordan JL , Beltran M , Hancock WT , Toews KE , Ellis EM , Ellis BR , Panella AJ , Basile AJ , Calvert AE , Laven J , Goodman CH , Gould CV , Martin SW , Thomas JD , Villanueva J , Mataia ML , Sciulli R , Gose R , Whelen AC , Hills SL . J Clin Microbiol 2017 56 (1) Background. Cross-reactivity within flavivirus antibody assays, produced by shared epitopes in the envelope proteins, can complicate serological diagnosis of Zika virus (ZIKAV) infection. We assessed the utility of the plaque reduction neutralization test (PRNT) to confirm recent ZIKAV infections and rule out misleading positive IgM results in areas with varying past dengue virus (DENV) infection incidence. Methods. We reviewed PRNT results of sera collected for diagnosis of ZIKAV infection from January 1 through August 31, 2016 with positive ZIKAV IgM results and ZIKAV and DENV PRNT performed. PRNT result interpretations included ZIKAV, unspecified flavivirus, DENV infection, or negative. For this analysis, ZIKAV IgM was considered false-positive for samples interpreted as DENV infection or negative. Results. In US states, 208 (27%) of 759 IgM positives were confirmed as ZIKAV, compared to 11 (21%) of 52 in the US Virgin Islands (USVI), 15 (15%) of 103 in American Samoa, and 13 (11%) of 123 in Puerto Rico. In American Samoa and Puerto Rico, more than 80% of IgM positives were unspecified flavivirus infections. The false-positivity rate was 27% in US states, 18% in USVI, 2% in American Samoa, and 6% in Puerto Rico. Conclusions. In US states, PRNT provided a virus-specific diagnosis or ruled out infection in the majority of IgM positive samples. Almost a third of ZIKAV IgM positive results did not confirm; therefore, providers and patients must understand that IgM results are preliminary. In territories with historically higher DENV transmission, PRNT usually could not differentiate between ZIKAV and DENV infections. |
Arboviruses isolated from mosquitoes collected in Uganda, 2008-2012
Mossel EC , Crabtree MB , Mutebi JP , Lutwama JJ , Borland EM , Powers AM , Miller BR . J Med Entomol 2017 54 (5) 1403-1409 A large number of arthropod-borne viruses are endemic to East Africa. As a part of the process of undertaking a systematic characterization of the mosquito fauna of Uganda, we examined mosquitoes collected from 2008 through early 2012 for known and novel viruses. In all, 8,288 mosquito pools containing 157,554 mosquitoes were tested. Twenty-nine isolations of 11 different viruses were made from mosquitoes of nine distinct species and from pools identified only to genus Culex. Identified viruses were from family Togaviridae, alphaviruses Sindbis and Babanki viruses; family Rhabdoviridae, hapaviruses Mossuril and Kamese viruses; family Flaviviridae, flaviviruses West Nile and Usutu viruses; family Phenuiviridae, phlebovirus Arumowot virus; and family Peribunyaviridae, orthobunyaviruses Witwatersrand, Pongola, and Germiston viruses. In addition, a novel orthobunyavirus, provisionally named Mburo virus, was isolated from Coquillettidia metallica (Theobald). This is the first report of Babanki, Arumowot, and Mossuril virus isolation from Uganda. |
Increased rates of Guillain-Barre syndrome associated with Zika virus outbreak in the Salvador metropolitan area, Brazil
Styczynski AR , Malta JMAS , Krow-Lucal ER , Percio J , Nobrega ME , Vargas A , Lanzieri TM , Leite PL , Staples JE , Fischer MX , Powers AM , Chang GJ , Burns PL , Borland EM , Ledermann JP , Mossel EC , Schonberger LB , Belay EB , Salinas JL , Badaro RD , Sejvar JJ , Coelho GE . PLoS Negl Trop Dis 2017 11 (8) e0005869 In mid-2015, Salvador, Brazil, reported an outbreak of Guillain-Barre syndrome (GBS), coinciding with the introduction and spread of Zika virus (ZIKV). We found that GBS incidence during April-July 2015 among those ≥12 years of age was 5.6 cases/100,000 population/year and increased markedly with increasing age to 14.7 among those ≥60 years of age. We conducted interviews with 41 case-patients and 85 neighborhood controls and found no differences in demographics or exposures prior to GBS-symptom onset. A higher proportion of case-patients (83%) compared to controls (21%) reported an antecedent illness (OR 18.1, CI 6.9-47.5), most commonly characterized by rash, headache, fever, and myalgias, within a median of 8 days prior to GBS onset. Our investigation confirmed an outbreak of GBS, particularly in older adults, that was strongly associated with Zika-like illness and geo-temporally associated with ZIKV transmission, suggesting that ZIKV may result in severe neurologic complications. |
Travel-associated Zika virus disease cases among U.S. residents - United States, January 2015-February 2016
Armstrong P , Hennessey M , Adams M , Cherry C , Chiu S , Harrist A , Kwit N , Lewis L , McGuire DO , Oduyebo T , Russell K , Talley P , Tanner M , Williams C , Basile J , Brandvold J , Calvert A , Cohn A , Fischer M , Goldman-Israelow B , Goodenough D , Goodman C , Hills S , Kosoy O , Lambert A , Lanciotti R , Laven J , Ledermann J , Lehman J , Lindsey N , Mead P , Mossel E , Nelson C , Nichols M , O'Leary D , Panella A , Powers A , Rabe I , Reagan-Steiner S , Staples JE , Velez J . MMWR Morb Mortal Wkly Rep 2016 65 (11) 286-9 Zika virus is an emerging mosquito-borne flavivirus. Recent outbreaks of Zika virus disease in the Pacific Islands and the Region of the Americas have identified new modes of transmission and clinical manifestations, including adverse pregnancy outcomes. However, data on the epidemiology and clinical findings of laboratory-confirmed Zika virus disease remain limited. During January 1, 2015-February 26, 2016, a total of 116 residents of 33 U.S. states and the District of Columbia had laboratory evidence of recent Zika virus infection based on testing performed at CDC. Cases include one congenital infection and 115 persons who reported recent travel to areas with active Zika virus transmission (n = 110) or sexual contact with such a traveler (n = 5). All 115 patients had clinical illness, with the most common signs and symptoms being rash (98%; n = 113), fever (82%; 94), and arthralgia (66%; 76). Health care providers should educate patients, particularly pregnant women, about the risks for, and measures to prevent, infection with Zika virus and other mosquito-borne viruses. Zika virus disease should be considered in patients with acute onset of fever, rash, arthralgia, or conjunctivitis, who traveled to areas with ongoing Zika virus transmission (http://www.cdc.gov/zika/geo/index.html) or who had unprotected sex with a person who traveled to one of those areas and developed compatible symptoms within 2 weeks of returning. |
Epidemiology of meningitis in an HIV-infected Ugandan cohort
Rajasingham R , Rhein J , Klammer K , Musubire A , Nabeta H , Akampurira A , Mossel EC , Williams DA , Boxrud DJ , Crabtree MB , Miller BR , Rolfes MA , Tengsupakul S , Andama AO , Meya DB , Boulware DR . Am J Trop Med Hyg 2014 92 (2) 274-9 There is limited understanding of the epidemiology of meningitis among human immunodeficiency virus (HIV)-infected populations in sub-Saharan Africa. We conducted a prospective cohort study of HIV-infected adults with suspected meningitis in Uganda, to comprehensively evaluate the etiologies of meningitis. Intensive cerebrospiral fluid (CSF) testing was performed to evaluate for bacterial, viral, fungal, and mycobacterial etiologies, including neurosyphilis,16s ribosomal DNA (rDNA) polymerase chain reaction (PCR) for bacteria, Plex-ID broad viral assay, quantitative-PCR for HSV-1/2, cytomegalovirus (CMV), Epstein-Barr virus (EBV), and Toxoplasma gondii; reverse transcription-PCR (RT-PCR) for Enteroviruses and arboviruses, and Xpert MTB/RIF assay. Cryptococcal meningitis accounted for 60% (188 of 314) of all causes of meningitis. Of 117 samples sent for viral PCR, 36% were EBV positive. Among cryptococcal antigen negative patients, the yield of Xpert MTB/RIF assay was 22% (8 of 36). After exclusion of cryptococcosis and bacterial meningitis, 61% (43 of 71) with an abnormal CSF profile had no definitive diagnosis. Exploration of new TB diagnostics and diagnostic algorithms for evaluation of meningitis in resource-limited settings remains critical. |
Isolation and molecular characterization of Fikirini rhabdovirus, a novel virus from a Kenyan bat.
Kading RC , Gilbert AT , Mossel EC , Crabtree MB , Kuzmin IV , Niezgoda M , Agwanda B , Markotter W , Weil MR , Montgomery JM , Rupprecht CE , Miller BR . J Gen Virol 2013 94 2393-8 Zoonotic and vector-borne pathogens have comprised a significant component of emerging human infections in recent decades, and bats are increasingly recognized as reservoirs for many of these disease agents. To identify novel pathogens associated with bats, we screened tissues of bats collected in Kenya. Virus isolates were identified by next generation sequencing of viral nucleic acid preparations from the infected cell culture supernatant and characterized. Here we report the identification of Fikirini rhabdovirus, a novel rhabdovirus isolated from a bat, Hipposideros vittatus, captured along the Kenyan coast. |
Molecular determinants of mouse neurovirulence and mosquito infection for Western equine encephalitis virus
Mossel EC , Ledermann JP , Phillips AT , Borland EM , Powers AM , Olson KE . PLoS One 2013 8 (3) e60427 Western equine encephalitis virus (WEEV) is a naturally occurring recombinant virus derived from ancestral Sindbis and Eastern equine encephalitis viruses. We previously showed that infection by WEEV isolates McMillan (McM) and IMP-181 (IMP) results in high ( approximately 90-100%) and low (0%) mortality, respectively, in outbred CD-1 mice when virus is delivered by either subcutaneous or aerosol routes. However, relatively little is known about specific virulence determinants of WEEV. We previously observed that IMP infected Culex tarsalis mosquitoes at a high rate (app. 80%) following ingestion of an infected bloodmeal but these mosquitoes were infected by McM at a much lower rate (10%). To understand the viral role in these phenotypic differences, we characterized the pathogenic phenotypes of McM/IMP chimeras. Chimeras encoding the E2 of McM on an IMP backbone (or the reciprocal) had the most significant effect on infection phenotypes in mice or mosquitoes. Furthermore, exchanging the arginine, present on IMP E2 glycoprotein at position 214, for the glutamine present at the same position on McM, ablated mouse mortality. Curiously, the reciprocal exchange did not confer mouse virulence to the IMP virus. Mosquito infectivity was also determined and significantly, one of the important loci was the same as the mouse virulence determinant identified above. Replacing either IMP E2 amino acid 181 or 214 with the corresponding McM amino acid lowered mosquito infection rates to McM-like levels. As with the mouse neurovirulence, reciprocal exchange of amino acids did not confer mosquito infectivity. The identification of WEEV E2 amino acid 214 as necessary for both IMP mosquito infectivity and McM mouse virulence indicates that they are mutually exclusive phenotypes and suggests an explanation for the lack of human or equine WEE cases even in the presence of active transmission. |
O'nyong nyong virus molecular determinants of unique vector specificity reside in non-structural protein 3
Saxton-Shaw KD , Ledermann JP , Borland EM , Stovall JL , Mossel EC , Singh AJ , Wilusz J , Powers AM . PLoS Negl Trop Dis 2013 7 (1) e1931 O'nyong nyong virus (ONNV) and Chikungunya virus (CHIKV) are two closely related alphaviruses with very different infection patterns in the mosquito, Anopheles gambiae. ONNV is the only alphavirus transmitted by anopheline mosquitoes, but specific molecular determinants of infection of this unique vector specificity remain unidentified. Fifteen distinct chimeric viruses were constructed to evaluate both structural and non-structural regions of the genome and infection patterns were determined through artificial infectious feeds in An. gambiae with each of these chimeras. Only one region, non-structural protein 3 (nsP3), was sufficient to up-regulate infection to rates similar to those seen with parental ONNV. When ONNV non-structural protein 3 (nsP3) replaced nsP3 from CHIKV virus in one of the chimeric viruses, infection rates in An. gambiae went from 0% to 63.5%. No other single gene or viral region addition was able to restore infection rates. Thus, we have shown that a non-structural genome element involved in viral replication is a major element involved in ONNV's unique vector specificity. |
Treatment with cationic liposome-DNA complexes (CLDC) protects mice from lethal Western equine encephalitis virus (WEEV) challenge
Logue CH , Phillips AT , Mossel EC , Ledermann JP , Welte T , Dow SW , Olson KE , Powers AM . Antiviral Res 2010 87 (2) 195-203 Having recently characterized a CD-1 outbred mouse model of pathogenesis for Western equine encephalitis virus, we examined the possible protective effects of cationic lipid DNA complexes (CLDC) against encephalitic arboviral infection. In this investigation, mice were pre-treated, co-treated, or post-treated with CLDC then challenged with a subcutaneous or aerosol dose of the highly virulent WEEV McMillan strain, lethal in mice 4-5 days after inoculation. Pre-treatment with CLDC provided a significant protective effect in mice, which was reflected in significantly increased survival rates. Further, in some instances a therapeutic effect of CLDC administration up to 12hours after WEEV challenge was observed. Mice treated with CLDC had significantly increased serum IFN-gamma, TNF-alpha, and IL-12, suggesting a strong Th1-biased antiviral activation of the innate immune system. In virus-infected animals, large increases in production of IFN-gamma, TNF-alpha, MCP-1, IL-12, and IL-10 in the brain were observed by 72hours after infection, consistent with neuroinvasion and viral replication in the CNS. These results indicate that strong non-specific activation of innate immunity with an immune therapeutic such as CLDC is capable of eliciting significant protective immunity against a rapidly lethal strain of WEEV and suggest a possible prophylactic option for exposed individuals. |
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