Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
Records 1-30 (of 33 Records) |
Query Trace: Ng TFF[original query] |
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Pediatric rash illness outbreak with initial positive measles immunoglobulin M antibody test results - American Samoa, March-July 2023
Stefanos R , Schatzman S , Wakeman B , Raines K , Radhakrishnan L , Filardo TD , Crooke SN , Bankamp B , Beard RS , Ng TFF , Marine RL , Tong S , Konrote A , Johansson AM , Ilimaleota AF , Nua MT , Kemble SK , Desmond E , Rota PA , Routh JA , Hancock WT , Sugerman DE , Anesi MS . MMWR Morb Mortal Wkly Rep 2024 73 (45) 1030-1035 On April 24, 2023, the American Samoa Department of Health (ASDoH) declared a public health emergency amid concern about a possible measles outbreak given low 2-dose vaccination coverage at the time. ASDoH had received two positive measles immunoglobulin (Ig) M test results after Flag Day festivities 1 week earlier from vaccinated children. ASDoH performed active case finding, took actions to mitigate transmission, and requested technical assistance from CDC. ASDoH implemented a vaccination campaign to improve suboptimal coverage. Confirmatory molecular testing of specimens from these initial persons under investigation (PUIs) was not possible, but subsequent testing of specimens from additional PUIs by Hawaii State Laboratories Division and CDC ruled out measles. In settings with low measles prevalence, measles antibody testing results have low positive predictive value and can lead to difficulties with interpreting results. Testing for additional pathogens revealed a variety of viruses known to cause common childhood viral exanthems. Both molecular and serologic testing should be performed for all suspected measles cases. To decrease the probability of false-positive IgM results, testing should be reserved for cases that meet the Council of State and Territorial Epidemiologists measles case definition, especially those in persons with no evidence of immunity and with a history of recent international travel. In addition, maintaining high measles vaccination coverage can prevent future outbreaks. |
Surveillance for acute flaccid myelitis - United States, 2018-2022
Whitehouse ER , Lopez A , English R , Getachew H , Ng TFF , Emery B , Rogers S , Kidd S . MMWR Morb Mortal Wkly Rep 2024 73 (4) 70-76 Acute flaccid myelitis (AFM) is a serious neurologic condition primarily affecting children; AFM can cause acute respiratory failure and permanent paralysis. AFM is a rare but known complication of various viral infections, particularly those of enteroviruses (EVs). Increases in AFM cases during 2014, 2016, and 2018 were associated with EV-D68 infection. This report examines trends in confirmed AFM cases during 2018-2022 and patients' clinical and laboratory characteristics. The number of AFM cases was low during 2019-2022 (28-47 cases per year); the number of cases remained low in 2022 despite evidence of increased EV-D68 circulation in the United States. Compared with cases during the most recent peak year (2018), fewer cases during 2019-2021 had upper limb involvement, prodromal respiratory or febrile illness, or cerebrospinal fluid pleocytosis, and more were associated with lower limb involvement. It is unclear why EV-D68 circulation in 2022 was not associated with an increase in AFM cases or when the next increase in AFM cases will occur. Nonetheless, clinicians should continue to suspect AFM in any child with acute flaccid limb weakness, especially those with a recent respiratory or febrile illness. |
Duration of enterovirus d68 RNA shedding in the upper respiratory tract and transmission among household contacts, Colorado, USA
Nguyen-Tran H , Thompson C , Butler M , Miller KR , Pyle L , Jung S , Rogers S , Ng TFF , Routh J , Dominguez SR , Messacar K . Emerg Infect Dis 2023 29 (11) 2315-2324 Enterovirus D68 (EV-D68) causes cyclical outbreaks of respiratory disease and acute flaccid myelitis. EV-D68 is primarily transmitted through the respiratory route, but the duration of shedding in the respiratory tract is unknown. We prospectively enrolled 9 hospitalized children with EV-D68 respiratory infection and 16 household contacts to determine EV-D68 RNA shedding dynamics in the upper respiratory tract through serial midturbinate specimen collections and daily symptom diaries. Five (31.3%) household contacts, including 3 adults, were EV-D68-positive. The median duration of EV-D68 RNA shedding in the upper respiratory tract was 12 (range 7-15) days from symptom onset. The most common symptoms were nasal congestion (100%), cough (92.9%), difficulty breathing (78.6%), and wheezing (57.1%). The median illness duration was 20 (range 11-24) days. Understanding the duration of RNA shedding can inform the expected rate and timing of EV-D68 detection in associated acute flaccid myelitis cases and help guide public health measures. |
Serological and metagenomic interrogation of cerebrospinal fluid implicates enteroviruses in pediatric acute flaccid myelitis (preprint)
Schubert RD , Hawes IA , Ramachandran PS , Ramesh A , Crawford ED , Pak JE , Wu W , Cheung CK , O'Donovan BD , Tato CM , Lyden A , Tan M , Sit R , Sowa GA , Sample HA , Zorn KC , Banerji D , Khan LM , Bove R , Hauser SL , Gelfand AA , Johnson-Kerner BL , Nash K , Krishnamoorthy KS , Chitnis T , Ding JZ , McMillan HJ , Chiu CY , Briggs B , Glaser CA , Yen C , Chu V , Wadford DA , Dominguez SR , Ng TFF , Marine RL , Lopez AS , Nix WA , Soldatos A , Gorman MP , Benson L , Messacar K , Konopka-Anstadt JL , Oberste MS , DeRisi JL , Wilson MR . bioRxiv 2019 666230 Background Since 2014, the United States has experienced a biennial spike in pediatric acute flaccid myelitis (AFM). Epidemiologic evidence suggests non-polio enteroviruses (EVs) are a potential etiology, yet EV RNA is rarely detected in cerebrospinal fluid (CSF) and only inconsistently identified from the respiratory tract, serum, or stool.Methods We interrogated CSF from children with AFM (n=42) and pediatric controls with other neurologic diseases (OND) (n=58). Samples were incubated with T7 bacteriophage expressing 481,966 sixty-two amino acid peptides with a fourteen amino acid overlap tiled across all known vertebrate virus and arbovirus genomes, an adaption of the VirScan method. Antibody-bound phage were deep sequenced to quantify enriched peptides with normalized counts expressed as reads per hundred thousand (rpK). EV antibody findings were confirmed with ELISA using whole viral protein 1 (VP1) from contemporary enterovirus (EV) A71 and D68 strains. Separately, metagenomic next-generation sequencing (mNGS) of CSF RNA, both unbiased and with targeted enrichment for EVs, was performed.Results The most significantly enriched viral family by VirScan of CSF in AFM versus OND controls was Picornaviridae (mean rpK 11,266 versus mean rpK 950, p-adjusted < 0.001, Wilcoxon signed-rank test with Bonferroni adjustment). Enriched Picornaviridae peptides belonged almost entirely to the genus Enterovirus. The mean EV VP1 ELISA signal in AFM (mean OD 0.51) was significantly higher than OND controls (mean OD 0.08, p-value < 0.001, Mann-Whitney test). mNGS did not detect additional enterovirus RNA in CSF.Conclusion Despite the rare detection of EV RNA in the CNS of patients with AFM, a pan-viral serologic assay identified high levels of CSF EV antibodies in AFM CSF compared to CSF from OND controls. These results provide further evidence for a causal role of non-polio enteroviruses in AFM. |
The effect of variant interference on de novo assembly for viral deep sequencing (preprint)
Castro CJ , Marine RL , Ramos E , Ng TFF . bioRxiv 2019 815480 Viruses have high mutation rates and generally exist as a mixture of variants in biological samples. Next-generation sequencing (NGS) approach has surpassed Sanger for generating long viral sequences, yet how variants affect NGS de novo assembly remains largely unexplored. Our results from >15,000 simulated experiments showed that presence of variants can turn an assembly of one genome into tens to thousands of contigs. This “variant interference” (VI) is highly consistent and reproducible by ten most used de novo assemblers, and occurs independent of genome length, read length, and GC content. The main driver of VI is pairwise identities between viral variants. These findings were further supported by in silico simulations, where selective removal of minor variant reads from clinical datasets allow the “rescue” of full viral genomes from fragmented contigs. These results call for careful interpretation of contigs and contig numbers from de novo assembly in viral deep sequencing. |
Type-specific EV-D68 real-time RT-PCR assay for the detection of all extant enterovirus D68 strains (preprint)
Ng TFF , Nix WA , Rogers SL , Emery B , Chern SW , Butler K , Oberste MS . bioRxiv 2022 06 Enterovirus D68 (EV-D68) has caused recurring respiratory disease outbreaks in the United States since 2014. The dominant circulating EV-D68 strain has evolved from clade B1 to the more recent B2 and B3 clades. As recurrent outbreaks and continued virus evolution are expected for EV-D68, a robust real-time PCR assay that detects known strains as well as potential emerging strains is critical for national surveillance and clinical diagnostics. We describe a type-specific EV-D68 real-time RT-PCR (rRT-PCR) assay termed CDC2022, which targets sequences encoding conserved amino acid regions of all extant EV-D68 strains. We targeted three motifs conserved among all strains in the last 60 years. The assay achieved 100% (270/270) sensitivity and 100% (344/344) specificity when tested with a collection of 613 respiratory specimens, compared to the gold-standard EV semi-nested VP1 PCR and sequencing assay (snPCR/Seq). CDC2022 gave negative results with 289/289 non-target viruses, including 104 EV A-D isolates, 165 rhinovirus (RV) isolates or clinical specimens, and 14 other common respiratory viruses. The assay can detect as few as 0.28 CCID<inf>50</inf> per reaction. An in silico "phylo-primer-mismatch" analysis was performed to visualize primer/probe mismatches and to compare CDC2022 with other EV-D68 rRT-PCR assays, including the previous CDC assay (CDC2015) developed in 2014 for clade B1 strains. It showed that CDC2022 has the fewest primer/probe mismatches among all assays analyzed and is suitable for all clades. We additionally tested 11 EV-D68-positive clinical specimens from 2022 that were confirmed by snPCR/Seq, and all were detected. CDC2022 assay could provide a critical tool for molecular surveillance of EV-D68. 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. |
Nearly Complete Genome Sequences of Type 2 Sabin-Like Polioviruses from Northern Nigerian Poliovirus Surveillance, 2016 to 2018.
Zhao K , Schmidt A , Tang K , Castro CJ , Liu H , Pang H , Chen Q , Baba M , Soji OB , Bukbuk D , Akinola M , Adeniji JA , Marine RL , Ng TFF , Jorba J , Burns CC . Microbiol Resour Announc 2022 12 (1) e0073522 We sequenced 109 type 2 Sabin-like poliovirus isolates that had been collected from acute flaccid paralysis patients or healthy children in Nigeria. Understanding the genetic makeup of these viruses may contribute to polio eradication efforts. |
Wastewater Testing and Detection of Poliovirus Type 2 Genetically Linked to Virus Isolated from a Paralytic Polio Case - New York, March 9-October 11, 2022.
Ryerson AB , Lang D , Alazawi MA , Neyra M , Hill DT , St George K , Fuschino M , Lutterloh E , Backenson B , Rulli S , Ruppert PS , Lawler J , McGraw N , Knecht A , Gelman I , Zucker JR , Omoregie E , Kidd S , Sugerman DE , Jorba J , Gerloff N , Ng TFF , Lopez A , Masters NB , Leung J , Burns CC , Routh J , Bialek SR , Oberste MS , Rosenberg ES . MMWR Morb Mortal Wkly Rep 2022 71 (44) 1418-1424 In July 2022, a case of paralytic poliomyelitis resulting from infection with vaccine-derived poliovirus (VDPV) type 2 (VDPV2)(§) was confirmed in an unvaccinated adult resident of Rockland County, New York (1). As of August 10, 2022, poliovirus type 2 (PV2)(¶) genetically linked to this VDPV2 had been detected in wastewater** in Rockland County and neighboring Orange County (1). This report describes the results of additional poliovirus testing of wastewater samples collected during March 9-October 11, 2022, and tested as of October 20, 2022, from 48 sewersheds (the community area served by a wastewater collection system) serving parts of Rockland County and 12 surrounding counties. Among 1,076 wastewater samples collected, 89 (8.3%) from 10 sewersheds tested positive for PV2. As part of a broad epidemiologic investigation, wastewater testing can provide information about where poliovirus might be circulating in a community in which a paralytic case has been identified; however, the most important public health actions for preventing paralytic poliomyelitis in the United States remain ongoing case detection through national acute flaccid myelitis (AFM) surveillance(††) and improving vaccination coverage in undervaccinated communities. Although most persons in the United States are sufficiently immunized, unvaccinated or undervaccinated persons living or working in Kings, Orange, Queens, Rockland, or Sullivan counties, New York should complete the polio vaccination series as soon as possible. |
Public health response to a case of paralytic poliomyelitis in an unvaccinated person and detection of poliovirus in wastewater - New York, June-August 2022
Link-Gelles R , Lutterloh E , Schnabel Ruppert P , Backenson PB , St George K , Rosenberg ES , Anderson BJ , Fuschino M , Popowich M , Punjabi C , Souto M , McKay K , Rulli S , Insaf T , Hill D , Kumar J , Gelman I , Jorba J , Ng TFF , Gerloff N , Masters NB , Lopez A , Dooling K , Stokley S , Kidd S , Oberste MS , Routh J . MMWR Morb Mortal Wkly Rep 2022 71 (33) 1065-1068 On July 18, 2022, the New York State Department of Health (NYSDOH) notified CDC of detection of poliovirus type 2 in stool specimens from an unvaccinated immunocompetent young adult from Rockland County, New York, who was experiencing acute flaccid weakness. The patient initially experienced fever, neck stiffness, gastrointestinal symptoms, and limb weakness. The patient was hospitalized with possible acute flaccid myelitis (AFM). Vaccine-derived poliovirus type 2 (VDPV2) was detected in stool specimens obtained on days 11 and 12 after initial symptom onset. To date, related Sabin-like type 2 polioviruses have been detected in wastewater* in the patient's county of residence and in neighboring Orange County up to 25 days before (from samples originally collected for SARS-CoV-2 wastewater monitoring) and 41 days after the patient's symptom onset. The last U.S. case of polio caused by wild poliovirus occurred in 1979, and the World Health Organization Region of the Americas was declared polio-free in 1994. This report describes the second identification of community transmission of poliovirus in the United States since 1979; the previous instance, in 2005, was a type 1 VDPV (1). The occurrence of this case, combined with the identification of poliovirus in wastewater in neighboring Orange County, underscores the importance of maintaining high vaccination coverage to prevent paralytic polio in persons of all ages. |
VPipe: an Automated Bioinformatics Platform for Assembly and Management of Viral Next-Generation Sequencing Data.
Wagner DD , Marine RL , Ramos E , Ng TFF , Castro CJ , Okomo-Adhiambo M , Harvey K , Doho G , Kelly R , Jain Y , Tatusov RL , Silva H , Rota PA , Khan AN , Oberste MS . Microbiol Spectr 2022 10 (2) e0256421 Next-generation sequencing (NGS) is a powerful tool for detecting and investigating viral pathogens; however, analysis and management of the enormous amounts of data generated from these technologies remains a challenge. Here, we present VPipe (the Viral NGS Analysis Pipeline and Data Management System), an automated bioinformatics pipeline optimized for whole-genome assembly of viral sequences and identification of diverse species. VPipe automates the data quality control, assembly, and contig identification steps typically performed when analyzing NGS data. Users access the pipeline through a secure web-based portal, which provides an easy-to-use interface with advanced search capabilities for reviewing results. In addition, VPipe provides a centralized system for storing and analyzing NGS data, eliminating common bottlenecks in bioinformatics analyses for public health laboratories with limited on-site computational infrastructure. The performance of VPipe was validated through the analysis of publicly available NGS data sets for viral pathogens, generating high-quality assemblies for 12 data sets. VPipe also generated assemblies with greater contiguity than similar pipelines for 41 human respiratory syncytial virus isolates and 23 SARS-CoV-2 specimens. IMPORTANCE Computational infrastructure and bioinformatics analysis are bottlenecks in the application of NGS to viral pathogens. As of September 2021, VPipe has been used by the U.S. Centers for Disease Control and Prevention (CDC) and 12 state public health laboratories to characterize >17,500 and 1,500 clinical specimens and isolates, respectively. VPipe automates genome assembly for a wide range of viruses, including high-consequence pathogens such as SARS-CoV-2. Such automated functionality expedites public health responses to viral outbreaks and pathogen surveillance. |
Enterovirus D68-associated acute respiratory illness New Vaccine Surveillance Network, United States, July-November 2018-2020
Shah MM , Perez A , Lively JY , Avadhanula V , Boom JA , Chappell J , Englund JA , Fregoe W , Halasa NB , Harrison CJ , Hickey RW , Klein EJ , McNeal MM , Michaels MG , Moffatt ME , Otten C , Sahni LC , Schlaudecker E , Schuster JE , Selvarangan R , Staat MA , Stewart LS , Weinberg GA , Williams JV , Ng TFF , Routh JA , Gerber SI , McMorrow ML , Rha B , Midgley CM . MMWR Morb Mortal Wkly Rep 2021 70 (47) 1623-1628 Enterovirus D68 (EV-D68) is associated with a broad spectrum of illnesses, including mild to severe acute respiratory illness (ARI) and acute flaccid myelitis (AFM). Enteroviruses, including EV-D68, are typically detected in the United States during late summer through fall, with year-to-year fluctuations. Before 2014, EV-D68 was infrequently reported to CDC (1). However, numbers of EV-D68 detection have increased in recent years, with a biennial pattern observed during 2014-2018 in the United States, after the expansion of surveillance and wider availability of molecular testing. In 2014, a national outbreak of EV-D68 was detected (2). EV-D68 was also reported in 2016 via local (3) and passive national (4) surveillance. EV-D68 detections were limited in 2017, but substantial circulation was observed in 2018 (5). To assess recent levels of circulation, EV-D68 detections in respiratory specimens collected from patients aged <18 years* with ARI evaluated in emergency departments (EDs) or admitted to one of seven U.S. medical centers(†) within the New Vaccine Surveillance Network (NVSN) were summarized. This report provides a provisional description of EV-D68 detections during July-November in 2018, 2019 and 2020, and describes the demographic and clinical characteristics of these patients. In 2018, a total of 382 EV-D68 detections in respiratory specimens obtained from patients aged <18 years with ARI were reported by NVSN; the number decreased to six detections in 2019 and 30 in 2020. Among patients aged <18 years with EV-D68 in 2020, 22 (73%) were non-Hispanic Black (Black) persons. EV-D68 detections in 2020 were lower than anticipated based on the biennial circulation pattern observed since 2014. The circulation of EV-D68 in 2020 might have been limited by widespread COVID-19 mitigation measures; how these changes in behavior might influence the timing and levels of circulation in future years is unknown. Ongoing monitoring of EV-D68 detections is warranted for preparedness for EV-D68-associated ARI and AFM. |
Next-Generation Sequencing of Human Respiratory Syncytial Virus Subgroups A and B Genomes.
Wang L , Ng TFF , Castro CJ , Marine RL , Magaña LC , Esona M , Peret TCT , Thornburg NJ . J Virol Methods 2021 299 114335 Human respiratory syncytial virus (HRSV) is a leading cause of acute respiratory illness in young children worldwide. Whole genome sequencing of HRSV offers enhanced resolution of strain variability for epidemiological surveillance and provides genomic information essential for antiviral and vaccine development. A 10-amplicon one-step RT-PCR assay and a 20-amplicon nested RT-PCR assay with enhanced sensitivity were developed to amplify whole HRSV genomes from samples containing high and low viral loads, respectively. Ninety-six HRSV-positive samples comprised of 58 clinical specimens and 38 virus isolates with C(t) values ≤ 24 were amplified successfully using the 10-amplicon one-step RT-PCR method and multiplexed in a single MiSeq run. Genome coverage exceeded 99.3% for all 96 samples. The 20-amplicon nested RT-PCR NGS method was used to generate >99.6% HRSV full-length genome for 72 clinical specimens with C(t) values ranging from 24 to 33. Phylogenetic analysis of the genome sequences obtained from the 130 clinical specimens revealed a wide diversity of HRSV genotypes demonstrating methodologic robustness. |
Whole-Genome Sequences of Enteroviruses D94 and D111 Isolated from Stool Specimens in Angola.
Chern SW , Gumede N , Castro CJ , Nix WA , Ng TFF . Microbiol Resour Announc 2021 10 (40) e0072821 We report the whole-genome sequences of new enterovirus D94 and D111 strains, isolated from cultures from stool specimens collected from acute flaccid paralysis (AFP) cases for poliovirus surveillance in Angola during 2010. |
Metagenomic sequencing generates the whole genomes of porcine rotavirus A, C, and H from the United States.
Hull JJA , Qi M , Montmayeur AM , Kumar D , Velasquez DE , Moon SS , Magaña LC , Betrapally N , Ng TFF , Jiang B , Marthaler D . PLoS One 2020 15 (12) e0244498 The genus Rotavirus comprises eight species, designated A to H, and two recently identified tentative species I in dogs and J in bats. Species Rotavirus A, B, C and H (RVA, RVB, RVC and RVH) have been detected in humans and animals. While human and animal RVA are well characterized and defined, complete porcine genome sequences in the GenBank are limited compared to human strains. Here, we used a metagenomic approach to sequence the 11 segments of RVA, RVC and RVH strains from piglets in the United States (US) and explore the evolutionary relations of these RV species. Metagenomics identified Astroviridae, Picornaviridae, Caliciviridae, Coronoviridae in samples MN9.65 and OK5.68 while Picobirnaviridae and Arteriviridae were only identified in sample OK5.68. Whole genome sequencing and phylogenetic analyses identified multiple genotypes with the RVA of strain MN9.65 and OK5.68, with the genome constellation of G5/G9-P[7]/P[13]-I5/I5- R1/R1-C1-M1-A8-N1-T7-E1/E1-H1 and G5/G9-P[6]/P[7]-I5-R1/R1-C1-M1-A8-N1-T1/T7-E1/E1-H1, respectively. The RVA strains had a complex evolutionary relationship with other mammalian strains. The RVC strain OK5.68 had a genome constellation of G9-P[6]-I1-R1-C5-M6-A5-N1-T1-E1-H1, and shared an evolutionary relationship with porcine strains from the US. The RVH strains MN9.65 and OK5.68 had the genome constellation of G5-P1-I1-R1-C1-M1-A5-N1-T1-E4-H1 and G5-P1-I1-R1-C1-M1-A5-N1-T1-E1-H1, indicating multiple RVH genome constellations are circulating in the US. These findings allow us to understand the complexity of the enteric virome, develop improved screening methods for RVC and RVH strains, facilitate expanded rotavirus surveillance in pigs, and increase our understanding of the origin and evolution of rotavirus species. |
CrAssphage as a novel tool to detect human fecal contamination on environmental surfaces and hands
Park GW , Ng TFF , Freeland AL , Marconi VC , Boom JA , Staat MA , Montmayeur AM , Browne H , Narayanan J , Payne DC , Cardemil CV , Treffiletti A , Vinjé J . Emerg Infect Dis 2020 26 (8) 1731-1739 CrAssphage is a recently discovered human gut-associated bacteriophage. To validate the potential use of crAssphage for detecting human fecal contamination on environmental surfaces and hands, we tested stool samples (n = 60), hand samples (n = 30), and environmental swab samples (n = 201) from 17 norovirus outbreaks for crAssphage by real-time PCR. In addition, we tested stool samples from healthy persons (n = 173), respiratory samples (n = 113), and animal fecal specimens (n = 68) and further sequenced positive samples. Overall, we detected crAssphage in 71.4% of outbreak stool samples, 48%-68.5% of stool samples from healthy persons, 56.2% of environmental swabs, and 60% of hand rinse samples, but not in human respiratory samples or animal fecal samples. CrAssphage sequences could be grouped into 2 major genetic clusters. Our data suggest that crAssphage could be used to detect human fecal contamination on environmental surfaces and hands. |
The effect of variant interference on de novo assembly for viral deep sequencing.
Castro CJ , Marine RL , Ramos E , Ng TFF . BMC Genomics 2020 21 (1) 421 BACKGROUND: Viruses have high mutation rates and generally exist as a mixture of variants in biological samples. Next-generation sequencing (NGS) approaches have surpassed Sanger for generating long viral sequences, yet how variants affect NGS de novo assembly remains largely unexplored. RESULTS: Our results from > 15,000 simulated experiments showed that presence of variants can turn an assembly of one genome into tens to thousands of contigs. This "variant interference" (VI) is highly consistent and reproducible by ten commonly-used de novo assemblers, and occurs over a range of genome length, read length, and GC content. The main driver of VI is pairwise identities between viral variants. These findings were further supported by in silico simulations, where selective removal of minor variant reads from clinical datasets allow the "rescue" of full viral genomes from fragmented contigs. CONCLUSIONS: These results call for careful interpretation of contigs and contig numbers from de novo assembly in viral deep sequencing. |
Analysis of the reiteration regions (R1 to R5) of varicella-zoster virus.
Jensen NJ , Depledge DP , Ng TFF , Leung J , Quinlivan M , Radford KW , Folster J , Tseng HF , LaRussa P , Jacobsen SJ , Breuer J , Schmid DS . Virology 2020 546 38-50 The varicella-zoster virus (VZV) genome, comprises both unique and repeated regions. The genome also includes reiteration regions, designated R1 to R5, which are tandemly repeating sequences termed elements. These regions represent an understudied feature of the VZV genome. The R4 region is duplicated, with one copy in the internal repeat short (IRs) which we designated R4A and a second copy in the terminal repeat short (TRs) termed R4B. We developed primers to amplify and Sanger sequence these regions, including independent amplification of both R4 regions. Reiteration regions from >80 cases of PCR-confirmed shingles were sequenced and analyzed. Complete genome sequences for the remaining portions of these viruses were determined using Illumina MiSeq. We identified 28 elements not previously reported, including at least one element for each R region. Length heterogeneity was substantial in R3, R4A and R4B. Length heterogeneity between the two copies of R4 was common. |
Antifungal triazole posaconazole targets an early stage of the parechovirus A3 life cycle.
Rhoden E , Ng TFF , Campagnoli R , Nix WA , Konopka-Anstadt J , Selvarangan R , Briesach L , Oberste MS , Weldon WC . Antimicrob Agents Chemother 2019 64 (3) Viruses in species Parechovirus A (Picornaviridae) are associated with a wide variety of clinical manifestations. Parechovirus A3 (PeV-A3) is known to cause sepsis-like illness, meningitis, and encephalitis in infants and young children. To date, no specific therapies are available to treat PeV-A3-infected children. We had previously identified two FDA-cleared antifungal drugs, itraconazole (ITC) and posaconazole (POS) with potent and specific antiviral activity against PeV-A3. Time-of-addition and synchronized infection assays revealed that POS targets an early stage of the PeV-A3 life cycle. POS exerts an antiviral effect, evidenced by a reduction in viral titer following the addition of POS to Vero-P cells before infection, coaddition of POS and PeV-A3 to Vero-P cells, incubation of POS and PeV-A3 prior to Vero-P infection, and at attachment. POS exerts less of an effect on virus entry. A PeV-A3 ELISA inhibition experiment, using an anti-PeV-A3 monoclonal antibody (mAb), suggested that POS binds directly to the PeV-A3 capsid. POS-resistant PeV-A3 strains developed by serial passage in the presence of POS, acquired substitutions in multiple regions of the genome, including the capsid. Reverse genetics confirmed substitutions in capsid proteins VP0, VP3, VP1 and nonstructural proteins 2A and 3A. Single mutants VP0_K66R, VP0_A124T, VP3_N88S, VP1_Y224C, 2A_S788L and 3A_T1I were respectively 4-, 9-, 12-, 34-, 51-, and 119-fold more resistant to POS than its susceptible prototype strain. Our studies demonstrate that POS may be a valuable tool in developing an antiviral therapy for PeV-A3. |
Haiti poliovirus environmental surveillance
Coulliette-Salmond AD , Alleman MM , Wilnique P , Rey-Benito G , Wright HB , Hecker JW , Miles S , Penaranda S , Lafontant D , Corvil S , Francois J , Rossignol E , Stanislas M , Gue E , Faye PC , Castro CJ , Schmidt A , Ng TFF , Burns CC , Vega E . Am J Trop Med Hyg 2019 101 (6) 1240-1248 Poliovirus (PV) environmental surveillance was established in Haiti in three sites each in Port-au-Prince and Gonaives, where sewage and fecal-influenced environmental open water channel samples were collected monthly from March 2016 to February 2017. The primary objective was to monitor for the emergence of vaccine-derived polioviruses (VDPVs) and the importation and transmission of wild polioviruses (WPVs). A secondary objective was to compare two environmental sample processing methods, the gold standard two-phase separation method and a filter method (bag-mediated filtration system [BMFS]). In addition, non-polio enteroviruses (NPEVs) were characterized by next-generation sequencing using Illumina MiSeq to provide insight on surrogates for PVs. No WPVs or VDPVs were detected at any site with either concentration method. Sabin (vaccine) strain PV type 2 and Sabin strain PV type 1 were found in Port-au-Prince, in March and April samples, respectively. Non-polio enteroviruses were isolated in 75-100% and 0-58% of samples, by either processing method during the reporting period in Port-au-Prince and Gonaives, respectively. Further analysis of 24 paired Port-au-Prince samples confirmed the detection of a human NPEV, and echovirus types E-3, E-6, E-7, E-11, E-19, E-20, and E-29. The comparison of the BMFS filtration method to the two-phase separation method found no significant difference in sensitivity between the two methods (mid-P-value = 0.55). The experience of one calendar year of sampling has informed the appropriateness of the initially chosen sampling sites, importance of an adequate PV surrogate, and robustness of two processing methods. |
Nearly Complete Genome Sequence of an Echovirus 30 Strain from a Cluster of Aseptic Meningitis Cases in California, September 2017.
Pan CY , Huynh T , Padilla T , Chen A , Ng TFF , Marine RL , Castro CJ , Nix WA , Wadford DA . Microbiol Resour Announc 2019 8 (44) We report the nearly complete genome sequence of a human enterovirus, a strain of echovirus 30, obtained from a cerebrospinal fluid specimen from a teenaged patient with aseptic meningitis in September 2017. |
Pan-viral serology implicates enteroviruses in acute flaccid myelitis.
Schubert RD , Hawes IA , Ramachandran PS , Ramesh A , Crawford ED , Pak JE , Wu W , Cheung CK , O'Donovan BD , Tato CM , Lyden A , Tan M , Sit R , Sowa GA , Sample HA , Zorn KC , Banerji D , Khan LM , Bove R , Hauser SL , Gelfand AA , Johnson-Kerner BL , Nash K , Krishnamoorthy KS , Chitnis T , Ding JZ , McMillan HJ , Chiu CY , Briggs B , Glaser CA , Yen C , Chu V , Wadford DA , Dominguez SR , Ng TFF , Marine RL , Lopez AS , Nix WA , Soldatos A , Gorman MP , Benson L , Messacar K , Konopka-Anstadt JL , Oberste MS , DeRisi JL , Wilson MR . Nat Med 2019 25 (11) 1748-1752 Since 2012, the United States of America has experienced a biennial spike in pediatric acute flaccid myelitis (AFM)(1-6). Epidemiologic evidence suggests non-polio enteroviruses (EVs) are a potential etiology, yet EV RNA is rarely detected in cerebrospinal fluid (CSF)(2). CSF from children with AFM (n = 42) and other pediatric neurologic disease controls (n = 58) were investigated for intrathecal antiviral antibodies, using a phage display library expressing 481,966 overlapping peptides derived from all known vertebrate and arboviruses (VirScan). Metagenomic next-generation sequencing (mNGS) of AFM CSF RNA (n = 20 cases) was also performed, both unbiased sequencing and with targeted enrichment for EVs. Using VirScan, the viral family significantly enriched by the CSF of AFM cases relative to controls was Picornaviridae, with the most enriched Picornaviridae peptides belonging to the genus Enterovirus (n = 29/42 cases versus 4/58 controls). EV VP1 ELISA confirmed this finding (n = 22/26 cases versus 7/50 controls). mNGS did not detect additional EV RNA. Despite rare detection of EV RNA, pan-viral serology frequently identified high levels of CSF EV-specific antibodies in AFM compared with controls, providing further evidence for a causal role of non-polio EVs in AFM. |
Outbreak of diarrhoea in piglets caused by novel rotavirus genotype G4P[49] in north-western district of Bangladesh, February 2014.
Sarkar S , Dioh Esona M , Gautam R , Castro CJ , Ng TFF , Haque W , Khan SU , Hossain ME , Rahman MZ , Gurley ES , Kennedy ED , Bowen MD , Parashar UD , Rahman M . Transbound Emerg Dis 2019 67 (1) 442-449 Group A rotavirus (RVA) associated diarrhea in piglets represents one of the major causes of morbidity and mortality in pig farms worldwide. A diarrhea outbreak occurred among nomadic piglets in north-western district of Bangladesh in February 2014. Outbreak investigation was performed to identify the cause, epidemiologic and clinical features of the outbreak. Rectal swabs and clinical information were collected from diarrheic piglets (n=36). Rectal swabs were tested for RVA RNA by real time reverse transcription polymerase chain reaction (rRT-PCR) using NSP3-specific primers. The G (VP7) and P (VP4) genes were typed by conventional RT-PCR and sanger sequencing and full genome sequences were determined using next generation sequencing. We found the attack rate was 61% (50/82) among piglets in the nomadic pig herd and the case fatality rate was 20% (10/50) among piglets with diarrhea. All study piglets cases had watery diarrhea, lack of appetite or reluctance to move. A novel RVA strain with a new P[49] genotype combined with G4 was identified among all piglets with diarrhea. The genome constellation of the novel RVA strains was determined to be G4-P [49]-I1-R1-C1-M1-A8-N1-T7-E1-H1. Genetic analysis shows that the novel G4P[49] strain is similar to Indian and Chinese porcine or porcine-like G4 human strains and is genetically distant from Bangladeshi human G4 strains. Identification of this novel RVA strain warrants further exploration for disease severity and zoonotic potential. This article is protected by copyright. All rights reserved. |
Antibodies to Enteroviruses in Cerebrospinal Fluid of Patients with Acute Flaccid Myelitis.
Mishra N , Ng TFF , Marine RL , Jain K , Ng J , Thakkar R , Caciula A , Price A , Garcia JA , Burns JC , Thakur KT , Hetzler KL , Routh JA , Konopka-Anstadt JL , Nix WA , Tokarz R , Briese T , Oberste MS , Lipkin WI . mBio 2019 10 (4) Acute flaccid myelitis (AFM) has caused motor paralysis in >560 children in the United States since 2014. The temporal association of enterovirus (EV) outbreaks with increases in AFM cases and reports of fever, respiratory, or gastrointestinal illness prior to AFM in >90% of cases suggest a role for infectious agents. Cerebrospinal fluid (CSF) from 14 AFM and 5 non-AFM patients with central nervous system (CNS) diseases in 2018 were investigated by viral-capture high-throughput sequencing (VirCapSeq-VERT system). These CSF and serum samples, as well as multiple controls, were tested for antibodies to human EVs using peptide microarrays. EV RNA was confirmed in CSF from only 1 adult AFM case and 1 non-AFM case. In contrast, antibodies to EV peptides were present in CSF of 11 of 14 AFM patients (79%), significantly higher than controls, including non-AFM patients (1/5 [20%]), children with Kawasaki disease (0/10), and adults with non-AFM CNS diseases (2/11 [18%]) (P = 0.023, 0.0001, and 0.0028, respectively). Six of 14 CSF samples (43%) and 8 of 11 sera (73%) from AFM patients were immunoreactive to an EV-D68-specific peptide, whereas the three control groups were not immunoreactive in either CSF (0/5, 0/10, and 0/11; P = 0.008, 0.0003, and 0.035, respectively) or sera (0/2, 0/8, and 0/5; P = 0.139, 0.002, and 0.009, respectively).IMPORTANCE The presence in cerebrospinal fluid of antibodies to EV peptides at higher levels than non-AFM controls supports the plausibility of a link between EV infection and AFM that warrants further investigation and has the potential to lead to strategies for diagnosis and prevention of disease. |
Characterization of Novel Reoviruses [Wad Medani virus (Orbivirus) and Kundal (Coltivirus)] collected from Hyalomma antolicum ticks in India during CCHF surveillance.
Yadav PD , Whitmer SLM , Sarkale P , Ng TFF , Goldsmith CS , Nyayanit DA , Esona MD , Shrivastava-Ranjan P , Lakra R , Pardeshi P , Majumdar TD , Francis A , Klena JD , Nichol ST , Stroher U , Mourya D . J Virol 2019 93 (13) In 2011, ticks were collected from livestock following an outbreak of Crimean Congo Hemorrhagic fever (CCHF) in Gujarat state, India. CCHF-negative Hyalomma anatolicum tick pools were passaged for virus isolation, and two virus isolates were obtained, designated Karyana virus (KARYV) and Kundal virus (KUNDV) respectively. Traditional RT-PCR identification of known viruses was unsuccessful, but a next-generation sequencing approach identified KARYV and KUNDV as viruses in the Reoviridae family, Orbivirus, and Coltivirus genera, respectively. Viral genomes were de novo assembled, yielding 10 complete segments of KARYV and 12 nearly complete segments of KUNDV. The VP1 gene of KARYV shared a most recent common ancestor with Wad Medani virus (WMV), strain Ar495, and based on nucleotide identity we demonstrate that it is a novel WMV strain. The VP1 segment of KUNDV shares a common ancestor with Colorado tick fever virus, Eyach virus, Tai Forest reovirus and Tarumizu tick virus from the Coltivirus genus. Based on VP1, VP6, VP7, and VP12 nucleotide and amino acid identity, KUNDV is proposed to be a new species of Coltivirus Electron microscopy supported the classification of KARYV and KUNDV as reoviruses and identified replication morphology consistent with other Orbi- and Colti- viruses. The identification of novel tick-borne viruses carried by the CCHF vector is an important step in the characterization of their potential role in human and animal pathogenesis.Importance Ticks, mosquitoes, as well Culicoides, can transmit viruses in the Reoviridae family. With the help of next-generation sequencing (NGS), previously unreported reoviruses such as equine encephalosis virus, Wad Medani virus (WMV), Kammanvanpettai virus (KVPTV) and with this report, KARYV and KUNDV have been discovered and characterized in India. The isolation of KUNDV and KARYV from Hyalomma anatolicum, which is a known vector for zoonotic pathogens, such as Crimean Congo Hemorrhagic Fever virus, Babesia, Theileria and Anaplasma species, identifies arboviruses with the potential to transmit to humans. Characterization of these KUNDV and KARYV isolated from Hyalomma ticks is critical for the development of specific serological and molecular assays that can be used to determine the association of these viruses with disease in humans and livestock. |
Strengthening laboratory surveillance of viral pathogens: Experiences and lessons learned building next-generation sequencing capacity in Ghana.
Marine RL , Ntim NAA , Castro CJ , Attiku KO , Pratt D , Duker E , Agbosu E , Ng TFF , Gatei W , Obodai E , Odoom JK , Walker CL , Rota PA , Oberste MS , Ampofo WK , Balajee SA . Int J Infect Dis 2019 81 231-234 OBJECTIVES: To demonstrate the feasibility of applying next-generation sequencing (NGS) in medium-resource reference laboratories in Africa to enhance global disease surveillance. METHODS: A training program was developed to support implementation of NGS at Noguchi Memorial Institute for Medical Research (NMIMR), University of Ghana. The program was divided into two training stages, first at the Centers for Disease Control and Prevention (CDC) in Atlanta, GA, followed by on-site training at NMIMR for a larger cohort of scientists. RESULTS: Self-assessment scores for topics covered during the NGS training program were higher post-training relative to pre-training. During the NGS Training II session at NMIMR, six enterovirus isolates from acute flaccid paralysis cases in Ghana were successfully sequenced by trainees, including two echovirus 6, two echovirus 11 and one echovirus 13. Another genome was an uncommon type (EV-B84), which has not been reported in Africa since its initial discovery from a Cote d'Ivoire specimen in 2003. CONCLUSIONS: The success at NMIMR provides an example of how to approach transferring of NGS methods to international laboratories. There is great opportunity for collaboration between institutes that have genomics expertise to ensure effectiveness and long-term success of global NGS capacity building programs. |
Characterization of the Genome Sequences of Enterovirus C109 from Two Respiratory Disease Cases in Florida, 2016.
Ng TFF , Yglesias JA , Stevenson-Yuen TA , Wolfe CM , Cone MR , Heberlein-Larson LA , Maher K , Rogers S , Chern SWW , Montmayeur A , Castro C , Nix WA . Microbiol Resour Announc 2018 7 (3) The genomic sequences of two enterovirus C109 isolates (EV-C109 USA/FL/2016-21003 and EV-C109 USA/FL/2016-21002) were obtained during two separate case investigations of respiratory disease in two children. This marks the first description of EV-C109 genomes in the United States. Copyright © 2018 Kyoui et al. |
Genetic diversity of human sapovirus across the Americas.
Diez-Valcarce M , Castro CJ , Marine RL , Halasa N , Mayta H , Saito M , Tsaknaridis L , Pan CY , Bucardo F , Becker-Dreps S , Lopez MR , Magana LC , Ng TFF , Vinje J . J Clin Virol 2018 104 65-72 BACKGROUND: Sapoviruses are responsible for sporadic and epidemic acute gastroenteritis worldwide. Sapovirus typing protocols have a success rate as low as 43% and relatively few complete sapovirus genome sequences are available to improve current typing protocols. OBJECTIVE/STUDY DESIGN: To increase the number of complete sapovirus genomes to better understand the molecular epidemiology of human sapovirus and to improve the success rate of current sapovirus typing methods, we used deep metagenomics shotgun sequencing to obtain the complete genomes of 68 sapovirus samples from four different countries across the Americas (Guatemala, Nicaragua, Peru and the US). RESULTS: VP1 genotyping showed that all sapovirus sequences could be grouped in the four established genogroups (GI (n=13), GII (n=30), GIV (n=23), GV (n=2)) that infect humans. They include the near-complete genome of a GI.6 virus and a recently reported novel GII.8 virus. Sequences of the complete RNA-dependent RNA polymerase gene could be grouped into three major genetic clusters or polymerase (P) types (GI.P, GII.P and GV.P) with all GIV viruses harboring a GII polymerase. One (GII.P-GII.4) of the new 68 sequences was a recombinant virus with the hotspot between the NS7 and VP1 regions. CONCLUSIONS: Analyses of this expanded database of near-complete sapovirus sequences showed several mismatches in the genotyping primers, suggesting opportunities to revisit and update current sapovirus typing methods. |
Taxonomy of the family Arenaviridae and the order Bunyavirales: update 2018.
Maes P , Alkhovsky SV , Bao Y , Beer M , Birkhead M , Briese T , Buchmeier MJ , Calisher CH , Charrel RN , Choi IR , Clegg CS , de la Torre JC , Delwart E , DeRisi JL , Di Bello PL , Di Serio F , Digiaro M , Dolja VV , Drosten C , Druciarek TZ , Du J , Ebihara H , Elbeaino T , Gergerich RC , Gillis AN , Gonzalez JJ , Haenni AL , Hepojoki J , Hetzel U , Ho T , Hong N , Jain RK , Jansen van Vuren P , Jin Q , Jonson MG , Junglen S , Keller KE , Kemp A , Kipar A , Kondov NO , Koonin EV , Kormelink R , Korzyukov Y , Krupovic M , Lambert AJ , Laney AG , LeBreton M , Lukashevich IS , Marklewitz M , Markotter W , Martelli GP , Martin RR , Mielke-Ehret N , Muhlbach HP , Navarro B , Ng TFF , Nunes MRT , Palacios G , Paweska JT , Peters CJ , Plyusnin A , Radoshitzky SR , Romanowski V , Salmenpera P , Salvato MS , Sanfacon H , Sasaya T , Schmaljohn C , Schneider BS , Shirako Y , Siddell S , Sironen TA , Stenglein MD , Storm N , Sudini H , Tesh RB , Tzanetakis IE , Uppala M , Vapalahti O , Vasilakis N , Walker PJ , Wang G , Wang L , Wang Y , Wei T , Wiley MR , Wolf YI , Wolfe ND , Wu Z , Xu W , Yang L , Yang Z , Yeh SD , Zhang YZ , Zheng Y , Zhou X , Zhu C , Zirkel F , Kuhn JH . Arch Virol 2018 163 (8) 2295-2310 In 2018, the family Arenaviridae was expanded by inclusion of 1 new genus and 5 novel species. At the same time, the recently established order Bunyavirales was expanded by 3 species. This article presents the updated taxonomy of the family Arenaviridae and the order Bunyavirales as now accepted by the International Committee on Taxonomy of Viruses (ICTV) and summarizes additional taxonomic proposals that may affect the order in the near future. |
Taxonomy of the order Mononegavirales: update 2018.
Amarasinghe GK , Arechiga Ceballos NG , Banyard AC , Basler CF , Bavari S , Bennett AJ , Blasdell KR , Briese T , Bukreyev A , Cai Y , Calisher CH , Campos Lawson C , Chandran K , Chapman CA , Chiu CY , Choi KS , Collins PL , Dietzgen RG , Dolja VV , Dolnik O , Domier LL , Durrwald R , Dye JM , Easton AJ , Ebihara H , Echevarria JE , Fooks AR , Formenty PBH , Fouchier RAM , Freuling CM , Ghedin E , Goldberg TL , Hewson R , Horie M , Hyndman TH , Jiang D , Kityo R , Kobinger GP , Kondo H , Koonin EV , Krupovic M , Kurath G , Lamb RA , Lee B , Leroy EM , Maes P , Maisner A , Marston DA , Mor SK , Muller T , Muhlberger E , Ramirez VMN , Netesov SV , Ng TFF , Nowotny N , Palacios G , Patterson JL , Paweska JT , Payne SL , Prieto K , Rima BK , Rota P , Rubbenstroth D , Schwemmle M , Siddell S , Smither SJ , Song Q , Song T , Stenglein MD , Stone DM , Takada A , Tesh RB , Thomazelli LM , Tomonaga K , Tordo N , Towner JS , Vasilakis N , Vazquez-Moron S , Verdugo C , Volchkov VE , Wahl V , Walker PJ , Wang D , Wang LF , Wellehan JFX , Wiley MR , Whitfield AE , Wolf YI , Ye G , Zhang YZ , Kuhn JH . Arch Virol 2018 163 (8) 2283-2294 In 2018, the order Mononegavirales was expanded by inclusion of 1 new genus and 12 novel species. This article presents the updated taxonomy of the order Mononegavirales as now accepted by the International Committee on Taxonomy of Viruses (ICTV) and summarizes additional taxonomic proposals that may affect the order in the near future. |
Whole-Genome Sequence of Human Rhinovirus C47, Isolated from an Adult Respiratory Illness Outbreak in Butte County, California, 2017.
Pan CY , Padilla T , Yagi S , Lewis LS , Ng TFF , Marine RL , Nix WA , Wadford DA . Genome Announc 2018 6 (5) Here, we report the full coding sequence of rhinovirus C47 (RV-C47), obtained from a patient respiratory sample collected during an acute respiratory illness investigation in Butte County, California, in January 2017. This is the first whole-genome sequence of RV-C47 to be reported. |
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