Your search keyword '"Pavitra Roychoudhury"' showing total 13 results

1. Viral gene drive spread during herpes simplex virus 1 infection in mice

Author

Marius Walter, Anoria K. Haick, Rebeccah Riley, Paola A. Massa, Daniel E. Strongin, Lindsay M. Klouser, Michelle A. Loprieno, Laurence Stensland, Tracy K. Santo, Pavitra Roychoudhury, Martine Aubert, Matthew P. Taylor, Keith R. Jerome, and Eric Verdin

Subjects

Science

Abstract

Abstract Gene drives are genetic modifications designed to propagate efficiently through a population. Most applications rely on homologous recombination during sexual reproduction in diploid organisms such as insects, but we recently developed a gene drive in herpesviruses that relies on co-infection of cells by wild-type and engineered viruses. Here, we report on a viral gene drive against human herpes simplex virus 1 (HSV-1) and show that it propagates efficiently in cell culture and during HSV-1 infection in mice. We describe high levels of co-infection and gene drive-mediated recombination in neuronal tissues during herpes encephalitis as the infection progresses from the site of inoculation to the peripheral and central nervous systems. In addition, we show evidence that a superinfecting gene drive virus could recombine with wild-type viruses during latent infection. These findings indicate that HSV-1 achieves high rates of co-infection and recombination during viral infection, a phenomenon that is currently underappreciated. Overall, this study shows that a viral gene drive could spread in vivo during HSV-1 infection, paving the way toward therapeutic applications.

Published

2024

2. Positive selection underlies repeated knockout of ORF8 in SARS-CoV-2 evolution

Author

Cassia Wagner, Kathryn E. Kistler, Garrett A. Perchetti, Noah Baker, Lauren A. Frisbie, Laura Marcela Torres, Frank Aragona, Cory Yun, Marlin Figgins, Alexander L. Greninger, Alex Cox, Hanna N. Oltean, Pavitra Roychoudhury, and Trevor Bedford

Subjects

Science

Abstract

Abstract Knockout of the ORF8 protein has repeatedly spread through the global viral population during SARS-CoV-2 evolution. Here we use both regional and global pathogen sequencing to explore the selection pressures underlying its loss. In Washington State, we identified transmission clusters with ORF8 knockout throughout SARS-CoV-2 evolution, not just on novel, high fitness viral backbones. Indeed, ORF8 is truncated more frequently and knockouts circulate for longer than for any other gene. Using a global phylogeny, we find evidence of positive selection to explain this phenomenon: nonsense mutations resulting in shortened protein products occur more frequently and are associated with faster clade growth rates than synonymous mutations in ORF8. Loss of ORF8 is also associated with reduced clinical severity, highlighting the diverse clinical impacts of SARS-CoV-2 evolution.

Published

2024

3. Quantifying how single dose Ad26.COV2.S vaccine efficacy depends on Spike sequence features

Author

Craig A. Magaret, Li Li, Allan C. deCamp, Morgane Rolland, Michal Juraska, Brian D. Williamson, James Ludwig, Cindy Molitor, David Benkeser, Alex Luedtke, Brian Simpkins, Fei Heng, Yanqing Sun, Lindsay N. Carpp, Hongjun Bai, Bethany L. Dearlove, Elena E. Giorgi, Mandy Jongeneelen, Boerries Brandenburg, Matthew McCallum, John E. Bowen, David Veesler, Jerald Sadoff, Glenda E. Gray, Sanne Roels, An Vandebosch, Daniel J. Stieh, Mathieu Le Gars, Johan Vingerhoets, Beatriz Grinsztejn, Paul A. Goepfert, Leonardo Paiva de Sousa, Mayara Secco Torres Silva, Martin Casapia, Marcelo H. Losso, Susan J. Little, Aditya Gaur, Linda-Gail Bekker, Nigel Garrett, Carla Truyers, Ilse Van Dromme, Edith Swann, Mary A. Marovich, Dean Follmann, Kathleen M. Neuzil, Lawrence Corey, Alexander L. Greninger, Pavitra Roychoudhury, Ollivier Hyrien, and Peter B. Gilbert

Subjects

Science

Abstract

Abstract In the ENSEMBLE randomized, placebo-controlled phase 3 trial (NCT04505722), estimated single-dose Ad26.COV2.S vaccine efficacy (VE) was 56% against moderate to severe–critical COVID-19. SARS-CoV-2 Spike sequences were determined from 484 vaccine and 1,067 placebo recipients who acquired COVID-19. In this set of prespecified analyses, we show that in Latin America, VE was significantly lower against Lambda vs. Reference and against Lambda vs. non-Lambda [family-wise error rate (FWER) p

Published

2024

4. Author Correction: Positive selection underlies repeated knockout of ORF8 in SARS-CoV-2 evolution

Author

Cassia Wagner, Kathryn E. Kistler, Garrett A. Perchetti, Noah Baker, Lauren A. Frisbie, Laura Marcela Torres, Frank Aragona, Cory Yun, Marlin Figgins, Alexander L. Greninger, Alex Cox, Hanna N. Oltean, Pavitra Roychoudhury, and Trevor Bedford

Subjects

Science

Published

2024

5. Comparing molnupiravir and nirmatrelvir/ritonavir efficacy and the effects on SARS-CoV-2 transmission in animal models

Author

Robert M. Cox, Carolin M. Lieber, Josef D. Wolf, Amirhossein Karimi, Nicole A. P. Lieberman, Zachary M. Sticher, Pavitra Roychoudhury, Meghan K. Andrews, Rebecca E. Krueger, Michael G. Natchus, George R. Painter, Alexander A. Kolykhalov, Alexander L. Greninger, and Richard K. Plemper

Subjects

Science

Abstract

Abstract Therapeutic options against SARS-CoV-2 are underutilized. Two oral drugs, molnupiravir and paxlovid (nirmatrelvir/ritonavir), have received emergency use authorization. Initial trials suggested greater efficacy of paxlovid, but recent studies indicated comparable potency in older adults. Here, we compare both drugs in two animal models; the Roborovski dwarf hamster model for severe COVID-19-like lung infection and the ferret SARS-CoV-2 transmission model. Dwarf hamsters treated with either drug survive VOC omicron infection with equivalent lung titer reduction. Viral RNA copies in the upper respiratory tract of female ferrets receiving 1.25 mg/kg molnupiravir twice-daily are not significantly reduced, but infectious titers are lowered by >2 log orders and direct-contact transmission is stopped. Female ferrets dosed with 20 or 100 mg/kg nirmatrelvir/ritonavir twice-daily show 1–2 log order reduction of viral RNA copies and infectious titers, which correlates with low nirmatrelvir exposure in nasal turbinates. Virus replication resurges towards nirmatrelvir/ritonavir treatment end and virus transmits efficiently (20 mg/kg group) or partially (100 mg/kg group). Prophylactic treatment with 20 mg/kg nirmatrelvir/ritonavir does not prevent spread from infected ferrets, but prophylactic 5 mg/kg molnupiravir or 100 mg/kg nirmatrelvir/ritonavir block productive transmission. These data confirm reports of similar efficacy in older adults and inform on possible epidemiologic benefit of antiviral treatment.

Published

2023

6. Host–pathogen dynamics in longitudinal clinical specimens from patients with COVID-19

Author

Michelle J. Lin, Victoria M. Rachleff, Hong Xie, Lasata Shrestha, Nicole A. P. Lieberman, Vikas Peddu, Amin Addetia, Amanda M. Casto, Nathan Breit, Patrick C. Mathias, Meei-Li Huang, Keith R. Jerome, Alexander L. Greninger, and Pavitra Roychoudhury

Subjects

Medicine, Science

Abstract

Abstract Rapid dissemination of SARS-CoV-2 sequencing data to public repositories has enabled widespread study of viral genomes, but studies of longitudinal specimens from infected persons are relatively limited. Analysis of longitudinal specimens enables understanding of how host immune pressures drive viral evolution in vivo. Here we performed sequencing of 49 longitudinal SARS-CoV-2-positive samples from 20 patients in Washington State collected between March and September of 2020. Viral loads declined over time with an average increase in RT-QPCR cycle threshold of 0.87 per day. We found that there was negligible change in SARS-CoV-2 consensus sequences over time, but identified a number of nonsynonymous variants at low frequencies across the genome. We observed enrichment for a relatively small number of these variants, all of which are now seen in consensus genomes across the globe at low prevalence. In one patient, we saw rapid emergence of various low-level deletion variants at the N-terminal domain of the spike glycoprotein, some of which have previously been shown to be associated with reduced neutralization potency from sera. In a subset of samples that were sequenced using metagenomic methods, differential gene expression analysis showed a downregulation of cytoskeletal genes that was consistent with a loss of ciliated epithelium during infection and recovery. We also identified co-occurrence of bacterial species in samples from multiple hospitalized individuals. These results demonstrate that the intrahost genetic composition of SARS-CoV-2 is dynamic during the course of COVID-19, and highlight the need for continued surveillance and deep sequencing of minor variants.

Published

2022

7. De novo emergence of a remdesivir resistance mutation during treatment of persistent SARS-CoV-2 infection in an immunocompromised patient: a case report

Author

Shiv Gandhi, Jonathan Klein, Alexander J. Robertson, Mario A. Peña-Hernández, Michelle J. Lin, Pavitra Roychoudhury, Peiwen Lu, John Fournier, David Ferguson, Shah A. K. Mohamed Bakhash, M. Catherine Muenker, Ariktha Srivathsan, Elsio A. Wunder, Nicholas Kerantzas, Wenshuai Wang, Brett Lindenbach, Anna Pyle, Craig B. Wilen, Onyema Ogbuagu, Alexander L. Greninger, Akiko Iwasaki, Wade L. Schulz, and Albert I. Ko

Subjects

Science

Abstract

Here, the authors identify and validate the emergence of a SARS-CoV-2 resistance mutation to Remdesivir, associated with virological recrudesce in an immunocompromised patient with persistent COVID-19.

Published

2022

8. Mutations in viral nucleocapsid protein and endoRNase are discovered to associate with COVID19 hospitalization risk

Author

Lue Ping Zhao, Pavitra Roychoudhury, Peter Gilbert, Joshua Schiffer, Terry P. Lybrand, Thomas H. Payne, April Randhawa, Sara Thiebaud, Margaret Mills, Alex Greninger, Chul-Woo Pyo, Ruihan Wang, Renyu Li, Alexander Thomas, Brandon Norris, Wyatt C. Nelson, Keith R. Jerome, and Daniel E. Geraghty

Subjects

Medicine, Science

Abstract

Abstract SARS-CoV-2 is spreading worldwide with continuously evolving variants, some of which occur in the Spike protein and appear to increase viral transmissibility. However, variants that cause severe COVID-19 or lead to other breakthroughs have not been well characterized. To discover such viral variants, we assembled a cohort of 683 COVID-19 patients; 388 inpatients (“cases”) and 295 outpatients (“controls”) from April to August 2020 using electronically captured COVID test request forms and sequenced their viral genomes. To improve the analytical power, we accessed 7137 viral sequences in Washington State to filter out viral single nucleotide variants (SNVs) that did not have significant expansions over the collection period. Applying this filter led to the identification of 53 SNVs that were statistically significant, of which 13 SNVs each had 3 or more variant copies in the discovery cohort. Correlating these selected SNVs with case/control status, eight SNVs were found to significantly associate with inpatient status (q-values

Published

2022

9. Hospitalization and mortality associated with SARS-CoV-2 viral clades in COVID-19

Author

Kenji Nakamichi, Jolie Z. Shen, Cecilia S. Lee, Aaron Lee, Emma A. Roberts, Paul D. Simonson, Pavitra Roychoudhury, Jessica Andriesen, April K. Randhawa, Patrick C. Mathias, Alex L. Greninger, Keith R. Jerome, and Russell N. Van Gelder

Subjects

Medicine, Science

Abstract

Abstract The COVID-19 epidemic of 2019–20 is due to the novel coronavirus SARS-CoV-2. Following first case description in December, 2019 this virus has infected over 10 million individuals and resulted in at least 500,000 deaths world-wide. The virus is undergoing rapid mutation, with two major clades of sequence variants emerging. This study sought to determine whether SARS-CoV-2 sequence variants are associated with differing outcomes among COVID-19 patients in a single medical system. Whole genome SARS-CoV-2 RNA sequence was obtained from isolates collected from patients registered in the University of Washington Medicine health system between March 1 and April 15, 2020. Demographic and baseline clinical characteristics of patients and their outcome data including their hospitalization and death were collected. Statistical and machine learning models were applied to determine if viral genetic variants were associated with specific outcomes of hospitalization or death. Full length SARS-CoV-2 sequence was obtained 190 subjects with clinical outcome data. 35 (18.4%) were hospitalized and 14 (7.4%) died from complications of infection. A total of 289 single nucleotide variants were identified. Clustering methods demonstrated two major viral clades, which could be readily distinguished by 12 polymorphisms in 5 genes. A trend toward higher rates of hospitalization of patients with Clade 2 infections was observed (p = 0.06, Fisher’s exact). Machine learning models utilizing patient demographics and co-morbidities achieved area-under-the-curve (AUC) values of 0.93 for predicting hospitalization. Addition of viral clade or sequence information did not significantly improve models for outcome prediction. In summary, SARS-CoV-2 shows substantial sequence diversity in a community-based sample. Two dominant clades of virus are in circulation. Among patients sufficiently ill to warrant testing for virus, no significant difference in outcomes of hospitalization or death could be discerned between clades in this sample. Major risk factors for hospitalization and death for either major clade of virus include patient age and comorbid conditions.

Published

2021

10. Gene editing and elimination of latent herpes simplex virus in vivo

Author

Martine Aubert, Daniel E. Strongin, Pavitra Roychoudhury, Michelle A. Loprieno, Anoria K. Haick, Lindsay M. Klouser, Laurence Stensland, Meei-Li Huang, Negar Makhsous, Alexander Tait, Harshana S. De Silva Feelixge, Roman Galetto, Philippe Duchateau, Alexander L. Greninger, Daniel Stone, and Keith R. Jerome

Subjects

Science

Abstract

Abstract We evaluate gene editing of HSV in a well-established mouse model, using adeno-associated virus (AAV)-delivered meganucleases, as a potentially curative approach to treat latent HSV infection. Here we show that AAV-delivered meganucleases, but not CRISPR/Cas9, mediate highly efficient gene editing of HSV, eliminating over 90% of latent virus from superior cervical ganglia. Single-cell RNA sequencing demonstrates that both HSV and individual AAV serotypes are non-randomly distributed among neuronal subsets in ganglia, implying that improved delivery to all neuronal subsets may lead to even more complete elimination of HSV. As predicted, delivery of meganucleases using a triple AAV serotype combination results in the greatest decrease in ganglionic HSV loads. The levels of HSV elimination observed in these studies, if translated to humans, would likely significantly reduce HSV reactivation, shedding, and lesions. Further optimization of meganuclease delivery and activity is likely possible, and may offer a pathway to a cure for HSV infection.

Published

2020

11. Author Correction: Mutations in viral nucleocapsid protein and endoRNase are discovered to associate with COVID19 hospitalization risk

Author

Lue Ping Zhao, Pavitra Roychoudhury, Peter Gilbert, Joshua Schiffer, Terry P. Lybrand, Thomas H. Payne, April Randhawa, Sara Thiebaud, Margaret Mills, Alex Greninger, Chul-Woo Pyo, Ruihan Wang, Renyu Li, Alexander Thomas, Brandon Norris, Wyatt C. Nelson, Keith R. Jerome, and Daniel E. Geraghty

Subjects

Medicine, Science

Published

2022

12. In vivo dynamics of AAV-mediated gene delivery to sensory neurons of the trigeminal ganglia

Author

Chung H. Dang, Martine Aubert, Harshana S. De Silva Feelixge, Kurt Diem, Michelle A. Loprieno, Pavitra Roychoudhury, Daniel Stone, and Keith R. Jerome

Subjects

Medicine, Science

Abstract

Abstract The ability to genetically manipulate trigeminal ganglion (TG) neurons would be useful in the study of the craniofacial nervous system and latent alphaherpesvirus infections. We investigated adeno-associated virus (AAV) vectors for gene delivery to the TG after intradermal whiskerpad delivery in mice. We demonstrated that AAV vectors of serotypes 1, 7, 8, and 9 trafficked from the whiskerpad into TG neurons and expressed transgenes within cell bodies and axons of sensory neurons in all three branches of the TG. Gene expression was highest with AAV1, and steadily increased over time up to day 28. Both constitutive and neuronal-specific promoters were able to drive transgene expression in TG neurons. Levels of vector genomes in the TG increased with input dose, and multiple transgenes could be co-delivered to TG neurons by separate AAV vectors. In conclusion, AAV1 vectors are suitable for gene delivery to TG sensory neurons following intradermal whiskerpad injection.

Published

2017

13. Hospitalization and mortality associated with SARS-CoV-2 viral clades in COVID-19

Author

Jolie Z. Shen, Aaron Y. Lee, Cecilia S Lee, Keith R. Jerome, Patrick C. Mathias, Paul D. Simonson, Pavitra Roychoudhury, Alexander L. Greninger, Kenji Nakamichi, Emma A. Roberts, Russell N. Van Gelder, April K. Randhawa, and Jessica Andriesen

Subjects

Adult, Male, 0301 basic medicine, medicine.medical_specialty, Adolescent, Sequence analysis, Science, medicine.disease_cause, Virus, Article, Machine Learning, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Virology, Humans, Medicine, 030212 general & internal medicine, Young adult, Clade, Gene, Aged, Coronavirus, Sequence (medicine), Aged, 80 and over, Mutation, Multidisciplinary, SARS-CoV-2, Sequence Analysis, RNA, business.industry, Age Factors, COVID-19, Middle Aged, Translational research, Prognosis, Hospitalization, 030104 developmental biology, Outcomes research, Female, Pathogens, business

Abstract

The COVID-19 epidemic of 2019–20 is due to the novel coronavirus SARS-CoV-2. Following first case description in December, 2019 this virus has infected over 10 million individuals and resulted in at least 500,000 deaths world-wide. The virus is undergoing rapid mutation, with two major clades of sequence variants emerging. This study sought to determine whether SARS-CoV-2 sequence variants are associated with differing outcomes among COVID-19 patients in a single medical system. Whole genome SARS-CoV-2 RNA sequence was obtained from isolates collected from patients registered in the University of Washington Medicine health system between March 1 and April 15, 2020. Demographic and baseline clinical characteristics of patients and their outcome data including their hospitalization and death were collected. Statistical and machine learning models were applied to determine if viral genetic variants were associated with specific outcomes of hospitalization or death. Full length SARS-CoV-2 sequence was obtained 190 subjects with clinical outcome data. 35 (18.4%) were hospitalized and 14 (7.4%) died from complications of infection. A total of 289 single nucleotide variants were identified. Clustering methods demonstrated two major viral clades, which could be readily distinguished by 12 polymorphisms in 5 genes. A trend toward higher rates of hospitalization of patients with Clade 2 infections was observed (p = 0.06, Fisher’s exact). Machine learning models utilizing patient demographics and co-morbidities achieved area-under-the-curve (AUC) values of 0.93 for predicting hospitalization. Addition of viral clade or sequence information did not significantly improve models for outcome prediction. In summary, SARS-CoV-2 shows substantial sequence diversity in a community-based sample. Two dominant clades of virus are in circulation. Among patients sufficiently ill to warrant testing for virus, no significant difference in outcomes of hospitalization or death could be discerned between clades in this sample. Major risk factors for hospitalization and death for either major clade of virus include patient age and comorbid conditions.

Published

2021