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1.
Clinical Characteristics and Outcomes of Laboratory-Confirmed SARS-CoV-2 Cases Infected with Omicron subvariants and XBB recombinant variant (preprint)
Rajesh Karyakarte; Rashmita Das; Sonali Dudhate; Jeanne Agarasen; Praveena Pillai; Priyanka Chandankhede; Rutika Labhshetwar; Yogita Gadiyal; Mansi Rajmane; Preeti Kulkarni; Safanah Nizarudeen; Suvarna Joshi; Varsha Potdar; Krishanpal Karmodiya.
medrxiv; 2023.
Preprint in English | medRxiv | ID: ppzbmed-10.1101.2023.01.05.23284211

ABSTRACT

Background: The SARS-CoV-2 has evolved to produce new variants causing successive waves of infection. Currently, six variants are being monitored by the World Health Organization that are replacing BA.5. These include BQ.1*, BA.5 with one or several of five mutations (R346X, K444X, V445X, N450D, N460X), BA.2.75*, XBB*, BA.4.6*, and BA.2.30.2*. BQ.1 and XBB variants are more immune evasive and have spread quickly throughout the world. With the concern of the potential severity of infections caused by these variants, the present study describes the clinical characteristics and outcomes of these major variants in Maharashtra. Material and Methods: A total of 1039 Reverse Transcriptase-Polymerase Chain Reaction (RT-PCR) positive SARS-CoV-2 samples, with a cycle threshold value (Ct) less than 25, were processed for SARS-CoV-2 whole genome sequencing between 10th July 2022 and 10th December 2022. All corresponding demographic and clinical data were recorded and analyzed using MicrosoftTM ExcelTM and Epi InfoTM. Results: Out of 1039 samples sequenced, 829 (79.79%) were assigned Pango lineages, of which BA.2.75 (67.31%) was the predominant Omicron variant, followed by the XBB* (17.13%), BA.2.38* (5.43%), BA.2.10* (3.62%) and BA.5* (3.50%). A total of 494 cases were contacted telephonically, of which 455 (92.11%) were symptomatic with mild symptoms. Fever (78.46%) was the most common symptom, followed by rhinorrhoea (46.37%), cough (42.20%), myalgia (19.56%) and fatigue (18.24%). Of the 494 cases, 379 (76.72%) cases recovered at home, and 115 (23.28%) were institutionally quarantined/ hospitalized. Among the home-isolated and hospitalized cases, 378 (99.74%) and 101 (87.83%) recovered with symptomatic treatment, whereas 01 (0.26%) and 14 (12.17%) succumbed to the disease, respectively. Of the 494 cases, 449 (90.89%) were vaccinated with at least one dose of the COVID-19 vaccine, 40 (8.10%) were unvaccinated, and for 05 (1.01%) cases, vaccine data was not available. Conclusion: The current study indicates that the XBB* variant is causing mild disease in India. However, as XBB* possess both immune-escape and infectivity-enhancing mutations, it has the potential to spread to other parts of the world rapidly.


Subject(s)
Fever , Myalgia , COVID-19 , Fatigue
2.
Clinical characteristics of AY.4 infections are similar to B.1.617.2 infections: a preliminary study
Rashmita, Das, Rajesh, Karyakarte, Suvarna, Joshi, Shashank, Joshi, Soumen, Khan, Pradnya, Kadam, Nikita, Shah, Rutuja, Sawant, Dhriti, Nagar, Maitreyee, Pathak, Anu, Raghunathan, Aurnab, Ghose, Krishanpal, Karmodiya, Bhoyar, R. C.; Bani, Jolly, Vigneshwar, Senthivel, Mohamed, Imran, Afra, Shamnath, Divakar, M. K.; Kavita, Pandhare, Vinod, Scaria, Sridhar, Sivasubbu.
Indian Journal of Basic and Applied Medical Research ; 11(1):110-122, 2021.
Article in English | GIM | ID: covidwho-1744334

ABSTRACT

Background: The SARS-CoV-2 Delta variant (B.1.617.2) was first detected in India in late 2020 and soon became the predominant lineage owing to its high transmissibility. Over time, the virus has acquired mutations and has evolved into many new sub-lineages. AY.4 is one such sub-lineage that grew in frequency globally. Therefore, we aimed to compare the severity of infection due to Delta sub-lineages to Delta infections in Pune, Maharashtra, India. Material and Methods: Whole-genome sequencing and analysis of 255 SARS-CoV-2 positive samples, collected between 1st August to 1st September 2021, by BJ Government Medical College, Pune, was carried out at the Indian Institute of Science Education and Research (IISER), Pune and the Council of Scientific and Industrial Research-Institute of Genomics and Integrative Biology (CSIR-IGIB), New Delhi. Individual-level data on these patients were collected from ICMR COVID-19 Data Portal. Additional information regarding the presence of any symptoms, comorbidities, hospitalization, international travel history within 14 days and vaccination status was collected by telephonic interview with each patient by the BJGMC Sequencing Team.

3.
UVA radiation could be a significant contributor to sunlight inactivation of SARS-CoV-2 (preprint)
Paolo Luzzatto-Fegiz; Fernando Temprano-Coleto; Francois J Peaudecerf; Julien R Landel; Yangying Zhu; Julie A McMurry; Anna Pascual-Reguant; Weijie Du; Ronja Mothes; Chaofan Fan; Stefan Frischbutter; Katharina Habenicht; Lisa Budzinski; Justus Ninnemann; Peter K. Jani; Gabriela Guerra; Katrin Lehmann; Mareen Matz; Lennard Ostendorf; Lukas Heiberger; Hyun-Dong Chang; Sandy Bauherr; Marcus Maurer; Guenther Schoenrich; Martin Raftery; Tilmann Kallinich; Marcus Alexander Mall; Stefan Angermair; Sascha Treskatsch; Thomas Doerner; Victor M Corman; Andreas Diefenbach; Hans-Dieter Volk; Sefer Elezkurtaj; Thomas H. Winkler; Jun Dong; Anja Erika Hauser; Helena Radbruch; Mario Witkowski; Fritz Melchers; Andreas Radbruch; Mir-Farzin Mashreghi; Nehal M Shah; Hemang M Purohit; Cherry K Shah; Monila N Patel; Saket Shah; Smit H Shah; Tehsim Memon; Vishal R Beriwala; Kusum Jashnani; Fatema Ezzy; Simran Agrawal; Rakesh Bhadade; Atish M N; Tushar Madke; Vikash Kavishwar; Ramesh Waghmare; Nitin Valvi; B Thrilok Chander; A Vinaya Sekhar; Akhilesh Kumar Maurya; K Hemanth; K Nagamani; K Sudha; T Ravi Chandra; K Tushara Rao; J Vyshnavi; Rashmi Upadhyay; Shalini Bahadur; Rambha Pathak; Shikha Seth; Rakesh Gupta; Rita Saxena; Preksha Dwivedi; Reeni Malik; Deepti Chourasia; Jaya Lalwani; UM Sharma; JL Marko; Amit Suri; Vijay Kumar; Rajnish Kaushik; Parul Kodan; Bhabani Prasad Acharya; Kuldeep Kumar Gaur; Anubhav Gupta; Prerna Sachdeva; Shruti Dogra; Aikaj Jindal; M Joseph John; Avtar Singh Dhanju; Ranjana Khetrepal; Neeraj Sharma; Neetu Kukar; Divya Kavita; Rajesh Kumar; Rajesh Mahajan; Gurpreet Singh; Jaspreet Kaur; Raminder Pal Singh; Rajni Bassi; Swapneil Parikh; Om Shrivastav; Jayanthi Shastri; Maherra Desai; Shreevatsa Udupa; Varun A Bafna; Vijay Barge; Rajendra Madane; Sheetal Yadav; Sanjeev Mishra; Archana Bajpayee; M K Garg; G K Bohra; Vijaylakshmi Nag; Puneeth Babu Anne; Mohd Nadeem; Pallavi Singh; Ram Niwas; Niranjan Shiwaji Khaire; Rattiram Sharma; Mini p Singh; Naresh Sachdeva; Suchet Sachdev; Rekha Hans; Vikas Suri; L N Yaddanapudi; PVM Lakshmi; Neha Singh; Divendu Bhushan; Neeraj Kumar; Muralidhar Tambe; Sonali Salvi; Nalini Kadgi; Shashikala Sangle; Leena Nakate; Samir Joshi; Rajesh Karyakarte; Suraj Goyanka; Nimisha Sharma; Nikhil Verma; Asim Das; Monika Bahl; Nitya Wadhwa; Shreepad Bhat; Shweta Deshmukh; Vrushali Wagh; Atul Kulkarni; Tanvi Yardi; Ram S Kalgud; Purushottam Reddy; Kavitha Yevoor; Prashanth Gajula; Vivek Maleyur; Medini S; Mohith HN; Anil Gurtoo; Ritika Sud; Sangeeta Pahuja; Anupam Prakash; Parijat Gogoi; Shailja Shukla; D Himanshu Reddy; Tulika Chandra; Saurabh Pandey; Pradeep Maurya; Ali Wahid; Vivek Kumar; Kamlesh Upadhyay; Nidhi Bhatnagar; Nilima Shah; Mamta Shah; Tarak Patel; Ram Mohan Jaiswal; Ashish Jain; Shweta Sharma; Puneet Rijhwani; Naveen Gupta; Tinkal C Patel; Mahesh G Solu; Jitendra Patel; Yash R Shah; Mayur Jarag; Varsha Godbole; Meenakshi Shah; Rikin Raj; Irfan Nagori; Pramod R Jha; Arti D Shah; Gowtham Yeeli; Archit Jain; Rooppreet Kaur Gill; KV Sreedhar Babu; B Suresh Babu; Alladi Mohan; B Vengamma; K Chandra Sekhar; Srinivasulu Damam; K Narsimhulu; C Aparna; G Baleswari; Ravindranath Reddy K; P Chandrasekhar; Sunil Jodharam Panjwani; Pankaj J Akholkar; Kairavi Parthesh Joshi; Pragnesh H Shah; Manish Barvaliya; Milind Baldi; Ashok Yadav; Manoj Gupta; Nitin Rawat; Dilip Chawda; M Natarajan; M Sintha; David Pradeep Kumar; Fathhur Rabbani; Vrushali Khirid Khadke; Dattatray Patki; Sonali Marathe; Clyde D Souza; Vipul Tadha; Satyam Arora; Devendra Kumar Gupta; Seema Dua; Nitu Chauhan; Ajeet Singh Chahar; Joy John Mammen; Snehil Kumar; Dolly Daniel; Ravindraa Singh; Venkatesh Dhat; Yogesh Agarwal; Sohini Arora; Ashish Pathak; Manju Purohit; Ashish Sharma; Jayashree Sharma; Manisha Madkaikar; Kavita Joshi; Reetika Malik Yadav; Swarupa Bhagwat; Niteen D Karnik; Yojana A Gokhale; Leena Naik; Sangita Margam; Santasabuj Das; Alka Turuk; V Saravana Kumar; K Kanagasabai; R Sabarinathan; Gururaj Deshpande; Sharda Sharma; Rashmi Gunjikar; Anita Shete; Darpan Phagiwala; Chetan Patil; Snehal Shingade; Kajal Jarande; Himanshu Kaushal; Pragya Yadav; Gajanan Sapkal; Priya Abraham.
biorxiv; 2020.
Preprint in English | bioRxiv | ID: ppzbmed-10.1101.2020.09.07.286666

ABSTRACT

Past experiments demonstrated SARS-CoV-2 inactivation by simulated sunlight; models have considered exclusively mechanisms involving UVB acting directly on RNA. However, UVA inactivation has been demonstrated for other enveloped RNA viruses, through indirect mechanisms involving the suspension medium. We propose a model combining UVB and UVA inactivation for SARS-CoV-2, which improves predictions by accounting for effects associated with the medium. UVA sensitivities deduced for SARS-CoV-2 are consistent with data for SARS-CoV-1 under UVA only. This analysis calls for experiments to separately assess effects of UVA and UVB in different media, and for including UVA in inactivation models. Key words: SARS-CoV-2, COVID-19, environmental persistence, sunlight, UVA, UVB, modeling, inactivation methods, photobiology


Subject(s)
COVID-19
4.
Analysis of SARS-CoV-2 genomes from across Africa reveals potentially clinically relevant mutations. (preprint)
Benson C. Iweriebor; Olivia S. Egbule; Samuel O Danso; Eugene Akujuru; Victor T Ibubeleye; Christabel I Oweredaba; Theodora Ogharanduku; Alexander Manu; Modeline Nicholas Longjohn; Chaofan Fan; Stefan Frischbutter; Katharina Habenicht; Lisa Budzinski; Justus Ninnemann; Peter K. Jani; Gabriela Guerra; Katrin Lehmann; Mareen Matz; Lennard Ostendorf; Lukas Heiberger; Hyun-Dong Chang; Sandy Bauherr; Marcus Maurer; Guenther Schoenrich; Martin Raftery; Tilmann Kallinich; Marcus Alexander Mall; Stefan Angermair; Sascha Treskatsch; Thomas Doerner; Victor M Corman; Andreas Diefenbach; Hans-Dieter Volk; Sefer Elezkurtaj; Thomas H. Winkler; Jun Dong; Anja Erika Hauser; Helena Radbruch; Mario Witkowski; Fritz Melchers; Andreas Radbruch; Mir-Farzin Mashreghi; Nehal M Shah; Hemang M Purohit; Cherry K Shah; Monila N Patel; Saket Shah; Smit H Shah; Tehsim Memon; Vishal R Beriwala; Kusum Jashnani; Fatema Ezzy; Simran Agrawal; Rakesh Bhadade; Atish M N; Tushar Madke; Vikash Kavishwar; Ramesh Waghmare; Nitin Valvi; B Thrilok Chander; A Vinaya Sekhar; Akhilesh Kumar Maurya; K Hemanth; K Nagamani; K Sudha; T Ravi Chandra; K Tushara Rao; J Vyshnavi; Rashmi Upadhyay; Shalini Bahadur; Rambha Pathak; Shikha Seth; Rakesh Gupta; Rita Saxena; Preksha Dwivedi; Reeni Malik; Deepti Chourasia; Jaya Lalwani; UM Sharma; JL Marko; Amit Suri; Vijay Kumar; Rajnish Kaushik; Parul Kodan; Bhabani Prasad Acharya; Kuldeep Kumar Gaur; Anubhav Gupta; Prerna Sachdeva; Shruti Dogra; Aikaj Jindal; M Joseph John; Avtar Singh Dhanju; Ranjana Khetrepal; Neeraj Sharma; Neetu Kukar; Divya Kavita; Rajesh Kumar; Rajesh Mahajan; Gurpreet Singh; Jaspreet Kaur; Raminder Pal Singh; Rajni Bassi; Swapneil Parikh; Om Shrivastav; Jayanthi Shastri; Maherra Desai; Shreevatsa Udupa; Varun A Bafna; Vijay Barge; Rajendra Madane; Sheetal Yadav; Sanjeev Mishra; Archana Bajpayee; M K Garg; G K Bohra; Vijaylakshmi Nag; Puneeth Babu Anne; Mohd Nadeem; Pallavi Singh; Ram Niwas; Niranjan Shiwaji Khaire; Rattiram Sharma; Mini p Singh; Naresh Sachdeva; Suchet Sachdev; Rekha Hans; Vikas Suri; L N Yaddanapudi; PVM Lakshmi; Neha Singh; Divendu Bhushan; Neeraj Kumar; Muralidhar Tambe; Sonali Salvi; Nalini Kadgi; Shashikala Sangle; Leena Nakate; Samir Joshi; Rajesh Karyakarte; Suraj Goyanka; Nimisha Sharma; Nikhil Verma; Asim Das; Monika Bahl; Nitya Wadhwa; Shreepad Bhat; Shweta Deshmukh; Vrushali Wagh; Atul Kulkarni; Tanvi Yardi; Ram S Kalgud; Purushottam Reddy; Kavitha Yevoor; Prashanth Gajula; Vivek Maleyur; Medini S; Mohith HN; Anil Gurtoo; Ritika Sud; Sangeeta Pahuja; Anupam Prakash; Parijat Gogoi; Shailja Shukla; D Himanshu Reddy; Tulika Chandra; Saurabh Pandey; Pradeep Maurya; Ali Wahid; Vivek Kumar; Kamlesh Upadhyay; Nidhi Bhatnagar; Nilima Shah; Mamta Shah; Tarak Patel; Ram Mohan Jaiswal; Ashish Jain; Shweta Sharma; Puneet Rijhwani; Naveen Gupta; Tinkal C Patel; Mahesh G Solu; Jitendra Patel; Yash R Shah; Mayur Jarag; Varsha Godbole; Meenakshi Shah; Rikin Raj; Irfan Nagori; Pramod R Jha; Arti D Shah; Gowtham Yeeli; Archit Jain; Rooppreet Kaur Gill; KV Sreedhar Babu; B Suresh Babu; Alladi Mohan; B Vengamma; K Chandra Sekhar; Srinivasulu Damam; K Narsimhulu; C Aparna; G Baleswari; Ravindranath Reddy K; P Chandrasekhar; Sunil Jodharam Panjwani; Pankaj J Akholkar; Kairavi Parthesh Joshi; Pragnesh H Shah; Manish Barvaliya; Milind Baldi; Ashok Yadav; Manoj Gupta; Nitin Rawat; Dilip Chawda; M Natarajan; M Sintha; David Pradeep Kumar; Fathhur Rabbani; Vrushali Khirid Khadke; Dattatray Patki; Sonali Marathe; Clyde D Souza; Vipul Tadha; Satyam Arora; Devendra Kumar Gupta; Seema Dua; Nitu Chauhan; Ajeet Singh Chahar; Joy John Mammen; Snehil Kumar; Dolly Daniel; Ravindraa Singh; Venkatesh Dhat; Yogesh Agarwal; Sohini Arora; Ashish Pathak; Manju Purohit; Ashish Sharma; Jayashree Sharma; Manisha Madkaikar; Kavita Joshi; Reetika Malik Yadav; Swarupa Bhagwat; Niteen D Karnik; Yojana A Gokhale; Leena Naik; Sangita Margam; Santasabuj Das; Alka Turuk; V Saravana Kumar; K Kanagasabai; R Sabarinathan; Gururaj Deshpande; Sharda Sharma; Rashmi Gunjikar; Anita Shete; Darpan Phagiwala; Chetan Patil; Snehal Shingade; Kajal Jarande; Himanshu Kaushal; Pragya Yadav; Gajanan Sapkal; Priya Abraham.
biorxiv; 2020.
Preprint in English | bioRxiv | ID: ppzbmed-10.1101.2020.09.08.287201

ABSTRACT

SARS-CoV-2 is a betacoronavirus, the etiologic agent of the novel Coronavirus disease 2019 (COVID-19). In December 2019, an outbreak of COVID-19 began in Wuhan province of the Hubei district in China and rapidly spread across the globe. On March 11th, 2020, the World Health Organization officially designated COVID-19 as a pandemic. Across the continents and specifically in Africa, all index cases were travel related. Thus, it is crucial to compare COVID-19 genome sequences from the African continent with sequences from COVID-19 hotspots (including China, Brazil, Italy, United State of America and the United Kingdom). To identify if there are distinguishing mutations in the African SARS-CoV-2 genomes compared to genomes from other countries, including disease hotspots, we conducted in silico analyses and comparisons. Complete African SARS-CoV-2 genomes deposited in GISAID and NCBI databases as of June 2020 were downloaded and aligned with genomes from Wuhan, China and other SARS-CoV-2 hotspots. Using phylogenetic analysis and amino acid sequence alignments of the spike and replicase (NSP12) proteins, we searched for possible targets for vaccine coverage or potential therapeutic agents. Our results showed a similarity between the African SARS-CoV-2 genomes and genomes in countries including China, Brazil, France, the United Kingdom, Italy, France and the United States of America. This study shows for the first time, an in-depth analysis of the SARS-CoV-2 landscape across Africa and will potentially provide insights into specific mutations to relevant proteins in the SARS-CoV-2 genomes in African populations.


Subject(s)
COVID-19
5.
A prefusion SARS-CoV-2 spike RNA vaccine is highly immunogenic and prevents lung infection in non-human primates (preprint)
Annette Vogel; Isis Kanevsky; Ye Che; Kena Swanson; Alexander Muik; Mathias Vormehr; Lena Kranz; Kerstin Walzer; Stephanie Hein; Alptekin Gueler; Jakob Loschko; Mohan Maddur; Kristin Tompkins; Journey Cole; Bonny Gaby Lui; Thomas Ziegenhals; Arianne Plaschke; David Eisel; Sarah Dany; Stephanie Fesser; Stephanie Erbar; ferdia Bates; Diana Schneider; Bernadette Jesionek; Bianca Saenger; Ann-Kathrin Wallisch; Yvonne Feuchter; Hanna Junginger; Stefanie Krumm; Andre Heinen; Petra Adams-Quack; Julia Schlereth; Christoph Kroener; Shannan Hall-Ursone; Kathleen Brasky; Matthew C Griffor; Seungil Han; Joshua Lees; Ellene Mashalidis; Parag Sahasrabudhe; Charles Tan; Danka Pavliakova; Guy Singh; Camila Fontes-Garfias; Michael Pride; Ingrid Scully; tara Ciolino; Jennifer Obregon; Michal Gazi; Ricardo Carrion; Kendra Alfson; Warren Kalina; Deepak Kaushal; Pei-Yong Shi; Thorsten Klamp; Corinna Rosenbaum; Andreas Kuhn; Oezlem Tuereci; Philip Dormitzer; Kathrin Jansen; Ugur Sahin; Akhilesh Kumar Maurya; K Hemanth; K Nagamani; K Sudha; T Ravi Chandra; K Tushara Rao; J Vyshnavi; Rashmi Upadhyay; Shalini Bahadur; Rambha Pathak; Shikha Seth; Rakesh Gupta; Rita Saxena; Preksha Dwivedi; Reeni Malik; Deepti Chourasia; Jaya Lalwani; UM Sharma; JL Marko; Amit Suri; Vijay Kumar; Rajnish Kaushik; Parul Kodan; Bhabani Prasad Acharya; Kuldeep Kumar Gaur; Anubhav Gupta; Prerna Sachdeva; Shruti Dogra; Aikaj Jindal; M Joseph John; Avtar Singh Dhanju; Ranjana Khetrepal; Neeraj Sharma; Neetu Kukar; Divya Kavita; Rajesh Kumar; Rajesh Mahajan; Gurpreet Singh; Jaspreet Kaur; Raminder Pal Singh; Rajni Bassi; Swapneil Parikh; Om Shrivastav; Jayanthi Shastri; Maherra Desai; Shreevatsa Udupa; Varun A Bafna; Vijay Barge; Rajendra Madane; Sheetal Yadav; Sanjeev Mishra; Archana Bajpayee; M K Garg; G K Bohra; Vijaylakshmi Nag; Puneeth Babu Anne; Mohd Nadeem; Pallavi Singh; Ram Niwas; Niranjan Shiwaji Khaire; Rattiram Sharma; Mini p Singh; Naresh Sachdeva; Suchet Sachdev; Rekha Hans; Vikas Suri; L N Yaddanapudi; PVM Lakshmi; Neha Singh; Divendu Bhushan; Neeraj Kumar; Muralidhar Tambe; Sonali Salvi; Nalini Kadgi; Shashikala Sangle; Leena Nakate; Samir Joshi; Rajesh Karyakarte; Suraj Goyanka; Nimisha Sharma; Nikhil Verma; Asim Das; Monika Bahl; Nitya Wadhwa; Shreepad Bhat; Shweta Deshmukh; Vrushali Wagh; Atul Kulkarni; Tanvi Yardi; Ram S Kalgud; Purushottam Reddy; Kavitha Yevoor; Prashanth Gajula; Vivek Maleyur; Medini S; Mohith HN; Anil Gurtoo; Ritika Sud; Sangeeta Pahuja; Anupam Prakash; Parijat Gogoi; Shailja Shukla; D Himanshu Reddy; Tulika Chandra; Saurabh Pandey; Pradeep Maurya; Ali Wahid; Vivek Kumar; Kamlesh Upadhyay; Nidhi Bhatnagar; Nilima Shah; Mamta Shah; Tarak Patel; Ram Mohan Jaiswal; Ashish Jain; Shweta Sharma; Puneet Rijhwani; Naveen Gupta; Tinkal C Patel; Mahesh G Solu; Jitendra Patel; Yash R Shah; Mayur Jarag; Varsha Godbole; Meenakshi Shah; Rikin Raj; Irfan Nagori; Pramod R Jha; Arti D Shah; Gowtham Yeeli; Archit Jain; Rooppreet Kaur Gill; KV Sreedhar Babu; B Suresh Babu; Alladi Mohan; B Vengamma; K Chandra Sekhar; Srinivasulu Damam; K Narsimhulu; C Aparna; G Baleswari; Ravindranath Reddy K; P Chandrasekhar; Sunil Jodharam Panjwani; Pankaj J Akholkar; Kairavi Parthesh Joshi; Pragnesh H Shah; Manish Barvaliya; Milind Baldi; Ashok Yadav; Manoj Gupta; Nitin Rawat; Dilip Chawda; M Natarajan; M Sintha; David Pradeep Kumar; Fathhur Rabbani; Vrushali Khirid Khadke; Dattatray Patki; Sonali Marathe; Clyde D Souza; Vipul Tadha; Satyam Arora; Devendra Kumar Gupta; Seema Dua; Nitu Chauhan; Ajeet Singh Chahar; Joy John Mammen; Snehil Kumar; Dolly Daniel; Ravindraa Singh; Venkatesh Dhat; Yogesh Agarwal; Sohini Arora; Ashish Pathak; Manju Purohit; Ashish Sharma; Jayashree Sharma; Manisha Madkaikar; Kavita Joshi; Reetika Malik Yadav; Swarupa Bhagwat; Niteen D Karnik; Yojana A Gokhale; Leena Naik; Sangita Margam; Santasabuj Das; Alka Turuk; V Saravana Kumar; K Kanagasabai; R Sabarinathan; Gururaj Deshpande; Sharda Sharma; Rashmi Gunjikar; Anita Shete; Darpan Phagiwala; Chetan Patil; Snehal Shingade; Kajal Jarande; Himanshu Kaushal; Pragya Yadav; Gajanan Sapkal; Priya Abraham.
biorxiv; 2020.
Preprint in English | bioRxiv | ID: ppzbmed-10.1101.2020.09.08.280818

ABSTRACT

To contain the coronavirus disease 2019 (COVID-19) pandemic, a safe and effective vaccine against the new severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) is urgently needed in quantities sufficient to immunise large populations. In this study, we report the design, preclinical development, immunogenicity and anti-viral protective effect in rhesus macaques of the BNT162b2 vaccine candidate. BNT162b2 contains an LNP-formulated nucleoside-modified mRNA that encodes the spike glycoprotein captured in its prefusion conformation. After expression of the BNT162b2 coding sequence in cells, approximately 20% of the spike molecules are in the one-RBD up, two-RBD down state. Immunisation of mice with a single dose of BNT162b2 induced dose level-dependent increases in pseudovirus neutralisation titers. Prime-boost vaccination of rhesus macaques elicited authentic SARS-CoV-2 neutralising geometric mean titers 10.2 to 18.0 times that of a SARS-CoV-2 convalescent human serum panel. BNT162b2 generated strong TH1 type CD4+ and IFNy+ CD8+ T-cell responses in mice and rhesus macaques. The BNT162b2 vaccine candidate fully protected the lungs of immunised rhesus macaques from infectious SARS-CoV-2 challenge. BNT162b2 is currently being evaluated in a global, pivotal Phase 2/3 trial (NCT04368728).


Subject(s)
Coronavirus Infections , COVID-19
6.
In vitro study of BromAc on SARS-CoV-2 spike and envelope proteins shows synergy and disintegration at modest concentrations (preprint)
Javed Akhter; Krishna Pillai; Samina Badar; Ahmed Mekkawy; Sarah Valle; David L Morris; Andrew McGuire; Renee Bazin; Andres Finzi; Alptekin Gueler; Jakob Loschko; Mohan Maddur; Kristin Tompkins; Journey Cole; Bonny Gaby Lui; Thomas Ziegenhals; Arianne Plaschke; David Eisel; Sarah Dany; Stephanie Fesser; Stephanie Erbar; ferdia Bates; Diana Schneider; Bernadette Jesionek; Bianca Saenger; Ann-Kathrin Wallisch; Yvonne Feuchter; Hanna Junginger; Stefanie Krumm; Andre Heinen; Petra Adams-Quack; Julia Schlereth; Christoph Kroener; Shannan Hall-Ursone; Kathleen Brasky; Matthew C Griffor; Seungil Han; Joshua Lees; Ellene Mashalidis; Parag Sahasrabudhe; Charles Tan; Danka Pavliakova; Guy Singh; Camila Fontes-Garfias; Michael Pride; Ingrid Scully; tara Ciolino; Jennifer Obregon; Michal Gazi; Ricardo Carrion; Kendra Alfson; Warren Kalina; Deepak Kaushal; Pei-Yong Shi; Thorsten Klamp; Corinna Rosenbaum; Andreas Kuhn; Oezlem Tuereci; Philip Dormitzer; Kathrin Jansen; Ugur Sahin; Akhilesh Kumar Maurya; K Hemanth; K Nagamani; K Sudha; T Ravi Chandra; K Tushara Rao; J Vyshnavi; Rashmi Upadhyay; Shalini Bahadur; Rambha Pathak; Shikha Seth; Rakesh Gupta; Rita Saxena; Preksha Dwivedi; Reeni Malik; Deepti Chourasia; Jaya Lalwani; UM Sharma; JL Marko; Amit Suri; Vijay Kumar; Rajnish Kaushik; Parul Kodan; Bhabani Prasad Acharya; Kuldeep Kumar Gaur; Anubhav Gupta; Prerna Sachdeva; Shruti Dogra; Aikaj Jindal; M Joseph John; Avtar Singh Dhanju; Ranjana Khetrepal; Neeraj Sharma; Neetu Kukar; Divya Kavita; Rajesh Kumar; Rajesh Mahajan; Gurpreet Singh; Jaspreet Kaur; Raminder Pal Singh; Rajni Bassi; Swapneil Parikh; Om Shrivastav; Jayanthi Shastri; Maherra Desai; Shreevatsa Udupa; Varun A Bafna; Vijay Barge; Rajendra Madane; Sheetal Yadav; Sanjeev Mishra; Archana Bajpayee; M K Garg; G K Bohra; Vijaylakshmi Nag; Puneeth Babu Anne; Mohd Nadeem; Pallavi Singh; Ram Niwas; Niranjan Shiwaji Khaire; Rattiram Sharma; Mini p Singh; Naresh Sachdeva; Suchet Sachdev; Rekha Hans; Vikas Suri; L N Yaddanapudi; PVM Lakshmi; Neha Singh; Divendu Bhushan; Neeraj Kumar; Muralidhar Tambe; Sonali Salvi; Nalini Kadgi; Shashikala Sangle; Leena Nakate; Samir Joshi; Rajesh Karyakarte; Suraj Goyanka; Nimisha Sharma; Nikhil Verma; Asim Das; Monika Bahl; Nitya Wadhwa; Shreepad Bhat; Shweta Deshmukh; Vrushali Wagh; Atul Kulkarni; Tanvi Yardi; Ram S Kalgud; Purushottam Reddy; Kavitha Yevoor; Prashanth Gajula; Vivek Maleyur; Medini S; Mohith HN; Anil Gurtoo; Ritika Sud; Sangeeta Pahuja; Anupam Prakash; Parijat Gogoi; Shailja Shukla; D Himanshu Reddy; Tulika Chandra; Saurabh Pandey; Pradeep Maurya; Ali Wahid; Vivek Kumar; Kamlesh Upadhyay; Nidhi Bhatnagar; Nilima Shah; Mamta Shah; Tarak Patel; Ram Mohan Jaiswal; Ashish Jain; Shweta Sharma; Puneet Rijhwani; Naveen Gupta; Tinkal C Patel; Mahesh G Solu; Jitendra Patel; Yash R Shah; Mayur Jarag; Varsha Godbole; Meenakshi Shah; Rikin Raj; Irfan Nagori; Pramod R Jha; Arti D Shah; Gowtham Yeeli; Archit Jain; Rooppreet Kaur Gill; KV Sreedhar Babu; B Suresh Babu; Alladi Mohan; B Vengamma; K Chandra Sekhar; Srinivasulu Damam; K Narsimhulu; C Aparna; G Baleswari; Ravindranath Reddy K; P Chandrasekhar; Sunil Jodharam Panjwani; Pankaj J Akholkar; Kairavi Parthesh Joshi; Pragnesh H Shah; Manish Barvaliya; Milind Baldi; Ashok Yadav; Manoj Gupta; Nitin Rawat; Dilip Chawda; M Natarajan; M Sintha; David Pradeep Kumar; Fathhur Rabbani; Vrushali Khirid Khadke; Dattatray Patki; Sonali Marathe; Clyde D Souza; Vipul Tadha; Satyam Arora; Devendra Kumar Gupta; Seema Dua; Nitu Chauhan; Ajeet Singh Chahar; Joy John Mammen; Snehil Kumar; Dolly Daniel; Ravindraa Singh; Venkatesh Dhat; Yogesh Agarwal; Sohini Arora; Ashish Pathak; Manju Purohit; Ashish Sharma; Jayashree Sharma; Manisha Madkaikar; Kavita Joshi; Reetika Malik Yadav; Swarupa Bhagwat; Niteen D Karnik; Yojana A Gokhale; Leena Naik; Sangita Margam; Santasabuj Das; Alka Turuk; V Saravana Kumar; K Kanagasabai; R Sabarinathan; Gururaj Deshpande; Sharda Sharma; Rashmi Gunjikar; Anita Shete; Darpan Phagiwala; Chetan Patil; Snehal Shingade; Kajal Jarande; Himanshu Kaushal; Pragya Yadav; Gajanan Sapkal; Priya Abraham.
biorxiv; 2020.
Preprint in English | bioRxiv | ID: ppzbmed-10.1101.2020.09.07.286906

ABSTRACT

Objectives: SARS-CoV-2 infection is the cause of a worldwide pandemic, currently with limited therapeutic options. It is characterised by being highly contagious and nasal mucosa appears to be the primary site with subsequent spread to the lungs and elsewhere. BromAc (Bromelain & Acetylcysteine) has been described to disrupt glycoproteins by the synchronous breakage of glycosidic linkages and disulphide bonds. The spike protein of SARS-CoV-2 is an attractive target as it is essential for binding to the ACE2 receptor in host cells and is formed of glycoprotein and disulphide bridges for stabilisation. Hence, we sought to determine whether BromAc has activity on the spike and envelope protein specific to SARS-CoV-2 virus. Design: Gel electrophoresis analysis was carried out on recombinant spike and envelope proteins that were treated with a range of concentrations of single agents and BromAc. For UV analysis of disulfide bonds reduction, both spike and envelope protein were treated with Acetylcysteine with the determination of loss of disulfide bonds. Results: Recombinant spike and envelope SARS-CoV-2 protein were fragmented by BromAc whilst single agents had minimal effect. Spike and envelope proteins disulphide bonds were reduced by Acetylcysteine. Conclusion: BromAc disintegrates the spike and envelope protein from SARS-CoV-2 and may render it non-infective. In vitro tests on live virus have been encouraging and clinical testing through nasal administration in patients with early SARS-CoV-2 infection is imminent.


Subject(s)
COVID-19
7.
Convalescent plasma in the management of moderate COVID-19 in India: An open-label parallel-arm phase II multicentre randomized controlled trial (PLACID Trial) (preprint)
Anup Agarwal; Aparna Mukherjee; Gunjan Kumar; Pranab Chatterjee; Tarun Bhatnagar; Pankaj Malhotra; B Latha; Sunita Bundas; Vivek Kumar; Ravi Dosi; Janak Kumar Khambholja; Rosemarie de Souza; Raja Rao Mesipogu; Saurabh Srivastava; Simmi Dube; Kiran Chaudhary; Subash S; S. Anbuselvi Mattuvar K; V Rajendran; A Sundararajaperumal; P Balamanikandan; R S Uma Maheswari; R Jayanthi; S Ragunanthanan; Sudhir Bhandari; Ajeet Singh; Ashok Pal; Anjali Handa; Govind Rankawat; Ketan Kargirwar; Joyce Regi; Darshana Rathod; Edwin Pathrose; Nirankar Bhutaka; Mayur H Patel; Rahul J Verma; Kamal Malukani; Shivani Patel; Apurv Thakur; Satish Joshi; Rashmi Kulkarni; Nilay N Suthar; Nehal M Shah; Hemang M Purohit; Cherry K Shah; Monila N Patel; Saket Shah; Smit H Shah; Tehsim Memon; Vishal R Beriwala; Kusum Jashnani; Fatema Ezzy; Simran Agrawal; Rakesh Bhadade; Atish M N; Tushar Madke; Vikash Kavishwar; Ramesh Waghmare; Nitin Valvi; B Thrilok Chander; A Vinaya Sekhar; Akhilesh Kumar Maurya; K Hemanth; K Nagamani; K Sudha; T Ravi Chandra; K Tushara Rao; J Vyshnavi; Rashmi Upadhyay; Shalini Bahadur; Rambha Pathak; Shikha Seth; Rakesh Gupta; Rita Saxena; Preksha Dwivedi; Reeni Malik; Deepti Chourasia; Jaya Lalwani; UM Sharma; JL Marko; Amit Suri; Vijay Kumar; Rajnish Kaushik; Parul Kodan; Bhabani Prasad Acharya; Kuldeep Kumar Gaur; Anubhav Gupta; Prerna Sachdeva; Shruti Dogra; Aikaj Jindal; M Joseph John; Avtar Singh Dhanju; Ranjana Khetrepal; Neeraj Sharma; Neetu Kukar; Divya Kavita; Rajesh Kumar; Rajesh Mahajan; Gurpreet Singh; Jaspreet Kaur; Raminder Pal Singh; Rajni Bassi; Swapneil Parikh; Om Shrivastav; Jayanthi Shastri; Maherra Desai; Shreevatsa Udupa; Varun A Bafna; Vijay Barge; Rajendra Madane; Sheetal Yadav; Sanjeev Mishra; Archana Bajpayee; M K Garg; G K Bohra; Vijaylakshmi Nag; Puneeth Babu Anne; Mohd Nadeem; Pallavi Singh; Ram Niwas; Niranjan Shiwaji Khaire; Rattiram Sharma; Mini p Singh; Naresh Sachdeva; Suchet Sachdev; Rekha Hans; Vikas Suri; L N Yaddanapudi; PVM Lakshmi; Neha Singh; Divendu Bhushan; Neeraj Kumar; Muralidhar Tambe; Sonali Salvi; Nalini Kadgi; Shashikala Sangle; Leena Nakate; Samir Joshi; Rajesh Karyakarte; Suraj Goyanka; Nimisha Sharma; Nikhil Verma; Asim Das; Monika Bahl; Nitya Wadhwa; Shreepad Bhat; Shweta Deshmukh; Vrushali Wagh; Atul Kulkarni; Tanvi Yardi; Ram S Kalgud; Purushottam Reddy; Kavitha Yevoor; Prashanth Gajula; Vivek Maleyur; Medini S; Mohith HN; Anil Gurtoo; Ritika Sud; Sangeeta Pahuja; Anupam Prakash; Parijat Gogoi; Shailja Shukla; D Himanshu Reddy; Tulika Chandra; Saurabh Pandey; Pradeep Maurya; Ali Wahid; Vivek Kumar; Kamlesh Upadhyay; Nidhi Bhatnagar; Nilima Shah; Mamta Shah; Tarak Patel; Ram Mohan Jaiswal; Ashish Jain; Shweta Sharma; Puneet Rijhwani; Naveen Gupta; Tinkal C Patel; Mahesh G Solu; Jitendra Patel; Yash R Shah; Mayur Jarag; Varsha Godbole; Meenakshi Shah; Rikin Raj; Irfan Nagori; Pramod R Jha; Arti D Shah; Gowtham Yeeli; Archit Jain; Rooppreet Kaur Gill; KV Sreedhar Babu; B Suresh Babu; Alladi Mohan; B Vengamma; K Chandra Sekhar; Srinivasulu Damam; K Narsimhulu; C Aparna; G Baleswari; Ravindranath Reddy K; P Chandrasekhar; Sunil Jodharam Panjwani; Pankaj J Akholkar; Kairavi Parthesh Joshi; Pragnesh H Shah; Manish Barvaliya; Milind Baldi; Ashok Yadav; Manoj Gupta; Nitin Rawat; Dilip Chawda; M Natarajan; M Sintha; David Pradeep Kumar; Fathhur Rabbani; Vrushali Khirid Khadke; Dattatray Patki; Sonali Marathe; Clyde D Souza; Vipul Tadha; Satyam Arora; Devendra Kumar Gupta; Seema Dua; Nitu Chauhan; Ajeet Singh Chahar; Joy John Mammen; Snehil Kumar; Dolly Daniel; Ravindraa Singh; Venkatesh Dhat; Yogesh Agarwal; Sohini Arora; Ashish Pathak; Manju Purohit; Ashish Sharma; Jayashree Sharma; Manisha Madkaikar; Kavita Joshi; Reetika Malik Yadav; Swarupa Bhagwat; Niteen D Karnik; Yojana A Gokhale; Leena Naik; Sangita Margam; Santasabuj Das; Alka Turuk; V Saravana Kumar; K Kanagasabai; R Sabarinathan; Gururaj Deshpande; Sharda Sharma; Rashmi Gunjikar; Anita Shete; Darpan Phagiwala; Chetan Patil; Snehal Shingade; Kajal Jarande; Himanshu Kaushal; Pragya Yadav; Gajanan Sapkal; Priya Abraham.
medrxiv; 2020.
Preprint in English | medRxiv | ID: ppzbmed-10.1101.2020.09.03.20187252

ABSTRACT

ObjectivesConvalescent plasma (CP) as a passive source of neutralizing antibodies and immunomodulators is a century-old therapeutic option used for the management of viral diseases. We investigated its effectiveness for the treatment of COVID-19. DesignOpen-label, parallel-arm, phase II, multicentre, randomized controlled trial. SettingThirty-nine public and private hospitals across India. ParticipantsHospitalized, moderately ill confirmed COVID-19 patients (PaO2/FiO2: 200-300 or respiratory rate > 24/min and SpO2 [≤] 93% on room air). InterventionParticipants were randomized to either control (best standard of care (BSC)) or intervention (CP + BSC) arm. Two doses of 200 mL CP was transfused 24 hours apart in the intervention arm. Main Outcome MeasureComposite of progression to severe disease (PaO2/FiO2< 100) or all-cause mortality at 28 days post-enrolment. ResultsBetween 22nd April to 14th July 2020, 464 participants were enrolled; 235 and 229 in intervention and control arm, respectively. Composite primary outcome was achieved in 44 (18.7%) participants in the intervention arm and 41 (17.9%) in the control arm [aOR: 1.09; 95% CI: 0.67, 1.77]. Mortality was documented in 34 (13.6%) and 31 (14.6%) participants in intervention and control arm, respectively [aOR) 1.06 95% CI: -0.61 to 1.83]. InterpretationCP was not associated with reduction in mortality or progression to severe COVID-19. This trial has high generalizability and approximates real-life setting of CP therapy in settings with limited laboratory capacity. A priori measurement of neutralizing antibody titres in donors and participants may further clarify the role of CP in management of COVID-19. Trial registrationThe trial was registered with Clinical Trial Registry of India (CTRI); CTRI/2020/04/024775.


Subject(s)
COVID-19
8.
Antibody binding to SARS-CoV-2 S glycoprotein correlates with, but does not predict neutralization (preprint)
Shilei Ding; Annemarie Laumaea; Romain Gasser; Halima Medjahed; Marie Pancera; Leonidas Stamatatos; Andrew McGuire; Renee Bazin; Andres Finzi; Alptekin Gueler; Jakob Loschko; Mohan Maddur; Kristin Tompkins; Journey Cole; Bonny Gaby Lui; Thomas Ziegenhals; Arianne Plaschke; David Eisel; Sarah Dany; Stephanie Fesser; Stephanie Erbar; ferdia Bates; Diana Schneider; Bernadette Jesionek; Bianca Saenger; Ann-Kathrin Wallisch; Yvonne Feuchter; Hanna Junginger; Stefanie Krumm; Andre Heinen; Petra Adams-Quack; Julia Schlereth; Christoph Kroener; Shannan Hall-Ursone; Kathleen Brasky; Matthew C Griffor; Seungil Han; Joshua Lees; Ellene Mashalidis; Parag Sahasrabudhe; Charles Tan; Danka Pavliakova; Guy Singh; Camila Fontes-Garfias; Michael Pride; Ingrid Scully; tara Ciolino; Jennifer Obregon; Michal Gazi; Ricardo Carrion; Kendra Alfson; Warren Kalina; Deepak Kaushal; Pei-Yong Shi; Thorsten Klamp; Corinna Rosenbaum; Andreas Kuhn; Oezlem Tuereci; Philip Dormitzer; Kathrin Jansen; Ugur Sahin; Akhilesh Kumar Maurya; K Hemanth; K Nagamani; K Sudha; T Ravi Chandra; K Tushara Rao; J Vyshnavi; Rashmi Upadhyay; Shalini Bahadur; Rambha Pathak; Shikha Seth; Rakesh Gupta; Rita Saxena; Preksha Dwivedi; Reeni Malik; Deepti Chourasia; Jaya Lalwani; UM Sharma; JL Marko; Amit Suri; Vijay Kumar; Rajnish Kaushik; Parul Kodan; Bhabani Prasad Acharya; Kuldeep Kumar Gaur; Anubhav Gupta; Prerna Sachdeva; Shruti Dogra; Aikaj Jindal; M Joseph John; Avtar Singh Dhanju; Ranjana Khetrepal; Neeraj Sharma; Neetu Kukar; Divya Kavita; Rajesh Kumar; Rajesh Mahajan; Gurpreet Singh; Jaspreet Kaur; Raminder Pal Singh; Rajni Bassi; Swapneil Parikh; Om Shrivastav; Jayanthi Shastri; Maherra Desai; Shreevatsa Udupa; Varun A Bafna; Vijay Barge; Rajendra Madane; Sheetal Yadav; Sanjeev Mishra; Archana Bajpayee; M K Garg; G K Bohra; Vijaylakshmi Nag; Puneeth Babu Anne; Mohd Nadeem; Pallavi Singh; Ram Niwas; Niranjan Shiwaji Khaire; Rattiram Sharma; Mini p Singh; Naresh Sachdeva; Suchet Sachdev; Rekha Hans; Vikas Suri; L N Yaddanapudi; PVM Lakshmi; Neha Singh; Divendu Bhushan; Neeraj Kumar; Muralidhar Tambe; Sonali Salvi; Nalini Kadgi; Shashikala Sangle; Leena Nakate; Samir Joshi; Rajesh Karyakarte; Suraj Goyanka; Nimisha Sharma; Nikhil Verma; Asim Das; Monika Bahl; Nitya Wadhwa; Shreepad Bhat; Shweta Deshmukh; Vrushali Wagh; Atul Kulkarni; Tanvi Yardi; Ram S Kalgud; Purushottam Reddy; Kavitha Yevoor; Prashanth Gajula; Vivek Maleyur; Medini S; Mohith HN; Anil Gurtoo; Ritika Sud; Sangeeta Pahuja; Anupam Prakash; Parijat Gogoi; Shailja Shukla; D Himanshu Reddy; Tulika Chandra; Saurabh Pandey; Pradeep Maurya; Ali Wahid; Vivek Kumar; Kamlesh Upadhyay; Nidhi Bhatnagar; Nilima Shah; Mamta Shah; Tarak Patel; Ram Mohan Jaiswal; Ashish Jain; Shweta Sharma; Puneet Rijhwani; Naveen Gupta; Tinkal C Patel; Mahesh G Solu; Jitendra Patel; Yash R Shah; Mayur Jarag; Varsha Godbole; Meenakshi Shah; Rikin Raj; Irfan Nagori; Pramod R Jha; Arti D Shah; Gowtham Yeeli; Archit Jain; Rooppreet Kaur Gill; KV Sreedhar Babu; B Suresh Babu; Alladi Mohan; B Vengamma; K Chandra Sekhar; Srinivasulu Damam; K Narsimhulu; C Aparna; G Baleswari; Ravindranath Reddy K; P Chandrasekhar; Sunil Jodharam Panjwani; Pankaj J Akholkar; Kairavi Parthesh Joshi; Pragnesh H Shah; Manish Barvaliya; Milind Baldi; Ashok Yadav; Manoj Gupta; Nitin Rawat; Dilip Chawda; M Natarajan; M Sintha; David Pradeep Kumar; Fathhur Rabbani; Vrushali Khirid Khadke; Dattatray Patki; Sonali Marathe; Clyde D Souza; Vipul Tadha; Satyam Arora; Devendra Kumar Gupta; Seema Dua; Nitu Chauhan; Ajeet Singh Chahar; Joy John Mammen; Snehil Kumar; Dolly Daniel; Ravindraa Singh; Venkatesh Dhat; Yogesh Agarwal; Sohini Arora; Ashish Pathak; Manju Purohit; Ashish Sharma; Jayashree Sharma; Manisha Madkaikar; Kavita Joshi; Reetika Malik Yadav; Swarupa Bhagwat; Niteen D Karnik; Yojana A Gokhale; Leena Naik; Sangita Margam; Santasabuj Das; Alka Turuk; V Saravana Kumar; K Kanagasabai; R Sabarinathan; Gururaj Deshpande; Sharda Sharma; Rashmi Gunjikar; Anita Shete; Darpan Phagiwala; Chetan Patil; Snehal Shingade; Kajal Jarande; Himanshu Kaushal; Pragya Yadav; Gajanan Sapkal; Priya Abraham.
biorxiv; 2020.
Preprint in English | bioRxiv | ID: ppzbmed-10.1101.2020.09.08.287482

ABSTRACT

Convalescent plasma from SARS-CoV-2 infected individuals and monoclonal antibodies were shown to potently neutralize viral and pseudoviral particles carrying the S glycoprotein. However, a non-negligent proportion of plasma samples from infected individuals as well as S-specific monoclonal antibodies were reported to be non-neutralizing despite efficient interaction with the S glycoprotein in different biochemical assays using soluble recombinant forms of S or when expressed at the cell surface. How neutralization relates to binding of S glycoprotein in the context of viral particles remains to be established. Here we developed a pseudovirus capture assay (VCA) to measure the capacity of plasma samples or antibodies immobilized on ELISA plates to bind to membrane-bound S glycoproteins from SARS-CoV-2 expressed at the surface of lentiviral particles. By performing VCA and neutralization assays we observed a strong correlation between these two parameters. However, while we found that plasma samples unable to capture viral particles did not neutralize, capture did not guarantee neutralization, indicating that the capacity of antibodies to bind to the S glycoprotein at the surface of viral particles is required but not sufficient to mediate neutralization. Altogether, our results highlights the importance of better understanding the inactivation of S by plasma and neutralizing antibodies.


Subject(s)
Severe Acute Respiratory Syndrome
9.
Interaction of human ACE2 to membrane-bound SARS-CoV-1 and SARS-CoV-2 S glycoproteins (preprint)
Sai Priya Anand; Yaozong Chen; Jeremie Prevost; Romain Gasser; Guillaume Beaudoin-Bussieres; Cameron F Abrams; Marzena Pazgier; Andres Finzi; Andres Finzi; Alptekin Gueler; Jakob Loschko; Mohan Maddur; Kristin Tompkins; Journey Cole; Bonny Gaby Lui; Thomas Ziegenhals; Arianne Plaschke; David Eisel; Sarah Dany; Stephanie Fesser; Stephanie Erbar; ferdia Bates; Diana Schneider; Bernadette Jesionek; Bianca Saenger; Ann-Kathrin Wallisch; Yvonne Feuchter; Hanna Junginger; Stefanie Krumm; Andre Heinen; Petra Adams-Quack; Julia Schlereth; Christoph Kroener; Shannan Hall-Ursone; Kathleen Brasky; Matthew C Griffor; Seungil Han; Joshua Lees; Ellene Mashalidis; Parag Sahasrabudhe; Charles Tan; Danka Pavliakova; Guy Singh; Camila Fontes-Garfias; Michael Pride; Ingrid Scully; tara Ciolino; Jennifer Obregon; Michal Gazi; Ricardo Carrion; Kendra Alfson; Warren Kalina; Deepak Kaushal; Pei-Yong Shi; Thorsten Klamp; Corinna Rosenbaum; Andreas Kuhn; Oezlem Tuereci; Philip Dormitzer; Kathrin Jansen; Ugur Sahin; Akhilesh Kumar Maurya; K Hemanth; K Nagamani; K Sudha; T Ravi Chandra; K Tushara Rao; J Vyshnavi; Rashmi Upadhyay; Shalini Bahadur; Rambha Pathak; Shikha Seth; Rakesh Gupta; Rita Saxena; Preksha Dwivedi; Reeni Malik; Deepti Chourasia; Jaya Lalwani; UM Sharma; JL Marko; Amit Suri; Vijay Kumar; Rajnish Kaushik; Parul Kodan; Bhabani Prasad Acharya; Kuldeep Kumar Gaur; Anubhav Gupta; Prerna Sachdeva; Shruti Dogra; Aikaj Jindal; M Joseph John; Avtar Singh Dhanju; Ranjana Khetrepal; Neeraj Sharma; Neetu Kukar; Divya Kavita; Rajesh Kumar; Rajesh Mahajan; Gurpreet Singh; Jaspreet Kaur; Raminder Pal Singh; Rajni Bassi; Swapneil Parikh; Om Shrivastav; Jayanthi Shastri; Maherra Desai; Shreevatsa Udupa; Varun A Bafna; Vijay Barge; Rajendra Madane; Sheetal Yadav; Sanjeev Mishra; Archana Bajpayee; M K Garg; G K Bohra; Vijaylakshmi Nag; Puneeth Babu Anne; Mohd Nadeem; Pallavi Singh; Ram Niwas; Niranjan Shiwaji Khaire; Rattiram Sharma; Mini p Singh; Naresh Sachdeva; Suchet Sachdev; Rekha Hans; Vikas Suri; L N Yaddanapudi; PVM Lakshmi; Neha Singh; Divendu Bhushan; Neeraj Kumar; Muralidhar Tambe; Sonali Salvi; Nalini Kadgi; Shashikala Sangle; Leena Nakate; Samir Joshi; Rajesh Karyakarte; Suraj Goyanka; Nimisha Sharma; Nikhil Verma; Asim Das; Monika Bahl; Nitya Wadhwa; Shreepad Bhat; Shweta Deshmukh; Vrushali Wagh; Atul Kulkarni; Tanvi Yardi; Ram S Kalgud; Purushottam Reddy; Kavitha Yevoor; Prashanth Gajula; Vivek Maleyur; Medini S; Mohith HN; Anil Gurtoo; Ritika Sud; Sangeeta Pahuja; Anupam Prakash; Parijat Gogoi; Shailja Shukla; D Himanshu Reddy; Tulika Chandra; Saurabh Pandey; Pradeep Maurya; Ali Wahid; Vivek Kumar; Kamlesh Upadhyay; Nidhi Bhatnagar; Nilima Shah; Mamta Shah; Tarak Patel; Ram Mohan Jaiswal; Ashish Jain; Shweta Sharma; Puneet Rijhwani; Naveen Gupta; Tinkal C Patel; Mahesh G Solu; Jitendra Patel; Yash R Shah; Mayur Jarag; Varsha Godbole; Meenakshi Shah; Rikin Raj; Irfan Nagori; Pramod R Jha; Arti D Shah; Gowtham Yeeli; Archit Jain; Rooppreet Kaur Gill; KV Sreedhar Babu; B Suresh Babu; Alladi Mohan; B Vengamma; K Chandra Sekhar; Srinivasulu Damam; K Narsimhulu; C Aparna; G Baleswari; Ravindranath Reddy K; P Chandrasekhar; Sunil Jodharam Panjwani; Pankaj J Akholkar; Kairavi Parthesh Joshi; Pragnesh H Shah; Manish Barvaliya; Milind Baldi; Ashok Yadav; Manoj Gupta; Nitin Rawat; Dilip Chawda; M Natarajan; M Sintha; David Pradeep Kumar; Fathhur Rabbani; Vrushali Khirid Khadke; Dattatray Patki; Sonali Marathe; Clyde D Souza; Vipul Tadha; Satyam Arora; Devendra Kumar Gupta; Seema Dua; Nitu Chauhan; Ajeet Singh Chahar; Joy John Mammen; Snehil Kumar; Dolly Daniel; Ravindraa Singh; Venkatesh Dhat; Yogesh Agarwal; Sohini Arora; Ashish Pathak; Manju Purohit; Ashish Sharma; Jayashree Sharma; Manisha Madkaikar; Kavita Joshi; Reetika Malik Yadav; Swarupa Bhagwat; Niteen D Karnik; Yojana A Gokhale; Leena Naik; Sangita Margam; Santasabuj Das; Alka Turuk; V Saravana Kumar; K Kanagasabai; R Sabarinathan; Gururaj Deshpande; Sharda Sharma; Rashmi Gunjikar; Anita Shete; Darpan Phagiwala; Chetan Patil; Snehal Shingade; Kajal Jarande; Himanshu Kaushal; Pragya Yadav; Gajanan Sapkal; Priya Abraham.
biorxiv; 2020.
Preprint in English | bioRxiv | ID: ppzbmed-10.1101.2020.09.07.286567

ABSTRACT

A novel severe acute respiratory (SARS)-like coronavirus (SARS-CoV-2) is responsible for the current global coronavirus disease 2019 (COVID-19) pandemic, infecting millions of people and causing hundreds of thousands of deaths. The viral entry of SARS-CoV-2 depends on an interaction between the receptor binding domain of its trimeric Spike glycoprotein and the human angiotensin converting enzyme 2 (ACE2) receptor. A better understanding of the Spike/ACE2 interaction is still required to design anti-SARS-CoV-2 therapeutics. Here, we investigated the degree of cooperativity of ACE2 within both the SARS-CoV-2 and the closely related SARS-CoV-1 membrane-bound S glycoproteins. We show that there exist differential inter-protomer conformational transitions between both Spike trimers. Interestingly, the SARS-CoV-2 spike exhibits a positive cooperativity for monomeric soluble ACE2 binding when compared to the SARS-CoV-1 spike, which might have more structural restrains. Our findings can be of importance in the development of therapeutics that block the Spike/ACE2 interaction.


Subject(s)
COVID-19
10.
Phylogenomic analysis of SARS-CoV-2 genomes from western India reveals unique linked mutations (preprint)
Dhiraj Paul; Kunal Jani; Janesh Kumar; Radha Chauhan; Vasudevan Seshadri; Girdhari Lal; Rajesh Karyakarte; Suvarna Joshi; Murlidhar Tambe; Sourav Sen; Santosh Karade; Kavita Bala Anand; Shelinder Pal Singh Shergill; Rajiv Mohan Gupta; Manoj Kumar Bhat; Arvind Sahu; Yogesh S Shouche.
biorxiv; 2020.
Preprint in English | bioRxiv | ID: ppzbmed-10.1101.2020.07.30.228460

ABSTRACT

India has become the third worst-hit nation by the COVID-19 pandemic caused by the SARS-CoV-2 virus. Here, we investigated the molecular, phylogenomic, and evolutionary dynamics of SARS-CoV-2 in western India, the most affected region of the country. A total of 90 genomes were sequenced. Four nucleotide variants, namely C241T, C3037T, C14408T (Pro4715Leu), and A23403G (Asp614Gly), located at 5UTR, Orf1a, Orf1b, and Spike protein regions of the genome, respectively, were predominant and ubiquitous (90%). Phylogenetic analysis of the genomes revealed four distinct clusters, formed owing to different variants. The major cluster (cluster 4) is distinguished by mutations C313T, C5700A, G28881A are unique patterns and observed in 45% of samples. We thus report a newly emerging pattern of linked mutations. The predominance of these linked mutations suggests that they are likely a part of the viral fitness landscape. A novel and distinct pattern of mutations in the viral strains of each of the districts was observed. The Satara district viral strains showed mutations primarily at the 3' end of the genome, while Nashik district viral strains displayed mutations at the 5' end of the genome. Characterization of Pune strains showed that a novel variant has overtaken the other strains. Examination of the frequency of three mutations i.e., C313T, C5700A, G28881A in symptomatic versus asymptomatic patients indicated an increased occurrence in symptomatic cases, which is more prominent in females. The age-wise specific pattern of mutation is observed. Mutations C18877T, G20326A, G24794T, G25563T, G26152T, and C26735T are found in more than 30% study samples in the age group of 10-25. Intriguingly, these mutations are not detected in the higher age range 61-80. These findings portray the prevalence of unique linked mutations in SARS-CoV-2 in western India and their prevalence in symptomatic patients. ImportanceElucidation of the SARS-CoV-2 mutational landscape within a specific geographical location, and its relationship with age and symptoms, is essential to understand its local transmission dynamics and control. Here we present the first comprehensive study on genome and mutation pattern analysis of SARS-CoV-2 from the western part of India, the worst affected region by the pandemic. Our analysis revealed three unique linked mutations, which are prevalent in most of the sequences studied. These may serve as a molecular marker to track the spread of this viral variant to different places.


Subject(s)
COVID-19
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