Your search keyword '"Nitin Hingankar"' showing total 15 results

1. Neutralization diversity of HIV-1 Indian subtype C envelopes obtained from cross sectional and followed up individuals against broadly neutralizing monoclonal antibodies having distinct gp120 specificities

Author

Ranajoy Mullick, Jyoti Sutar, Nitin Hingankar, Suprit Deshpande, Madhuri Thakar, Seema Sahay, Rajesh P. Ringe, Sampurna Mukhopadhyay, Ajit Patil, Shubhangi Bichare, Kailapuri G. Murugavel, Aylur K. Srikrishnan, Rajat Goyal, Devin Sok, and Jayanta Bhattacharya

Subjects

HIV-1, Clade C, Neutralizing antibodies, Envelope, VRC01, CAP256-VRC26.25, Immunologic diseases. Allergy, RC581-607

Abstract

Abstract Background The potential use of the broadly neutralizing monoclonal antibodies (bnAbs) towards prophylaxis and treatment to HIV-1 is currently being explored. While a number of promising bnAbs have been discovered and a few of them have progressed towards clinical development, their extent of neutralization coverage with respect to global HIV-1 variants given the existence of genetically distinct subtypes and recombinants circulating globally is not clearly known. In the present study, we examined the variation in the neutralization susceptibility of pseudoviruses expressing 71 full length primary HIV-1 subtype C envs obtained from limited cross-sectional individuals over different time points against four bnAbs that target gp120 with distinct specificities: VRC01, CAP256-VRC26.25, PGDM1400 and PGT121. Results We found significant variations in the susceptibility of Indian clade C to these four bnAbs. These variations were found to be distinct to that observed in African subtype C based on the existing datasets and concordant with their sequence diversity. Trend analysis indicated an increasing neutralization resistance observed over time with CAP25-VRC26.25, PGDM1400 and PGT121 when tested on pseudoviruses expressing envs obtained from 1999 to 2016. However, inconsistent trend in neutralization susceptibility was observed, when pseudoviruses expressing envs obtained from three followed up individuals were examined. Finally, through predictive analysis of the 98 Indian subtype C including those assessed in the present study by employing additive model implemented in CombiNAber ( http://www.hiv.lanl.gov ), we observed two possibilities where combinations of three bnAbs (VRC01/CAP56-VRC26.25/PGT121 and PGDM1400/CAP256-VRC26.25/PGT121) could achieve near 100% neutralization coverage. Conclusions Our findings not only indicate disparate intra-clade C genetic vis-à-vis neutralization diversities but also warrant the need for more comprehensive study using additional isolates towards comparing inter and intra-clade neutralization diversities which will be necessary for selecting the bnAb combinations suitable for optimal coverage of the region-specific HIV-1 circulating subtypes. Expanding these efforts is imperative for designing efficacious bnAb based intervention strategies for India as well as subtype C in general.

Published

2021

2. A combination of potently neutralizing monoclonal antibodies isolated from an Indian convalescent donor protects against the SARS-CoV-2 Delta variant.

Author

Nitin Hingankar, Suprit Deshpande, Payel Das, Zaigham Abbas Rizvi, Constantinos Kurt Wibmer, Poppy Mashilo, Mohammed Yousuf Ansari, Alison Burns, Shawn Barman, Fangzhu Zhao, Sohini Mukherjee, Jonathan L Torres, Souvick Chattopadhyay, Farha Mehdi, Jyoti Sutar, Deepak Kumar Rathore, Kamal Pargai, Janmejay Singh, Sudipta Sonar, Kamini Jakhar, Jyotsna Dandotiya, Sankar Bhattacharyya, Shailendra Mani, Sweety Samal, Savita Singh, Pallavi Kshetrapal, Ramachandran Thiruvengadam, Gaurav Batra, Guruprasad Medigeshi, Andrew B Ward, Shinjini Bhatnagar, Amit Awasthi, Devin Sok, and Jayanta Bhattacharya

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Although efficacious vaccines have significantly reduced the morbidity and mortality of COVID-19, there remains an unmet medical need for treatment options, which monoclonal antibodies (mAbs) can potentially fill. This unmet need is exacerbated by the emergence and spread of SARS-CoV-2 variants of concern (VOCs) that have shown some resistance to vaccine responses. Here we report the isolation of five neutralizing mAbs from an Indian convalescent donor, out of which two (THSC20.HVTR04 and THSC20.HVTR26) showed potent neutralization of SARS-CoV-2 VOCs at picomolar concentrations, including the Delta variant (B.1.617.2). One of these (THSC20.HVTR26) also retained activity against the Omicron variant. These two mAbs target non-overlapping epitopes on the receptor-binding domain (RBD) of the spike protein and prevent virus attachment to its host receptor, human angiotensin converting enzyme-2 (hACE2). Furthermore, the mAb cocktail demonstrated protection against the Delta variant at low antibody doses when passively administered in the K18 hACE2 transgenic mice model, highlighting their potential as a cocktail for prophylactic and therapeutic applications. Developing the capacity to rapidly discover and develop mAbs effective against highly transmissible pathogens like coronaviruses at a local level, especially in a low- and middle-income country (LMIC) such as India, will enable prompt responses to future pandemics as an important component of global pandemic preparedness.

Published

2022

3. Elicitation of potent serum neutralizing antibody responses in rabbits by immunization with an HIV-1 clade C trimeric Env derived from an Indian elite neutralizer.

Author

Rajesh Kumar, Suprit Deshpande, Leigh M Sewall, Gabriel Ozorowski, Christopher A Cottrell, Wen-Hsin Lee, Lauren G Holden, Sara T Richey, Antra Singh Chandrawacar, Kanika Dhiman, Ashish, Vivek Kumar, Shubbir Ahmed, Nitin Hingankar, Naresh Kumar, Kailapuri G Murugavel, Aylur K Srikrishnan, Devin Sok, Andrew B Ward, and Jayanta Bhattacharya

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Evaluating the structure-function relationship of viral envelope (Env) evolution and the development of broadly cross-neutralizing antibodies (bnAbs) in natural infection can inform rational immunogen design. In the present study, we examined the magnitude and specificity of autologous neutralizing antibodies induced in rabbits by a novel HIV-1 clade C Env protein (1PGE-THIVC) vis-à-vis those developed in an elite neutralizer from whom the env sequence was obtained that was used to prepare the soluble Env protein. The novel 1PGE-THIVC Env trimer displayed a native like pre-fusion closed conformation in solution as determined by small angle X-ray scattering (SAXS) and negative stain electron microscopy (EM). This closed spike conformation of 1PGE-THIVC Env trimers was correlated with weak or undetectable binding of non-neutralizing monoclonal antibodies (mAbs) compared to neutralizing mAbs. Furthermore, 1PGE-THIVC SOSIP induced potent neutralizing antibodies in rabbits to autologous virus variants. The autologous neutralizing antibody specificity induced in rabbits by 1PGE-THIVC was mapped to the C3/V4 region (T362/P401) of viral Env. This observation agreed with electron microscopy polyclonal epitope mapping (EMPEM) of the Env trimer complexed with IgG Fab prepared from the immunized rabbit sera. Our study demonstrated neutralization of sequence matched and unmatched autologous viruses by serum antibodies induced in rabbits by 1PGE-THIVC and also highlighted a comparable specificity for the 1PGE-THIVC SOSIP trimer with that seen with polyclonal antibodies elicited in the elite neutralizer by negative-stain electron microscopy polyclonal epitope (ns-EMPEM) mapping.

Published

2021

4. Geospatial HIV-1 subtype C gp120 sequence diversity and its predicted impact on broadly neutralizing antibody sensitivity.

Author

Jyoti Sutar, Suprit Deshpande, Ranajoy Mullick, Nitin Hingankar, Vainav Patel, and Jayanta Bhattacharya

Subjects

Medicine, Science

Abstract

Evolving diversity in globally circulating HIV-1 subtypes presents a formidable challenge in defining and developing neutralizing antibodies for prevention and treatment. HIV-1 subtype C is responsible for majority of global HIV-1 infections. In the present study, we examined the diversity in genetic signatures and attributes that differentiate region-specific HIV-1 subtype C gp120 sequences associated with virus neutralization outcomes to key bnAbs having distinct epitope specificities. A total of 1814 full length HIV-1 subtype C gp120 sequence from 37 countries were retrieved from Los Alamos National Laboratory HIV database (www.hiv.lanl.gov). The amino acid sequences were assessed for their phylogenetic association, variable loop lengths and prevalence of potential N-linked glycosylation sites (pNLGS). Responses of these sequences to bnAbs were predicted with a machine learning algorithm 'bNAb-ReP' and compared with those reported in the CATNAP database. Subtype C sequences from Asian countries including India differed phylogenetically when compared with that from African countries. Variable loop lengths and charges within Indian and African clusters were also found to be distinct from each other, specifically for V1, V2 and V4 loops. Pairwise analyses at each of the 25 pNLG sites indicated distinct country specific profiles. Highly significant differences (p

Published

2021

5. HIV Skews a Balanced Mtb-Specific Th17 Response in Latent Tuberculosis Subjects to a Pro-inflammatory Profile Independent of Viral Load

Author

Srabanti Rakshit, Nitin Hingankar, Shuba Varshini Alampalli, Vasista Adiga, Bharath K. Sundararaj, Pravat Nalini Sahoo, Greg Finak, Anto Jesuraj Uday Kumar J, Chirag Dhar, George D’Souza, Rashmi Govind Virkar, Manisha Ghate, Madhuri R. Thakar, Ramesh S. Paranjape, Stephen C. De Rosa, Tom H.M. Ottenhoff, and Annapurna Vyakarnam

Subjects

HIV, tuberculosis, CD4+ T cells, CD8+ T cells, Th17, ART, Biology (General), QH301-705.5

Abstract

Summary: HIV infection predisposes latent tuberculosis-infected (LTBI) subjects to active TB. This study is designed to determine whether HIV infection of LTBI subjects compromises the balanced Mycobacterium tuberculosis (Mtb)-specific T helper 17 (Th17) response of recognized importance in anti-TB immunity. Comparative analysis of Mtb- and cytomegalovirus (CMV)-specific CD4+ T cell responses demonstrates a marked dampening of the Mtb-specific CD4+ T cell effectors and polyfunctional cells while preserving CMV-specific response. Additionally, HIV skews the Mtb-specific Th17 response in chronic HIV-infected LTBI progressors, but not long-term non-progressors (LTNPs), with preservation of pro-inflammatory interferon (IFN)-γ+/interleukin-17+ (IL-17+) and significant loss of anti-inflammatory IL-10+/IL-17+ effectors that is restored by anti-retroviral therapy (ART). HIV-driven impairment of Mtb-specific response cannot be attributed to preferential infection as cell-associated HIV DNA and HIV RNA reveal equivalent viral burden in CD4+ T cells from different antigen specificities. We therefore propose that beyond HIV-induced loss of Mtb-specific CD4+ T cells, the associated dysregulation of Mtb-specific T cell homeostasis can potentially enhance the onset of TB in LTBI subjects.

Published

2020

6. Analysis of mitochondrial DNA sequences in childhood encephalomyopathies reveals new disease-associated variants.

Author

Aijaz A Wani, Sajad H Ahanger, Sharmila A Bapat, Ashraf Y Rangrez, Nitin Hingankar, C G Suresh, Shama Barnabas, Milind S Patole, and Yogesh S Shouche

Subjects

Medicine, Science

Abstract

BACKGROUND: Mitochondrial encephalomyopathies are a heterogeneous group of clinical disorders generally caused due to mutations in either mitochondrial DNA (mtDNA) or nuclear genes encoding oxidative phosphorylation (OXPHOS). We analyzed the mtDNA sequences from a group of 23 pediatric patients with clinical and morphological features of mitochondrial encephalopathies and tried to establish a relationship of identified variants with the disease. METHODOLOGY/PRINCIPLE FINDINGS: Complete mitochondrial genomes were amplified by PCR and sequenced by automated DNA sequencing. Sequencing data was analyzed by SeqScape software and also confirmed by BLASTn program. Nucleotide sequences were compared with the revised Cambridge reference sequence (CRS) and sequences present in mitochondrial databases. The data obtained shows that a number of known and novel mtDNA variants were associated with the disease. Most of the non-synonymous variants were heteroplasmic (A4136G, A9194G and T11916A) suggesting their possibility of being pathogenic in nature. Some of the missense variants although homoplasmic were showing changes in highly conserved amino acids (T3394C, T3866C, and G9804A) and were previously identified with diseased conditions. Similarly, two other variants found in tRNA genes (G5783A and C8309T) could alter the secondary structure of Cys-tRNA and Lys-tRNA. Most of the variants occurred in single cases; however, a few occurred in more than one case (e.g. G5783A and A10149T). CONCLUSIONS AND SIGNIFICANCE: The mtDNA variants identified in this study could be the possible cause of mitochondrial encephalomyopathies with childhood onset in the patient group. Our study further strengthens the pathogenic score of known variants previously reported as provisionally pathogenic in mitochondrial diseases. The novel variants found in the present study can be potential candidates for further investigations to establish the relationship between their incidence and role in expressing the disease phenotype. This study will be useful in genetic diagnosis and counseling of mitochondrial diseases in India as well as worldwide.

Published

2007

7. Ancestral SARS-CoV-2-Driven Antibody Repertoire Diversity in an Unvaccinated Individual Correlates with Expanded Neutralization Breadth

Author

Suprit Deshpande, Mohammed Yousuf Ansari, Jyoti Sutar, Payel Das, Nitin Hingankar, Sohini Mukherjee, Priyanka Jayal, Savita Singh, Anbalagan Anantharaj, Janmejay Singh, Souvick Chattopadhyay, Sreevatsan Raghavan, Mudita Gosain, Supriya Chauhan, Shweta Shrivas, Chaman Prasad, Sangeeta Chauhan, Neha Sharma, Pradipta Jana, Ramachandran Thiruvengadam, Pallavi Kshetrapal, Nitya Wadhwa, Bhabatosh Das, Gaurav Batra, Guruprasad Medigeshi, Devin Sok, Shinjini Bhatnagar, Pramod Kumar Garg, and Jayanta Bhattacharya

Subjects

Microbiology (medical), Infectious Diseases, General Immunology and Microbiology, Ecology, Physiology, Genetics, Cell Biology

Abstract

Understanding the quality of immune repertoire triggered during natural infection can provide vital clues that form the basis for development of humoral immune response in some individuals capable of broadly neutralizing pan SARS-CoV-2 variants. We assessed the diversity of neutralizing antibody responses developed in an unvaccinated individual infected with ancestral SARS-CoV-2 by examining the ability of the distinct B cell germline-derived monoclonal antibodies (mAbs) in neutralizing known and currently circulating Omicron variants by pseudovirus and authentic virus neutralization assays. The ability of the antibodies developed post vaccination in neutralizing Omicron variants was compared to that obtained at baseline of the same individual and to those obtained from Omicron breakthrough infected individuals by pseudovirus neutralization assay. Broadly SARS-CoV-2 neutralizing mAbs representing unique B cell lineages with non-overlapping epitope specificities isolated from a single donor varied in their ability to neutralize Omicron variants. Plasma antibodies developed post vaccination from this individual demonstrated neutralization of Omicron BA.1, BA.2 and BA.4 with increased magnitude and found to be comparable with those obtained from other vaccinated individuals who were infected with ancestral SARS-CoV-2. Development of B cell repertoire capable of producing antibodies with distinct affinity and specificities for the antigen immediately after infection capable of eliciting broadly neutralizing antibodies offers highest probability in protecting against evolving SARS-CoV-2 variants.ImportanceDevelopment of robust neutralizing antibodies in SARS-CoV-2 convalescent individuals is known, however varies at population level. We isolated monoclonal antibodies from an individual infected with ancestral SARS-CoV-2 in early 2020 that not only varied in their B cell lineage origin but also varied in their capability and potency to neutralize all the known VOC and currently circulating Omicron variants. This indicated establishment of unique lineages that contributed in forming B cell repertoire in this particular individual immediately following infection giving rise to diverse antibody responses that could compensate each other in providing broadly neutralizing polyclonal antibody response. Individuals who were able to produce such potent polyclonal antibody responses after infection have a higher chance of being protected from evolving SARS-CoV-2 variants.

Published

2023

8. High resolution cryo-EM structures of two potently SARS-CoV-2 neutralizing monoclonal antibodies of same donor origin that vary in neutralizing Omicron variants

Author

Clayton Fernando Rencilin, Mohammad Yousuf Ansari, Arnab Chatterjee, Suprit Deshpande, Sohini Mukherjee, Randhir Singh, Sowrabha Jayatheertha, Poorvi M. Reddy, Payel Das, Nitin Hingankar, Deepak Rathore, Raghavan Varadarajan, Jayanta Bhattacharya, and Somnath Dutta

Abstract

While vaccines have by large been found to effective against the evolving SARS-CoV-2 variants, the profound and rapid effectivity of monoclonal antibodies (mAbs) in significantly reducing hospitalization to severe disease outcomes have also been demonstrated. In the present study, by high resolution cryo-electron microscopy (cryo-EM), we examined the structural insights of two trimeric spike (S) protein bound mAbs isolated from an Indian convalescent individual infected with ancestral SARS-CoV-2 which we recently reported to potently neutralize SARS-CoV-2 from its ancestral form through highly virulent Delta form however different in their ability to neutralize Omicron variants. Our findings showed binding and conformational heterogeneities of both the mAbs (THSC20.HVTR04 and THSC20.HVTR26) bound to S trimer in its apo and hACE-2 bound forms. Additionally, cryo-EM resolved structure assisted modeling highlighted key residues associated with the ability of these two mAbs to neutralize Omicron variants. Our findings highlighted key interacting features modulating antigen-antibody interacting that can further aid in structure guided antibody engineering to enhance their breadth and potency.HighlightsTwo potent human mAbs obtained from a single donor differ binding to Omicron spikesPattern of binding and conformation of these mAbs bound to full length spike differsAntibody binding alters the conformational states of S trimer in its apo and hACE-2 bound forms.Cryo-EM structure guided modeling highlighted correlates of interacting residues associated with resistance and sensitivity of BA.1, BA.2, BA.4/BA.5 resistance and sensitivity against these mAbs.

Published

2022

9. A combination of potently neutralizing monoclonal antibodies isolated from an Indian convalescent donor protects against the SARS-CoV-2 delta variant

Author

Nitin Hingankar, Suprit Deshpande, Payel Das, Zaigham Abbas Rizvi, Alison Burns, Shawn Barman, Fangzhu Zhao, Mohammed Yousuf Ansari, Sohini Mukherjee, Jonathan L. Torres, Souvick Chattopadhyay, Farha Mehdi, Jyoti Sutar, Deepak Kumar Rathore, Kamal Pargai, Janmejay Singh, Sudipta Sonar, Kamini Jakhar, Sankar Bhattacharyya, Shailendra Mani, Savita Singh, Jyotsna Dandotiya, Pallavi Kshetrapal, Ramachandran Thiruvengadam, Gaurav Batra, Guruprasad R Medigeshi, Andrew Ward, Shinjini Bhatnagar, Amit Awasthi, Devin Sok, and Jayanta Bhattacharya

Abstract

Although efficacious vaccines have significantly reduced the morbidity and mortality due to COVID-19, there remains an unmet medical need for treatment options, which monoclonal antibodies (mAbs) can potentially fill. This unmet need is exacerbated by the emergence and spread of SARS-CoV-2 variants of concern (VOCs) that have shown some resistance to vaccine responses. Here we report the isolation of two highly potently neutralizing mAbs (THSC20.HVTR04 and THSC20.HVTR26) from an Indian convalescent donor, that neutralize SARS-CoV-2 VOCs at picomolar concentrations including the delta variant (B.1.617.2). These two mAbs target non-overlapping epitopes on the receptor-binding domain (RBD) of the spike protein thereby preventing the virus attachment to its host receptor, human angiotensin converting enzyme-2 (hACE2). Furthermore, the mAb cocktail demonstrated protection against the Delta variant at low antibody doses when passively administered in the K18 hACE2 transgenic mice model, highlighting their potential as cocktail for prophylactic and therapeutic applications. Developing the capacity to rapidly discover and develop mAbs effective against highly transmissible pathogens like coronaviruses at a local level, especially in a low- and middle-income country (LMIC) such as India, will enable prompt responses to future pandemics as an important component of global pandemic preparedness.

Published

2021

10. Additional file 1 of Neutralization diversity of HIV-1 Indian subtype C envelopes obtained from cross sectional and followed up individuals against broadly neutralizing monoclonal antibodies having distinct gp120 specificities

Author

Ranajoy Mullick, Sutar, Jyoti, Nitin Hingankar, Suprit Deshpande, Thakar, Madhuri, Sahay, Seema, Ringe, Rajesh P., Sampurna Mukhopadhyay, Patil, Ajit, Shubhangi Bichare, Kailapuri G. Murugavel, Aylur K. Srikrishnan, Rajat Goyal, Sok, Devin, and Bhattacharya, Jayanta

Subjects

viruses

Abstract

Additional file 1: Table S1. History of year of collection of clinical samples, disease stages and env genetic properties.

Published

2021

11. Additional file 2 of Neutralization diversity of HIV-1 Indian subtype C envelopes obtained from cross sectional and followed up individuals against broadly neutralizing monoclonal antibodies having distinct gp120 specificities

Author

Ranajoy Mullick, Sutar, Jyoti, Nitin Hingankar, Suprit Deshpande, Thakar, Madhuri, Sahay, Seema, Ringe, Rajesh P., Sampurna Mukhopadhyay, Patil, Ajit, Shubhangi Bichare, Kailapuri G. Murugavel, Aylur K. Srikrishnan, Rajat Goyal, Sok, Devin, and Bhattacharya, Jayanta

Abstract

Additional file 2: Table S2. Mapping key amino acid substitutions associated with resistance to the bnAbs.

Published

2021

12. Elicitation of potent serum neutralizing antibody responses in rabbits by immunization with an HIV-1 clade C trimeric Env derived from an Indian elite neutralizer

Author

Jayanta Bhattacharya, Suprit Deshpande, Nitin Hingankar, Sara T. Richey, Vivek Kumar, Ashish, Christopher A. Cottrell, Devin Sok, Kailapuri G. Murugavel, Gabriel Ozorowski, Wen-Hsin Lee, Naresh Kumar, Shubbir Ahmed, Kanika Dhiman, Antra Singh Chandrawacar, Rajesh Kumar, L.M. Sewall, Andrew B. Ward, Lauren G. Holden, and Aylur K. Srikrishnan

Subjects

RNA viruses, Immunogen, Physiology, Antibody Response, HIV Infections, HIV Antibodies, Pathology and Laboratory Medicine, Biochemistry, Epitope, Epitopes, Immunodeficiency Viruses, Immune Physiology, Medicine and Health Sciences, Biology (General), Enzyme-Linked Immunoassays, Neutralizing antibody, Antigens, Viral, Immune Response, 0303 health sciences, Immune System Proteins, biology, Chemistry, 030302 biochemistry & molecular biology, Vaccination, env Gene Products, Human Immunodeficiency Virus, Software Engineering, Body Fluids, Blood, Medical Microbiology, Viral Pathogens, Viruses, Engineering and Technology, Rabbits, Antibody, Pathogens, Anatomy, Research Article, Computer and Information Sciences, QH301-705.5, medicine.drug_class, Immunology, Monoclonal antibody, Research and Analysis Methods, Microbiology, Antibodies, Blood Plasma, Computer Software, 03 medical and health sciences, Viral envelope, Virology, Retroviruses, Genetics, medicine, Animals, Humans, Antigens, Immunoassays, Molecular Biology, Microbial Pathogens, 030304 developmental biology, Lentivirus, Organisms, Biology and Life Sciences, Proteins, HIV, RC581-607, Antibodies, Neutralizing, Epitope mapping, Polyclonal antibodies, biology.protein, HIV-1, Immunologic Techniques, Parasitology, Immunization, Immunologic diseases. Allergy

Abstract

Evaluating the structure-function relationship of viral envelope (Env) evolution and the development of broadly cross-neutralizing antibodies (bnAbs) in natural infection can inform rational immunogen design. In the present study, we examined the magnitude and specificity of autologous neutralizing antibodies induced in rabbits by a novel HIV-1 clade C Env protein (1PGE-THIVC) vis-à-vis those developed in an elite neutralizer from whom the env sequence was obtained that was used to prepare the soluble Env protein. The novel 1PGE-THIVC Env trimer displayed a native like pre-fusion closed conformation in solution as determined by small angle X-ray scattering (SAXS) and negative stain electron microscopy (EM). This closed spike conformation of 1PGE-THIVC Env trimers was correlated with weak or undetectable binding of non-neutralizing monoclonal antibodies (mAbs) compared to neutralizing mAbs. Furthermore, 1PGE-THIVC SOSIP induced potent neutralizing antibodies in rabbits to autologous virus variants. The autologous neutralizing antibody specificity induced in rabbits by 1PGE-THIVC was mapped to the C3/V4 region (T362/P401) of viral Env. This observation agreed with electron microscopy polyclonal epitope mapping (EMPEM) of the Env trimer complexed with IgG Fab prepared from the immunized rabbit sera. Our study demonstrated neutralization of sequence matched and unmatched autologous viruses by serum antibodies induced in rabbits by 1PGE-THIVC and also highlighted a comparable specificity for the 1PGE-THIVC SOSIP trimer with that seen with polyclonal antibodies elicited in the elite neutralizer by negative-stain electron microscopy polyclonal epitope (ns-EMPEM) mapping., Author summary The interplay between circulating virus variants and broadly cross neutralizing polyclonal antibodies developed in a subset of elite neutralizers is widely believed to provide strategies for rational immunogen design. In the present study, we studied the structural, antigenic and immunogenic properties of a novel soluble trimeric protein with near native pre-fusion conformation prepared using the primary sequence of an HIV-1 clade C env isolated from the broadly cross neutralizing plasma of an elite neutralizer. This novel SOSIP Env trimer demonstrated comparable antigenic, structural and immunogenic properties that favoured several ongoing subunit vaccine design efforts. Interestingly, ns-EMPEM analysis suggested the novel clade C SOSIP induced a comparable neutralizing antibody specificity in rabbits to one that was elicited during the course of natural infection. A better understanding of how vaccine-induced polyclonal neutralizing antibody responses compares to responses that developed in natural infection will improve our knowledge in designing better vaccine design strategies.

Published

2020

13. Effect of diversity in gp41 membrane proximal external region of primary HIV-1 Indian subtype C sequences on interaction with broadly neutralizing antibodies 4E10 and 10E8

Author

Vidya S. Nagar, Priya Patil, Vainav Patel, Jyoti Sutar, Atmaram H. Bandivdekar, Jayanta Bhattacharya, Dhanashree D. Jagtap, Bhalachandra Kulkarni, Nitin Hingankar, Suprit Deshpande, Susan Idicula-Thomas, Archana Sonawani, and Varsha Padwal

Subjects

Adult, Male, Cancer Research, Human immunodeficiency virus (HIV), India, HIV Infections, HIV Antibodies, Gp41, medicine.disease_cause, Deep sequencing, Neutralization, DNA sequencing, Epitope, Epitopes, 03 medical and health sciences, Meta-Analysis as Topic, Neutralization Tests, Virology, medicine, Humans, Child, 030304 developmental biology, 0303 health sciences, biology, 030306 microbiology, Haplotype, Genetic Variation, High-Throughput Nucleotide Sequencing, Middle Aged, HIV Envelope Protein gp41, Molecular Docking Simulation, Infectious Diseases, HIV-1, biology.protein, Female, Antibody, Broadly Neutralizing Antibodies

Abstract

Human Immunodeficiency Virus-1 Clade C (HIV-1C) dominates the AIDS epidemic in India, afflicting 2.1 million individuals within the country and more than 15 million people worldwide. Membrane proximal external region (MPER) is an attractive target for broadly neutralizing antibody (bNAb) based therapies. However, information on MPER sequence diversity from India is meagre due to limited sampling of primary viral sequences. In the present study, we examined the variation in MPER of HIV-1C from 24 individuals in Mumbai, India by high throughput sequencing of uncultured viral sequences. Deep sequencing of MPER (662-683; HXB2 envelope amino acid numbering) allowed quantification of intra-individual variation up to 65% at positions 662, 665, 668, 674 and 677 within this region. These variable positions included contact sites targeted by bNAbs 2F5, Z13e1, 4E10 as well as 10E8. Both major and minor epitope variants i.e. 'haplotypes' were generated for each sample dataset. A total of 23, 34 and 25 unique epitope haplotypes could be identified for bNAbs 2F5, Z13e1 and 4E10/10E8 respectively. Further analysis of 4E10 and 10E8 epitopes from our dataset and meta-analysis of previously reported HIV-1 sequences from India revealed 26 epitopes (7 India-specific), heretofore untested for neutralization sensitivity. Peptide-Ab docking predicted 13 of these to be non-binding to 10E8. ELISA, Surface Plasmon Resonance and peptide inhibition of HIV-1 neutralization assays were then performed which validated predicted weak/non-binding interactions for peptides corresponding to six of these epitopes. These results highlight the under-representation of 10E8 non-binding HIV-1C MPER sequences from India. Our study thus underscores the need for increased surveillance of primary circulating envelope sequences for development of efficacious bNAb-based interventions in India.

Published

2019

14. Analysis of mitochondrial DNA sequences in childhood encephalomyopathies reveals new disease-associated variants

Author

Yogesh S. Shouche, C. G. Suresh, Aijaz A. Wani, Sajad H. Ahanger, Ashraf Yusuf Rangrez, Shama Barnabas, Milind S. Patole, Nitin Hingankar, and Sharmila A. Bapat

Subjects

Adult, Male, Mitochondrial DNA, DNA Mutational Analysis, Molecular Sequence Data, lcsh:Medicine, Biology, RNA, Transfer, Amino Acyl, MELAS syndrome, Human mitochondrial genetics, Genome, DNA, Mitochondrial, Polymerase Chain Reaction, DNA sequencing, Oxidative Phosphorylation, Electron Transport Complex IV, Mitochondrial Encephalomyopathies, Sequence Homology, Nucleic Acid, medicine, MELAS Syndrome, Humans, Genetics and Genomics/Genomics, lcsh:Science, Child, Cells, Cultured, Genetics and Genomics/Genetics of Disease, Genetics, Genetics and Genomics/Medical Genetics, Multidisciplinary, Ophthalmoplegia, Base Sequence, lcsh:R, Computational Biology, Infant, medicine.disease, Heteroplasmy, Child, Preschool, Mutation, Cambridge Reference Sequence, lcsh:Q, Female, Leigh Disease, Research Article

Abstract

Background Mitochondrial encephalomyopathies are a heterogeneous group of clinical disorders generally caused due to mutations in either mitochondrial DNA (mtDNA) or nuclear genes encoding oxidative phosphorylation (OXPHOS). We analyzed the mtDNA sequences from a group of 23 pediatric patients with clinical and morphological features of mitochondrial encephalopathies and tried to establish a relationship of identified variants with the disease. Methodology/Principle Findings Complete mitochondrial genomes were amplified by PCR and sequenced by automated DNA sequencing. Sequencing data was analyzed by SeqScape software and also confirmed by BLASTn program. Nucleotide sequences were compared with the revised Cambridge reference sequence (CRS) and sequences present in mitochondrial databases. The data obtained shows that a number of known and novel mtDNA variants were associated with the disease. Most of the non-synonymous variants were heteroplasmic (A4136G, A9194G and T11916A) suggesting their possibility of being pathogenic in nature. Some of the missense variants although homoplasmic were showing changes in highly conserved amino acids (T3394C, T3866C, and G9804A) and were previously identified with diseased conditions. Similarly, two other variants found in tRNA genes (G5783A and C8309T) could alter the secondary structure of Cys-tRNA and Lys-tRNA. Most of the variants occurred in single cases; however, a few occurred in more than one case (e.g. G5783A and A10149T). Conclusions and Significance The mtDNA variants identified in this study could be the possible cause of mitochondrial encephalomyopathies with childhood onset in the patient group. Our study further strengthens the pathogenic score of known variants previously reported as provisionally pathogenic in mitochondrial diseases. The novel variants found in the present study can be potential candidates for further investigations to establish the relationship between their incidence and role in expressing the disease phenotype. This study will be useful in genetic diagnosis and counseling of mitochondrial diseases in India as well as worldwide.

Published

2007

15. One-, Two-, and Three-Class Resistance among HIV-Infected Patients on Antiretroviral Therapy in Private Care Clinics: Mumbai, India.

Author

Amita Gupta, Dattaray G. Saple, Girish Nadkarni, Bijal Shah, Satish Vaidya, Nitin Hingankar, Devidas Chaturbhuj, Praveen Deshmukh, Louise Walshe, Sarah E. Hudelson, Maria James, Ramesh S. Paranjape, Susan H. Eshleman, and Srikanth Tripathy

Abstract

AbstractHIV-infected patients receiving antiretroviral (ARV) therapy (ART) in India are not all adequately virally suppressed. We analyzed ARV drug resistance in adults receiving ART in three private clinics in Mumbai, India. HIV viral load was measured in 200 patients with the Roche AMPLICOR HIV-1 Monitor Test, v1.5. HIV genotyping was performed with the ViroSeq HIV-1 Genotyping System for 61 participants who had HIV-1 RNA >1000 copies/ml. Genotyping results were obtained for 51 samples. The participants with resistance results were on ART for a median of 24 months and were on their current regimen for a median of 12 months (median CD4 cell count: 217 cells/mm3; median HIV viral load: 28,200 copies/ml). ARV regimens included nonnucleoside reverse transcriptase inhibitor (NNRTI)-based regimens (n= 27), dual nucleoside reverse transcriptase inhibitors (NRTIs, n= 19), protease inhibitor (PI)-based regimens (n= 3), and other regimens (n= 2). Twenty-six participants (51.0%) were on their first ARV regimen and 24 (47%) reported >95% adherence. Forty-nine participants (96.1%) had resistance to at least one ARV drug; 47 (92.2%) had NRTI resistance, 32 (62.7%) had NNRTI resistance, and four (7.8%) had PI resistance. Thirty (58.8%) had two-class resistance and three (5.9%) had three-class resistance. Four (8%) had three or more resistance mutations associated with etravirine resistance and two (4%) had two mutations associated with reduced darunavir susceptibility. Almost all patients with HIV-1 RNA >1000 copies/ml had NRTI resistance and nearly two-thirds had NNRTI resistance; PI resistance was uncommon. Nearly 60% and 6% had two- and three-class resistance, respectively. This emphasizes the need for greater viral load and resistance monitoring, use of optimal ART combinations, and increased availability of second- and third-line agents for patients with ARV resistance. [ABSTRACT FROM AUTHOR]

Published

2010