Your search keyword '"Bhuvaneshwari Shunmuganathan"' showing total 6 results

1. Durable cross-protective neutralizing antibody responses elicited by lipid nanoparticle-formulated SARS-CoV-2 mRNA vaccines

Author

Ki Hyun Bae, Bhuvaneshwari Shunmuganathan, Li Zhang, Andrew Lim, Rashi Gupta, Yanming Wang, Boon Lin Chua, Yang Wang, Yue Gu, Xinlei Qian, Isabelle Siang Ling Tan, Kiren Purushotorman, Paul A. MacAry, Kevin P. White, and Yi Yan Yang

Subjects

Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract The advent of SARS-CoV-2 variants with defined mutations that augment pathogenicity and/or increase immune evasiveness continues to stimulate global efforts to improve vaccine formulation and efficacy. The extraordinary advantages of lipid nanoparticles (LNPs), including versatile design, scalability, and reproducibility, make them ideal candidates for developing next-generation mRNA vaccines against circulating SARS-CoV-2 variants. Here, we assess the efficacy of LNP-encapsulated mRNA booster vaccines encoding the spike protein of SARS-CoV-2 for variants of concern (Delta, Omicron) and using a predecessor (YN2016C isolated from bats) strain spike protein to elicit durable cross-protective neutralizing antibody responses. The mRNA-LNP vaccines have desirable physicochemical characteristics, such as small size (~78 nm), low polydispersity index (90%). We employ in vivo bioluminescence imaging to illustrate the capacity of our LNPs to induce robust mRNA expression in secondary lymphoid organs. In a BALB/c mouse model, a three-dose subcutaneous immunization of mRNA-LNPs vaccines achieved remarkably high levels of cross-neutralization against the Omicron B1.1.529 and BA.2 variants for extended periods of time (28 weeks) with good safety profiles for all constructs when used in a booster regime, including the YN2016C bat virus sequences. These findings have important implications for the design of mRNA-LNP vaccines that aim to trigger durable cross-protective immunity against the current and newly emerging variants.

Published

2024

2. Employment of a high throughput functional assay to define the critical factors that influence vaccine induced cross-variant neutralizing antibodies for SARS-CoV-2

Author

Yue Gu, Bhuvaneshwari Shunmuganathan, Xinlei Qian, Rashi Gupta, Rebecca S. W. Tan, Mary Kozma, Kiren Purushotorman, Tanusya M. Murali, Nikki Y. J. Tan, Peter R. Preiser, Julien Lescar, Haziq Nasir, Jyoti Somani, Paul A. Tambyah, SCOPE Cohort Study Group, Kenneth G. C. Smith, Laurent Renia, Lisa F. P. Ng, David C. Lye, Barnaby E. Young, and Paul A. MacAry

Subjects

Medicine, Science

Abstract

Abstract The scale and duration of neutralizing antibody responses targeting SARS-CoV-2 viral variants represents a critically important serological parameter that predicts protective immunity for COVID-19. In this study, we describe the development and employment of a new functional assay that measures neutralizing antibodies for SARS-CoV-2 and present longitudinal data illustrating the impact of age, sex and comorbidities on the kinetics and strength of vaccine-induced antibody responses for key variants in an Asian volunteer cohort. We also present an accurate quantitation of serological responses for SARS-CoV-2 that exploits a unique set of in-house, recombinant human monoclonal antibodies targeting the viral Spike and nucleocapsid proteins and demonstrate a reduction in neutralizing antibody titres across all groups 6 months post-vaccination. We also observe a marked reduction in the serological binding activity and neutralizing responses targeting recently newly emerged Omicron variants including XBB 1.5 and highlight a significant increase in cross-protective neutralizing antibody responses following a third dose (boost) of vaccine. These data illustrate how key virological factors such as immune escape mutations combined with host demographic factors such as age and sex of the vaccinated individual influence the strength and duration of cross-protective serological immunity for COVID-19.

Published

2023

3. An anti-LpqH human monoclonal antibody from an asymptomatic individual mediates protection against Mycobacterium tuberculosis

Author

Shivankari Krishnananthasivam, Hao Li, Rania Bouzeyen, Bhuvaneshwari Shunmuganathan, Kiren Purushotorman, Xinlei Liao, Fengjiao Du, Claudia Guldager Kring Friis, Felicity Crawshay-Williams, Low Heng Boon, Qian Xinlei, Conrad En Zuo Chan, Radoslaw Sobota, Mary Kozma, Valeria Barcelli, Guirong Wang, Hairong Huang, Andreas Floto, Pablo Bifani, Babak Javid, and Paul A. MacAry

Subjects

Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Tuberculosis (TB) is an airborne disease caused by Mycobacterium tuberculosis (Mtb). Whilst a functional role for humoral immunity in Mtb protection remains poorly defined, previous studies have suggested that antibodies can contribute towards host defense. Thus, identifying the critical components in the antibody repertoires from immune, chronically exposed, healthy individuals represents an approach for identifying new determinants for natural protection. In this study, we performed a thorough analysis of the IgG/IgA memory B cell repertoire from occupationally exposed, immune volunteers. We detail the identification and selection of a human monoclonal antibody that exhibits protective activity in vivo and show that it targets a virulence factor LpqH. Intriguingly, protection in both human ex vivo and murine challenge experiments was isotype dependent, with most robust protection being mediated via IgG2 and IgA. These data have important implications for our understanding of natural mucosal immunity for Mtb and highlight a new target for future vaccine development.

Published

2023

4. Author Correction: An anti-LpqH human monoclonal antibody from an asymptomatic individual mediates protection against Mycobacterium tuberculosis

Author

Shivankari Krishnananthasivam, Hao Li, Rania Bouzeyen, Bhuvaneshwari Shunmuganathan, Kiren Purushotorman, Xinlei Liao, Fengjiao Du, Claudia Guldager Kring Friis, Felicity Crawshay-Williams, Low Heng Boon, Qian Xinlei, Conrad En Zuo Chan, Radoslaw Sobota, Mary Kozma, Valeria Barcelli, Guirong Wang, Hairong Huang, Andreas Floto, Pablo Bifani, Babak Javid, and Paul A. MacAry

Subjects

Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

5. Immune and pathophysiologic profiling of antenatal coronavirus disease 2019 in the GIFT cohort: A Singaporean case-control study

Author

Yue Gu, Jia Ming Low, Jolene Su Yi Tan, Melissa Shu Feng Ng, Lisa F. P. Ng, Bhuvaneshwari Shunmuganathan, Rashi Gupta, Paul A. MacAry, Zubair Amin, Le Ye Lee, Derrick Lian, Lynette Pei-Chi Shek, Youjia Zhong, and Liang Wei Wang

Subjects

SARS-CoV-2, antenatal COVID-19, transplacental antibody transfer, breast milk antibodies, placental inflammation, GIFT, Pediatrics, RJ1-570

Abstract

COVID-19 can be severe in pregnant women, and have adverse consequences for the subsequent infant. We profiled the post-infectious immune responses in maternal and child blood as well as breast milk in terms of antibody and cytokine expression and performed histopathological studies on placentae obtained from mothers convalescent from antenatal COVID-19. Seventeen mother-child dyads (8 cases of antenatal COVID-19 and 9 healthy unrelated controls; 34 individuals in total) were recruited to the Gestational Immunity For Transfer (GIFT) study. Maternal and infant blood, and breast milk samples were collected over the first year of life. All samples were analyzed for IgG and IgA against whole SARS-CoV-2 spike protein, the spike receptor-binding domain (RBD), and previously reported immunodominant epitopes, as well as cytokine levels. The placentae were examined microscopically. The study is registered at clinicaltrials.gov under the identifier NCT04802278. We found high levels of virus-specific IgG in convalescent mothers and similarly elevated titers in newborn children. Thus, antenatal SARS-CoV-2 infection led to high plasma titers of virus-specific antibodies in infants postnatally. However, this waned within 3–6 months of life. Virus neutralization by plasma was not uniformly achieved, and the presence of antibodies targeting known immunodominant epitopes did not assure neutralization. Virus-specific IgA levels were variable among convalescent individuals’ sera and breast milk. Antibody transfer ratios and the decay of transplacentally transferred virus-specific antibodies in neonatal circulation resembled that for other pathogens. Convalescent mothers showed signs of chronic inflammation marked by persistently elevated IL17RA levels in their blood. Four placentae presented signs of acute inflammation, particularly in the subchorionic region, marked by neutrophil infiltration even though > 50 days had elapsed between virus clearance and delivery. Administration of a single dose of BNT162b2 mRNA vaccine to mothers convalescent from antenatal COVID-19 increased virus-specific IgG and IgA titers in breast milk, highlighting the importance of receiving the vaccine even after natural infection with the added benefit of enhanced passive immunity.

Published

2022

6. ANRIL Promoter DNA Methylation: A Perinatal Marker for Later Adiposity

Author

Karen Lillycrop, Robert Murray, Clara Cheong, Ai Ling Teh, Rebecca Clarke-Harris, Sheila Barton, Paula Costello, Emma Garratt, Eloise Cook, Philip Titcombe, Bhuvaneshwari Shunmuganathan, Samantha J. Liew, Yong-Cai Chua, Xinyi Lin, Yonghui Wu, Graham C. Burdge, Cyrus Cooper, Hazel M. Inskip, Neerja Karnani, James C. Hopkins, Caroline E. Childs, Carolina Paras Chavez, Philip C. Calder, Fabian Yap, Yung Seng Lee, Yap Seng Chong, Philip E. Melton, Lawrie Beilin, Rae-Chi Huang, Peter D. Gluckman, Nick Harvey, Mark A. Hanson, Joanna D. Holbrook, and Keith M. Godfrey

Subjects

DNA methylation, Adiposity, Epigenetic, Medicine, Medicine (General), R5-920

Abstract

Experimental studies show a substantial contribution of early life environment to obesity risk through epigenetic processes. We examined inter-individual DNA methylation differences in human birth tissues associated with child's adiposity. We identified a novel association between the level of CpG methylation at birth within the promoter of the long non-coding RNA ANRIL (encoded at CDKN2A) and childhood adiposity at age 6-years. An association between ANRIL methylation and adiposity was also observed in three additional populations; in birth tissues from ethnically diverse neonates, in peripheral blood from adolescents, and in adipose tissue from adults. Additionally, CpG methylation was associated with ANRIL expression in vivo, and CpG mutagenesis in vitro inhibited ANRIL promoter activity. Furthermore, CpG methylation enhanced binding to an Estrogen Response Element within the ANRIL promoter. Our findings demonstrate that perinatal methylation at loci relevant to gene function may be a robust marker of later adiposity, providing substantial support for epigenetic processes in mediating long-term consequences of early life environment on human health.

Published

2017