Your search keyword '"Chan WOY"' showing total 4 results

1. Application of a bespoke monoclonal antibody panel to characterize immune cell populations in cave nectar bats.

Author

Chen S, Sia WR, Tang LJW, Gamage AM, Chan WOY, Zhu F, Chia W, Kwek MSS, Kong PS, Lim BL, Foo R, Ng WL, Tan AHJ, He S, Loh AYT, Low DHW, Smith GJD, Hong LZ, and Wang LF

Published

2024

2. Application of a bespoke monoclonal antibody panel to characterize immune cell populations in cave nectar bats.

Author

Chen S, Sia WR, Tang LJW, Gamage AM, Chan WOY, Zhu F, Chia W, Kwek MSS, Kong PS, Lim BL, Foo R, Ng WL, Tan AHJ, He S, Loh AYT, Low DHW, Smith GJD, Hong LZ, and Wang LF

Subjects

Animals, Immunophenotyping, Chiroptera immunology, Chiroptera virology, Antibodies, Monoclonal immunology

Abstract

Among their many unique biological features, bats are increasingly recognized as a key reservoir of many emerging viruses that cause massive morbidity and mortality in humans. Bats are capable of harboring many of these deadly viruses without any apparent signs of pathology, in a mechanism known as viral disease tolerance. However, the immunological mechanisms behind viral tolerance remain poorly understood. As a non-model organism species, there are very limited research resources and tools available to study bat immunology. In the cave nectar bat Eonycteris spelaea, we have a panel of monoclonal antibodies (mAbs) against major immune markers. An immunophenotyping survey of major immune compartments and barrier sites using these mAbs reveals differences in the immunological landscape of bats., Competing Interests: Declaration of interests L.-F.W. is a member of Paratus Sciences Corporation’s scientific advisory board. L.-F.W., L.Z.H., and A.Y.T.L. are share option holders of Paratus Sciences Corporation., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

3. Bat ASC2 suppresses inflammasomes and ameliorates inflammatory diseases.

Author

Ahn M, Chen VC, Rozario P, Ng WL, Kong PS, Sia WR, Kang AEZ, Su Q, Nguyen LH, Zhu F, Chan WOY, Tan CW, Cheong WS, Hey YY, Foo R, Guo F, Lim YT, Li X, Chia WN, Sobota RM, Fu NY, Irving AT, and Wang LF

Subjects

Animals, Humans, Mice, COVID-19, SARS-CoV-2, Virus Physiological Phenomena, Apoptosis Regulatory Proteins metabolism, Chiroptera immunology, Inflammasomes immunology, Ribonucleoproteins metabolism, Virus Diseases immunology

Abstract

Bats are special in their ability to live long and host many emerging viruses. Our previous studies showed that bats have altered inflammasomes, which are central players in aging and infection. However, the role of inflammasome signaling in combating inflammatory diseases remains poorly understood. Here, we report bat ASC2 as a potent negative regulator of inflammasomes. Bat ASC2 is highly expressed at both the mRNA and protein levels and is highly potent in inhibiting human and mouse inflammasomes. Transgenic expression of bat ASC2 in mice reduced the severity of peritonitis induced by gout crystals and ASC particles. Bat ASC2 also dampened inflammation induced by multiple viruses and reduced mortality of influenza A virus infection. Importantly, it also suppressed SARS-CoV-2-immune-complex-induced inflammasome activation. Four key residues were identified for the gain of function of bat ASC2. Our results demonstrate that bat ASC2 is an important negative regulator of inflammasomes with therapeutic potential in inflammatory diseases., Competing Interests: Declaration of interests L.-F.W., M.A., and V.C.-W.C. are co-inventors of a patent application based on findings from the study., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

4. Single-cell transcriptome analysis of the in vivo response to viral infection in the cave nectar bat Eonycteris spelaea.

Author

Gamage AM, Chan WOY, Zhu F, Lim YT, Long S, Ahn M, Tan CW, Hiang Foo RJ, Sia WR, Lim XF, He H, Zhai W, Anderson DE, Sobota RM, Dutertre CA, and Wang LF

Subjects

Animals, Plant Nectar, Transcriptome, Single-Cell Analysis, Gene Expression Profiling, Chiroptera genetics, Virus Diseases

Abstract

Bats are reservoir hosts of many zoonotic viruses with pandemic potential. We utilized single-cell transcriptome sequencing (scRNA-seq) to analyze the immune response in bat lungs upon in vivo infection with a double-stranded RNA virus, Pteropine orthoreovirus PRV3M. Bat neutrophils were distinguished by high basal IDO1 expression. NK cells and T cells were the most abundant immune cells in lung tissue. Three distinct CD8 + effector T cell populations could be delineated by differential expression of KLRB1, GFRA2, and DPP4. Select NK and T clusters increased expression of genes involved in T cell activation and effector function early after viral infection. Alveolar macrophages and classical monocytes drove antiviral interferon signaling. Infection expanded a CSF1R + population expressing collagen-like genes, which became the predominant myeloid cell type post-infection. This work uncovers features relevant to viral disease tolerance in bats, lays a foundation for future experimental work, and serves as a resource for comparative immunology studies., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022