Your search keyword '"Mak, Jeffrey Y. W."' showing total 6 results

1. Sulfated bile acid is a host-derived ligand for MAIT cells.

Author

Ito, Emi, Inuki, Shinsuke, Izumi, Yoshihiro, Takahashi, Masatomo, Dambayashi, Yuki, Ciacchi, Lisa, Awad, Wael, Takeyama, Ami, Shibata, Kensuke, Mori, Shotaro, Mak, Jeffrey Y. W., Fairlie, David P., Bamba, Takeshi, Ishikawa, Eri, Nagae, Masamichi, Rossjohn, Jamie, and Yamasaki, Sho

Subjects

BILE acids, T cell receptors, CHOLIC acid, CELL physiology, BACTERIAL metabolites, VITAMIN B complex, DEOXYCHOLIC acid

Abstract

Mucosal-associated invariant T (MAIT) cells are innate-like T cells that recognize bacterial riboflavin–based metabolites as activating antigens. Although MAIT cells are found in tissues, it is unknown whether any host tissue–derived antigens exist. Here, we report that a sulfated bile acid, cholic acid 7-sulfate (CA7S), binds the nonclassical MHC class I protein MR1 and is recognized by MAIT cells. CA7S is a host-derived metabolite whose levels were reduced by more than 98% in germ-free mice. Deletion of the sulfotransferase 2a family of enzymes (Sult2a1-8) responsible for CA7S synthesis reduced the number of thymic MAIT cells in mice. Moreover, recognition of CA7S induced MAIT cell survival and the expression of a homeostatic gene signature. By contrast, recognition of a previously described foreign antigen, 5-(2-oxopropylideneamino)-6-d-ribitylaminouracil (5-OP-RU), drove MAIT cell proliferation and the expression of inflammatory genes. Thus, CA7S is an endogenous antigen for MAIT cells, which promotes their development and function. Editor's summary: Mucosal-associated invariant T (MAIT) cells are an innate-like T cell subset important for mucosal homeostasis, which recognize microbiota-derived vitamin B metabolites presented by the MHC-Ib molecule MR1. It is unclear, however, whether any host-derived ligands are also important for MAIT cell function and survival. Ito et al. report that the host-derived bile acid metabolite cholic acid 7-sulfate (CA7S) binds MR1 and is recognized by MAIT cells in mice. Moreover, genetic deletion of sulfotransferase 2a enzymes (Sult2a1-8) needed for its synthesis in mice reduced thymic MAIT cell numbers. A previously characterized vitamin B metabolite, 5-OP-RU, triggered human MAIT cell proliferation and the expression of inflammatory genes. By contrast, CA7S promoted human MAIT cell survival and a gene program associated with wound healing and immunoregulation. —Seth Thomas Scanlon [ABSTRACT FROM AUTHOR]

Published

2024

2. Absence of mucosal-associated invariant T cells in a person with a homozygous point mutation in MR1.

Author

Howson, Lauren J., Awad, Wael, von Borstel, Anouk, Lim, Hui Jing, McWilliam, Hamish E. G., Sandoval-Romero, Maria L., Majumdar, Shamik, Hamzeh, Abdul Rezzak, Andrews, Thomas D., McDermott, David H., Murphy, Philip M., Le Nours, Jérôme, Mak, Jeffrey Y. W., Liu, Ligong, Fairlie, David P., McCluskey, James, Villadangos, Jose A., Cook, Matthew C., Turner, Stephen J., and Davey, Martin S.

Abstract

A human immune system sans MAITs: Here, Howson et al. set out to determine the genetic basis of immunodeficiency in a patient with persistent tattoo-associated human papilloma virus–positive warts. Whole-exome sequencing led them to identify a rare point mutation Arg31His (R9H in the mature protein) in both copies of the MR1 gene. MR1 encodes an MHC-like molecule that presents bacteria-derived riboflavin metabolites to mucosal-associated invariant T (MAIT) cells. MAIT cells represent ~5% of circulating human T cells. MAIT cells reside in high frequency in mucosal tissues and provide enhanced immunity against bacterial and viral infections. By solving the structure of the MR1-R9H mutant, they demonstrate that this mutation disrupted the ligand-binding domain of MR1. Consistent with this finding, the individual lacked circulating MAIT cells. The role unconventional T cells play in protective immunity in humans is unclear. Mucosal-associated invariant T (MAIT) cells are an unconventional T cell subset restricted to the antigen-presenting molecule MR1. Here, we report the discovery of a patient homozygous for a rare Arg31His (R9H in the mature protein) mutation in MR1 who has a history of difficult-to-treat viral and bacterial infections. MR1R9H was unable to present the potent microbially derived MAIT cell stimulatory ligand. The MR1R9H crystal structure revealed that the stimulatory ligand cannot bind due to the mutation lying within, and causing structural perturbation to, the ligand-binding domain of MR1. While MR1R9H could bind and be up-regulated by a MAIT cell inhibitory ligand, the patient lacked circulating MAIT cells. This shows the importance of the stimulatory ligand for MAIT cell selection in humans. The patient had an expanded γδ T cell population, indicating a compensatory interplay between these unconventional T cell subsets. [ABSTRACT FROM AUTHOR]

Published

2020

3. IL-23 costimulates antigen-specific MAIT cell activation and enables vaccination against bacterial infection.

Author

Huimeng Wang, Kjer-Nielsen, Lars, Mai Shi, D’Souza, Criselle, Pediongco, Troi J., Hanwei Cao, Kostenko, Lyudmila, Xin Yi Lim, Eckle, Sidonia B. G., Meehan, Bronwyn S., Tianyuan Zhu, Bingjie Wang, Zhe Zhao, Mak, Jeffrey Y. W., Fairlie, David P., Teng, Michele W. L., Rossjohn, Jamie, Di Yu, de St Groth, Barbara Fazekas, and Lovrecz, George

Abstract

Mucosal-associated invariant T (MAIT) cells are activated in a TCR-dependent manner by antigens derived from the riboflavin synthesis pathway, including 5-(2-oxopropylideneamino)-6-d-ribitylaminouracil (5-OP-RU), bound to MHC-related protein-1 (MR1). However, MAIT cell activation in vivo has not been studied in detail. Here, we have found and characterized additional molecular signals required for optimal activation and expansion of MAIT cells after pulmonary Legionella or Salmonella infection in mice. We show that either bone marrow–derived APCs or non–bone marrow–derived cells can activate MAIT cells in vivo, depending on the pathogen. Optimal MAIT cell activation in vivo requires signaling through the inducible T cell costimulator (ICOS), which is highly expressed on MAIT cells. Subsequent expansion and maintenance of MAIT-17/1-type responses are dependent on IL-23. Vaccination with IL-23 plus 5-OP-RU augments MAIT cell–mediated control of pulmonary Legionella infection. These findings reveal cellular and molecular targets for manipulating MAIT cell function under physiological conditions. [ABSTRACT FROM AUTHOR]

Published

2019

4. MAIT cell activation and recruitment in inflammation and tissue damage in acute appendicitis.

Author

Yichao Zheng, Fei Han, Zhengyu Wu, Bingjie Wang, Xingchi Chen, Boulouis, Caroline, Yuebin Jiang, Ho, Amanda, Dan He, Wan Rong Sia, Mak, Jeffrey Y. W., Fairlie, David P., Lin-Fa Wang, Sandberg, Johan K., Lobie, Peter E., Shaohua Ma, and Leeansyah, Edwin

Subjects

*APPENDICITIS, *MUCOUS membranes, *INFLAMMATION, *CHEMOKINE receptors, *T cells, *TISSUES

Abstract

Mucosal-associated invariant T (MAIT) cells are antimicrobial T cells abundant in the gut, but mechanisms for their migration into tissues during inflammation are poorly understood. Here, we used acute pediatric appendicitis (APA), a model of acute intestinal inflammation, to examine these migration mechanisms. MAIT cells were lower in numbers in circulation of patients with APA but were enriched in the inflamed appendix with increased production of proinflammatory cytokines. Using the patient-derived appendix organoid (PDAO) model, we found that circulating MAIT cells treated with inflammatory cytokines elevated in APA up-regulated chemokine receptors, including CCR1, CCR3, and CCR4. They exhibited enhanced infiltration of Escherichia coli-pulsed PDAO in a CCR1-, CCR2-, and CCR4-dependent manner. Close interactions of MAIT cells with infected organoids led to the PDAO structural destruction and death. These findings reveal a previously unidentified mechanism of MAIT cell tissue homing, their participation in tissue damage in APA, and their intricate relationship with mucosal tissues during acute intestinal inflammation in humans. [ABSTRACT FROM AUTHOR]

Published

2024

5. MAIT cell activation and recruitment in inflammation and tissue damage in acute appendicitis.

Author

Zheng Y, Han F, Wu Z, Wang B, Chen X, Boulouis C, Jiang Y, Ho A, He D, Sia WR, Mak JYW, Fairlie DP, Wang LF, Sandberg JK, Lobie PE, Ma S, and Leeansyah E

Subjects

Humans, Cytokines metabolism, Acute Disease, Lymphocyte Activation immunology, Organoids, Cell Movement, Child, Male, Female, Intestinal Mucosa pathology, Intestinal Mucosa immunology, Intestinal Mucosa metabolism, Appendix pathology, Appendix immunology, Appendicitis pathology, Appendicitis immunology, Mucosal-Associated Invariant T Cells immunology, Mucosal-Associated Invariant T Cells metabolism, Inflammation pathology, Inflammation immunology, Inflammation metabolism

Abstract

Mucosal-associated invariant T (MAIT) cells are antimicrobial T cells abundant in the gut, but mechanisms for their migration into tissues during inflammation are poorly understood. Here, we used acute pediatric appendicitis (APA), a model of acute intestinal inflammation, to examine these migration mechanisms. MAIT cells were lower in numbers in circulation of patients with APA but were enriched in the inflamed appendix with increased production of proinflammatory cytokines. Using the patient-derived appendix organoid (PDAO) model, we found that circulating MAIT cells treated with inflammatory cytokines elevated in APA up-regulated chemokine receptors, including CCR1, CCR3, and CCR4. They exhibited enhanced infiltration of Escherichia coli -pulsed PDAO in a CCR1-, CCR2-, and CCR4-dependent manner. Close interactions of MAIT cells with infected organoids led to the PDAO structural destruction and death. These findings reveal a previously unidentified mechanism of MAIT cell tissue homing, their participation in tissue damage in APA, and their intricate relationship with mucosal tissues during acute intestinal inflammation in humans.

Published

2024

6. IL-23 costimulates antigen-specific MAIT cell activation and enables vaccination against bacterial infection.

Author

Wang H, Kjer-Nielsen L, Shi M, D'Souza C, Pediongco TJ, Cao H, Kostenko L, Lim XY, Eckle SBG, Meehan BS, Zhu T, Wang B, Zhao Z, Mak JYW, Fairlie DP, Teng MWL, Rossjohn J, Yu D, de St Groth BF, Lovrecz G, Lu L, McCluskey J, Strugnell RA, Corbett AJ, and Chen Z

Subjects

Animals, Mice, Mice, Inbred C57BL, Mice, Knockout, Vaccination, Antigens, Bacterial immunology, Interleukin-23 immunology, Legionella immunology, Legionnaires' Disease immunology, Mucosal-Associated Invariant T Cells immunology

Abstract

Mucosal-associated invariant T (MAIT) cells are activated in a TCR-dependent manner by antigens derived from the riboflavin synthesis pathway, including 5-(2-oxopropylideneamino)-6-d-ribitylaminouracil (5-OP-RU), bound to MHC-related protein-1 (MR1). However, MAIT cell activation in vivo has not been studied in detail. Here, we have found and characterized additional molecular signals required for optimal activation and expansion of MAIT cells after pulmonary Legionella or Salmonella infection in mice. We show that either bone marrow-derived APCs or non-bone marrow-derived cells can activate MAIT cells in vivo, depending on the pathogen. Optimal MAIT cell activation in vivo requires signaling through the inducible T cell costimulator (ICOS), which is highly expressed on MAIT cells. Subsequent expansion and maintenance of MAIT-17/1-type responses are dependent on IL-23. Vaccination with IL-23 plus 5-OP-RU augments MAIT cell-mediated control of pulmonary Legionella infection. These findings reveal cellular and molecular targets for manipulating MAIT cell function under physiological conditions., (Copyright © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2019