Abstract

B cells have long been regarded as having the primary duties of promoting immunity by presenting antigen to T cells and producing antibody. More recently it has been appreciated that, similar to the T cell arm of the adaptive immune response, the B cell arm is charged with significant regulatory responsibility. This was first appreciated in experimental autoimmunity models in which the absence of B cells exacerbated disease. In the transplant arena, we first demonstrated a model of transplant tolerance (based on anti-CD45RB antibody therapy) that was dependent on the presence of B cells. Since this finding, a number of investigators have substantiated the generality of this property, showing a similar B cell requirement using other tolerogenic regimens including co-stimulation blockade, anti-TIM-1, and anti-TIM-4, and we recently reported the combination of anti-CD45RB and anti-TIM-1 to behave similarly in more stringent strain combinations. These models provide opportunity to delineate the mechanism of action of Bregs, to examine their role in rejection and tolerance, and to begin to explore their potential as a cellular therapeutic. During the last funding period we made significant progress in defining the in vivo action of Bregs. Some of the key findings that set the stage for the current proposal include that tolerance induced by anti-CD45RB and anti- TIM-1 treatment is B cell dependent and can be adoptively transferred from tolerant hosts to both B cell deficient and immunologically replete untreated mice. We were also the first to report that antibody induced tolerance and adoptive transfer of Breg tolerance is dependent on host Tregs. In addition, we recently determined that in our tolerance model, TGF-? is required for development of tolerance and, specifically, that B cell secretion of TGF-? is essential. This provides a natural link between Bregs and Tregs and will be dissected further in the proposed studies of Aim I. We recently initiate studies of nave B cells activated by TLR ligands that also exhibit graft survival prolonging regulatory properties.
In Aim II, compare the mechanism of action of these cells with those recovered from tolerance hosts. Finally, in Aim III, we begin to explore the potential of in vitro expanded Bregs (eBregs) both to facilitate our mechanistic analyses and to begin to assess the translational potential of Bregs as a means to control alloimmunity and autoimmunity.

Public Health Relevance

A specialized subset of B cells termed Bregs are able to inhibit the immune response to a foreign transplant. Understanding how they work is essential to applying these cells to treat patients. We plan a series of experiments that will help understand the mechanism of action of Bregs in preventing the rejection of organ and tissue transplants.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI057851-14
Application #
9823825
Study Section
Transplantation, Tolerance, and Tumor Immunology Study Section (TTT)
Program Officer
Rice, Jeffrey S
Project Start
2006-01-01
Project End
2022-11-30
Budget Start
2019-12-01
Budget End
2020-11-30
Support Year
14
Fiscal Year
2020
Total Cost
Indirect Cost

  Institution

Name
Massachusetts General Hospital
Department
Type
DUNS #
073130411
City
Boston
State
MA
Country
United States
Zip Code
02114

  Publications

Schuetz, C; Lee, K M; Scott, R et al. (2017) Regulatory B Cell-Dependent Islet Transplant Tolerance Is Also Natural Killer Cell Dependent. Am J Transplant 17:1656-1662
Marino, Jose; Babiker-Mohamed, Mohamed H; Crosby-Bertorini, Patrick et al. (2016) Donor exosomes rather than passenger leukocytes initiate alloreactive T cell responses after transplantation. Sci Immunol 1:
Vergani, Andrea; Gatti, Francesca; Lee, Kang M et al. (2015) TIM4 Regulates the Anti-Islet Th2 Alloimmune Response. Cell Transplant 24:1599-1614
Kim, James I; Rothstein, David M; Markmann, James F (2015) Role of B cells in tolerance induction. Curr Opin Organ Transplant 20:369-75
Wang, Ping; Schuetz, Christian; Vallabhajosyula, Prashanth et al. (2015) Monitoring of Allogeneic Islet Grafts in Nonhuman Primates Using MRI. Transplantation 99:1574-81
Zhao, Gaoping; Moore, Daniel J; Kim, James I et al. (2014) An immunosufficient murine model for the study of human islets. Xenotransplantation 21:567-73
Lee, Kang Mi; Stott, Ryan T; Zhao, Gaoping et al. (2014) TGF-?-producing regulatory B cells induce regulatory T cells and promote transplantation tolerance. Eur J Immunol 44:1728-36
Lee, Kang Mi; Yeh, Heidi; Zhao, Gaoping et al. (2014) B-cell depletion improves islet allograft survival with anti-CD45RB. Cell Transplant 23:51-8
Martins, Paulo Ney Aguiar; Tullius, Stefan G; Markmann, James F (2014) Immunosenescence and immune response in organ transplantation. Int Rev Immunol 33:162-73
Corritore, Elisa; Dugnani, Erica; Pasquale, Valentina et al. (2014) ?-Cell differentiation of human pancreatic duct-derived cells after in vitro expansion. Cell Reprogram 16:456-66

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