Belatacept-Resistant Rejection Is Associated With CD28+ Memory CD8 T Cells

D. V. Mathews; W. C. Wakwe; S. C. Kim; M. C. Lowe; C. Breeden; M. E. Roberts; A. B. Farris; E. A. Strobert; J. B. Jenkins; C. P. Larsen; M. L. Ford; R. Townsend; A. B. Adams

doi:10.1111/ajt.14349

Belatacept-Resistant Rejection Is Associated With CD28⁺ Memory CD8 T Cells

D. V. Mathews, W. C. Wakwe, S. C. Kim, M. C. Lowe, C. Breeden, M. E. Roberts, A. B. Farris, E. A. Strobert, J. B. Jenkins, C. P. Larsen, M. L. Ford, R. Townsend, A. B. Adams

Research output: Contribution to journal › Article › peer-review

48 Scopus citations

Abstract

Recently, newer therapies have been designed to more specifically target rejection in an effort to improve efficacy and limit unwanted toxicity. Belatacept, a CD28-CD80/86 specific reagent, is associated with superior patient survival and graft function compared with traditional therapy, but its adoption as a mainstay immunosuppressive therapy has been tempered by increased rejection rates. It is essential that the underlying mechanisms associated with this rejection be elucidated before belatacept is more widely used. To that end, we designed a study in a nonhuman primate kidney transplant model where animals were treated with either a belatacept- or a tacrolimus-based immunosuppressive regimen. Interestingly, we found that elevated pretransplant frequencies of CD28⁺CD8⁺T_EMRA cells are associated with rejection on belatacept but not tacrolimus treatment. Further analysis showed that the CD28⁺CD8⁺T_EMRA cells rapidly lose CD28 expression after transplant in those animals that go on to reject with the allograft infiltrate being predominantly CD28⁻. These data suggest that CD28⁺ memory T cells may be resistant to belatacept, capable of further differentiation including loss of CD28 expression while maintaining effector function. The unique signaling requirements of CD28⁺ memory T cells provide opportunities for the development of targeted therapies, which may synergize with belatacept to prevent costimulation-independent rejection.

Original language	English (US)
Pages (from-to)	2285-2299
Number of pages	15
Journal	American Journal of Transplantation
Volume	17
Issue number	9
DOIs	https://doi.org/10.1111/ajt.14349
State	Published - Sep 2017
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2017 The American Society of Transplantation and the American Society of Transplant Surgeons

Keywords

animal models: nonhuman primate
basic (laboratory) research/science
costimulation
fusion proteins and monoclonal antibodies: belatacept
fusion proteins and monoclonal antibodies: costimulation molecule specific
immunobiology
immunosuppressant
immunosuppression/immune modulation
rejection: T cell mediated (TCMR)

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title = "Belatacept-Resistant Rejection Is Associated With CD28+ Memory CD8 T Cells",

abstract = "Recently, newer therapies have been designed to more specifically target rejection in an effort to improve efficacy and limit unwanted toxicity. Belatacept, a CD28-CD80/86 specific reagent, is associated with superior patient survival and graft function compared with traditional therapy, but its adoption as a mainstay immunosuppressive therapy has been tempered by increased rejection rates. It is essential that the underlying mechanisms associated with this rejection be elucidated before belatacept is more widely used. To that end, we designed a study in a nonhuman primate kidney transplant model where animals were treated with either a belatacept- or a tacrolimus-based immunosuppressive regimen. Interestingly, we found that elevated pretransplant frequencies of CD28+CD8+TEMRA cells are associated with rejection on belatacept but not tacrolimus treatment. Further analysis showed that the CD28+CD8+TEMRA cells rapidly lose CD28 expression after transplant in those animals that go on to reject with the allograft infiltrate being predominantly CD28−. These data suggest that CD28+ memory T cells may be resistant to belatacept, capable of further differentiation including loss of CD28 expression while maintaining effector function. The unique signaling requirements of CD28+ memory T cells provide opportunities for the development of targeted therapies, which may synergize with belatacept to prevent costimulation-independent rejection.",

keywords = "animal models: nonhuman primate, basic (laboratory) research/science, costimulation, fusion proteins and monoclonal antibodies: belatacept, fusion proteins and monoclonal antibodies: costimulation molecule specific, immunobiology, immunosuppressant, immunosuppression/immune modulation, rejection: T cell mediated (TCMR)",

author = "Mathews, {D. V.} and Wakwe, {W. C.} and Kim, {S. C.} and Lowe, {M. C.} and C. Breeden and Roberts, {M. E.} and Farris, {A. B.} and Strobert, {E. A.} and Jenkins, {J. B.} and Larsen, {C. P.} and Ford, {M. L.} and R. Townsend and Adams, {A. B.}",

note = "Publisher Copyright: {\textcopyright} 2017 The American Society of Transplantation and the American Society of Transplant Surgeons",

year = "2017",

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doi = "10.1111/ajt.14349",

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AU - Mathews, D. V.

AU - Wakwe, W. C.

AU - Kim, S. C.

AU - Lowe, M. C.

AU - Breeden, C.

AU - Roberts, M. E.

AU - Farris, A. B.

AU - Strobert, E. A.

AU - Jenkins, J. B.

AU - Larsen, C. P.

AU - Ford, M. L.

AU - Townsend, R.

AU - Adams, A. B.

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AB - Recently, newer therapies have been designed to more specifically target rejection in an effort to improve efficacy and limit unwanted toxicity. Belatacept, a CD28-CD80/86 specific reagent, is associated with superior patient survival and graft function compared with traditional therapy, but its adoption as a mainstay immunosuppressive therapy has been tempered by increased rejection rates. It is essential that the underlying mechanisms associated with this rejection be elucidated before belatacept is more widely used. To that end, we designed a study in a nonhuman primate kidney transplant model where animals were treated with either a belatacept- or a tacrolimus-based immunosuppressive regimen. Interestingly, we found that elevated pretransplant frequencies of CD28+CD8+TEMRA cells are associated with rejection on belatacept but not tacrolimus treatment. Further analysis showed that the CD28+CD8+TEMRA cells rapidly lose CD28 expression after transplant in those animals that go on to reject with the allograft infiltrate being predominantly CD28−. These data suggest that CD28+ memory T cells may be resistant to belatacept, capable of further differentiation including loss of CD28 expression while maintaining effector function. The unique signaling requirements of CD28+ memory T cells provide opportunities for the development of targeted therapies, which may synergize with belatacept to prevent costimulation-independent rejection.

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