OBJECTIVE: To determine at the phenotypic, functional, and transcriptional levels whether abatacept, a CTLA-4Ig molecule that binds with high affinity to CD80/86 on antigen-presenting cells (APCs) and is used to treat rheumatoid arthritis, induces a state of immunologic tolerance in T cells and dendritic cells in mice. METHODS: We investigated the capacity of abatacept to regulate the development of antigen-specific immunologic tolerance in vivo using murine models of priming and tolerance to generate highly purified antigen-specific T cell populations and CD11c+ APCs. These were combined with detailed immunologic and full genome transcriptional analyses. RESULTS: We found that abatacept inhibited T cell activation, but did not render T cells anergic or lead to the generation of Treg cells. However, it induced a sustained inhibition of T cell activation due to the inability of these cells to progress through the cell cycle following T cell receptor stimulation. We also observed that this state was accompanied by an inhibition of dendritic cell activation due to their reduced licensing by T cells. CONCLUSION: This study provides detailed insight into the mode of action of abatacept, demonstrating that its effectiveness is not due to the induction of T cell tolerance, but rather to a sustained inhibition of T cell activation that results in reduced functionality of APCs, with significant implications for its clinical application.
OBJECTIVE: To determine at the phenotypic, functional, and transcriptional levels whether abatacept, a CTLA-4Ig molecule that binds with high affinity to CD80/86 on antigen-presenting cells (APCs) and is used to treat rheumatoid arthritis, induces a state of immunologic tolerance in T cells and dendritic cells in mice. METHODS: We investigated the capacity of abatacept to regulate the development of antigen-specific immunologic tolerance in vivo using murine models of priming and tolerance to generate highly purified antigen-specific T cell populations and CD11c+ APCs. These were combined with detailed immunologic and full genome transcriptional analyses. RESULTS: We found that abatacept inhibited T cell activation, but did not render T cells anergic or lead to the generation of Treg cells. However, it induced a sustained inhibition of T cell activation due to the inability of these cells to progress through the cell cycle following T cell receptor stimulation. We also observed that this state was accompanied by an inhibition of dendritic cell activation due to their reduced licensing by T cells. CONCLUSION: This study provides detailed insight into the mode of action of abatacept, demonstrating that its effectiveness is not due to the induction of T cell tolerance, but rather to a sustained inhibition of T cell activation that results in reduced functionality of APCs, with significant implications for its clinical application.
Authors: Joseph R Podojil; Iris Hecht; Ming-Yi Chiang; Ilan Vaknin; Inbal Barbiro; Amit Novik; Eyal Neria; Galit Rotman; Stephen D Miller Journal: J Immunol Date: 2018-02-05 Impact factor: 5.422
Authors: Maja Wallberg; Asha Recino; Jenny Phillips; Duncan Howie; Margaux Vienne; Christopher Paluch; Miyuki Azuma; F Susan Wong; Herman Waldmann; Anne Cooke Journal: Immunology Date: 2017-03-16 Impact factor: 7.397
Authors: Lei Qin; Tayab C Waseem; Anupama Sahoo; Shayahati Bieerkehazhi; Hong Zhou; Elena V Galkina; Roza Nurieva Journal: Front Immunol Date: 2018-08-15 Impact factor: 7.561
Authors: Somnath Bandyopadhyay; Sean E Connolly; Omar Jabado; June Ye; Sheila Kelly; Michael A Maldonado; Rene Westhovens; Peter Nash; Joan T Merrill; Robert M Townsend Journal: Lupus Sci Med Date: 2017-07-28