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Citations to this article

CRK proteins selectively regulate T cell migration into inflamed tissues
Yanping Huang, … , Taku Kambayashi, Janis K. Burkhardt
Yanping Huang, … , Taku Kambayashi, Janis K. Burkhardt
Published January 26, 2015
Citation Information: J Clin Invest. 2015;125(3):1019-1032. https://doi.org/10.1172/JCI77278.
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Research Article Immunology

CRK proteins selectively regulate T cell migration into inflamed tissues

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Abstract

Effector T cell migration into inflamed sites greatly exacerbates tissue destruction and disease severity in inflammatory diseases, including graft-versus-host disease (GVHD). T cell migration into such sites depends heavily on regulated adhesion and migration, but the signaling pathways that coordinate these functions downstream of chemokine receptors are largely unknown. Using conditional knockout mice, we found that T cells lacking the adaptor proteins CRK and CRK-like (CRKL) exhibit reduced integrin-dependent adhesion, chemotaxis, and diapedesis. Moreover, these two closely related proteins exhibited substantial functional redundancy, as ectopic expression of either protein rescued defects in T cells lacking both CRK and CRKL. We determined that CRK proteins coordinate with the RAP guanine nucleotide exchange factor C3G and the adhesion docking molecule CASL to activate the integrin regulatory GTPase RAP1. CRK proteins were required for effector T cell trafficking into sites of inflammation, but not for migration to lymphoid organs. In a murine bone marrow transplantation model, the differential migration of CRK/CRKL-deficient T cells resulted in efficient graft-versus-leukemia responses with minimal GVHD. Together, the results from our studies show that CRK family proteins selectively regulate T cell adhesion and migration at effector sites and suggest that these proteins have potential as therapeutic targets for preventing GVHD.

Authors

Yanping Huang, Fiona Clarke, Mobin Karimi, Nathan H. Roy, Edward K. Williamson, Mariko Okumura, Kazuhiro Mochizuki, Emily J.H. Chen, Tae-Ju Park, Gudrun F. Debes, Yi Zhang, Tom Curran, Taku Kambayashi, Janis K. Burkhardt

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