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The mark of T reg cells

Authors
Journal
Journal of Experimental Medicine
0022-1007
Publisher
The Rockefeller University Press
Publication Date
Volume
201
Issue
11
Identifiers
DOI: 10.1084/jem20111iti3
Keywords
  • In This Issue
Disciplines
  • Biology
  • Medicine

Abstract

20111iti IN THIS ISSUE | The Journal of Experimental Medicine 1691 Text by Heather L. Van Epps [email protected] Brain-tethered T cells On page 1805, Kawakami et al. show that antigen-specific CD4 � T cells that attack the brain become stationary within brain tissue, whereas nonspecific T cells cruise through without stopping. These intravital images—the first to capture T cells launching an autoimmune attack on the brain—suggest that antigen- specific T cells behave similarly in dense brain tissue as they do in lymph nodes. Activated CD4 � T cells specific for the endogenous brain protein myelin basic protein (MBP) trigger fatal encephalomyelitis in a rat model of multiple sclerosis. These cells migrate into the central nervous system (CNS) where they become reactivated. Previous studies by this group showed that both antigen-specific and nonspecific T cells gain access to the CNS, but only specific cells become reactivated once there. Kawakami et al. now show that a subset of MBP-specific T cells—likely those that have encountered antigen—stopped moving inside the brain, appearing tethered to a fixed point. T cells specific for a control antigen kept moving, suggesting that the presence of antigen was required for T cells to stop moving and to trigger disease. The authors were surprised to find that T cells move as rapidly through the dense brain tissue as in the more aqueous environment of the lymph nodes. How they do this is not known but the authors suggest that the T cells may produce proteases that help clear a path through the compact tissue. A subset of MBP-specific T cells (green) become stationary in the brain during EAE, presumably after engaging their antigen on antigen-presenting cells (red). Signaling commitment A histone modification thought by many to be a crude bulldozer can contribute to the fine molding of cell behavior, according to a study on page 1825. Rossig et

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