B B Niklinska scite author profile

The CD45 protein is a transmembrane tyrosine phosphatase that is required for normal T cell receptor (TCR)-mediated signaling. A chimeric complementary DNA encoding the intracellular enzymatically active portion of murine CD45 preceded by a short amino-terminal sequence from p60 c- src was transfected into CD45- T cells. Expression of this chimeric protein corrected most of the TCR signaling abnormalities observed in the absence of CD45, including TCR-mediated enhancement of tyrosine kinase activity and Ca 2+ flux. Thus, the enzymatically active intracellular portion of CD45 is sufficient to allow TCR transmembrane signaling.

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Structural Mutations of the T Cell Receptor ζ Chain and Its Role in T Cell Activation

Frank

Niklinska

Orloff

et al. 1990

Science

120

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T cell hybridomas that express zeta zeta, but not zeta eta, dimers in their T cell receptors (TCRs) produce interleukin-2 (IL-2) and undergo an inhibition of spontaneous growth when activated by antigen, antibodies to the receptor, or antibodies to Thy-1. Hybridomas without zeta and eta were reconstituted with mutated zeta chains. Cytoplasmic truncations of up to 40% of the zeta molecule reconstituted normal surface assembly of TCRs, but antigen-induced IL-2 secretion and growth inhibition were lost. In contrast, cross-linking antibodies to the TCR activated these cells. A point mutation conferred the same signaling phenotype as did the truncations and caused defective antigen-induced tyrosine kinase activation. Thus zeta allows the binding of antigen/major histocompatibility complex (MHC) to alpha beta to effect TCR signaling.

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The CD45 tyrosine phosphatase regulates phosphotyrosine homeostasis and its loss reveals a novel pattern of late T cell receptor-induced Ca2+ oscillations.

Volarević

Niklinska

Burns

et al. 1992

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SummaryCD45 is a transmembrane tyrosine phosphatase implicated in T cell antigen receptor (TCR)-mediated activation. In T cell variants expressing progressively lower levels of CD45 (from normal to undetectable), CD45 expression was inversely related to spontaneous tyrosine phosphorylation of multiple proteins, including the TCR ~" chain, and was directly correlated with TCR-driven phosphoinositide hydrolysis. The Ca 2+ response in these cells was altered in an unexpected fashion. Unlike wild-type ceUs, stimulated CD45-cell populations did not manifest an early increase in intracellular Ca 2 +, but did exhibit a ddayed and gradual increase in mean intraceUular Ca 2+. Computer-aided fluorescence imaging of individual cells revealed that CD45-cells experienced late Ca 2 + oscillations that were not blocked by removal of extraceUular Ca 2 +. CD45 revertants had the signaling properties of wild-type cells. Thus, CD45 has a profound influence on both TCR-mediated signaling and phosphotyrosine homeostasis, and its loss reveals a novel role for this tyrosine phosphatase in Ca z+ regulation.

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B B Niklinska

Regulation of TCR Signaling by CD45 Lacking Transmembrane and Extracellular Domains

Structural Mutations of the T Cell Receptor ζ Chain and Its Role in T Cell Activation

The CD45 tyrosine phosphatase regulates phosphotyrosine homeostasis and its loss reveals a novel pattern of late T cell receptor-induced Ca2+ oscillations.

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