Oreste Acuto scite author profile

SummaryT cell antigen receptor (TCR) and coreceptor ligation is thought to initiate signal transduction by inducing activation of the kinase Lck. Here we showed that catalytically active Lck was present in unstimulated naive T cells and thymocytes and was readily detectable in these cells in lymphoid organs. In naive T cells up to ∼40% of total Lck was constitutively activated, part of which was also phosphorylated on the C-terminal inhibitory site. Formation of activated Lck was independent of TCR and coreceptors but required Lck catalytic activity and its maintenance relied on monitoring by the HSP90-CDC37 chaperone complex to avoid degradation. The amount of activated Lck did not change after TCR and coreceptor engagement; however it determined the extent of TCR-ζ phosphorylation. Our findings suggest a dynamic regulation of Lck activity that can be promptly utilized to initiate T cell activation and have implications for signaling by other immune receptors.

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A modified procedure for the rapid preparation of efficiently transporting vesicles from small intestinal brush border membranes. Their use in investigating some properties of d-glucose and choline transport systems

Kessler¹,

Acuto²,

Storelli³

et al. 1978

Biochimica et Biophysica Acta (BBA) - Biomembranes

1,150

397

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Tailoring T-cell receptor signals by proximal negative feedback mechanisms

2008

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The T-cell receptor (TCR) signalling machinery is central in determining the response of a T cell (establishing immunity or tolerance) following exposure to antigen. This process is made difficult by the narrow margin of self and non-self discrimination, and by the complexity of the genetic programmes that are induced for each outcome. Recent studies have identified novel negative feedback mechanisms that are rapidly induced by TCR engagement and that have key roles in the regulation of signal triggering and propagation. In vitro and in vivo data suggest that they are important in determining ligand discrimination by the TCR and in regulating signal output in response to antigen.

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Functional role of T-cell receptor nanoclusters in signal initiation and antigen discrimination

Pageon

Tabarin

Yamamoto

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

194

235

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Antigen recognition by the T-cell receptor (TCR) is a hallmark of the adaptive immune system. When the TCR engages a peptide bound to the restricting major histocompatibility complex molecule (pMHC), it transmits a signal via the associated CD3 complex. How the extracellular antigen recognition event leads to intracellular phosphorylation remains unclear. Here, we used single-molecule localization microscopy to quantify the organization of TCR–CD3 complexes into nanoscale clusters and to distinguish between triggered and nontriggered TCR–CD3 complexes. We found that only TCR–CD3 complexes in dense clusters were phosphorylated and associated with downstream signaling proteins, demonstrating that the molecular density within clusters dictates signal initiation. Moreover, both pMHC dose and TCR–pMHC affinity determined the density of TCR–CD3 clusters, which scaled with overall phosphorylation levels. Thus, TCR–CD3 clustering translates antigen recognition by the TCR into signal initiation by the CD3 complex, and the formation of dense signaling-competent clusters is a process of antigen discrimination.

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Evidence for the T3-associated 90K heterodimer as the T-cell antigen receptor

Meuer

Acuto

Hussey

et al. 1983

Nature

490

227

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Several surface molecules appear to be involved in antigen recognition by human T lymphocytes including the monomorphic 20/25K T3 structure present on all mature T lymphocytes and the subset-specific associative recognition elements, T4 and T8 (refs 1-8). More recently, Ti1, a clonally unique antigen recognition structure comprised of a 49,000 molecular weight (49K) alpha-chain and a 43K beta-chain, linked to T3 was identified on a major histocompatibility complex (MHC) class I specific T8+ T-cell clone, CT8III (ref. 9). To determine whether analogous receptor molecules could be found on other T-cell clones of differing specificity, we produced monoclonal antibodies against a clonal structure (Ti2) on an MHC class II specific T4+ lymphocyte, CT4II, derived from the same donor as CT8III. The Ti2 structure on CT4II is shown here to be a disulphide-linked heterodimer like Ti1 on CT8III and is composed of subunits of similar molecular weight. Monoclonal antibodies against Ti2 or Ti1 block antigen specific functions of the respective clone without showing any cross-reactivity. These findings suggest that each T lymphocyte, regardless of subset derivation or specificity, uses an analogous Ti heterodimer for antigen specific function. The latter is linked to T3 and expressed on the cell surface at an identical density (30,000-40,000 sites per cell).

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Themis sets the signal threshold for positive and negative selection in T-cell development

Casas

Rigaud

et al. 2013

Nature

100

181

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Oreste Acuto

An alternative pathway of T-cell activation: A functional role for the 50 kd T11 sheep erythrocyte receptor protein

CD28-mediated co-stimulation: a quantitative support for TCR signalling

Constitutively Active Lck Kinase in T Cells Drives Antigen Receptor Signal Transduction

A modified procedure for the rapid preparation of efficiently transporting vesicles from small intestinal brush border membranes. Their use in investigating some properties of d-glucose and choline transport systems

Tailoring T-cell receptor signals by proximal negative feedback mechanisms

Functional role of T-cell receptor nanoclusters in signal initiation and antigen discrimination

Evidence for the T3-associated 90K heterodimer as the T-cell antigen receptor

Themis sets the signal threshold for positive and negative selection in T-cell development

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