Dieter Naeher scite author profile

Summary In the thymus, high affinity, self-reactive thymocytes are eliminated from the pool of developing T cells, generating central tolerance. Here, we investigate how developing T cells measure self-antigen affinity. We show that very few CD4 or CD8 coreceptor molecules are coupled with the signal-initiating kinase, Lck. To initiate signaling, an antigen engaged T cell receptor (TCR) scans multiple coreceptor molecules to find one that is coupled to Lck. Coreceptor scanning is the first and rate-limiting step in a kinetic proofreading chain of events that eventually leads to TCR triggering and negative selection. MHCII-restricted TCRs require a shorter antigen dwell time (~0.2s) to initiate negative selection compared to MHCI restricted TCRs (~0.9s) because more CD4 coreceptors are Lck-loaded compared to CD8. Based on experimental data and mathematical analysis, we generated a model (Lck come&stay/signal duration) that accurately predicts the experimentally observed differences in antigen dwell-time thresholds used by MHCI- and MHCII-restricted thymocytes to initiate negative selection and generate self-tolerance.

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Signaling Life and Death in the Thymus: Timing Is Everything

Werlen

Hausmann

Naeher

et al. 2003

Science

232

191

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T lymphocytes are generated in the thymus, where developing thymocytes must accept one of two fates: They either differentiate or they die. These fates are chiefly determined by signals that originate from the T cell receptor (TCR), a single receptor complex with a remarkable capacity to decide between distinct cell fates. This review explores TCR signaling in thymocytes and focuses on the kinetic aspects of ligand binding, coreceptor involvement, protein phosphorylation, and mitogen-activated protein kinase (MAPK) activation. Understanding the logic of TCR signaling may eventually explain how thymocytes and T cells distinguish self from nonself, a phenomenon that has fascinated immunologists for 50 years.

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A constant affinity threshold for T cell tolerance

et al. 2007

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T cell tolerance depends on the T cell receptor's affinity for peptide/major histocompatibility complex (MHC) ligand; this critical parameter determines whether a thymocyte will be included (positive selection) or excluded (negative selection) from the T cell repertoire. A quantitative analysis of ligand binding was performed using an experimental system permitting receptor–coreceptor interactions on live cells under physiological conditions. Using three transgenic mouse strains expressing distinct class I MHC–restricted T cell receptors, we determined the affinity that defines the threshold for negative selection. The affinity threshold for self-tolerance appears to be a constant for cytotoxic T lymphocytes.

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Affinity threshold for thymic selection through a T-cell receptor–co-receptor zipper

2009

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The affinity of the T-cell receptor (TCR) for self antigen is the basis for the selection of a useful (MHC-restricted) and safe (self-tolerant) T-cell repertoire. However, it has been difficult to understand how thymocytes measure ligand affinity and translate this signal into a cellular response. In this Opinion article, we propose a new model that describes how the TCR discriminates between low- and high-affinity ligands, which is based on the duration of TCR-ligand interactions and a 'zipper' mechanism that mediates the interaction of the TCR and co-receptor molecules to initiate negative-selection signalling.

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Dieter Naeher

Coreceptor Scanning by the T Cell Receptor Provides a Mechanism for T Cell Tolerance

Signaling Life and Death in the Thymus: Timing Is Everything

A constant affinity threshold for T cell tolerance

Affinity threshold for thymic selection through a T-cell receptor–co-receptor zipper

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