Abstract
The pre-T cell receptor (pre-TCR) is a pTα-β heterodimer functioning in early αβ T cell development. Although once thought to be ligand-autonomous, recent studies show that pre-TCRs participate in thymic repertoire formation through recognition of peptides bound to major histocompatibility molecules (pMHC). Using optical tweezers, we probe pre-TCR bonding with pMHC at the single molecule level. Like the αβTCR, the pre-TCR is a mechanosensor undergoing force-based structural transitions that dynamically enhance bond lifetimes and exploiting allosteric control regulated via the Cβ FG loop region. The pre-TCR structural transitions exhibit greater reversibility than TCRαβ and ordered force-bond lifetime curves. Higher piconewton force requires binding through both complementarity determining region loops and hydrophobic Vβ patch apposition. This patch functions in the pre-TCR as a surrogate Vα domain, fostering ligand promiscuity to favor development of β chains with self-reactivity but is occluded by α subunit replacement of pTα upon αβTCR formation. At the double negative 3 thymocyte stage where the pre-TCR is first expressed, pre-TCR interaction with self-pMHC ligands imparts growth and survival advantages as revealed in thymic stromal cultures, imprinting fundamental self-reactivity in the T cell repertoire. Collectively, our data imply the existence of sequential mechanosensor αβTCR repertoire tuning via the pre-TCR.
Highlights
The pre-T cell receptor is a pT␣- heterodimer functioning in early ␣ T cell development
The liganddependent pre-T cell receptors (TCRs) pathway operates in parallel with mechanisms that foster “tonic” developmental progression [12], 4 The abbreviations used are: TCR, T cell receptor; pre-TCR, pre-T cell receptor; pN, piconewton; DN3, double negative 3; CDR, complementarity determining region; DN, double negative; SM, single molecule; Worm-like chain (WLC), worm-like chain; LZ, leucine zipper; ssDNA, single-stranded DNA; PDB, Protein Data Bank; OVA, ovalbumin; DP, double positive
Pre-TCR Shares Ligand Recognition Features with TCR—The pre-TCR heterodimer has an unpaired V domain and an exposed hydrophobic patch, whereas the TCR␣ heterodimer comprises a paired V module that occludes the patch (Fig. 1A)
Summary
The pre-T cell receptor (pre-TCR) is a pT␣- heterodimer functioning in early ␣ T cell development. Given that the ␣TCR has been shown to function as a mechanosensor (Ref. 27 and references therein) and the preTCR shares many structural features, we here used single molecule (SM) analysis to reveal that the pre-TCR apparatus employs similar dynamic bond strengthening under load involving structural transition and allosteric control to pretune  chain function prior to that of the ␣TCR. There are reversible structural rearrangements necessary for strengthened binding under force, a long soughtafter conformational change accompanying pMHC ligation, revealed with techniques targeted to a receptor evolved to leverage the dynamic nature of a mature T cell or progenitor scanning its environment This conformational change is essential for determining receptor specificity in both TCR and pre-TCR
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