Abstract
Direct molecular imaging of nano-spatial relationship between T cell receptor (TCR)/CD3 and CD4 or CD8 co-receptor before and after activation of a primary T cell has not been reported. We have recently innovated application of near-field scanning optical microscopy (NSOM) and immune-labeling quantum dots (QD) to image Ag-specific TCR response during in vivo clonal expansion, and now up-graded the NSOM/QD-based nanotechnology through dipole-polarization and dual-color imaging. Using this imaging system scanning cell-membrane molecules at a best-optical lateral resolution, we demonstrated that CD3, CD4 or CD8 molecules were distinctly distributed as single QD-bound molecules or nano-clusters equivalent to 2–4 QD fluorescence-intensity/size on cell-membrane of un-stimulated primary T cells, and ∼6–10% of CD3 were co-clustering with CD4 or CD8 as 70–110 nm nano-clusters without forming nano-domains. The ligation of TCR/CD3 on CD4 or CD8 T cells led to CD3 nanoscale co-clustering or interaction with CD4 or CD8 co-receptors forming 200–500 nm nano-domains or >500 nm micro-domains. Such nano-spatial co-clustering of CD3 and CD4 or CD3 and CD8 appeared to be an intrinsic event of TCR/CD3 ligation, not purely limited to MHC engagement, and be driven by Lck phosphorylation. Importantly, CD28 co-stimulation remarkably enhanced TCR/CD3 nanoscale co-clustering or interaction with CD4 co-receptor within nano- or micro-domains on the membrane. In contrast, CD28 co-stimulation did not enhance CD8 clustering or CD3–CD8 co-clustering in nano-domains although it increased molecular number and density of CD3 clustering in the enlarged nano-domains. These nanoscale findings provide new insights into TCR/CD3 interaction with CD4 or CD8 co-receptor in T-cell activation.
Highlights
While T cell receptors (TCR) recognize major histocompatibility complex (MHC)-associated peptide complex (MHCp) [1,2,3,4], CD4 or CD8 co-receptor increases the sensitivity of TCR recognition and facilitates TCR/CD3-mediated signaling and T cell activation [5,6,7,8]
CD3, CD4 or CD8 molecules were distinctly distributed as single quantum dots (QD)-bound molecules or nano-clusters on cellmembrane of un-stimulated primary T cells
On cell-surface of un-stimulated CD4 or CD8 T cells,5–8% of CD3 were single QD-bound molecules (Supporting information, Figure S1Ai, Figure S1Aii); most of CD3 molecules were detected as nano-clusters equivalent to 2–4 QD fluorescence-intensity and size (i.e. full width at half maximum (FWHM)) (Supporting information, Figure S1Aii)
Summary
While T cell receptors (TCR) recognize major histocompatibility complex (MHC)-associated peptide complex (MHCp) [1,2,3,4], CD4 or CD8 co-receptor increases the sensitivity of TCR recognition and facilitates TCR/CD3-mediated signaling and T cell activation [5,6,7,8]. Recent studies using microscopy fluorescence resonance energy transfer (FRET) have demonstrated that MHCp engagement of TCR on transfected T hybridoma cells can induce TCR/CD3 interaction (proximity) with CD4 or CD8 co-receptor in the immunologic synapse [15,16], a sustained interaction between TCR/CD3 and coreceptor for achieving or maintaining full T-cell activation has not been directly imaged at nanoscale. In this context, it is not known whether the TCR/CD3-CD4 (CD8) interaction as demonstrated by the FRET can be the intrinsic capability of the TCR/CD3 activation pathway, not purely limited to the MHC engagement. Such intrinsic capability of TCR/CD3 to recruit CD4 or CD8 coreceptor would implicate a positive-feedback or self-enhancing mechanism since strengthening CD3-CD4 interaction upon
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