Nikolai Lissin scite author profile

T cell immunity can potentially eradicate malignant cells and lead to clinical remission in a minority of patients with cancer. In the majority of these individuals, however, there is a failure of the specific T cell receptor (TCR)–mediated immune recognition and activation process. Here we describe the engineering and characterization of new reagents termed immune-mobilizing monoclonal TCRs against cancer (ImmTACs). Four such ImmTACs, each comprising a distinct tumor-associated epitope-specific monoclonal TCR with picomolar affinity fused to a humanized cluster of differentiation 3 (CD3)-specific single-chain antibody fragment (scFv), effectively redirected T cells to kill cancer cells expressing extremely low surface epitope densities. Furthermore, these reagents potently suppressed tumor growth in vivo. Thus, ImmTACs overcome immune tolerance to cancer and represent a new approach to tumor immunotherapy.

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Structural and kinetic basis for heightened immunogenicity of T cell vaccines

Chen

et al. 2005

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Analogue peptides with enhanced binding affinity to major histocompatibility class (MHC) I molecules are currently being used in cancer patients to elicit stronger T cell responses. However, it remains unclear as to how alterations of anchor residues may affect T cell receptor (TCR) recognition. We correlate functional, thermodynamic, and structural parameters of TCR–peptide–MHC binding and demonstrate the effect of anchor residue modifications of the human histocompatibility leukocyte antigens (HLA)–A2 tumor epitope NY–ESO-1157–165–SLLMWITQC on TCR recognition. The crystal structure of the wild-type peptide complexed with a specific TCR shows that TCR binding centers on two prominent, sequential, peptide sidechains, methionine–tryptophan. Cysteine-to-valine substitution at peptide position 9, while optimizing peptide binding to the MHC, repositions the peptide main chain and generates subtly enhanced interactions between the analogue peptide and the TCR. Binding analyses confirm tighter binding of the analogue peptide to HLA–A2 and improved soluble TCR binding. Recognition of analogue peptide stimulates faster polarization of lytic granules to the immunological synapse, reduces dependence on CD8 binding, and induces greater numbers of cross-reactive cytotoxic T lymphocyte to SLLMWITQC. These results provide important insights into heightened immunogenicity of analogue peptides and highlight the importance of incorporating structural data into the process of rational optimization of superagonist peptides for clinical trials.

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Transient association of newly synthesized unfolded proteins with the heat-shock GroEL protein

Bochkareva

Lissin

Girshovich

1988

Nature

402

188

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It has been suggested that newly synthesized proteins are maintained in their unfolded state by cellular ATP-driven factors which may prevent or reverse the formation of misfolded structures or promote the correct assembly of oligomeric proteins or post-translational secretion. Using a photocross-linking approach, we have identified the 20S heat-shock GroEL protein as the major cytosolic component which forms a complex with the unfolded newly synthesized pre-beta-lactamase or chloramphenicol acetyltransferase in Escherichia coli. Dissociation of these complexes is ATP-dependent. The unfolded state of pre-beta-lactamase, maintained by the transient interaction with GroEL, may be essential for the secretion of this protein.

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Structural basis for the killing of human beta cells by CD8+ T cells in type 1 diabetes

et al. 2012

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The structural characteristics of autoreactive-T cell receptor (TCR) engagement of major histocompatability (MHC) class II-restricted self-antigens is established, but how autoimmune-TCRs interact with self-MHC class I has been unclear. We examined how CD8+ T cells kill human islet β-cells, in Type-1 diabetes, via autoreactive-TCR (1E6) recognition of an HLA-A*0201-restricted glucose-sensitive preproinsulin peptide. Rigid ‘lock-and-key’ binding underpinned the 1E6-HLA-A*0201-peptide interaction, whereby 1E6 docked similarly to most MHCI-restricted TCRs. However, this interaction was extraordinarily weak, due to limited contacts with MHCI. TCR binding was highly peptide-centric, dominated by two CDR3-loop-encoded residues, acting as an ‘aromatic-cap’, over the peptide MHCI (pMHCI). Thus, highly focused peptide-centric interactions associated with suboptimal TCR-pMHCI binding affinities might lead to thymic escape and potential CD8+ T cell-mediated autoreactivity.

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Innate-Like Control of Human iNKT Cell Autoreactivity via the Hypervariable CDR3β Loop

et al. 2010

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High Avidity Antigen-Specific CTL Identified by CD8-Independent Tetramer Staining

Choi

Chen

Wooldridge

et al. 2003

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Tetrameric MHC/peptide complexes are important tools for enumerating, phenotyping, and rapidly cloning Ag-specific T cells. It remains however unclear whether they can reliably distinguish between high and low avidity T cell clones. In this report, tetramers with mutated CD8 binding site selectively stain higher avidity human and murine CTL capable of recognizing physiological levels of Ag. Furthermore, we demonstrate that CD8 binding significantly enhances the avidity as well as the stability of interactions between CTL and cognate tetramers. The use of CD8-null tetramers to identify high avidity CTL provides a tool to compare vaccination strategies for their ability to enhance the frequency of high avidity CTL. Using this technique, we show that DNA priming and vaccinia boosting of HHD A2 transgenic mice fail to selectively expand large numbers of high avidity NY-ESO-1157–165-specific CTL, possibly due to the large amounts of antigenic peptide delivered by the vaccinia virus. Furthermore, development of a protocol for rapid identification of high avidity human and murine T cells using tetramers with impaired CD8 binding provides an opportunity not only to monitor expansion of high avidity T cell responses ex vivo, but also to sort high avidity CTL clones for adoptive T cell transfer therapy.

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(Mg–ATP)-dependent self-assembly of molecular chaperone GroEL

Lissin

Venyaminov

Girshovich

1990

Nature

130

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The important Escherichia coli heat-shock protein GroEL of relative molecular mass 57,259 is a typical molecular chaperone. It possesses ATPase activity and interacts in ATP-driven reactions with non-folded proteins to stimulate their correct folding and/or assembly by preventing the formation of improper protein structures or aggregates. As GroEL is isolated and functions as a 20-25S tetradecameric particle (GroELp), the question arises--what is the mechanism of its own assembly? Here we show the (Mg-ATP)-dependent self-stimulation ('self-chaperoning') in vitro of GroELp reassembly from its monomeric state.

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Structure and binding kinetics of three different human CD1d–α-galactosylceramide–specific T cell receptors

Gadola

Koch

Marles‐Wright

et al. 2006

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Invariant human TCR Vα24-Jα18+/Vβ11+ NKT cells (iNKT) are restricted by CD1d–α-glycosylceramides. We analyzed crystal structures and binding characteristics for an iNKT TCR plus two CD1d–α-GalCer–specific Vβ11+ TCRs that use different TCR Vα chains. The results were similar to those previously reported for MHC–peptide-specific TCRs, illustrating the versatility of the TCR platform. Docking TCR and CD1d–α-GalCer structures provided plausible insights into their interaction. The model supports a diagonal orientation of TCR on CD1d and suggests that complementarity determining region (CDR)3α, CDR3β, and CDR1β interact with ligands presented by CD1d, whereas CDR2β binds to the CD1d α1 helix. This docking provides an explanation for the dominant usage of Vβ11 and Vβ8.2 chains by human and mouse iNKT cells, respectively, for recognition of CD1d–α-GalCer.

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Nikolai Lissin

Monoclonal TCR-redirected tumor cell killing

Structural and kinetic basis for heightened immunogenicity of T cell vaccines

Transient association of newly synthesized unfolded proteins with the heat-shock GroEL protein

Structural basis for the killing of human beta cells by CD8+ T cells in type 1 diabetes

Innate-Like Control of Human iNKT Cell Autoreactivity via the Hypervariable CDR3β Loop

High Avidity Antigen-Specific CTL Identified by CD8-Independent Tetramer Staining

(Mg–ATP)-dependent self-assembly of molecular chaperone GroEL

Structure and binding kinetics of three different human CD1d–α-galactosylceramide–specific T cell receptors

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