Monitoring Antigen-specific T Cells Using MHC-Ig Dimers
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The lack of high affinity reagents has made distinguishing T cells on the basis of antigen specificity difficult to accomplish. This unit provides protocols that utilize innovations in molecular design to permit construction of soluble multivalent MHC complexes (MHC-Ig dimers) with high avidity for cognate T cell receptors. MHC-Ig dimers display stable binding properties when they interact with antigen-specific T cells thus allowing their use in the staining of antigen-specific T cells by flow cytometry. Methods for constructing and detecting these MHC-Ig dimers are included along with protocols for applying their use for the quantitation of antigen-specific T cells.
Omotoso M, Est-Witte S, Shannon S, Li S, Nair N, Neshat S Biomaterials. 2024; 313:122773.
PMID: 39217794 PMC: 11423771. DOI: 10.1016/j.biomaterials.2024.122773.
Artificial Antigen-Presenting Cell Fabrication for Murine T Cell Expansion.
Omotoso M, Lanis M, Schneck J Curr Protoc. 2024; 4(2):e976.
PMID: 38400601 PMC: 11062398. DOI: 10.1002/cpz1.976.
Ben-Akiva E, Hickey J, Meyer R, Isser A, Shannon S, Livingston N Acta Biomater. 2023; 160:187-197.
PMID: 36812956 PMC: 10335041. DOI: 10.1016/j.actbio.2023.02.023.
MHC multimer: A Molecular Toolbox for Immunologists.
Chang J Mol Cells. 2021; 44(5):328-334.
PMID: 33972472 PMC: 8175149. DOI: 10.14348/molcells.2021.0052.
Rhodes K, Isser A, Hickey J, Ben-Akiva E, Meyer R, Kosmides A ACS Appl Mater Interfaces. 2021; 13(7):7913-7923.
PMID: 33573372 PMC: 8034558. DOI: 10.1021/acsami.0c19955.