Abstract: A method for detecting and quantifying of the frequency of T cells to multiple antigenic peptide epitopes comprising: measuring intracellular Ca2+ signaling in individual T cells that are labeled with Ca2+ sensitive fluorophore; wherein said T cells are placed on the glass bottom of a well-covered with antibodies or other capturing proteins specific for non-stimulatory T cells' surface receptors and wherein a peptide antigens are injected into the well and the peptide binds to MHC molecules on the T-cell surface, wherein an increase in the intracellular concentration of Ca2+ in responding T cells leads to rise in intracellular fluorescence that is detected by fluorescent microscope and wherein the response rate of said detected fluorescence can be utilized to determine the quantity of responding T cells and the efficiency of said cells.

Abstract: A method for detecting and quantifying of the frequency of T cells to multiple antigenic peptide epitopes comprising: measuring intracellular Ca2+ signaling in individual T cells that are labeled with Ca2+ sensitive fluorophore; wherein said T cells are placed on the glass bottom of a well-covered with antibodies or other capturing proteins specific for non-stimulatory T cells' surface receptors and wherein a peptide antigens are injected into the well and the peptide binds to MHC molecules on the T-cell surface, wherein an increase in the intracellular concentration of Ca2+ in responding T cells leads to rise in intracellular fluorescence that is detected by fluorescent microscope and wherein the response rate of said detected fluorescence can be utilized to determine the quantity of responding T cells and the efficiency of said cells.

Abstract: A method for measuring kinetics of Ca2+ flux in differentially responding T cells that form monolayer on the glass surface in response to antigenic peptides or live target cells comprising: immobilizing T cells labeled with Ca2+ sensitive fluorophore on the glass bottom of a well, covered with capturing antibody or a capturing protein that bind to non-stimulatory T-cell surface receptor; adding to the well a single or multiple peptide epitopes that binds to the cell surface MHC molecules to be presented for recognition by cognate T cells; the stimulatory signal could also be delivered by live target cells that display peptide epitope(s); wherein the recognition of stimulatory of pMHC by the peptide specific T cells leads to increase of intracellular Ca2+ level and fluorescence intensity in the responding T cells.

Abstract: A method for detecting and quantifying of the frequency of T cells to multiple antigenic peptide epitopes comprising: measuring intracellular Ca2+ signaling in individual T cells that are labeled with Ca2+ sensitive fluorophore; wherein said T cells are placed on the glass bottom of a well-covered with antibodies or other capturing proteins specific for non-stimulatory T cells' surface receptors and wherein a peptide antigens are injected into the well and the peptide binds to MHC molecules on the T-cell surface, wherein an increase in the intracellular concentration of Ca2+ in responding T cells leads to rise in intracellular fluorescence that is detected by fluorescent microscope and wherein the response rate of said detected fluorescence can be utilized to determine the quantity of responding T cells and the efficiency of said cells.