Abstract: A method of measuring immunocompetence is described. This method provides a means for assessing the effects of diseases or conditions that compromise the immune system and of therapies aimed to reconstitute it. This method is based on quantifying T-cell diversity by calculating the number of diverse T-cell receptor (TCR) beta chain variable regions from blood cells.

Abstract: Disclosed are methods for determining the immunological status of the adaptive immune system of a subject by identifying and quantifying rearranged DNA (and/or subsequently transcribed RNA) sequences encoding T cell receptor (TCR) and/or immunoglobulin (IG) polypeptides, in a lymphoid DNA-containing sample from the subject. TCR and/or IG sequence diversity and sequence distribution permit immunocompetence and immune repertoire assessment and reflect the degree of T cell or B cell clonality and clonal expansion in the sample. Methods for stratifying patient populations on the basis of immunocompetence including likelihood of responding to immunotherapy are also described.

Abstract: Methods are provided for identifying T cell receptors that specifically bind a particular antigenic target and can be used as therapeutics against disease.

Abstract: A method of measuring immunocompetence is described. This method provides a means for assessing the effects of diseases or conditions that compromise the immune system and of therapies aimed to reconstitute it. This method is based on quantifying T-cell diversity by calculating the number of diverse T-cell receptor (TCR) beta chain variable regions from blood cells.

Abstract: Methods are provided for predicting a subject's infection status using high-throughput T cell receptor sequencing to match the subject's TCR repertoire to a known set of disease-associated T cell receptor sequences. The methods of the present invention may be used to predict the status of several infectious agents in a single sample from a subject. Methods are also provided for predicting a subject's HLA status using high-throughput immune receptor sequencing.

Abstract: Disclosed are methods for determining the immunological status of the adaptive immune system of a subject by identifying and quantifying rearranged DNA (and/or subsequently transcribed RNA) sequences encoding T cell receptor (TCR) and/or immunoglobulin (IG) polypeptides, in a lymphoid DNA-containing sample from the subject TCR and/or IG sequence diversity and sequence distribution permit immunocompetence and immune repertoire assessment and reflect the degree of T cell or B cell clonality and clerical exspansion in the sample. Methods for stratifying patient populations on the basis of immunocompetence including likelihood of responding to immunotherapy are also described.

Abstract: Methods of monitoring and measuring dynamic adaptive immune cell responses are provided. High-throughput sequencing of T cell receptor and immunoglobulin loci is used to characterize the breadth of an effector cell response to a stimulus, such as a vaccine or infection. Unique responding effector cell clones and abundance thereof can be determined. Additionally, methods for determining the contribution of responding effector cells to the immunological memory compartment are provided.

Abstract: The invention is directed to methods for highly-multiplexed simultaneous detection of nucleic acids encoding paired adaptive immune heterodimers from a large number of biological samples containing lymphocytes of interest. Methods of the invention comprise performing a single pairing assay on a pool of source samples to determine nucleic acids encoding paired cognate receptor heterodimer chains in the combined pool. Separately, single-locus, high-throughput sequencing is performed on each individual sample to determine the plurality of sequences encoding one of the two receptor polypeptide chains. Pairs of cognate sequences determined in the pooled sample may then be mapped back to a single source sample by comparing the expression patterns of the single-locus sequences.

Abstract: Compositions and methods for measuring adaptive immune receptor (T cell receptor and immunoglobulin) diversity are described, and find uses for assessing immunocompetence and other purposes. Means are provided for assessing the effects of diseases or conditions that compromise the immune system and of therapies aimed to reconstitute it. Lymphoid (B- and T-cell) adaptive immune receptor diversity is quantified by calculating the number of uniquely rearranged, CDR3-containing immunoglobulin (Ig) or T-cell receptor (TCR) variable region-encoding genes from sample cells such as blood cells.

Abstract: Methods are described for diagnosis of a lymphoid hematological malignancy in a subject prior to treatment, and for detecting minimal residual disease (MRD) in the subject after treatment for the malignancy, by high throughput quantitative sequencing (HTS) of multiple unique adaptive immune receptor (TCR or Ig) encoding DNA molecules that have been amplified from DNA isolated from blood samples or other lymphoid cell-containing samples. Amplification employs oligonucleotide primer sets designed to amplify CDR3-encoding sequences within substantially all possible human VDJ or VJ combinations. Disease-characteristic adaptive immune receptor clonotypes occur, prior to treatment, at a relative frequency of at least 15-30% of rearranged receptor CDR3-encoding gene regions. Following treatment, persistence of at least one such clonotype at a detectable frequency of at least 10?6 or at least 10?5 receptor CDR3-encoding regions indicates MRD.

Abstract: A method of measuring immunocompetence is described. This method provides a means for assessing the effects of diseases or conditions that compromise the immune system and of therapies aimed to reconstitute it. This method is based on quantifying T-cell diversity by calculating the number of diverse T-cell receptor (TCR) beta chain variable regions from blood cells.

Abstract: Methods are provided for correction of amplification bias and quantitation of adaptive immune cells in a sample using synthetic templates that include random oligonucleotide sequences.

Abstract: Compositions and methods are disclosed for uniquely tagging each rearranged gene segment that encodes a T cell receptor (TCR) and/or an immunoglobulin (Ig), in a DNA (or mRNA or cDNA reverse transcribed therefrom) sample from lymphoid cells. These and related embodiments permit accurate, high throughput quantification of distinct TCR and/or Ig encoding sequences. Also provided are compositions and methods for quantitatively sequencing the genes that encode both chains of a TCR or Ig heterodimer in a single cell, for example, to characterize the degree of T or B cell clonality in a sample.

Abstract: A method of measuring immunocompetence is described. This method provides a means for assessing the effects of diseases or conditions that compromise the immune system and of therapies aimed to reconstitute it. This method is based on quantifying T-cell diversity by calculating the number of diverse T-cell receptor (TCR) beta chain variable regions from blood cells.

Abstract: Compositions and methods are described for highly sensitive quantification of the relative representation of DNA from adaptive immune cells (e.g., T and/or B lymphocytes) in DNA extracted from complex mixtures of cells that include cells which are not adaptive immune cells. Included are methods for determining the relative presence in a tumor of tumor infiltrating lymphocytes (TIL), the relative presence of lymphocytes infiltrating a somatic tissue that is the target of an autoimmune disease, and the relative presence of lymphocytes infiltrating a transplanted organ.

Abstract: Compositions and methods are disclosed for uniquely tagging each rearranged gene segment that encodes a T cell receptor (TCR) and/or an immunoglobulin (Ig), in a DNA (or mRNA or cDNA reverse transcribed therefrom) sample from lymphoid cells. These and related embodiments permit accurate, high throughput quantification of distinct TCR and/or Ig encoding sequences. Also provided are compositions and methods for quantitatively sequencing the genes that encode both chains of a TCR or Ig heterodimer in a single cell, for example, to characterize the degree of T or B cell clonality in a sample.

Abstract: Disclosed are methods for determining the immunological status of the adaptive immune system of a subject by identifying and quantifying rearranged DNA (and/or subsequently transcribed RNA) sequences encoding T cell receptor (TCR) and/or immunoglobulin (IG) polypeptides, in a lymphoid DNA-containing sample from the subject. TCR and/or IG sequence diversity and sequence distribution permit immunocompetence and immune repertoire assessment and reflect the degree of T cell or B cell clonality and clonal expansion in the sample. Methods for stratifying patient populations on the basis of immunocompetence including likelihood of responding to immunotherapy are also described.

Abstract: Compositions and methods are described for highly sensitive quantification of the relative representation of DNA from adaptive immune cells (e.g., T and/or B lymphocytes) in DNA extracted from complex mixtures of cells that include cells which are not adaptive immune cells. Included are methods for determining the relative presence in a tumor of tumor infiltrating lymphocytes (TIL), the relative presence of lymphocytes infiltrating a somatic tissue that is the target of an autoimmune disease, and the relative presence of lymphocytes infiltrating a transplanted organ.

Abstract: Compositions and methods are described for highly sensitive quantification of the relative representation of DNA from adaptive immune cells (e.g., T and/or B lymphocytes) in DNA extracted from complex mixtures of cells that include cells which are not adaptive immune cells. Included are methods for determining the relative presence in a tumor of tumor infiltrating lymphocytes (TIL), the relative presence of lymphocytes infiltrating a somatic tissue that is the target of an autoimmune disease, and the relative presence of lymphocytes infiltrating a transplanted organ.

Abstract: Compositions and methods for measuring adaptive immune receptor (T cell receptor and immunoglobulin) diversity are described, and find uses for assessing immunocompetence and other purposes. Means are provided for assessing the effects of diseases or conditions that compromise the immune system and of therapies aimed to reconstitute it. Lymphoid (B- and T-cell) adaptive immune receptor diversity is quantified by calculating the number of uniquely rearranged. CDR3-containing immunoglobulin (Ig) or T-cell receptor (TCR) variable region-encoding genes from sample cells such as blood cells.