Abstract: The present invention relates to CTL peptide epitopes, high-throughput methods for their identification, and their uses. In particular, the present invention relates to peptide epitopes for cancer immunotherapy and Hepatitis C Virus vaccines. The present invention also relates to methods and systems for identifying antigen-specific CTLs.

Abstract: The present invention relates to CTL peptide epitopes, high-throughput methods for their identification, and their uses. In particular, the present invention relates to peptide epitopes for cancer immunotherapy and Hepatitis C Virus vaccines. The present invention also relates to methods and systems for identifying antigen-specific CTLs.

Abstract: The present invention relates to CTL peptide epitopes, high-throughput methods for their identification, and their uses. In particular, the present invention relates to peptide epitopes for cancer immunotherapy and Hepatitis C Virus vaccines. The present invention also relates to methods and systems for identifying antigen-specific CTLs.

Abstract: Provided herein is technology relating to treating disease and particularly, but not exclusively, to methods for identifying disease-related antigens by assessing T cell receptor gene frequencies in diseased subjects.

Abstract: The expression of various cell adhesion molecules and growth factor receptor was examined on human progenitor cells (i.e., CD34+/CD38+). Certain changes in the expression if one or more of these molecules and receptors correlates with the progression of cell from non-lineage committed to commitment to a specific lineage. Using one or more markers for these molecules and/or receptors in combination with markers for CD34 and CD38 will enable one to identify and isolate each of the different progenitor cell populations.

Abstract: Dendritic cells (DCs) are the primary antigen presenting cells during the initiation of T cell-dependent immune responses. The cells originate from the bone marrow and have been suggested to represent a distinct cell lineage. However, distinct DC precursors have not been identified in bone marrow, and mature monocytes can also give rise to DCs. The instant invention presents a distinct DC precursor among bone marrow CD34+ cells. The cells express high levels of the interleukin-3 receptor &agr; chain and CD4 and can be uniquely identified also in blood and lymphoid tissues by this phenotype.

Abstract: The present invention demonstrates that M-CSF responsiveness and the M-CSFR expression can be used to discriminate monocytic and granulocytic cells within a population of cells which strongly expresses the CD34 antigen (CD34.sup.hi). Briefly, the method comprises isolating phenotypically and functionally defined CD34.sup.+ subsets, and staining with anti-M-CSFR monoclonal antibodies to measure expression on these primitive progenitors and cells committed to the granulocytic and monocytic lineages, based upon expression of M-CSFR. CD34.sup.hi M-CSFR.sup.hi cells are highly clonogenic and approximately 70% of the colonies are CFU-M (monocytic), whereas less than 20% were CFU-G (granulocytic). In contrast, CD34.sup.hi cells that were positive for the granulo-monocytic marker CD64 and negative for the M-CSFR contained high frequencies of 91% pure CFU-Gs. After 60 h in culture, CD34.sup.hi M-CSFR.sup.hi cells developed into distinct populations of M-CSFR.sup.hi and M-CSFR.sup.lo cells.

Abstract: Dendritic cells (DCs) are the primary antigen presenting cells during the initiation of T cell-dependent immune responses. The cells originate from the bone marrow and have been suggested to represent a distinct cell lineage. However, distinct DC precursors have not been identified in bone marrow, and mature monocytes can also give rise to DCs. The instant invention presents a distinct DC precursor among bone marrow CD34+ cells. The cells express high levels of the interleukin-3 receptor a chain and CD4 and can be uniquely identified also in blood and lymphoid tissues by this phenotype.

Abstract: One or more population of cells enriched for human hematopoietic stem cells is disclosed. HSC in this population of cells are capable of limited self-renewal and are capable of differentiating into all elements of the hematopoietic system. This population of cells has the phenotype of CD34.sup.+ /CD38.sup.- and more preferably CD34.sup.+ /CD38.sup.- /HLA-DR.sup.+. Cells within this population have been found to express CD13, CD33 and CD71. Hematopoietic stem cells can be used in a number of therapies, including autologous transplantation and in gene therapy.