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A Rapid Method of Isolating Neoantigen-specific T Cell Receptor Sequences

Recent research has demonstrated that neoantigen-specific T-cell receptors (TCRs) can be isolated from a cancer patient’s lymphocytes. These TCRs may be used to engineer populations of tumor-reactive T cells for cancer immunotherapies. Obtaining sequences of these functional TCRs is a critical initial step in preparing this type of personalized cancer treatment; however, current methods are time-consuming and labor-intensive. Scientists at the National Cancer Institute (NCI) have developed a rapid and robust method of isolating the sequences of mutation-specific TCRs to alleviate these issues; they seek licensing and/or co-development research collaborations for the development of a method for isolating the sequences of tumor-reactive TCRs. For collaboration opportunities, please contact Steven A. Rosenberg, M.D., Ph.D. at sar@nih.gov.

A Rabbit Anti-pT1989 ATR Monoclonal Antibody for Use in Immunoassays

Researchers at the National Cancer Institute (NCI) have developed a monoclonal antibody against ataxia telangiectasia-mutated and Rad3-related (ATR) kinase phosphorylated at threonine 1989. The antibody can be used for pharmacodynamic assays to quantify drug action on the ATR target.

A peptide hydrogel for use in vascular anastomosis

Surgery specialists from Johns Hopkins University, in collaboration with researchers at the National Cancer Institute (NCI), developed peptide hydrogel compositions and methods to suture blood vessels during microsurgery. The hydrogels particularly benefit surgeons in whole tissue transplant procedures. The NCI seeks co-development research collaborations for further development of this technology.

A Novel Transgenic Zebrafish Line Reporting Dynamic Epigenetic Changes

The Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD) seeks licensees for a novel “EpiTag” epigenetic reporter transgenic zebrafish line that provides a versatile and powerful whole-animal platform for visualizing and assessing the effects of mutants, experimental treatments, or chemical compounds targeting epigenetic regulation as well as studying epigenetic regulation of global- or tissue-specific gene expression during development.

A Novel Genetically Encoded Inhibitor of Hippo Signaling Pathway to Study YAP1/TAZ-TEAD Dependent Events in Cancer

The Hippo signaling pathway is one of the most frequently altered pathways in human cancer. Researchers at the National Cancer Institute (NCI) have developed a genetically encoded peptide inhibitor of the Hippo signaling pathway members YAP1/TAZ-TEAD, to dissect and study the specific TEAD-downstream regulatory gene expression networks of cell proliferation, tissue homeostasis, and stem cell functions in different cell types and pathologies. The DNA construct encoding this inhibitor may be delivered to cells using lentivirus, adenovirus, or adeno-associated virus, and is a valuable research tool. NCI seeks licensees for this peptide inhibitor and the encoding DNA construct.

A New Class of Stable Heptamethine Cyanine Fluorophores and Biomedical Applications Thereof

Researchers at the National Cancer Institute (NCI) have developed an improved class of heptamethine cyanine fluorophore dyes useful for imaging applications in the near-IR range (750-850 nm). A new chemical reaction has been developed that provides easy access to novel molecules with improved properties. Specifically, the dyes display greater resistance to thiol nucleophiles, and are more robust while maintaining excellent optical properties. The dyes have been successfully employed in various in vivo imaging applications and in vitro labeling and microscopy applications. The NCI seek co-development or licensees to develop them as targetable agents for optical-guided surgical interventions.

A Gene-Based Prognostic for Hepatocellular Carcinoma Patient Response to Adjuvant Transcatheter Arterial Chemoembolization

The gold standard of care for hepatocellular carcinoma patients with intermediate- to locally advanced tumors is transcatheter arterial chemoembolization (TACE), a procedure whereby the tumor is targeted both with local chemotherapy and restriction of local blood supply. NCI scientists have identified a 14-gene signature predictive of response to TACE, and NCI seeks licensees or co-development partners to develop the technology toward commercialization.

3D Image Rendering Softwarefor Biological Tissues

The Frederick National Laboratory for Cancer Research seeks parties interested in collaborative research to co-develop software for the automatic 3-D visualization of biological image volumes.

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