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Phosphodiesterase as a target for cancer therapeutics

Investigators at the National Cancer Institute have discovered fluoroquinolone derivatives as specific Tdp1 inhibitors that could potentiate the pharmacological action of Top1 inhibitors currently used in cancer treatment.

Polymeric Delivery Platform for Therapeutics

The National Cancer Institute (NCI) seeks licensing and/or co-development research collaborations for a polymeric drug delivery platform that targets scavenger receptor A1 (SR-A1), a receptor highly expressed in macrophages, monocytes, mast cells, dendritic cells (myeloid lineages), and endothelial cells. The platform delivers various immunomodulatory therapeutic cargo including small molecule drugs, therapeutic peptides, and vaccines, to the lymphatic system and myeloid/antigen presenting cell (APC) sub-populations.

Polypeptides for Stimulation of Immune Response (Adjuvants)

Researchers at the National Cancer Institute, Laboratory of Molecular Immunoregulation developed compositions and methods for using HMGN and its derivatives as immunoadjuvants with microbial or tumor antigens.The National Cancer Institute, Laboratory of Molecular Immunoregulation seeks parties interested in licensing or collaborative research to co-develop polypeptides or antagonists for immune response regulation.

Potassium Hydroxy Citrate Promotes Longevity and Efficacy of Anti-Tumor T cells for Adoptive Cell Therapy (ACT)

Adoptive cell therapy (ACT) using tumor-specific T cells leads to complete tumor regression in some cancer patients. However, limiting the efficacy of this therapy is that T cells become functionally exhausted and have short half-lives after adoptive transfer. Researchers at the National Cancer Institute (NCI) have discovered a novel method to generate long-lived memory tumor-specific T cells with enhanced tumor clearance and persistence upon in vivo transfer. NCI is seeking parties interested in licensing and/or co-developing potassium hydroxy citrate to promote longevity and efficacy of tumor-specific T cells.

Processes for Producing and Purifying Nucleic Acid-Containing Compositions

This technology provides improved processes for production and purification of nucleic acid-containing compositions, such as non-naturally occurring viruses, for example, recombinant polioviruses that can be employed as oncolytic agents. Some of the improved processes relate to improved processes for producing viral DNA template.

Prognostic Biomarkers for Patients with Early Stage Lung Cancer

Investigators at the National Cancer Institute discovered a set of biomarkers that can identify patients with early stage lung cancer who are at a high risk of relapse. These prognostic methods can guide physicians to select appropriate treatment and follow-up while sparing other patients of unnecessary treatment and negative side-effects of chemotherapy. The NCI seeks parties to license or co-develop the invention.

Progressive and Multipath Neural Network for Medical Image Segmentation

Researchers at the National Institutes of Health Clinical Center (NIHCC) developed a technology that improves segmentation detail levels for anatomical structures in medical images through a new, deep learning approach. Difficult anatomical features, often segmented incorrectly with other image segmentation methods, are correctly segmented and identified using this novel technology.

Quantitative In Vivo Methods for Measuring Brain Networks

Researchers at the NICHD seek licensing and/or co-development research collaborations for a Magnetic Resonance Imaging (MRI) method to quantitatively measure in vivo the estimated conduction time of nerve impulses in the brain.

Rapid Manufacture of Retroviral Vectors Encoding Tumor-Specific T Cell Receptors for Adoptive Cell Immunotherapy

Researchers at the National Cancer Institute (NCI) have developed a novel method enabling rapid, GMP-compliant manufacture of retroviral vectors encoding anti-tumor T cell receptors (TCRs). T cells engineered through the use of these vectors to express tumor-reactive TCRs will be useful in adoptive cell immunotherapy for the treatment of cancer. Researchers at the NCI seek licensing and/or co-development research collaborations for this invention.

Ratio Based Biomarkers for the Prediction of Cancer Survival

The NCI seeks licensees or co-development partners for this technology, which describes compositions, methods and kits for identifying, characterizing biomolecules expressed in a sample that are associated with the presence, the development, or progression of cancer.

Renal Selective Unsaturated Englerin Analogues

Researchers at the National Cancer Institute (NCI) have developed a number of analogs of the natural product englerin A, an inhibitor of renal cancer cell growth. Englerin A is thought to exert its anticancer effects by activating protein kinase C (PKC) theta, and exert cytotoxic effects through activation of transient receptor potential cation (TRPC) channels. The invention englerin analogues provide promising treatment strategies for various cancers, diabetes, and HIV, and other diseases associated with the PKC theta and/or TRPC ion channel proteins. Researchers at the NCI seek licensing and/or co-development research collaborations for englerin A analogue compounds.

Reporter Plasmid to Identify Cancer Stem Cells

The National Cancer Institute’s Laboratory of Cancer Biology and Genetics seeks partners to co-develop lentiviral plasmids, a research tool for visualizing and purifying cancer stem cells.

Reprogrammed Tumor Infiltrated Lymphocytes for Efficient Identification of Tumor-Antigen Specific T-Cell Receptors

Adoptive T Cell Therapy (ACT) has proven to effectively treat established tumors. This treatment consists of harvesting Tumor Infiltrated Lymphocytes (TIL) which specifically recognize cancer, expanding the tumor-specific TIL in vitro, and then reinfusing these cells into the patient for treatment. Both these lymphocytes and their T cell receptors (TCR) are valuable for cancer immunotherapy. Inventors from the National Cancer Institute (NCI) have developed an improved method to identify tumor-specific TCRs by reprogramming TIL into stem cells. This invention is available to license further development.

Robotic Exoskeleton for Treatment of Crouch Gait in Children with Cerebral Palsy (CP)

Researchers at the National Institutes of Health Clinical Center (NIHCC) and Northern Arizona University (NAU) seek licensing and/or co-development research collaborations for a wearable, pediatric, robotic exoskeleton that facilitates knee extension during walking to provide motorized movement assistance and training through the gait cycle. The Robotic Exoskeleton is specifically designed for therapy of crouch gait in children with cerebral palsy (CP). The design is a customizable human-machine interface that allows an individualized assistance protocol to help preserve and enhance muscle strength and control. Early clinical results from this intervention appear promising for a condition having few effective long-term interventions.

RP2 and RPGR Vectors For Treating X-linked Retinitis Pigmentosa

The National Eye Institute (NEI) seek research co-development or licensees for advancing AAV8/9-based therapies for X-linked forms of retinitis pigmentosa (XLRP) caused by mutations in RPGR (retinitis pigmentosa GTPase regulator) or RP2 (retinitis pigmentosa 2) gene.