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High Affinity Nanobodies Targeting B7-H3 (CD276) for Treating Solid Tumors

Researchers at the National Cancer Institute (NCI) have isolated a panel of anti-CD276 (also called B7-H3) single domain antibodies (also known as nanobodies). These antibodies have a high affinity for CD276-positive tumor cells and have great potential for diagnostic and therapeutic technologies against solid tumors. The NCI seeks licensing and/or co-development research collaborations for CD276-targeting camel nanobodies.

Cell Line for Production of Recombinant Human Tissue Inhibitor of Metalloproteinase-2

Recombinant human tissue inhibitors of metalloproteinases (rhTIMP-2) have been shown to suppress tumor growth and tumor-associated angiogenesis. NCI Radiation Oncology Branch (ROB) researchers have developed a unique HEK-293F cell line which stably expresses rhTIMP-2, increasing the production of TIMP-2 to quantities sufficient to be used for testing and development as a therapeutic for various cancers, ischemic diseases (myocardial infarct and cerebrovascular infarct), and neurodegenerative diseases.

Gene-based Diagnostic Predicts Patient Response to Cancer Immunotherapy

Somatic mutations can alter the sensitivity of tumors to T-cell mediated immunotherapy. Identifying genes that positively regulate the sensitivity of cancer cells to T-cell mediated clearance is key for effective treatment in cancer patients. Researchers at the National Cancer Institute (NCI) have identified a panel of genes which are useful in predicting a patient’s response to immunotherapy. NCI seeks partners to co-develop or license the technology toward commercialization.

Methods of Producing Thymic Emigrants from Induced Pluripotent Stem Cells

Pluripotent stem cells are a promising source of T cells for a variety of clinical applications. However, current in vitro methods of T cell differentiation result in the generation of cells with aberrant phenotypes. Researchers at the National Cancer Institute (NCI) have now developed methodology for generating induced pluripotent stem cell thymic emigrants (iTE). Antigen-specific CD8αβ+ iTEs exhibited functional properties in vitro that were almost indistinguishable from natural naïve CD8αβ+ T cells, including vigorous expansion and robust anti-tumor activity. iTEs recapitulated many of the transcriptional programs of naïve T cells in vivo and revealed a striking capacity for engraftment, memory formation, and efficient tumor destruction. The NCI seeks licensing and/or co-development research collaborations for this invention.

Use of Cucurbitacins and Withanolides for the Treatment of Cancer

The National Cancer Institute's Laboratory of Experimental Immunology, Cancer Inflammation Program, seeks parties interested in collaborative research to co-develop, evaluate, or commercialize the use of certain cucurbatacins or withanolides in combination with pro-apoptotic agonists of TRAIL death receptors for cancer therapy.

Novel Regulatory B cells for Treatment of Cancer and Autoimmune Disease

Cancer cells have been found to directly activate resting B cells to form suppressive regulatory B cells (tBregs) and utilize them to evade immune surveillance and mediate metastasis. tBregs directly inhibit CD4+ and CD8+ T cell activity in a cell contact-dependent manner, induce FoxP3+ T cell activity, and promote Treg-dependent metastasis. The National Institute on Aging's Immunotherapeutics Unit, is seeking parties interested in licensing or co-development of regulatory B cells to control autoimmune diseases and strategies that inactivate tBregs to control cancer immune escape. 

Autophagy Modulators For Use in Treating Cancer

Investigators from the Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD) have identified five autophagy-inhibiting compounds (WX8 family) through a high-throughput screening. The NICHD seeks licensees and/or co-development partners for methods to treat cancer by administering these autophagy-inhibiting compounds.

Aryl Hydantoin Heterocycle Compounds that Target the Androgen Receptor for Prostate Cancer Treatment

Researchers at the National Cancer Institute (NCI) have developed aryl hydantoin heterocycles that target the androgen receptor (AR). NCI seeks research co-development partners and/or licensees to develop these compounds as therapeutics for prostate cancer. As these compounds consist of both AR agonists and antagonists, they may also be effective therapeutics for androgen dysfunctional disorders, such as androgen deficiency disorders or hyperandrogenism.

Chimeric Adaptor Proteins (CAPs) Containing a Linker for Activation of T Cells (LAT) and a Kinase Domain for Use in T Cell-Based Immunotherapy

There remains a need for effective immunotherapies to treat solid tumors as well as hematological malignancies. Researchers at the National Cancer Institute (NCI) have designed novel chimeric adaptor proteins (CAPs) consisting of signaling molecules downstream of the T cell receptor (TCR) for use in T cell-mediated immunotherapy. NCI is seeking parties interested in licensing and/or co-developing CAPs that can be used in immunotherapy for treating cancer, including both hematological and solid malignancies.

Nanoparticle delivery of lung cancer therapeutic

The National Cancer Institute seeks parties interested in licensing an improved treatment for non-small cell lung cancer based on inhalation of nano- and microparticle therapeutics.

Peptide Hydrogels for Rate-Controlled Delivery of Therapeutics

Scientists at the National Cancer Institute (NCI) have developed a novel delivery platform in which the scaffold of an anionic hydrogel (AcVES3) can be attenuated to deliver therapeutic small molecules, peptides, proteins, nanoparticles, or whole cells. The NCI seeks collaborators and licensees for the development of this technology in various clinical and laboratory applications.

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