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Researchers at the National Cancer Institute’s Experimental Transplantation and Immunology Branch (NCI ETIB) developed a T Cell receptor that specifically targets the Kita-Kyushu Lung Cancer Antigen 1 (KK-LC-1) 52-60 epitope that is highly expressed by several common and aggressive epithelial tumor types.

Scientists at National Cancer Institute (NCI) Center for Cancer Research (CCR) identified selective tyrosyl-DNA phosphodiesterase 1 (TDP1) inhibitors that may be used in combination with topoisomerase 1 (TOP1) inhibitors for synergistic treatment of solid tumors. NCI seeks research co-development partners and/or licensees for commercializing the TDP1 inhibitors as part of an anti-cancer therapy.

The National Cancer Institute (NCI) seeks research co-development or licensing partners for development of nucleic acid nanoparticles (NANP) and their use for controlled immunomodulation.

Researchers at the National Cancer Institute (NCI) have developed peptidomimetic inhibitors that disrupt Polo-like kinase 1 (Plk1)-mediated protein interactions by targeting polo-box domain (PBD). The compounds are designed to selectively cause mitotic arrest in cancer cells with abnormal Plk1 expression. Researchers seek licensing and/or co-development research collaborations to further develop the inhibitors.

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.

Researchers at the National Cancer Institute (NCI) developed novel analogs of the natural product schweinfurthins to treat neurofibromatosis type 1 (NF1). The compounds demonstrate effective growth inhibition in malignant peripheral nerve sheath tumor cell lines and mouse models of astrocytomas. Researchers seek licensing and/or co-development research collaboration opportunities to further develop the schweinfurthin analogs.

Chk2 is a protein kinase activated in response to DNA double strand breaks. In normal tissues, Chk2 phosphorylates and thereby activates substrates that induce programmed cell death, or apoptosis, via interactions with p53, E2F1, PML proteins. In cancer tissues, where apoptosis is suppressed, Chk2 phosphorylates and inactivates cell cycle checkpoints (via interactions with Cdc25, phosphatases and Brca1 proteins), which allows cancer cells to repair and tolerate DNA damage. Hence, Chk2 inhibitors would be expected to protect normal tissues by reducing apoptosis, and to sensitize cancer cells to DNA-targeted agents. The National Cancer Institute seeks licensees for small molecule inhibitors of Chk2 for the treatment of cancer.

The National Cancer Institute (NCI) seeks research co-development partners and/or licensees for small molecules that inhibit histone lysine demethylases (KDMs). These compounds may be effective therapeutics for Rhabdomyosarcoma (RMS) and other cancers.

The National Cancer Institute seeks parties interested licensing or collaborative research to co-develop thalidomide analogs to treat cancer and inflammatory diseases.