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Nucleic Acid Nanoparticles for Triggering RNA Interference

RNA interference (RNAi) is a naturally occurring cellular post-transcriptional gene regulation process that utilizes small double-stranded RNAs to trigger and guide gene silencing. By introducing synthetic RNA duplexes called small-interfering RNAs (siRNAs), we can harness the RNAi machinery for therapeutic gene control and the treatment of various diseases. The National Cancer Institute seeks partners to license or co-develop RNA, RNA-DNA, and DNA-RNA hybrid nanoparticles consisting of a DNA or RNA core with attached RNA or DNA hybrid duplexes.

Virus-Like Particles That Can Deliver Proteins and RNA

The present invention describes novel virus-like particles (VLPs) that are capable of binding to and replicating within a target mammalian cell, including human cells. The claimed VLPs are safer than viral delivery because they are incapable of re-infecting target cells. The National Cancer Institute's Protein Expression Laboratory seeks parties interested in licensing the novel delivery of RNA to mammalian cells using virus-like particles.

Cancer Inhibitors Isolated from an African Plant

The National Cancer Institute's Molecular Targets Development Program is seeking parties interested in collaborative research to further develop, evaluate, or commercialize cancer inhibitors isolated from the African plant Phyllanthus englerii. The technology is also available for exclusive or non-exclusive licensing.

Increased Therapeutic Effectiveness of PE-Based Immunotoxins

To improve the therapeutic effectiveness of PE-based immunotoxins through multiple rounds of drug administration, NIH inventors have sought to identify and remove the human B cell epitopes within PE. Previous work demonstrated that the removal of the murine B cell and T cell epitopes from PE reduced the immunogenicity of PE and resulted in immunotoxins with improved therapeutic activity. The National Cancer Institute's Laboratory of Molecular Biology seeks interested parties to co-develop and commercialize immunotoxins using toxin domains lacking human B cell epitopes.

Modulating Chemotherapeutic Cytotoxicity

The NCI seeks partners interested in in-licensing or co-development collaboration on CD47-targeting therapeutics for cardioprotection and autophagy modulation.

Synthetic lipopeptide inhibitors of RAS oncoproteins

It is well known that overactive Ras signaling is linked to many forms of cancer, and despite intensive efforts worldwide to develop effective inhibitors of Ras, to date there is no anti-Ras inhibitor in clinical use. Researchers at the NCI’s Cancer and Inflammation Program, in collaboration with scientists at Vanderbilt University and the University of Illinois in Chicago, have identified a number of small peptidomimetic compounds that bind to Ras proteins with nanomolar affinity. NCI’s Cancer and Inflammation Program seeks partners interested in licensing or co-development of synthetic, highly potent cell-permeable inhibitors of Ras that bind to the protein directly.

Peptide Inhibitors for Viral Infections and as Anti-inflammatory Agents

IFN-gamma and IL-10 are cytokine signaling molecules that play fundamental roles in inflammation, cancer growth and autoimmune diseases.  Unfortunately, there are no specific inhibitors of IFN-gamma or IL-10 on the market to date. The National Cancer Institute seeks parties interested in licensing or collaborative research to co-develop selective IL-10 and IFN-gamma peptide inhibitors.

Biomarker signature development: microRNAs for biodosimetry

Alterations in microRNAs (miRNAs), a type of small non-coding RNAs, have been reported in cells/tumors subjected to radiation exposure, implying that miRNAs play an important role in cellular stress response to radiation. NCI researchers evaluated small non-coding RNAs, long non-coding RNAs (lncRNA), and mRNA, as potential non-invasive biomarkers for radiation biodosimetry. The NCI Radiation Oncology Branch seeks parties interested in licensing or co-development of RNA biomarker signature(s) for radiation biodosimetry.

Metastatic ovarian cancer mouse models and cell lines for preclinical studies

NCI's Center for Advanced Preclinical Research (CAPR) has developed a Serous Epithelial Ovarian Cancer (SEOC) genetically engineered mouse model (GEM), GEM-derived SEOC orthotopic mouse model, and biological materials derived therefrom, with several key histopathologic, immunophenotypical, and genetic features of human SEOC. NCI CAPR seeks licensees for this technology.

Anti-CD133 Monoclonal Antibodies as Cancer Therapeutics

Researchers at NCI developed a rabbit monoclonal antibody that recognizes the marker for CD133 and is useful in pharmacodynamic testing to inform targeted anti-cancer chemotherapy development and clinical monitoring. CD133 is a cell surface glycoprotein used as a marker and expressed in stem cells such as hematopoietic stem cells, endothelial progenitor cells and neural stem cells. The NCI seeks collaborative co-development or licensing partners for this technology.

Devices for Improved Tissue Cryopreservation and Recovery

Researchers at the National Eye Institute (NEI), have developed a cryopreservation and cell recovery system designed specifically for the efficient cryopreservation, transportation and subsequent thawing of monolayers and tissues on a substrate. This closed cryopreservation/defrost system allows for sterility in addition to increased viability, recovery and safety of tissues that can be used for in vitro culture or surgical transplantation.

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