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Showing 81-100 of 257 results found

Functionally-Interdependent Shape-Switching Nucleic Acid Nanoparticles

Researchers at the National Cancer Institute (NCI) have developed nucleic-acid-based nanoparticle that can be adapted for RNA interference (RNAi), molecular imaging, or a combination thereof. The invention nanoparticles can be used as therapeutics in the treatment of cancer, whichthe NCI seeks parties to license or co-develop.
  • Therapeutics

Fusion Proteins as HIV-1 Entry Inhibitors

Novel fusion proteins with good stability and potency against HIV-1. These fusion proteins have good drug properties and potential as prophylactics or therapeutics against HIV-1 infection. Researchers at the NCI seek licensing for the development and commercialization of novel fusion proteins as therapeutics or prophylactics against HIV-1 infection.
  • Therapeutics

Genetically Modified Hematopoietic Stem And Progenitor Cells (HSPCs) And Mesenchymal Cells As A Platform To Reduce Or Prevent Metastasis, Treat Autoimmune And Inflammatory Disorders, And Rebalance The Immune Milieu And Dysregulated Niches

There is a marked increase in immunosuppressive myeloid progenitors and myeloid cells in tumors and at metastatic tissue sites, rendering these types of cells useful in cancer therapeutics – especially after genetic modifications to improve their anti-tumor properties. The National Cancer Institute (NCI) seeks research co-development or licensing for genetically engineered myeloid cells (GEMys) for use in cancer immunotherapy.
  • Therapeutics

Griffithsin-Based Anti-viral Therapeutics with Improved Stability and Solubility

Scientists at the National Cancer Institute's Molecular Targets Laboratory have modified the Cnidarin-derived griffithsin compound to have greater storage time and stability. Griffithsin compounds are a class of highly potent proteins capable of blocking the HIV virus from penetrating T cells. The National Cancer Institute seeks parties interested in collaborative research to license or co-develop large-scale recombinant production of the compound.
  • Therapeutics

High Affinity Cross Species Single Domain Antibodies Targeting Mesothelin

Researchers at the National Cancer Institute (NCI) have isolated two high affinity anti-mesothelin single domain antibodies (also known as nanobodies), A101 and G8. These antibodies have been isolated from NCI’s newly developed camel single domain (VHH) libraries by phage display. The antibodies have a high affinity for mesothelin-positive tumor cells from both human and mouse origins. The NCI seeks licensing and/or co-development research collaborations to advance the development and commercialization of these antibodies.
  • Therapeutics

High Affinity Monoclonal Antibodies Targeting Glypican-1

Researchers at the National Cancer Institute (NCI) have isolated two Glypican-1- (GPC1)- specific antibodies: the mouse monoclonal antibody HM2 that binds the C-lobe of GPC1 close to the cell surface, and the camel single domain antibody D4. The D4 single domain antibody (also called ‘nanobody’) has a high affinity for GPC1-positive tumor cells from both human and mouse origins. The NCI seeks licensing and/or co-development research collaborations to advance the development and commercialization of these antibodies.
  • Therapeutics

High Affinity Monoclonal Antibodies Targeting Glypican-2 for Treating Childhood Cancers

Cancer therapies that specifically target Glypican 2 (GPC2) are strong therapeutic candidates for pediatric patients with neuroblastoma and other GPC2 expressing cancers. The inventors at the National Cancer Institute (NCI) have developed and isolated two new antibodies that target GPC2 (CT3 and CT5) that are available for licensing and co-development.
  • Therapeutics

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.
  • Therapeutics

Highly Soluble Pyrimido-Dione-Quinoline Compounds: Small Molecules that Stabilize and Activate p53 in Transformed Cells

Researchers at the National Cancer Institute (NCI) have developed an invention reporting the composition and function of a pyrimido-dione-quinoline that was found to inhibit HDM2’s ubiquitin ligase (E3) activity without accompanying genotoxicity. The current invention results in the stabilization of p53 in cells through the inhibition of its ubiquitin-mediated proteasomal degradation resulting in a robust p53 response in tumors. NCI researchers seek licensing and/or co-development partners for this invention.
  • Therapeutics

Human Antibodies Against Middle East Respiratory Syndrome Coronavirus

The National Cancer Institute is seeking statements of capability or interest from parties interested in collaborative research to co-develop antibody-based therapeutic against MERS-CoV, including animal studies, cGMP manufacturing, and clinical trials.
  • Diagnostics
  • Therapeutics

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