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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.

Vaccines for HIV

The development of an effective HIV vaccine has been an ongoing area of research. The high variability in HIV-1 virus strains has represented a major challenge in successful development. Ideally, an effective candidate vaccine would provide protection against the majority of clades of HIV. Two major hurdles to overcome are immunodominance and sequence diversity. This vaccine utilizes a strategy for overcoming these two issues by identifying the conserved regions of the virus and exploiting them for use in a targeted therapy. NCI seeks licensees and/or research collaborators to commercialize this technology, which has been validated in macaque models.

Treating JC Polyomavirus Infection and Associated Leukoencephalopathy

The National Cancer Institute seeks parties interested in collaborative research to co-develop or license methods of treating disorders related to polyomavirus, as well as vaccines for patients undergoing immunosuppressive treatment such as multiple sclerosis, rheumatoid arthritis, B cell cancers, and Crohn’s disease.

Synthetic Bacterial Nanoparticles as Drug and Vaccine Delivery Vehicles

Engineered bacterial spores can provide many useful functions such as the treatment of infections, use as an adjuvant for the delivery of vaccines, and the enzymatic degradation of environmental pollutants. Researchers at the National Cancer Institute’s Laboratory of Molecular Biology have developed a novel, synthetic spore husk-encased lipid bilayer (SSHEL) particle that is uniquely suited for a variety of these functions. NCI seeks partners to license and/or co-develop this technology toward commercialization.

Small Molecule Inhibitors of Drug Resistant Forms of HIV-1 Integrase

Researchers at the National Cancer Institute discovered small-molecule compounds containing 1-hydroxy-2-oxo-1,8-naphthyridine moieties whose activity against HIV-1 integrase mutants confer resistance to currently approved INSTIs. Preliminary rodent efficacy, metabolic, and pharmacokinetic studies have been completed by the NCI researchers. The National Cancer Institute seeks partners to commercialize this class of compounds through licensing or co-development.

Single domain CD4, HIV-1 Antibodies, and Fusion Proteins for treatment of HIV

Researchers at the National Cancer Institute (NCI) have developed single domain human CD4 proteins to inhibit HIV-1 entry and improved human domain antibodies against HIV-1. Fusion proteins comprising the single domain CD4 and HIV-1 antibody can be used to effectively neutralize HIV-1 in vitro. Researchers seek licensing for development of these antibody-based therapeutics for the treatment of HIV-1.

Scytovirin Domain 1 Related Polypeptides

Researchers at the NCI seek licensing for novel anti-HIV peptide therapeutics. The researchers developed novel proteins for HIV inhibition. Scytovirin is a potent anti-HIV protein with two domains having strong symmetry. NCI researchers produced a much smaller, functional, scytovirin domain polypeptide – SD1 – for use as a HIV therapeutic.

RNASEH-Assisted Detection Assay for RNA

The National Cancer Institute (NCI) seeks research co-development partners and/or licensees for the development and commercialization of a diagnostic assay that detects sequence-specific (viral) RNA.

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.

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.

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.

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.

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.

Novel Small Molecules that Inhibit Hepatitis B Virus Replication by Targeting Packaging of Pre-genomic RNA

Researchers at the National Cancer Institute (NCI) have developed an invention describing novel small molecule agonists of a previously unidentified hepatitis B virus (HBV) RNA packaging signal (pgRNA) as promising therapeutic strategies for HBV infections, either alone or in combination with other antiviral agents. The NCI seeks licensing and/or co-development research collaborations for these novel small molecules that inhibit hepatitis B virus replication by targeting pre-genomic RNA.

Novel HPPK (Bacterial Protein) Inhibitors for Use as Antibacterial Agents

Researchers at the National Cancer Institute (NCI) have developed several novel small-molecule inhibitors directed against HPPK, a bacterial protein, as potential antimicrobial agents. The NCI seeks co-development partners or licensees to further develop these novel small-molecule HPPK inhibitors as broad-spectrum bactericidal agents.

Novel Fusion Proteins for HIV Vaccine

The National Cancer Institute’s Cancer and Inflammation Program seeks parties to license gp120 and CD4-induced antibody fusion proteins for use in an HIV vaccine.

Novel Anti-HIV Proteins from Coral Reefs

Scientists at the National Cancer Institute's Molecular Targets Laboratory have discovered that Cnidarins as a novel 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 cnidarins.

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