Search Technologies

The National Cancer Institute (NCI) seeks non-exclusive licensees for NCI/ADR-RES, an adenocarcinoma-derived Adriamycin-resistant ovarian tumor cell line.

The subject technology is a methodology for generating human artificial chromosomes for gene expression and delivery, screening of new anticancer drugs and engineered synthetic centromeric sequences.

Scientists at the National Cancer Institute have developed a cell line designated A549 that was derived from explanted cultures of human lung cancer tissue. The A549 cell line has been tested under the guidance of the United States Food and Drug Administration (FDA) so, under current Good Manufacturing Practices (GMP), these cells may be suitable for use in manufacturing constructs for use in clinical trials. The National Cancer Institute seeks parties to non-exclusively license this research material.

The National Cancer Institute Laboratory of Molecular Biology seeks parties to license or co-develop and commercialize antibody drug/toxin conjugates as liver cancer therapy and diagnostics.

This invention is a research tool for measuring protective antibody responses against Human Papilloma Viruses (HPV). The invention is available for non-exclusive license.

The National Cancer Institute’s Laboratory of Cancer Biology and Genetics seeks partners to co-develop lentiviral plasmids, a research tool for visualizing and purifying cancer stem cells.

The National Cancer Institute (NCI) seeks licensees for an SLC46A3 knockout mouse line. SLC46A3 is a solute carrier of the Major Facilitator Superfamily (MFS) and is thought to have roles in multiple diseases including nonalcoholic fatty liver disease, liver cancer and obesity.

The National Cancer Institute seeks licensees or research collaborators to develop and commercialize transgenic mice having immunocompetent rat growth hormone-firefly Luciferase-enhanced green fluorescent protein.

NIH scientists created and characterized an excellent mouse model for TNBC that shares important molecular characteristics of human TNBC making it highly useful for preclinical testing of drugs and novel therapies. This model may provide a valuable means of identifying new drugs and therapies that could be translated to human clinical trials.The NCI seeks parties interested in licensing this mouse model of prostate and triple-negative breast cancers to study cancer biology and for preclinical testing.