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.
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.
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.
The National Institute on Drug Abuse’s Medicinal Chemistry Section seeks partners interested in collaborative research to co-develop analogues of modafinil for the treatment of drug abuse and sleep and attention disorders.
The National Cancer Institute seeks licensees for a method for in vivo visualization of rapidly-dividing cells and dynamic measurement of cellular kinetics using Deuterium Magnetic Resonance Imaging (dMRI).
The National Cancer Institute’s Laboratory of Immune Cell Biology seeks partners interested in licensing or collaborative research to co-develop peptide-based therapeutics for inflammatory autoimmune conditions or inflammatory cancers.
The National Cancer Institute’s Surgery Branch seeks partners interested in collaborative research to co-develop adoptive transfer of tumor infiltrating leukocytes (TIL) for cancers other than melanoma.
Researchers at the National Cancer Institute (NCI) have engineered a single recombinant phage with dual tail fibers that can target and kill bacteria of different genera. The diversity in phage tail fiber components successfully circumvents previously known limitations on phage host selectivity.
Researchers at the National Institute on Aging working on cancer immunotherapy and detection report the use of SPANX-B polypeptides in the treatment and identification of cancer. Specific human malignancies targeted for the treatments disclosed include melanoma and lung, colon, renal, ovarian and breast carcinomas. The NIA seeks parties interested in licensing or collaborative research to further develop, evaluate, or commercialize SPANX-B polypeptides in the treatment and identification of cancer.
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.
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.
The National Cancer Institute's Cancer and Inflammation Program is seeking statements of capability or interest from parties interested in licensing therapeutic agents that generate Nitroxyl (HNO) in physiological media.
The proto-oncogene c-Myc is deregulated and overexpressed in ~70% of all cancers. Thus, c-Myc is an attractive therapeutic target. Beyond cancer, Myc is also a positive effector of tissue inflammation, and its function has been implicated in the pathophysiology of heart failure. Researchers at the National Cancer Institute (NCI) developed novel small molecules that target c-Myc at the transcriptional level, thus enabling a potential pan-cancer therapeutic. Specifically, these compounds stabilize the transcription repressing quadruplex in the c-Myc gene promoter region. The National Cancer Institute seeks parties interested in licensing or collaborative research to co-develop these therapeutic targets.'
The Laboratory of Cardiovascular Science at the National Institute on Aging, is seeking parties interested in collaborative research to further co-develop a potential new hypertensive drug based on recombinant human erythropoietin (rhEPO).