Researchers at the NCI have developed a method of genetically engineering lymphocytes to expressed elevated levels of cytokine proteins. This technology is useful for improving cellular adoptive immunotherapies to treat a range of infectious diseases and cancers.
Cancer cells have been found to directly activate resting B cells to form suppressive regulatory B cells (tBregs) and utilize them to evade immune surveillance and mediate metastasis. tBregs directly inhibit CD4+ and CD8+ T cell activity in a cell contact-dependent manner, induce FoxP3+ T cell activity, and promote Treg-dependent metastasis. The National Institute on Aging's Immunotherapeutics Unit, is seeking parties interested in licensing or co-development of regulatory B cells to control autoimmune diseases and strategies that inactivate tBregs to control cancer immune escape.
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.
NCI researches identified a BK polyomavirus (BKV) virulent strain that causes chronic urinary tract infections, and the development of vaccine and therapeutic methods that would block BKV pathogenesis. The NCI Laboratory of Cellular Oncology, seek parties to license or co-develop this technology.
Researchers at the NCI have developed a vaccine technology that stimulates the immune system to selectively destroy metastasizing cells. Stimulation of T cells with the Brachyury peptide promote a robust immune response and lead to targeted lysis of invasive tumor cells. NCI seeks licensing or co-development of this invention.
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.
Researchers at the National Cancer Institute (NCI) developed a treatment regimens for cancer and HIV using heterodimeric IL-15 (hetIL-15). The regimens allow access to B cell follicles, germinal centers, and tumor sites that are difficult for drug entry. A combination therapy for HIV infection is also described using hetIL-15 and a conserved element vaccine. Researchers seek licensing and/or co-development research collaborations for development and commercialization of treatment regimens for HIV infection.
Researchers at the National Cancer Institute (NCI) seek research co-development or licenses for a method of stimulating an immune response in a human at risk for infection by, or already infected with, an HIV-1 retrovirus. This method utilizes DNA vaccines to stimulate CD8+ T cell immune responses.
Researchers at the National Cancer Institute (NCI) have developed a dendritic cell vaccine for treating multiple cancer types. The NCI seeks licensing and/or co-development research collaborations to bring this invention to the public.
Researchers at the NCI have developed a method of lowering a viral load of a virus resistant to antiviral drugs. The inclusion of a synthetic peptide induces a cytotoxic T lymphocyte (CTL) response specific for cells infected with the antiviral drug-resistant virus. NCI seeks licensees or co-development partners for this invention.
The Biorepositories and Biospecimen Research Branch (BBRB) at the National Cancer Institute (NCI) has sponsored various initiatives for conducting biospecimen research. Through these initiatives, NCI seeks to advance biospecimen science and improve research reproducibility by investigating how different biospecimen collection, handling and processing procedures affect biospecimen molecular profiles. BBRB is seeking collaborators to extend these studies.
Researchers at the National Cancer Institute (NCI) developed a DNA vaccine using conserved elements of HIV-1 Gag, administered in a prime-boost vaccination protocol. Two of the HIV Gag CE DNA vectors have been tested in a rhesus macaque model. Priming with the Gag CE vaccine and boosting with full length Gag DNA showed increased immune responses when compared to vaccination with Gag alone. Researchers seek licensing and/or co-development research collaborations for development this DNA vaccine.
The Protein Expression Laboratory at the National Cancer Institute in Frederick, MD is seeking statements of capability or interest from parties interested in collaborative research to further develop a platform technology for the targeted intra-cellular delivery of proteins using virus-like particles (VLPs).
Researchers at the NCI have developed a treatment for prostate and breast cancer using multivalent peptides derived from TARP, the T cell receptor gamma alternate reading frame protein. These immunogenic peptides from TARP elicit an immune response, triggering T cells to kill only the cancer cells within a patient. NCI seeks licensees or co-development partners to commercialize this invention.
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.
Synthetic oligodeoxynucleotides (ODN) containing unmethylated Cytosine-Guanine (CpG) motifs mimic the immunostimulatory activity of bacterial DNA. CpG ODN directly stimulate B cells and plasmacytoid dendritic cells (pDC), promote the production of T Helper 1 cells (Th1) and pro-inflammatory cytokines, and trigger the maturation/activation of professional antigen presenting cells.
The National Cancer Institute, Laboratory of Experimental Immunology, seeks interested parties to license methods for inducing an immune response to tumors.