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High Efficacy Vaccine and Microbicide Combination For Use Against HIV

The development of a vaccine against human immunodeficiency virus (HIV) would be expected to provide long-lasting protection. Researchers at the National Cancer Institute (NCI) developed a high efficacy vaccine and microbicide combination for use in an improved HIV vaccine regimen.

Optimized Monospecific or Bicistronic Chimeric Antigen Receptor (CAR) Constructs Targeting CD19 and CD20

Researchers at the National Cancer Institute (NCI) developed improved monospecific and bicistronic chimeric antigen receptors (CARs) targeting CD19 and CD20. Importantly, CD19 and CD20 are highly expressed in diffuse large B-cell lymphoma, acute lymphoblastic leukemia and other B-cell lymphomas. These improved CARs can be useful in treating these diseases. NCI is seeking parties interested in the co-development or licensing of this invention for immunotherapy.

SMAD3 Reporter Mouse for Assessing TGF-ß/Activin Pathway Activation

Researchers at the National Cancer Institute (NCI) developed a novel mouse for the detection of TGF-ß signaling. This mouse provides the opportunity to study TGF-ß signaling in vivo and may be a useful model for preclinical pharmacology studies. The NCI seeks licensees for the TGF-ß reporter mouse.

CytoSig: A Software Platform for Predicting Cytokine Signaling Activities, Target Discovery, and Clinical Decision Support System (CDSS) from Transcriptomic Profiles

Scientists at the National Cancer Institute (NCI) have developed the Cytokine Signaling Analyzer (CytoSig), a software-based platform that provides both a database of target genes modulated by cytokines and a predictive model of cytokine signaling cascades from transcriptomic profiles. NCI seeks collaborators or licensees to advance the development of CytoSig for research, target discovery, or as a Clinical Decision Support System (CDSS).

Adjuvanted Mucosal Subunit Vaccines for Preventing SARS-CoV-2 Transmission and Infection

Investigators at the National Cancer Institute (NCI) have discovered an adjuvanted mucosal subunit vaccine to prevent SARS-CoV-2 transmission and infection. The mucosal vaccine is composed of a novel molecular adjuvant nanoparticle that induces robust humoral and cellular immunity, as well as trained innate immunity with enhanced protection against respiratory SARS-CoV-2 exposure. The technology is available for potential licensing or collaborative research to co-develop these therapeutic targets.

A Murine Model of Inflammation Based on Chronic Expression of Interferon-Gamma

The National Cancer Institute (NCI) has a novel mouse model of autoimmunity based on chronic interferon-gamma expression (ARE-Del). This mouse can be used as an in vivo model to study female-biased autoimmune diseases, including: Systemic Lupus Erythematosus, Primary Biliary Cholangitis, and Ovarian Failure Syndrome.

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.

In vitro Generation of an Autologous Thymic Organoid from Human Pluripotent Stem Cells

The thymus is the only organ capable of producing conventional, mature T cells; a crucial part of the adaptive immune system. However, its efficiency and function are progressively reduced as we age, leading to a compromised immune system in the elderly. Moreover, production of T cells with specific receptors is an important concern for cancer immunotherapy. Current in vitro methods produce immature T cells that are not useful for therapy. Researchers at the National Cancer Institute (NCI) have generated an autologous thymic organoid from human pluripotent stem cells to address this problem. The organoid can be used to develop clinical applications such as production of autologous T and natural killer T (NKT) cells and reconstitution of the adaptive immune system. NCI is seeking licensees for the thymic organoid and the method of its generation to be used in a variety of clinical applications.

Efficient Methods to Prepare Hematopoietic Progenitor Cells in vitro for Therapeutic Use

Multi-potential hematopoietic progenitor cells (HPC) can differentiate into any class of blood cells, and are highly useful in regenerative medicine, immunology, and cancer immunotherapy. Current methods to generate HPCs are limited either due to the use of animal products, or the high cost and low efficiency of animal product free systems. Researchers at the National Cancer Institute (NCI) have developed a protocol to prepare HPCs from human induced pluripotent stem cells (hiPSC), using human mesenchymal stem cells (hMSC) in a three-dimensional (3D) co-culture condition. Thus, they are able to generate HPCs in a fully human, autologous system, which can be used to further generate immune cells for therapy. This protocol is adaptable to mass production by bioreactors. NCI seeks licensees for these methods of generating HPCs in a 3D co-culture with hMSCs to be used in a variety of applications such as treatment of blood disorders, regenerative medicine, and antibody production.

Use of Interleukin (IL)-34 to Treat Retinal Inflammation and Neurodegeneration

Researchers at the National Eye Institute have developed a new cytokine therapy that delivers functional interleukin 34 (IL-34) to the retina for treating ocular inflammatory diseases – such as uveitis and degenerative retinal diseases. Intraocular delivery of IL-34 protein or IL-34 gene expression system can effectively prevent retinal inflammation. Thus, it may be a promising strategy to produce long-lasting effects in suppressing abnormal retinal inflammation and preventing photoreceptor death.

Methods For Treating or Preventing Inflammation and Periodontitis

Natural products have long been considered a source of biologically active molecules against health disorders, including bone-loss related diseases. Cinnamolyoxy-mammeisin (CNM), can be isolated from Brazilian geopropolis and demonstrates anti-inflammatory activity. Researchers at the National Cancer Institute (NCI), in collaboration with researchers at the Piracicaba Dental School, University of Campinas, Brazil, have shown CNM also demonstrates inhibition of oral bone loss. This invention is available for licensing and/or co-development opportunities.

Interleukin 24 (IL-24) to treat inflammatory diseases

Researchers at the National Eye Institute (NEI) have developed a novel therapeutic strategy of using recombinant IL-24 protein to treat inflammatory diseases that involve the proinflammatory T-helper 17 cell (Th17) response, such as uveitis, multiple sclerosis, rheumatoid arthritis, and Crohn’s disease. Researchers at the NEI seek licensing and/or co-development research collaborations for co-developing this technology as strategic partners or licensing it for commercialization.

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.

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