Researchers at Stanford have developed agents to enhance the therapeutic efficacy of a variety of anti-cancer therapeutics. Cell loss by apoptosis occurs in normal development and in tumor environments.
Researchers at Stanford, led by Prof. Crystal Mackall and Prof. Jennifer R Cochran, have developed a unique approach to cancer treatment by tackling both the innate and adaptive immune systems.
Stanford researchers have discovered that tumors increase the risk of atherosclerosis by regulating expression of a specific gene that stimulates angiogenesis and intraplaque neovessel formation.
The blood-brain barrier (BBB) remains a major obstacle to developing effective therapies for neurological and neurodegenerative disease, because most drugs and biologics do not efficiently reach brain tissue.
FragFEATURE is a data-driven computational method for fragment binding prediction. It predicts small molecule fragments preferred by a protein structure using a knowledge base of all previously observed protein-fragment interactions.
There are several barriers to widespread use of CAR T-cell therapy. One of them is toxicity, primarily cytokine release syndrome (CRS) and neurologic toxicity, but also on-target off-tumor toxicity.
Colorectal cancer affects 1.4 million new patients annually, with existing treatments often ineffective. A key factor in treatment resistance is high aldehyde dehydrogenase activity, which undermines several chemotherapies.
Overweight and obesity are linked to an increased risk and worsened outcome from many cancers, including colorectal, pancreatic and breast cancer, but the mechanisms responsible for these phenomena are unknown.
Stanford researchers have developed the Broadly Usable Multi-Pass Engineered Receptor (BUMPER) architecture, a novel protein engineering platform for assembling stable, multifunctional cell surface receptors.
Wnt genes provide important signals dugin development and tumorigenesis, but their mechanism of action is poorly understood. We have developed a novel cell culture assay for the Drosophila Wnt gene wingless, using a Drosophila imaginal disc cell line.
A method of using neuregulin antagonists to delay the time of tumor recurrence in cancer patients has been developed by Dr. Sweet-Cordero and collaborators. This technology is available for non-exclusive license.
Researchers at Stanford have developed a clinically applicable method of bone marrow conditioning for stem cell transplantation or treatment of hematologic malignancies.