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ReScribe: Transcription factors for reprogramming of diseased musculoskeletal related cells
TS-046978 — Transcription factors that can upregulate desired genes in diseased tissue to reprogram diseased cells, thereby reversing the disease and creating healthy non-diseased phenotype genes. These transcription factors would be especially useful in musculoskeletal diseases such as back pain and osteoarthritis.
Musculoskeletal diseases including osteoarthritis and chronic low back pain, are debilitating, painful, and often difficult to treat. Intervertebral disc (IVD) degeneration, as an example, is strongly associated with low back pain, a leading cause of disability worldwide. According to the American…
  • College: College of Engineering (COE)
  • Inventors: Walter, Devina; Gallego Perez, Daniel; Higuita Castro, Natalia; Hoyland, Judith; Khan, Safdar; Tang, Shirley "Shirley Nina"; Walter, Benjamin
  • Licensing Officer: Norris, Francis "Frank"

Compound 13, an Mps1/TTK Kinase Inhibitor, for Triple Negative Breast Cancer Therapy
TS-037724 — Researchers at The Ohio State University have discovered Compound 13, a patent protected, orally bioavailable and brain penetrant Mps1/TTK inhibitor that exhibits single agent tumor growth inhibition in a murine xenograft model of human triple negative breast cancer upon daily administration.
Breast cancer is a heterogeneous group of tumors, which can be subdivided based on histopathological features, genetic alterations, and gene-expression profiles. Approximately 50-60% of all breast cancer patients and two-thirds of postmenopausal breast cancer patients have estrogen receptor positi…
  • College: College of Pharmacy
  • Inventors: Brueggemeier, Robert; Fisk, Harold; Li, Chenglong; Li, Pui-Kai "Tom"; Sugimoto, Yasuro
  • Licensing Officer: Davis, Stewart

Novel Small-Molecule Integrin-linked Kinase/Phosphoinositide-dependent Protein Kinase-2 Inhibitors
TS-037647 — A novel set of molecules that inhibit integrin-linked kinase in order to suppress tumor cell growth and metastasis.
The Akt signaling pathway is responsible for apoptosis, cell proliferation, and metabolism. In tumor cells, this pathway is up-regulated and aids in promoting cancer cell survival. Complete activation of Akt pathway requires phosphorylation at two amino-acid residues, which are phosporylated by se…
  • College: College of Pharmacy
  • Inventors: Chen, Ching-Shih; Kulp, Samuel; Lee, Su-Lin
  • Licensing Officer: Paschall, Christopher

Targeting EGFL7 in AML
TS-037353 — Treatment of blood cancer with anti-EGFL7 antibody.
Despite recent progress in understanding acute myeloid leukemia (AML) biology and the use of intensive treatments, the long-term overall survival is only 30-40% in younger (<60 years) and <10% in older adult AML patients. This highlights the urgent need for novel therapeutic approaches for a…
  • College: College of Medicine (COM)
  • Inventors: Dorrance, Adrienne; Garzon, Ramiro; Shen, Changxian
  • Licensing Officer: Ezzell, Janel

Gene delivery to adipose tissue using novel recombinant adeno-associated viral (AAV) vectors
TS-037310 — An engineered recombinant adeno-associated virus capable of targeting visceral fat tissue for the purposes of genetic manipulation.
Recombinant adeno-associated viruses (rAAVs) are effective tools for delivering gene therapy treatment and for manipulation of acquired diseases. However, there is no effective method to target adipose tissue and transduction efficiency is low in naturally occurring AAV serotypes. In addition, cur…
  • College: College of Medicine (COM)
  • Inventors: Cao, Lei; Huang, Wei
  • Licensing Officer: Ezzell, Janel

Immunomodulating agents engineered from Notch receptor ligand extracellular domains
TS-036760 — Immunomodulating agents have been engineered from Notch receptor ligand extracelluar domains. These are useful for stimulating the immune system.
The Notch signaling pathway is important in immune cell differentiation and maturation. As a result, it has been shown that Notch receptor signaling can promote or suppress adaptive immune responses depending on the particular ligands and receptors involved. A set of native protein-inspired biolog…
  • College: College of Arts & Sciences
  • Inventors: Magliery, Thomas; Carbone, David; Dikov, Mikhail; Long, Nicholas; Sullivan, Brandon; Tchekneva, Elena
  • Licensing Officer: Davis, Stewart

New anthracycline analogues to overcome multidrug resistance
TS-015117 — Analogues therapy to overcome multi-drug resistance in cancer cells
The Need Daunorubicin is the standard anthracycline agent, a class of anti-tumor compounds used widely in the treatment of a variety of cancers. As multiple drug resistance and toxicity are serious clinical problems associated with daunorubicin, researchers have focused on improving this common …
  • College: College of Pharmacy
  • Inventors: Sun, Duxin; Fang, Lanyan; Wang, Peng George; Zhang, Guisheng
  • Licensing Officer: Ezzell, Janel

Small-Molecule Cyclin D1 Ablative Agents for Breast Cancer Therapy
TS-015102 — A new class of small-molecule cyclin D1 ablative agents based on troglitazone (TG) that repress intracellular cyclin D1 levels.
Cyclin D1 represents an important downstream effector of diverse proliferative and transforming signaling pathways. In mammary cells, transcriptional activation of Cyclin D1 leads to G1/S phase progression and increased proliferation. Cyclin D1 overexpression has been implicated in oncogene-induce…
  • College: College of Pharmacy
  • Inventors: Chen, Ching-Shih; Huang, Jui-Wen
  • Licensing Officer: Paschall, Christopher

New Energy Restriction-Mimetic Agents for Cancer Treatment
TS-015097 — Development of thiazolidinedione (TZD), OSU-CG12, as a novel energy restriction-mimetic agent for cancer therapy and chemo-prevention.
Cancer cells shift cellular metabolism to aerobic glycolysis to gain growth advantages in microenvironments, which has raised interest in therapies that exploit the response of malignant versus normal cells to glycolytic inhibition. Chronic energy restriction is difficult to implement as a chemo-p…
  • College: College of Pharmacy
  • Inventors: Chen, Ching-Shih
  • Licensing Officer: Paschall, Christopher

DNA Methylation Inhibitors
TS-015096 — A set of novel DNA methylation inhibitors that reduce DNA methylation by small molecule agents.
Substantial evidence indicates that DNA methylation-mediated silencing of tumor suppressor genes is a mechanism for the pathogenesis of cancer and many other diseases. Thus, small-molecule agents that target DNA methylation are considered a therapeutically relevant strategy for cancer treatment. T…
  • College: College of Pharmacy
  • Inventors: Chen, Ching-Shih; Hsiao, Shu-Huei; Leu, Yu-Wei; Shaw, Arthur
  • Licensing Officer: Paschall, Christopher

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