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Use of Peripheral Blood Mononuclear Cells to Trigger Differentiation of Mesenchymal Stem Cells and Osteoblasts

Technology Benefits

NK cells have the potential to fully remove the cancer since they target stem cells rather than differentiated tumors. NK cells can be delivered locally to the tumor site, thereby reducing the likelihood of off-target effects. Unlike T cells, NK cells do not require foreign antigens for detection and thus can be utilized for the treatment of various cancer types.

Technology Application

Elimination of cancer stem cells by direct delivery of activated NK cells to tumor site. Treatment of metastatic cancer by systemic administration of activated NK cells.

Detailed Technology Description

The researchers have found that activated NK cells induce the death of patient-derived tumors and human stem cells, including Mesenchymal Stem Cells (MSCs) and Osteoblasts. Administration of activated NK cells may be effective in eliminating cancer stem cells to fully eradicate the disease.

Supplementary Information

Patent Number: US20120009203A1
Application Number: US13135222A
Inventor: Jewett, Anahid
Priority Date: 29 Jun 2010
Priority Number: US20120009203A1
Application Date: 29 Jun 2011
Publication Date: 12 Jan 2012
IPC Current: A61K003526 | A61K0031337 | A61K0039395 | A61P003500 | A61P003706
US Class: 4241721 | 4240937 | 514449
Title: Depletion of cancer stem cells
Usefulness: Depletion of cancer stem cells
Summary: The method (M1) is useful for depleting cancer stem cells including carcinoma stem cells, preferably squamous cell carcinoma at tumor site in individual. The method (M2) is useful for establishing tolerance to stem cell graft (all claimed) for transplantation of pluripotent stem cells and differentiated cells used in pharmaceutical composition for treating cancer.
Novelty: Depleting cancer stem cells including squamous carcinoma stem cells at tumor site useful for preventing cancer, involves depleting effector cells at site, and administering composition of activated natural killer cells to tumor site

Industry

Disease Diagnostic/Treatment

Sub Category

Cancer/Tumor

Application No.

9763982

Others

State Of Development

The investigators have shown that activated NK cells can lyse patient-derived oral tumors and human embryonic stem cells in vitro.

Background

Taken as a whole, roughly half of patients receiving treatment for invasive cancer die. Conventional radiation and chemotherapies have largely failed in improving survival and, since they are non-specific, often result in multiple adverse side effects. Immuno-based cancer treatment offers the possibility of higher specificity, but current therapies are limited in their effectiveness. Immunomodulators, including the EGFR antibody (Erbitux), can eliminate differentiated tumors but are ineffective in removing cancer stem cells and therefore do not fully eradicate the disease. T cell-mediated immunotherapies require an antigen that is both highly expressed and restricted to the tumor, so they are effective in only a small subset of cancers. In contrast to T cells, NK cells do not recognize foreign antigens, but rather detect changes in self-molecules displayed at the surface of autologous cells. NK cells can recognize and kill cancer stem cells, but are often inactivated in cancer patients. Methods to induce the NK-mediated killing of cancer cells, specifically cancer stem cells, could provide new therapies in the treatment of cancer.

Additional Technologies by these Inventors

• Improvement of Dental Resins: Decreased Toxicity and Improved Biocompatibility

Tech ID/UC Case

22321/2007-347-0

Related Cases

2007-347-0

*Abstract

UCLA researchers have found that activated NK cells can lyse cancer stem cells, providing a promising approach to the prevention of disease establishment and progression.

*Applications

• Elimination of cancer stem cells by direct delivery of activated NK cells to tumor site.
• Treatment of metastatic cancer by systemic administration of activated NK cells.

*IP Issue Date

Sep 19, 2017

*Principal Investigator

Name: Anahid Jewett

Department:

Country/Region

USA