Skip to main content
An official website of the United States government
Government Funding Lapse
Because of a lapse in government funding, the information on this website may not be up to date, transactions submitted via the website may not be processed, and the agency may not be able to respond to inquiries until appropriations are enacted.

The NIH Clinical Center (the research hospital of NIH) is open. For more details about its operating status, please visit cc.nih.gov.

Updates regarding government operating status and resumption of normal operations can be found at opm.gov.

Technology ID
TAB-4230

Fully-human Heavy-chain-only Anti-B-cell Maturation Antigen (BCMA) Chimeric Antigen Receptors (CARs)

E-Numbers
E-183-2017-0
Lead Inventors
Kochenderfer, James
Co-Inventors
Lam, Norris
Buelow, Benjamin
Applications
Therapeutics
Therapeutic Areas
Oncology
Development Stages
Pre-clinical (in vivo)
Lead IC
NCI
ICs
NCI

Immortalization of plasma cells leads to plasma cell malignancy diseases such as multiple myeloma (MM). B-cell maturation antigen (BCMA) is a protein that is preferentially expressed by malignant and normal B cells and plasma cells, butnot on other cells in the body. This limited expression profile suggests that BCMA is a promising target for anticancer therapeutics for cancers in which there is excess production of plasma cells and B cells. 
Researchers in the National Cancer Institute (NCI) Experimental Transplantation and Immunology Branch (ETIB) previously reported anti-BCMA CARs, which are currently being tested in the clinic for patients with multiple myeloma. While the results from clinical trials have demonstrated the efficacy of anti-BCMA CARs, the CAR being used in this clinical trial has an antigen recognition domain derived from mouse antibody; this allows 
for the possibility of an immune response by the patient against the CAR. The development of CARs with antigen-recognition domains comprising a fully human heavy chain variable region can mitigate this potential immunogenicity against the CAR T cells, thereby enhancing therapeutic function.  
The inventors have developed 12 novel anti-BCMA CARs with fully human heavy chain variable region sequences, each of which specifically recognizes BCMA in vitro and in vivo. Each of these CARs is available for licensing under a variety of conditions, including expression on autologous or allogeneic T cells.

Competitive Advantages:

  • The fully human nature of this anti-BCMA CAR can increase therapeutic effectiveness because it is less immunogenic to human patients 
  • The fully human CARs are already known to bind to BCMA in vitro and in vivo 

Commercial Applications:

  • Treatment of plasma cell malignancy diseases such as multiple myeloma
  • Treatment of B cell malignancy diseases such as Hodgkin’s lymphoma and non-Hodgkin’s lymphoma 
Licensing Contacts