Owen N. Witte, M.D.

Witte’s early discovery of the tyrosine kinase activity in the ABL protein and the demonstration of the BCR-ABL oncoproteins in leukemias was one of the preclinical discoveries that led to the development of Gleevec, the first targeted therapy for chronic myelogenous leukemia and acute lymphoblastic leukemia.

Witte also co-discovered the gene for Bruton's tyrosine kinase, a protein essential for normal B-lymphocyte development that, when mutated, causes the onset of X-linked agammaglobulinemia. This finding helped enable the development of drugs like Imatinib and Ibrutinib, which are now used to treat multiple leukemias, lymphomas and other cancers.

His current research aims to define more targeted therapies for epithelial cancers of the prostate by comparing normal prostate development to the processes orchestrating prostate cancer formation, metastasis and evolution to an aggressive castration-resistant form. Using tissue modeling techniques, Witte discovered the prostate stem cell antigen that is up-regulated in prostate cancer and identified the human prostate stem cell population. He further determined that the protein N-Myc, which is produced by the gene MYCN, leads to the development of aggressive neuroendocrine prostate cancer tumors. 

In collaboration with center member Thomas G. Graeber, Ph.D., Witte also recently used a human epithelial tissue recombination/transformation system to demonstrate that prostate and other tissues can be driven to an adenocarcinoma state by defined oncogenic signaling, and further trans-differentiated by epigenetic control to highly aggressive small cell carcinoma with neuroendocrine features. These insights have helped to define new immune targets for the development of novel CAR-T and T-cell receptor therapies under active investigation.

He is a member of the National Academy of Sciences, the American Academy of Arts and Sciences and the National Academy of Medicine.