Deepa Sampath, Ph.D.
University of Texas M. D. Anderson Cancer Center
Abstract:
Certain cancers such as chronic lymphocytic leukemia (CLL) are characterized by a slow accumulation of cells that display enhanced survival. These cells do not divide or synthesize DNA. Therefore, agents that require active DNA replication or cell division are ineffective against this disease. My project focuses on the development a new class of agents, the histone deacetylase inhibitors (HDACI), for the treatment of leukemias.
HDACIs work by acetylating proteins so that genes synthesize (or transcribe) new messenger RNA’s. These new messenger RNA’s produce proteins that activate cell death in CLL lymphocytes. When CLL cells are exposed to LBH589, a HDACI, there is an increased level of protein modification and genes are transcribed that then produce proteins which induce cell death. LBH589 also inhibits the transcription of genes needed for the survival of CLL cells. These features make LBH589 an ideal drug to target CLL cells.
Our hypothesis is that because of these DNA independent actions of LBH589, quiescent (non dividing) CLL lymphocytes will undergo death. We hope to understand the mechanism of action of this agent in leukemia cells that are freshly obtained from blood of patients with CLL. These data will help in the development of HDACIs as a drug for the treatment of CLL. We will compare all our data in CLL lymphocytes with normal lymphocytes. We will obtain blood from CLL patients and healthy donors, as permitted under a protocol approved by the Institutional Review Board (IRB). We also have an IRB approved phase I protocol to use LBH589 for patients with leukemias including CLL.
Useful Definition: Acetylation: Protein modification that allows for the synthesis of new gene products.