Suppression of human tumor cell proliferation through mitochondrial targeting. FASEB J 2002 Jul;16(9):1010-6
Date
06/28/2002Pubmed ID
12087062DOI
10.1096/fj.01-0996comScopus ID
2-s2.0-0036313863 (requires institutional sign-in at Scopus site) 66 CitationsAbstract
Intracellular calcium signaling plays a central role in cell proliferation. In leukemic cells, the calcium release-activated calcium channels provide a major pathway for calcium entry (I(CRAC)) perpetuating progression through the cell cycle. Although I(CRAC) is under mitochondrial regulation, targeting mitochondrial function has not been exploited to control malignant cell growth. The benzothiadiazine diazoxide, which depolarized respiration-dependent mitochondrial membrane potential, reduced the rate of proliferation and arrested human acute leukemic T cells in the G0/G1 phase. Diazoxide did not alter cellular energetics, but rather inhibited the mitochondria-controlled I(CRAC) and reduced calcium influx into tumor cells. The antiproliferative action of diazoxide was mimicked by removal of extracellular calcium or by the tyrphostin A9, an I(CRAC) inhibitor. Deletion of the mitochondrial genome, which encodes essential respiratory chain enzyme subunits, attenuated the inhibitory effect of diazoxide on I(CRAC)-mediated calcium influx and cell proliferation. Thus, manipulation of mitochondrial function and associated calcium signaling provides a basis for a novel anticancer strategy.
Author List
Holmuhamedov E, Lewis L, Bienengraeber M, Holmuhamedova M, Jahangir A, Terzic AMESH terms used to index this publication - Major topics in bold
Antineoplastic AgentsCalcium Channel Blockers
Calcium Signaling
Cell Division
DNA, Mitochondrial
Diazoxide
Drug Delivery Systems
Humans
Jurkat Cells
Kinetics
Leukemia-Lymphoma, Adult T-Cell
Membrane Potentials
Mitochondria
Tumor Cells, Cultured