机构地区:[1]Key Laboratory of Arid Agroecology at Lanzhou University, Ministry of Education, Lanzhou 730000, China [2]Department of Biochemisty and Plant Science Initiative, George W. Beadle Center, University of Nebraska-Lincoln, Lincoln, NE 68588, USA
出 处:《Journal of Integrative Plant Biology》2006年第4期433-439,共7页植物学报(英文版)
基 金:National Natural Science Foundation of China (90102015,30170161) and Cooperation Project of Intemational in China and Greece (05-46).
摘 要:In the present study, we focused on whether Intracellular free Ca^2+ ([Ca^2+],) regulates the formation of mltochondrlal permeability transition pore (MPTP) In H2O2-induced apoptosis In tobacco protoplasts. It was shown that the decrease In mltochondrlal membrane potential (△ψm) preceded the appearance of H2O2-Induced apoptosls; pretreatment with the specific MPTP Inhibitor cyclosporine A, which also Inhibits Ca^2+ cycling by the mitochondria, effectively retarded apoptosls and the decrease In △ψm. Apoptosls and decreased △ψm were exacerbated by CaCl2, whereas the plasma membrane voltage-dependent Ca^2+ channel blocker lanthanum chloride (LaCl3) attentuated these responses. Chelation of extracellular Ca^2+ with EGTA almost totally Inhibited apoptosls and the decrease In △ψmInduced by H2O2. The time-course of changes In [Ca^2+]l In apoptosls was detected using the Ca^2+ probe Fiuo-3 AM. These studies showed that [Ca^2+]1 was Increased at the very early stage of H2O2-Induced apoptosls. The EGTA evidently Inhibited the Increase In [Ca^2+]1 Induced by H=O=, whereas It was only partially Inhibited by LaCl3. The results suggest that H2O2 may elevate cytoplasmic free Ca^2+ concentrations In tobacco protoplasts, which mainly results from the entry of extracellular Ca^2+, to regulate mltochondrlal permeability transition. The signaling pathway of [Ca^2+]1-medlated mltochondrlal permeability transition was associated with H2O2-Induced apoptosis In tobacco protoplaete.In the present study, we focused on whether Intracellular free Ca^2+ ([Ca^2+],) regulates the formation of mltochondrlal permeability transition pore (MPTP) In H2O2-induced apoptosis In tobacco protoplasts. It was shown that the decrease In mltochondrlal membrane potential (△ψm) preceded the appearance of H2O2-Induced apoptosls; pretreatment with the specific MPTP Inhibitor cyclosporine A, which also Inhibits Ca^2+ cycling by the mitochondria, effectively retarded apoptosls and the decrease In △ψm. Apoptosls and decreased △ψm were exacerbated by CaCl2, whereas the plasma membrane voltage-dependent Ca^2+ channel blocker lanthanum chloride (LaCl3) attentuated these responses. Chelation of extracellular Ca^2+ with EGTA almost totally Inhibited apoptosls and the decrease In △ψmInduced by H2O2. The time-course of changes In [Ca^2+]l In apoptosls was detected using the Ca^2+ probe Fiuo-3 AM. These studies showed that [Ca^2+]1 was Increased at the very early stage of H2O2-Induced apoptosls. The EGTA evidently Inhibited the Increase In [Ca^2+]1 Induced by H=O=, whereas It was only partially Inhibited by LaCl3. The results suggest that H2O2 may elevate cytoplasmic free Ca^2+ concentrations In tobacco protoplasts, which mainly results from the entry of extracellular Ca^2+, to regulate mltochondrlal permeability transition. The signaling pathway of [Ca^2+]1-medlated mltochondrlal permeability transition was associated with H2O2-Induced apoptosis In tobacco protoplaete.
关 键 词:APOPTOSIS CALCIUM hydrogen peroxide mitochondrial permeability transition pore programmed cell death tobacco protoplast.
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