1. Hexokinase inhibits flux of fluorescently labeled ATP through mitochondrial outer membrane porin
- Author
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Elena A. Kotova, Dmitry B. Zorov, Irina V. Perevoshchikova, S. D. Zorov, and Yuri N. Antonenko
- Subjects
Voltage-dependent anion channel ,Biophysics ,Porins ,Peptide ,Fluorescence correlation spectroscopy ,Mitochondrion ,Biochemistry ,chemistry.chemical_compound ,Structural Biology ,Hexokinase ,Organelle ,Genetics ,Animals ,Voltage-Dependent Anion Channels ,Molecular Biology ,chemistry.chemical_classification ,biology ,Voltage-Dependent Anion Channel 1 ,Cell Biology ,Rats ,Mitochondria ,Voltage dependent anion channel ,chemistry ,Mitochondrial Membranes ,Porin ,biology.protein ,Bacterial outer membrane - Abstract
Mitochondrial function requires maintaining metabolite fluxes across the mitochondrial outer membrane, which is mediated primarily by the voltage dependent anion channel (VDAC). We applied fluorescence correlation spectroscopy (FCS) to study regulation of the VDAC functional state by monitoring distribution of fluorescently labeled ATP (BODIPY-FL-ATP) in isolated intact rat liver and heart mitochondria. Addition of mitochondria to BODIPY-FL-ATP solution resulted in accumulation of the fluorescent probe in these organelles. The addition of hexokinase II (HKII) isolated from rat heart led to a decrease in the BODIPY-FL-ATP accumulation, while a 15-residue peptide corresponding to the N-terminal domain of hexokinase did not produce this effect. Therefore, the hexokinase-induced inhibition of the ATP flow mediated by VDAC was revealed in isolated mitochondria.
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