BIOPHYSICAL AND ELECTRO PHARMACOLOGICAL PROPERTIES OF SINGLE MITO KATP CHANNEL IN RAT BRAIN MITOCHONDRIAL INNER MEMBRANE

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FAHANIK BABAEI JAVAD; ELIASSI AFSANEH; SAGHIRI REZA

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Journal: Physiology and Pharmacology Year:2012 | Volume:16 | Issue:3 Page(s): 283-299

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Title

BIOPHYSICAL AND ELECTRO PHARMACOLOGICAL PROPERTIES OF SINGLE MITO KATP CHANNEL IN RAT BRAIN MITOCHONDRIAL INNER MEMBRANE

Author(s)

FAHANIK BABAEI JAVAD | ELIASSI AFSANEH | SAGHIRI REZA | Issue Writer Certificate

Keywords

MITOCHONDRIAQ2

POTASSIUM CHANNELQ2

MITOKATPQ2

IBTXQ2

GLIBENCLAMIDEQ2

Abstract

Introduction: Different ATP-sensitive POTASSIUM CHANNELs have been detected in the MITOCHONDRIAl inner membrane of cells. They are suggested to be involved in cell processes including cell protection. Here, we characterized the biophysical and electro pharmacological properties of a KATP channel in the brain MITOCHONDRIAl inner membranes.Methods: After removing and homogenizing the rat brain, the supernatant was separately centrifuged in MSE digitonin, H2O and Na2CO3 and MITOCHONDRIAl inner membrane vesicles were obtained in MSE solution. L-a-Phosphatidylcholine (membrane lipid) was extracted from fresh egg yolk. Bilayer lipid membranes were formed in a 150 mm diameter hole. All recordings were filtered at 1 kHz and stored at a sampling rate of 10 kHz for offline analysis by PClamp10.Results: Single channel recordings revealed a channel with a slope conductance of 143±7pS in voltage dependent 200 mM KCl cis/50 mM KCl trans. The closed dwell time distributions indicated one and at least two exponential components at positive and negative potentials, respectively. The open dwell time events were fitted to two exponential functions. The block by ATP and GLIBENCLAMIDE characterized this channel as the KATP channel. We also showed that 4-AP and TEA inhibited the channel activities. The activity of channel was not influenced by iberiotoxin, a BK channel blocker, and 5-hydroxydecanoic acid, an inhibitor of MITOCHONDRIAl ATP-sensitive POTASSIUM CHANNELs. Western blotting with antibodies directed against Kir6.1 and SUR2B subunits recognized a blocking-peptide-sensitive with a molecular mass of ~55-64kDa and ~120kDa, respectively.Conclusion: This channel is likely to be involved in maintaining proper homeostasis in brain MITOCHONDRIA and cell processes.

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APA: Copy

FAHANIK BABAEI, JAVAD, ELIASSI, AFSANEH, & SAGHIRI, REZA. (2012). BIOPHYSICAL AND ELECTRO PHARMACOLOGICAL PROPERTIES OF SINGLE MITO K_ATP CHANNEL IN RAT BRAIN MITOCHONDRIAL INNER MEMBRANE. PHYSIOLOGY AND PHARMACOLOGY, 16(3), 283-299. SID. https://sid.ir/paper/75000/en

Vancouver: Copy

FAHANIK BABAEI JAVAD, ELIASSI AFSANEH, SAGHIRI REZA. BIOPHYSICAL AND ELECTRO PHARMACOLOGICAL PROPERTIES OF SINGLE MITO K_ATP CHANNEL IN RAT BRAIN MITOCHONDRIAL INNER MEMBRANE. PHYSIOLOGY AND PHARMACOLOGY[Internet]. 2012;16(3):283-299. Available from: https://sid.ir/paper/75000/en

IEEE: Copy

JAVAD FAHANIK BABAEI, AFSANEH ELIASSI, and REZA SAGHIRI, “BIOPHYSICAL AND ELECTRO PHARMACOLOGICAL PROPERTIES OF SINGLE MITO K_ATP CHANNEL IN RAT BRAIN MITOCHONDRIAL INNER MEMBRANE,” PHYSIOLOGY AND PHARMACOLOGY, vol. 16, no. 3, pp. 283–299, 2012, [Online]. Available: https://sid.ir/paper/75000/en

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