Mitochondrial Bioenergetics and Fiber Type Assessments in Microbiopsy vs. Bergstrom Percutaneous Sampling of Human Skeletal Muscle

Microbiopsies of human skeletal muscle are increasingly adopted by physiologists for a variety of experimental assays given the reduced invasiveness of this procedure compared to the classic Bergstrom percutaneous biopsy technique. However, a recent report demonstrated lower mitochondrial respiratio...

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Autores principales: Hughes, Meghan C., Ramos, Sofhia V., Turnbull, Patrick C., Nejatbakhsh, Ali, Baechler, Brittany L., Tahmasebi, Houman, Laham, Robert, Gurd, Brendon J., Quadrilatero, Joe, Kane, Daniel A., Perry, Christopher G. R.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2015
Materias:
Physiology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4683189/
https://www.ncbi.nlm.nih.gov/pubmed/26733870
http://dx.doi.org/10.3389/fphys.2015.00360
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author Hughes, Meghan C.
Ramos, Sofhia V.
Turnbull, Patrick C.
Nejatbakhsh, Ali
Baechler, Brittany L.
Tahmasebi, Houman
Laham, Robert
Gurd, Brendon J.
Quadrilatero, Joe
Kane, Daniel A.
Perry, Christopher G. R.
author_facet Hughes, Meghan C.
Ramos, Sofhia V.
Turnbull, Patrick C.
Nejatbakhsh, Ali
Baechler, Brittany L.
Tahmasebi, Houman
Laham, Robert
Gurd, Brendon J.
Quadrilatero, Joe
Kane, Daniel A.
Perry, Christopher G. R.
author_sort Hughes, Meghan C.
collection PubMed
description Microbiopsies of human skeletal muscle are increasingly adopted by physiologists for a variety of experimental assays given the reduced invasiveness of this procedure compared to the classic Bergstrom percutaneous biopsy technique. However, a recent report demonstrated lower mitochondrial respiration in saponin-permeabilized muscle fiber bundles (PmFB) prepared from microbiopsies vs. Bergstrom biopsies. We hypothesized that ADP-induced contraction (rigor) of smaller length microbiopsy PmFB causes a greater reduction in maximal respiration vs. Bergstrom, such that respiration could be increased by a myosin II ATPase-inhibitor (Blebbistatin; BLEB). Eleven males and females each received a 2 mm diameter percutaneous microbiopsy and a 5 mm diameter Bergstrom percutaneous biopsy in opposite legs. Glutamate/malate (5/0.5 mM)—supported respiration in microbiopsy PmFB was lower than Bergstrom at submaximal concentrations of ADP. 5 μM BLEB reduced this impairment such that there were no differences relative to Bergstrom ± BLEB. Surprisingly, pyruvate (5 mM)-supported respiration was not different between either biopsy technique ±BLEB, whereas BLEB increased succinate-supported respiration in Bergstrom only. H(2)O(2) emission was lower in microbiopsy PmFB compared to Bergstrom PmFB in the presence of BLEB. Microbiopsies contained fewer type I fibers (37 vs. 47%) and more type IIX fibers (20 vs. 8%) compared to Bergstrom possibly due to sampling site depth and/or longitudinal location. These findings suggest that smaller diameter percutaneous biopsies yield lower glutamate-supported mitochondrial respiratory kinetics which is increased by preventing ADP-induced rigor with myosin inhibition. Microbiopsies of human skeletal muscle can be utilized for assessing mitochondrial respiratory kinetics in PmFB when assay conditions are supplemented with BLEB, but fiber type differences with this method should be considered.
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spelling pubmed-46831892016-01-05 Mitochondrial Bioenergetics and Fiber Type Assessments in Microbiopsy vs. Bergstrom Percutaneous Sampling of Human Skeletal Muscle Hughes, Meghan C. Ramos, Sofhia V. Turnbull, Patrick C. Nejatbakhsh, Ali Baechler, Brittany L. Tahmasebi, Houman Laham, Robert Gurd, Brendon J. Quadrilatero, Joe Kane, Daniel A. Perry, Christopher G. R. Front Physiol Physiology Microbiopsies of human skeletal muscle are increasingly adopted by physiologists for a variety of experimental assays given the reduced invasiveness of this procedure compared to the classic Bergstrom percutaneous biopsy technique. However, a recent report demonstrated lower mitochondrial respiration in saponin-permeabilized muscle fiber bundles (PmFB) prepared from microbiopsies vs. Bergstrom biopsies. We hypothesized that ADP-induced contraction (rigor) of smaller length microbiopsy PmFB causes a greater reduction in maximal respiration vs. Bergstrom, such that respiration could be increased by a myosin II ATPase-inhibitor (Blebbistatin; BLEB). Eleven males and females each received a 2 mm diameter percutaneous microbiopsy and a 5 mm diameter Bergstrom percutaneous biopsy in opposite legs. Glutamate/malate (5/0.5 mM)—supported respiration in microbiopsy PmFB was lower than Bergstrom at submaximal concentrations of ADP. 5 μM BLEB reduced this impairment such that there were no differences relative to Bergstrom ± BLEB. Surprisingly, pyruvate (5 mM)-supported respiration was not different between either biopsy technique ±BLEB, whereas BLEB increased succinate-supported respiration in Bergstrom only. H(2)O(2) emission was lower in microbiopsy PmFB compared to Bergstrom PmFB in the presence of BLEB. Microbiopsies contained fewer type I fibers (37 vs. 47%) and more type IIX fibers (20 vs. 8%) compared to Bergstrom possibly due to sampling site depth and/or longitudinal location. These findings suggest that smaller diameter percutaneous biopsies yield lower glutamate-supported mitochondrial respiratory kinetics which is increased by preventing ADP-induced rigor with myosin inhibition. Microbiopsies of human skeletal muscle can be utilized for assessing mitochondrial respiratory kinetics in PmFB when assay conditions are supplemented with BLEB, but fiber type differences with this method should be considered. Frontiers Media S.A. 2015-12-18 /pmc/articles/PMC4683189/ /pubmed/26733870 http://dx.doi.org/10.3389/fphys.2015.00360 Text en Copyright © 2015 Hughes, Ramos, Turnbull, Nejatbakhsh, Baechler, Tahmasebi, Laham, Gurd, Quadrilatero, Kane and Perry. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Physiology
Hughes, Meghan C.
Ramos, Sofhia V.
Turnbull, Patrick C.
Nejatbakhsh, Ali
Baechler, Brittany L.
Tahmasebi, Houman
Laham, Robert
Gurd, Brendon J.
Quadrilatero, Joe
Kane, Daniel A.
Perry, Christopher G. R.
Mitochondrial Bioenergetics and Fiber Type Assessments in Microbiopsy vs. Bergstrom Percutaneous Sampling of Human Skeletal Muscle
title Mitochondrial Bioenergetics and Fiber Type Assessments in Microbiopsy vs. Bergstrom Percutaneous Sampling of Human Skeletal Muscle
title_full Mitochondrial Bioenergetics and Fiber Type Assessments in Microbiopsy vs. Bergstrom Percutaneous Sampling of Human Skeletal Muscle
title_fullStr Mitochondrial Bioenergetics and Fiber Type Assessments in Microbiopsy vs. Bergstrom Percutaneous Sampling of Human Skeletal Muscle
title_full_unstemmed Mitochondrial Bioenergetics and Fiber Type Assessments in Microbiopsy vs. Bergstrom Percutaneous Sampling of Human Skeletal Muscle
title_short Mitochondrial Bioenergetics and Fiber Type Assessments in Microbiopsy vs. Bergstrom Percutaneous Sampling of Human Skeletal Muscle
title_sort mitochondrial bioenergetics and fiber type assessments in microbiopsy vs. bergstrom percutaneous sampling of human skeletal muscle
topic Physiology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4683189/
https://www.ncbi.nlm.nih.gov/pubmed/26733870
http://dx.doi.org/10.3389/fphys.2015.00360
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