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Phasic Oscillations of Extracellular Potassium (K(o)) in Pregnant Rat Myometrium

K-sensitive microelectrodes were used to measure K(+) within the extracellular space (K(o)) of pregnant rat myometrium. Contractile activity was monitored by measuring either force or bioelectrical signals. Single and double-barreled electrodes were used. Double-barreled electrodes allowed monitorin...

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Autores principales: Young, Roger C., Goloman, Gabriela
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3665820/
https://www.ncbi.nlm.nih.gov/pubmed/23724127
http://dx.doi.org/10.1371/journal.pone.0065110
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author Young, Roger C.
Goloman, Gabriela
author_facet Young, Roger C.
Goloman, Gabriela
author_sort Young, Roger C.
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description K-sensitive microelectrodes were used to measure K(+) within the extracellular space (K(o)) of pregnant rat myometrium. Contractile activity was monitored by measuring either force or bioelectrical signals. Single and double-barreled electrodes were used. Double-barreled electrodes allowed monitoring of electrical activity 15 microns from the site of K(o) measurement. From double-barreled electrode experiments, the bioelectrical burst started first, and then K(o) began to rise 0.6 ± 0.1 seconds later. This delay indicates that K(+) leaves the cells in response to local electrical activity rather than vice versa. Four control experiments were performed to assess the influence of electrical artifacts caused by tissue motion on K(o) values. When observed, artifacts were negative and transient, and hence would result in an underestimation of K(o) rises. Artifacts were minimized when tissue motion was minimized by fixing the tissue at both ends. At 37°C, 7 single barreled experiments and 45 contractions were analyzed. Resting K(o) was within 1 mM of bath K(+) (5 mM) at the beginning and end of the experiments. K(o) rose during the contraction, fell after the completion of the contraction, and normalized before the next contraction began. Peak K(o) values observed during force production were 18.8 ± 5.9 mM, a value high enough to modulate tissue-level electrical activity. K(o) required 15.7 ± 2.8 seconds to normalize halfway (t(50)). Six experiments expressing 38 contractions were performed at 24°C. The contraction period was longer at 24°C. Values for peak K(o) (26.2 ± 9.9 mM) and t(50) (29.8±16.2 sec) were both larger than at 37°C (p<0.0003 for both). The direct relationships between peak K(o), t(50) and the contraction period, suggest elevations in K(o) may modulate contraction frequency. The myometrial interstitial space appears to be functionally important, and K(o) metabolism may participate in cell-cell interactions.
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spelling pubmed-36658202013-05-30 Phasic Oscillations of Extracellular Potassium (K(o)) in Pregnant Rat Myometrium Young, Roger C. Goloman, Gabriela PLoS One Research Article K-sensitive microelectrodes were used to measure K(+) within the extracellular space (K(o)) of pregnant rat myometrium. Contractile activity was monitored by measuring either force or bioelectrical signals. Single and double-barreled electrodes were used. Double-barreled electrodes allowed monitoring of electrical activity 15 microns from the site of K(o) measurement. From double-barreled electrode experiments, the bioelectrical burst started first, and then K(o) began to rise 0.6 ± 0.1 seconds later. This delay indicates that K(+) leaves the cells in response to local electrical activity rather than vice versa. Four control experiments were performed to assess the influence of electrical artifacts caused by tissue motion on K(o) values. When observed, artifacts were negative and transient, and hence would result in an underestimation of K(o) rises. Artifacts were minimized when tissue motion was minimized by fixing the tissue at both ends. At 37°C, 7 single barreled experiments and 45 contractions were analyzed. Resting K(o) was within 1 mM of bath K(+) (5 mM) at the beginning and end of the experiments. K(o) rose during the contraction, fell after the completion of the contraction, and normalized before the next contraction began. Peak K(o) values observed during force production were 18.8 ± 5.9 mM, a value high enough to modulate tissue-level electrical activity. K(o) required 15.7 ± 2.8 seconds to normalize halfway (t(50)). Six experiments expressing 38 contractions were performed at 24°C. The contraction period was longer at 24°C. Values for peak K(o) (26.2 ± 9.9 mM) and t(50) (29.8±16.2 sec) were both larger than at 37°C (p<0.0003 for both). The direct relationships between peak K(o), t(50) and the contraction period, suggest elevations in K(o) may modulate contraction frequency. The myometrial interstitial space appears to be functionally important, and K(o) metabolism may participate in cell-cell interactions. Public Library of Science 2013-05-28 /pmc/articles/PMC3665820/ /pubmed/23724127 http://dx.doi.org/10.1371/journal.pone.0065110 Text en © 2013 Young, Goloman http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Young, Roger C.
Goloman, Gabriela
Phasic Oscillations of Extracellular Potassium (K(o)) in Pregnant Rat Myometrium
title Phasic Oscillations of Extracellular Potassium (K(o)) in Pregnant Rat Myometrium
title_full Phasic Oscillations of Extracellular Potassium (K(o)) in Pregnant Rat Myometrium
title_fullStr Phasic Oscillations of Extracellular Potassium (K(o)) in Pregnant Rat Myometrium
title_full_unstemmed Phasic Oscillations of Extracellular Potassium (K(o)) in Pregnant Rat Myometrium
title_short Phasic Oscillations of Extracellular Potassium (K(o)) in Pregnant Rat Myometrium
title_sort phasic oscillations of extracellular potassium (k(o)) in pregnant rat myometrium
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3665820/
https://www.ncbi.nlm.nih.gov/pubmed/23724127
http://dx.doi.org/10.1371/journal.pone.0065110
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