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W2006540966 endingPage "407" @default.
W2006540966 startingPage "391" @default.
W2006540966 abstract "We studied the effects of membrane stretch and voltage on the gating of single mechanosensitive (MS) channels in myotubes from dystrophin‐deficient mdx mice. In earlier studies of MS channels in mdx myotubes, we found a novel class of stretch‐inactivated channels. In the present experiments, we used a gentle suction protocol to determine whether seal formation damaged the membrane and altered MS channel gating, since dystrophin‐deficiency is known to be associated with an increased susceptibility to mechanically induced damage. In some recordings from mdx myotubes, MS channel open probability gradually increased to levels approaching unity following seal formation. In these recordings, channels remained open for the duration of the recording. In other recordings, MS channel open probability remained low after seal formation and applying weak suction evoked conventional stretch‐activated gating. Applying strong suction or very positive voltages, however, caused some channels to enter a high open probability gating mode. The shift to a high open probability gating mode coincided with the appearance of stretch‐inactivated gating. These findings suggested that mechanical stimulation altered the mechanical properties of the patch causing some MS channels to enter a novel gating mode. In support of this idea, stretch‐activated and stretch‐inactivated channels were not detected in the same membrane patch and channel inactivation occurred at lower pressures than activation ( P 1/2, =−13 and −26.5 mmHg, respectively). Other experiments showed that stretch‐inactivated gating was not due to a simple loss of MS channel activity from a non‐random process such as vesiculation or bleb formation: channel inactivation by suction was readily reversible, stable over tens of minutes, and followed the predictions of the binomial theorem for independent, randomly gating channels. In addition, the voltage‐dependent gating of stretch‐inactivated channels was similar to that of stretch‐activated channels. The results show that MS channels in dystrophin‐deficient muscle exist in two distinct gating modes and that mechanical stimuli cause an irreversible conversion between modes. We discuss possible mechanisms for the changes in MS channel gating in relation to the known cytoskeletal abnormalities of mdx muscle and its possible implications for the pathogenesis of Duchenne dystrophy." @default.
W2006540966 created "2016-06-24" @default.
W2006540966 creator A5009118906 @default.
W2006540966 creator A5071881588 @default.
W2006540966 date "2002-03-01" @default.
W2006540966 modified "2023-09-26" @default.
W2006540966 title "Changes in mechanosensitive channel gating following mechanical stimulation in skeletal muscle myotubes from the <i>mdx</i> mouse" @default.
W2006540966 cites W1500047101 @default.
W2006540966 cites W1522004608 @default.
W2006540966 cites W1579765465 @default.
W2006540966 cites W1588328905 @default.
W2006540966 cites W1734285252 @default.
W2006540966 cites W1963701173 @default.
W2006540966 cites W1965209261 @default.
W2006540966 cites W1965336601 @default.
W2006540966 cites W1965883224 @default.
W2006540966 cites W1969707854 @default.
W2006540966 cites W1970848490 @default.
W2006540966 cites W1971705141 @default.
W2006540966 cites W1974582208 @default.
W2006540966 cites W1975712774 @default.
W2006540966 cites W1976919537 @default.
W2006540966 cites W1977150247 @default.
W2006540966 cites W1977645957 @default.
W2006540966 cites W1979856671 @default.
W2006540966 cites W1980558682 @default.
W2006540966 cites W1980831502 @default.
W2006540966 cites W1983359571 @default.
W2006540966 cites W1983555241 @default.
W2006540966 cites W1986149265 @default.
W2006540966 cites W1989689747 @default.
W2006540966 cites W1997511216 @default.
W2006540966 cites W1997572015 @default.
W2006540966 cites W1999008715 @default.
W2006540966 cites W2004308959 @default.
W2006540966 cites W2008620846 @default.
W2006540966 cites W2009667219 @default.
W2006540966 cites W2012739206 @default.
W2006540966 cites W2012911495 @default.
W2006540966 cites W2013055359 @default.
W2006540966 cites W2013306039 @default.
W2006540966 cites W2015426350 @default.
W2006540966 cites W2016465574 @default.
W2006540966 cites W2020149988 @default.
W2006540966 cites W2020769270 @default.
W2006540966 cites W2022216635 @default.
W2006540966 cites W2023191886 @default.
W2006540966 cites W2025720625 @default.
W2006540966 cites W2027221381 @default.
W2006540966 cites W2028178258 @default.
W2006540966 cites W2033980199 @default.
W2006540966 cites W2036145275 @default.
W2006540966 cites W2038538957 @default.
W2006540966 cites W2038546974 @default.
W2006540966 cites W2038704419 @default.
W2006540966 cites W2039140780 @default.
W2006540966 cites W204138133 @default.
W2006540966 cites W2044556823 @default.
W2006540966 cites W2047015778 @default.
W2006540966 cites W2051381411 @default.
W2006540966 cites W2051737308 @default.
W2006540966 cites W2058140775 @default.
W2006540966 cites W2062912208 @default.
W2006540966 cites W2065509440 @default.
W2006540966 cites W2071210240 @default.
W2006540966 cites W2073149428 @default.
W2006540966 cites W2078276507 @default.
W2006540966 cites W2078680005 @default.
W2006540966 cites W2079247487 @default.
W2006540966 cites W2082916096 @default.
W2006540966 cites W2083018473 @default.
W2006540966 cites W2087717443 @default.
W2006540966 cites W2091410842 @default.
W2006540966 cites W2093907840 @default.
W2006540966 cites W2099755344 @default.
W2006540966 cites W2102878417 @default.
W2006540966 cites W2119595362 @default.
W2006540966 cites W2125942201 @default.
W2006540966 cites W2132554244 @default.
W2006540966 cites W2154939910 @default.
W2006540966 cites W2158347147 @default.
W2006540966 cites W2161498359 @default.
W2006540966 cites W2163449047 @default.
W2006540966 cites W2164349008 @default.
W2006540966 cites W2172246975 @default.
W2006540966 cites W2289888533 @default.
W2006540966 cites W2318185099 @default.
W2006540966 cites W2409505590 @default.
W2006540966 cites W2410735745 @default.
W2006540966 cites W31635351 @default.
W2006540966 cites W37356198 @default.
W2006540966 cites W39310485 @default.
W2006540966 cites W4240352020 @default.
W2006540966 cites W4300638818 @default.
W2006540966 doi "https://doi.org/10.1113/jphysiol.2001.013043" @default.
W2006540966 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/2290167" @default.
W2006540966 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/11882673" @default.
W2006540966 hasPublicationYear "2002" @default.