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Cyclic AMP regulates the life time of acetylcholine-activated channels in cultured myotubes
No full text'Giga-seal' patch-clamp recording was performed in embryonic chick myotubes at day 3 to 4 of culture. Myotubes were exposed to agents that enhance the concentration of cytosolic cyclic AMP (cAMPi) and their action on acetylcholine- (ACh) activated channels was investigated. While the conductance and the closed time was unaffected by forsokolin, cholera toxin, dibutyryl cyclic AMP and 8-bromo-cyclic AMP, these agents lengthened the ACh-activated channel life time with efficacy that paralleled with their capability to increase the cAMPi
Paracrine stimulation of senescent satellite cell proliferation by factors released by muscle or myotubes from young mice
No full textAcetylcholine regulation of nicotinic receptor channels through a putative G protein in chick myotubes.
No full text1. Single-channel currents induced by acetylcholine (ACh) were recorded from unstriated and non-innervated embryonic chick myotubes using the cell-attached patch-clamp technique. 2. ACh applied to the non-patched membrane decreased both channel opening probability and conductance. These ACh-induced effects occurred also when the non-patched membrane was exposed to nominally Ca2+-free extracellular medium, but were absent when it was treated with curare. 3. ACh-induced membrane current recorded under whole-cell patch-clamp conditions decreased in amplitude and time course when myotubes were intracellularly loaded with guanosine-5'-O-(3-thiotriphosphate) GTP gamma S), but not with guanosine-5'-O-(2-thiodiphosphate) (GDP beta S) or cyclic adenosine-5'-monophosphate (cyclic AMP). Internal perfusion of GTP gamma S affected the ACh-induced openings in a similar manner to the non-patch ACh application. 4. These results suggest that ACh, in addition to its direct effect, acts indirectly on the nicotinic receptor channels by delivering an intracellular messenger and through the activation of a putative G protein
TPA-induced differentiation of human rhabdomyosarcoma cells involves dephosphorylation and nuclear accumulation of mutant P53
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