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Evidence collected from studies on a wide range of secretory cells suggests that calmodulin may play an important role in stimulus-secretion coupling. Work on synaptosomes, central synaptic preparations and chromaffin cell preparations indicates that calmodulin probably also acts as the intracellular Ca2+-receptor for secretion in neuronal cells, Ca2+-binding resulting in activation of protein kinases and phosphorylation of certain secretory vesicle proteins. Studies on the effects of calmodulin-binding drugs at peripheral synapses have given surprising results, particularly the finding that evoked (synchronous) transmitter release is not suppressed by calmodulin inhibition, though asynchronous release can be markedly inhibited. It is suggested that the insensitivity of synchronous release to drug treatment is due to the fact that only vesicle-bound calmodulin is involved in this form of transmitter secretion. Asynchronous release, however, involves recruitment of cytosolic calmodulin and can therefore be inhibited by calmodulin-binding drugs. 相似文献
377.
A technique to locate the pacemaker in smooth muscles 总被引:4,自引:0,他引:4
378.
S. J. Publicover C. J. Duncan J. L. Smith Helen Clare Greenaway 《Cell and tissue research》1979,203(2):291-300
Summary Diamide (10–4M), a thiol oxidizing agent, rapidly promotes septation in isolated frog liver mitochondria and also in situ in liver slices. The effect is partially inhibited by dithioerythritol. DNP does not have this effect, and it is concluded that diamide does not promote septation via an uncoupling action. The septate mitochondria have a different appearance from typical dividing mitochondria previously described; it is suggested that (1) diamide may act by favouring the fusion of the internal membranes, and (2) -SH oxidation is of importance in mitochondria in ageing and in various pathological conditions. The ways in which septa may develop in mitochondria in the orthodox and condensed configuration are discussed. 相似文献
379.
Inhibition of electrical slow waves and Ca2+ currents of gastric and colonic smooth muscle by phosphatase inhibitors 总被引:1,自引:0,他引:1
380.
Brbara Matos Stephen J. Publicover Luis Filipe C. Castro Pedro J. Esteves Margarida Fardilha 《Open biology》2021,11(6)
Several strands of evidence indicate the presence of marked similarities between human brain and testis. Understanding these similarities and their implications has become a topic of interest among the scientific community. Indeed, an association of intelligence with some semen quality parameters has been reported and a relation between dysfunctions of the human brain and testis has also been evident. Numerous common molecular features are evident when these tissues are compared, which is reflected in the huge number of common proteins. At the functional level, human neurons and sperm share a number of characteristics, including the importance of the exocytotic process and the presence of similar receptors and signalling pathways. The common proteins are mainly involved in exocytosis, tissue development and neuron/brain-associated biological processes. With this analysis, we conclude that human brain and testis share several biochemical characteristics which, in addition to their involvement in the speciation process, could, at least in part, be responsible for the expression of a huge number of common proteins. Nonetheless, this is an underexplored topic, and the connection between these tissues needs to be clarified, which could help to understand the dysfunctions affecting brain and testis, as well as to develop improved therapeutic strategies. 相似文献