Interestingly, the combination also counteracted the overactivity

Interestingly, the combination also counteracted the overactivity of the subset of calcium channels that has been previously found to contribute to the altered calcium homeostasis in dystrophic myofibres [7]. The effects of PDN + taurine on calcium-dependent find more MT and ion channel activity closely resemble those recently observed with pentoxifylline [34], being rather different from what was observed with anti-cytokine and anti-inflammatory drugs that had little if any effect on calcium homeostasis [15,33]. These results corroborate that the altered calcium homeostasis

and the entities possibly involved in abnormal calcium permeability, likely belonging to transient receptor potential (TRP) channel family, can be directly targeted by specific pharmacological

interventions. This drug effect may have a possible positive outcome on animal strength and muscle performance, as toxins able to inhibit mechanosensitive channels or genetic silencing of specific TRP channel subsets may protect dystrophic muscle from eccentric-contraction induced deficit [36,37]. A detailed analysis of the effect of each treatment on the molecular mechanism related to calcium handling was beyond the aim of the present study. Thus, the patch clamp investigation was restricted only to the muscles from mdx mice treated with the PDN + taurine combination, also in consideration of the complexity of these recordings

on native Deforolimus purchase myofibres. However, no evidence is available about the possible effects of PDN or taurine on mechanosensitive TRP-like channels and the obtained results push towards Methisazone further investigations with the two drugs alone, and especially taurine, on calcium entry pathways. In general, the results support the important role of taurine in different pathophysiological condition of skeletal muscle. In fact, an active transport system concentrates taurine against its gradient and the muscle level depends on muscle fibre phenotype and function, as also demonstrated in the present study [38,39]. Experiments performed on isolated vesicles of rat muscle SR showed that taurine is able to directly stimulate the calcium reuptake by the Ca2+ -ATPase pump [40], a mechanism that may in turn modulate the activity of store-operated sarcolemmal channels [41]. The action on calcium stores along with a modulation of sensitivity of the contractile filaments to calcium may also contribute to the anabolic action of taurine [42]. Accordingly, taurine physiologically works for modulating in excitation-contraction coupling mechanism of striated fibres. In fact, a shift of the MT towards more negative potentials is commonly observed in conditions of taurine depletion either naturally occurring (as in aged muscle) or induced pharmacologically [43,44].

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