Rat vas deferens SERCA2 is modulated by Ca2+/calmodulin protein kinase II-mediated phosphorylation

Ca2+ pumps are important players in smooth muscle contraction. Nevertheless, little information is available about these pumps in the vas deferens. We have determined which subtype of sarco(endo)plasmic reticulum Ca2+-ATPase isoform (SERCA) is expressed in rat vas deferens (RVD) and its modulation by calmodulin (CaM)-dependent mechanisms. The thapsigargin-sensitive Ca2+-ATPase from a membrane fraction containing the highest SERCA levels in the RVD homogenate has the same molecular mass (∼115 kDa) as that of SERCA2 from the rat cerebellum. It has a very high affinity for Ca2+ (Ca0.5 = 780 nM) and a low sensitivity to vanadate (IC50 = 41 µM). These facts indicate that SERCA2 is present in the RVD. Immunoblotting for CaM and Ca2+/calmodulin-dependent protein kinase II (CaMKII) showed the expression of these two regulatory proteins. Ca2+ and CaM increased serine-phosphorylated residues of the 115-kDa protein, indicating the involvement of CaMKII in the regulatory phosphorylation of SERCA2. Phosphorylation is accompanied by an 8-fold increase of thapsigargin-sensitive Ca2+ accumulation in the lumen of vesicles derived from these membranes. These data establish that SERCA2 in the RVD is modulated by Ca2+ and CaM, possibly via CaMKII, in a process that results in stimulation of Ca2+ pumping activity.

Relaxant effect of the aqueous extract of Erythrina vellutina leaves on rat vas deferens

The effect of the Aqueous Extract from the leaves of Erythrina vellutina (AE) on rat vas deferens preparation was evaluated in this work. The AE inhibited the muscle contractions induced by electrical field stimulation (EFS) in a concentration-dependent manner. This inhibition was not affected by atropine (10-5M), propanolol (10-5M), prazosin (10-5M) or yohimbine (10-5M), suggesting that there is no direct interaction of the AE with cholinergic nor adrenergic receptors. Incubation of vas deferens with the K+ channel antagonists, tetraethylamonium (10-6M) or 4-aminopyridine (10-6M) had also no effect on the AE-induced inhibition. On the other hand, glibenclamide (10-6) significantly attenuated the effect of the AE, suggesting a possible involvement of ATP-dependent K+ channels. The AE (0.15 mg/mL) did not alter the contractions induced by noradrenaline (10-5M), ATP (10-4M) nor KCl (80 mM), against an interaction of the extract with post-synaptic sites. The data presented suggests that the inhibition of the electrically driven muscle twitches by the AE could be due to a pre-synaptic interaction of the extract with ATP-dependent K+ channels from vas deferens sympathetic neurons.

O objetivo deste trabalho foi avaliar o efeito do extrato aquoso das folhas de Erythrina vellutina (AE) sobre ducto deferente de rato. Nesta preparação, o AE inibiu as contrações induzidas por estímulo elétrico de campo de maneira dependente da concentração. Esta inibição não foi afetada após atropina (10-5M), propanolol (10-5M), prazosin (10-5M) ou yohimbina (10-5M), sugerindo uma ação indireta do AE sobre receptores colinérgicos ou adrenérgicos. A incubação da preparação com os antagonistas de canais de K+, tetraetilâmonio (10-6M) ou 4-aminopiridina (10-6M) não alterou o efeito inibitório induzido pelo AE. Entretanto, a glibenclamida (10-6M) atenuou significantemente este efeito, sugerindo um possível envolvimento de canais de K+ dependentes de ATP. Além disso, o AE (0.15 mg/mL) não alterou as contrações induzidas por noradrenalina (10-5M), ATP (10-4M) ou KCl (80 mM), descartando uma interação do AE com um sítio pós-sináptico. Em conclusão, estes resultados demonstram que o efeito inibitório do AE pode ser devido a uma interação pré-sináptica com canais de K+ dependentes de ATP em neurônios simpáticos de ducto deferente de rato.

The effects of vasectomy on the autonomic innervation of the rat vas deferens / 대한비뇨기과학회지

Immunohistochemical techniques have been employed to observe the arrangement and distribution or the autonomic nervous systems in the normal rat vas deferens and to observe periodic alterations or the innervation patterns following surgical division of the vas. 18 male Sprague-Dawley rat were divided into 6 groups: normal control group, 1 week after vasectomy group, 3 weeks after vasectomy group. 5 weeks after vasectomy group. 8 weeks after vasectomy group and 16 weeks after vasectomy group. Samples from sites on the testicular and urethral sides of the original vasectomy have been compared with the other group specimens as to the arrangement and distribution of autonomic nerves containing vasoactive intestinal polypeptide (VIP) and catecholamine. The VIPergic and adrenergic innervation patterns of the normal control group is almost identical with that of a normal human vas. In contrast with tissues from the testicular portions and from the controls. the testicular specimens were devoid of autonomic nerve fibers, which were neither re-innervated nor re distributed in every vasectomy group. In the urethral portion of the vas, it was observed that the adrenergic nerve fibers had few changes after vasectomy and the VIPergic nerve fibers became thicker from 3 weeks after vasectomy. showing axonal growth into the smooth muscle coat from 6 weeks after it. and showing axonal growth into the deep muscle coat from 16 weeks after it. These findings indicate firstly that the autonomic nerve fibers run from the urethral portion towards the testis ; secondly that VIPergic nerve fibers have high a possibility to be re-innervated by axonal growth from the urethral portion to the testicular portion after vasovasostomy; thirdly that injuring autonomic nerves to the vas deferens during vasectomy could result in poor function of the vas after vasovasostomy in relation to the contractile and secretory activities of the vas that may be of importance to the maturation and fertility of spermatozoa.