Department of Physiology and Cell Biology, University of Nevada School of Medicine, Reno, 89557, USA.
Biol Reprod. 2012 Jan 19;86(1):1-7. doi: 10.1095/biolreprod.111.095554. Print 2012 Jan.
Myosalpinx contractions are critical for oocyte transport along the oviduct. A specialized population of pacemaker cells-oviduct interstitial cells of Cajal-generate slow waves, the electrical events underlying myosalpinx contractions. The ionic basis of oviduct pacemaker activity is unknown. We examined the role of a new class of Ca(2+)-activated Cl(-) channels (CaCCs)-anoctamin 1, encoded by Tmem16a-in oviduct slow wave generation. RT-PCR revealed the transcriptional expression of Tmem16a-encoded CaCCs in the myosalpinx. Intracellular microelectrode recordings were performed in the presence of two pharmacologically distinct Cl(-) channel antagonists, anthracene-9-carboxylic acid and niflumic acid. Both of these inhibitors caused membrane hyperpolarization, reduced the duration of slow waves, and ultimately inhibited pacemaker activity. Niflumic acid also inhibited propagating calcium waves within the myosalpinx. Slow waves were present at birth in wild-type and heterozygous oviducts but failed to develop by birth in mice homozygous for a null allele of Tmem16a (Tmem16a(tm1Bdh/tm1Bdh)). These data suggest that Tmem16a-encoded CaCCs contribute to membrane potential and are responsible for the upstroke and plateau phases of oviduct slow waves.
输卵管肌层收缩对于卵子在输卵管中的运输至关重要。一类特殊的起搏细胞——输卵管平滑肌间充质细胞产生慢波,这是输卵管肌层收缩的电活动基础。输卵管起搏活动的离子基础尚不清楚。我们研究了一类新的 Ca(2+)-激活 Cl(-)通道(CaCCs)——钙激活氯离子通道蛋白 1,由 Tmem16a 编码——在输卵管慢波产生中的作用。RT-PCR 显示 Tmem16a 编码的 CaCCs 在输卵管肌层中有转录表达。在存在两种药理学上不同的 Cl(-)通道拮抗剂——蒽-9-羧酸和尼氟灭酸的情况下,进行了细胞内微电极记录。这两种抑制剂都导致膜超极化,减少慢波的持续时间,并最终抑制起搏活性。尼氟灭酸还抑制了输卵管肌层内的钙波传播。在野生型和杂合子输卵管中,慢波在出生时就存在,但在 Tmem16a 缺失等位基因纯合子(Tmem16a(tm1Bdh/tm1Bdh))的小鼠中,出生时未能发育。这些数据表明,Tmem16a 编码的 CaCCs 有助于膜电位,并负责输卵管慢波的上升和平台相。