Biology and Marine Biology, University of North Carolina, Wilmington, NC 28403, USA.
Mol Cell Endocrinol. 2010 Jun 10;321(2):215-30. doi: 10.1016/j.mce.2010.02.015. Epub 2010 Feb 16.
Vasopressin and its homolog vasotocin regulate hydromineral balance, stress responses, and social behaviors in vertebrates. In mammals, the functions of vasopressin are mediated via three classes of membrane-bound receptors: V1a-type, V1b-type and V2-type. To date, however, only a single class of vasotocin receptor has been identified in teleost fish. Here, cDNAs encoding three putative vasotocin receptors - two distinct V1a-type receptor paralogs (V1a1 and V1a2) and a previously undescribed V2-type receptor (V2) - and a single isotocin receptor were isolated and sequenced from the Amargosa pupfish (Cyprinodon nevadensis amargosae). RT-PCR revealed that mRNAs for these receptors differed in expression patterns with V1a1 mRNAs abundant in the brain, pituitary and testis, V1a2 transcripts at greatest levels in brain, heart and muscle, V2 transcripts most common in the gills, heart and kidney, and isotocin receptor mRNAs abundant in the midbrain, pituitary and gonads. In response to an acute hyperosmotic challenge, pro-vasotocin and V2 mRNA levels in the hypothalamus decreased, while transcripts of V1a1 in the hypothalamus and V1a2 in the gills increased. Partial transcripts for structurally related V2-type, as well as multiple V1a-type, receptors were also identified in other teleosts, suggesting that multiple vasotocin receptors may be present in many Actinopterygii fishes.
血管加压素及其同源物血管缩氨酸调节脊椎动物的水盐平衡、应激反应和社会行为。在哺乳动物中,血管加压素的功能通过三种类型的膜结合受体介导:V1a 型、V1b 型和 V2 型。然而,到目前为止,在硬骨鱼中只鉴定出了一种血管缩氨酸受体。在这里,从美洲沙漠鱼(Cyprinodon nevadensis amargosae)中分离并测序了三个假定的血管缩氨酸受体的 cDNA - 两个独特的 V1a 型受体同源物(V1a1 和 V1a2)和一个以前未描述的 V2 型受体(V2)- 和一个单一的加压素受体。RT-PCR 显示这些受体的 mRNA 在表达模式上存在差异,V1a1 mRNA 在大脑、垂体和睾丸中丰富,V1a2 转录本在大脑、心脏和肌肉中水平最高,V2 转录本在鳃、心脏和肾脏中最常见,而加压素受体 mRNA 在中脑、垂体和性腺中丰富。在急性高渗应激反应中,下丘脑的前血管加压素和 V2 mRNA 水平降低,而下丘脑的 V1a1 转录本和鳃中的 V1a2 转录本增加。在其他硬骨鱼中还鉴定出结构相关的 V2 型和多种 V1a 型受体的部分转录本,这表明许多 Actinopterygii 鱼类可能存在多种血管缩氨酸受体。