Insight into the function of voltage-sensing phosphatase in hindgut-derived pseudoplacenta of a viviparous teleost Xenotoca eiseni.

IF 2.2 3区 医学 Q3 PHYSIOLOGY
Adisorn Ratanayotha, Atsuo Iida, Jumpei Nomura, Eiichi Hondo, Yasushi Okamura, Takafumi Kawai
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引用次数: 0

Abstract

Nutrient absorption is essential for animal survival and development. Our previous study on zebrafish reported that nutrient absorption in lysosome-rich enterocytes (LREs) is promoted by the voltage-sensing phosphatase (VSP), which regulates phosphoinositide (PIP) homeostasis via electrical signaling in biological membranes. However, it remains unknown whether this VSP function is shared by different absorptive tissues in other species. Here, we focused on the function of VSP in a viviparous teleost Xenotoca eiseni, whose intraovarian embryos absorb nutrients from the maternal ovarian fluid through a specialized hindgut-derived pseudoplacental structure called trophotaenia. Xenotoca eiseni VSP (Xe-VSP) is expressed in trophotaenia epithelium, an absorptive tissue functionally similar to zebrafish LREs. Notably, the apical distribution of Xe-VSP in trophotaenia epithelial cells closely resembles zebrafish VSP (Dr-VSP) distribution in zebrafish LREs, suggesting a shared role for VSP in absorptive tissues between the two species. Electrophysiological analysis using a heterologous expression system revealed that Xe-VSP preserves functional voltage sensors and phosphatase activity with the leftward shifted voltage sensitivity compared with zebrafish VSP (Dr-VSP). We also identified a single amino acid variation in the S4 helix of Xe-VSP as one of the factors contributing to the leftward shifted voltage sensitivity. This study highlights the biological variation and significance of VSP in various animal species, as well as hinting at the potential role of VSP in nutrient absorption in X. eiseni trophotaenia.NEW & NOTEWORTHY We investigate the voltage-sensing phosphatase (VSP) in Xenotoca eiseni, a viviparous fish whose intraovarian embryos utilize trophotaenia for nutrient absorption. Although X. eiseni VSP (Xe-VSP) shares key features with known VSPs, its distinct voltage sensitivity arises from species-specific amino acid variation. Xe-VSP in trophotaenia epithelium suggests its involvement in nutrient absorption, similar to VSP in zebrafish enterocytes and potentially in species with similar absorptive cells. Our findings highlight the potential role of VSP across species.

洞察胎生远洋鱼类 Xenotoca eiseni 后肠衍生假胎盘中电压感应磷酸酶 (VSP) 的功能。
营养吸收对动物的生存和发育至关重要。我们之前对斑马鱼的研究报告称,富含溶酶体的肠细胞(LREs)中的营养吸收是由电压感应磷酸酶(VSP)促进的,该酶通过生物膜上的电信号调节磷脂肌醇(PIP)的平衡。然而,VSP 的这一功能是否为其他物种的不同吸收组织所共享仍是未知数。在这里,我们重点研究了胎生远洋鱼类 Xenotoca eiseni 中 VSP 的功能,其卵巢内胚胎通过源自后肠的特化假胎盘结构从母体卵巢液中吸收营养。X. eiseni VSP(Xe-VSP)在滋养层上皮细胞中表达,滋养层上皮细胞是一种吸收组织,在功能上与斑马鱼 LREs 相似。值得注意的是,Xe-VSP在滋养叶上皮细胞顶端的分布与斑马鱼LREs中Dr-VSP的分布非常相似,这表明VSP在这两个物种的吸收组织中具有共同的作用。利用异源表达系统进行的电生理分析表明,与斑马鱼 VSP(Dr-VSP)相比,Xe-VSP 保留了功能性电压传感器和磷酸酶活性,但电压灵敏度左移。我们还发现,Xe-VSP 的 S4 螺旋中的一个氨基酸变异是导致电压敏感性左移的因素之一。这项研究突显了 VSP 在不同动物物种中的生物学变异和意义,同时也暗示了 VSP 在 X. eiseni 滋养体营养吸收中的潜在作用。
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来源期刊
CiteScore
5.30
自引率
3.60%
发文量
145
审稿时长
2 months
期刊介绍: The American Journal of Physiology-Regulatory, Integrative and Comparative Physiology publishes original investigations that illuminate normal or abnormal regulation and integration of physiological mechanisms at all levels of biological organization, ranging from molecules to humans, including clinical investigations. Major areas of emphasis include regulation in genetically modified animals; model organisms; development and tissue plasticity; neurohumoral control of circulation and hypertension; local control of circulation; cardiac and renal integration; thirst and volume, electrolyte homeostasis; glucose homeostasis and energy balance; appetite and obesity; inflammation and cytokines; integrative physiology of pregnancy-parturition-lactation; and thermoregulation and adaptations to exercise and environmental stress.
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