de Cavanagh Elena M V, Inserra Felipe, Ferder León
Center of Hypertension, Cardiology Department, Austral University Hospital, Derqui, Argentina; School of Biomedical Sciences, Austral University, Buenos Aires, Argentina; and
Center of Hypertension, Cardiology Department, Austral University Hospital, Derqui, Argentina; School of Biomedical Sciences, Austral University, Buenos Aires, Argentina; and.
Am J Physiol Heart Circ Physiol. 2015 Jul 1;309(1):H15-44. doi: 10.1152/ajpheart.00459.2014. Epub 2015 May 1.
Caloric restriction (CR), renin angiotensin system blockade (RAS-bl), and rapamycin-mediated mechanistic target of rapamycin (mTOR) inhibition increase survival and retard aging across species. Previously, we have summarized CR and RAS-bl's converging effects, and the mitochondrial function changes associated with their physiological benefits. mTOR inhibition and enhanced sirtuin and KLOTHO signaling contribute to the benefits of CR in aging. mTORC1/mTORC2 complexes contribute to cell growth and metabolic regulation. Prolonged mTORC1 activation may lead to age-related disease progression; thus, rapamycin-mediated mTOR inhibition and CR may extend lifespan and retard aging through mTORC1 interference. Sirtuins by deacetylating histone and transcription-related proteins modulate signaling and survival pathways and mitochondrial functioning. CR regulates several mammalian sirtuins favoring their role in aging regulation. KLOTHO/fibroblast growth factor 23 (FGF23) contribute to control Ca(2+), phosphate, and vitamin D metabolism, and their dysregulation may participate in age-related disease. Here we review how mTOR inhibition extends lifespan, how KLOTHO functions as an aging suppressor, how sirtuins mediate longevity, how vitamin D loss may contribute to age-related disease, and how they relate to mitochondrial function. Also, we discuss how RAS-bl downregulates mTOR and upregulates KLOTHO, sirtuin, and vitamin D receptor expression, suggesting that at least some of RAS-bl benefits in aging are mediated through the modulation of mTOR, KLOTHO, and sirtuin expression and vitamin D signaling, paralleling CR actions in age retardation. Concluding, the available evidence endorses the idea that RAS-bl is among the interventions that may turn out to provide relief to the spreading issue of age-associated chronic disease.
热量限制(CR)、肾素血管紧张素系统阻断(RAS-bl)以及雷帕霉素介导的雷帕霉素机制性靶点(mTOR)抑制可提高多种物种的存活率并延缓衰老。此前,我们总结了CR和RAS-bl的趋同效应,以及与其生理益处相关的线粒体功能变化。mTOR抑制以及增强的沉默调节蛋白和klotho信号传导有助于CR在衰老过程中的益处。mTORC1/mTORC2复合物有助于细胞生长和代谢调节。mTORC1的长期激活可能导致与年龄相关的疾病进展;因此,雷帕霉素介导的mTOR抑制和CR可能通过干扰mTORC1来延长寿命并延缓衰老。沉默调节蛋白通过使组蛋白和转录相关蛋白去乙酰化来调节信号传导和生存途径以及线粒体功能。CR调节几种哺乳动物的沉默调节蛋白,有利于它们在衰老调节中的作用。Klotho/成纤维细胞生长因子23(FGF23)有助于控制钙、磷和维生素D代谢,其失调可能参与与年龄相关的疾病。在这里,我们综述了mTOR抑制如何延长寿命,Klotho如何作为衰老抑制因子发挥作用,沉默调节蛋白如何介导长寿,维生素D缺乏如何可能导致与年龄相关的疾病,以及它们与线粒体功能的关系。此外,我们讨论了RAS-bl如何下调mTOR并上调Klotho、沉默调节蛋白和维生素D受体的表达,这表明RAS-bl在衰老中的至少一些益处是通过调节mTOR、Klotho和沉默调节蛋白的表达以及维生素D信号传导介导的,这与CR在延缓衰老中的作用相似。总之,现有证据支持这样一种观点,即RAS-bl是可能为日益蔓延的与年龄相关的慢性疾病问题提供缓解的干预措施之一。
