Mariano Isabela Ramos, Yamada Laís Akemi, Soares Rabassi Renan, Rissi Sabino Vanessa Lara, Bataglini Camila, Azevedo Silvia Carla Santana Ferreira, Garcia Rosângela Fernandes, Pedrosa Maria Montserrat Diaz
Laboratory of Physiological Sciences and Hepatic Metabolism, Department of Physiological Sciences, State University of Maringá, Maringá, Brazil.
Front Physiol. 2020 Jun 5;11:553. doi: 10.3389/fphys.2020.00553. eCollection 2020.
It was previously reported that liver glucose metabolism in rats under caloric restriction differs from that of freely-fed rats. This study hypothesized that these changes (1) were related to the expression of hypothalamic neuropeptides involved in metabolic control, and (2) were not a residual effect of litter size. To those purposes, liver glucose metabolism and hypothalamic expression of the orexigenic neuropeptides NPY (neuropeptide Y) and AgRP (agouti gene-related peptide); and of the anorexigenic neuropeptides POMC (pro-opiomelanocortin) and CART (cocaine- and amphetamine-related transcripts) were investigated. Male Wistar rats from two different litter sizes (G6 and G12, with 6 or 12 pups, respectively) were subjected to free feeding (GL, ), 50% caloric restriction (GR) or caloric restriction+ refeeding (GRL) until the age of 90 days. Biometric values were lower in GR than in GL, while in GRL they were totally or partially recovered. Blood glucose variation during the pyruvate tolerance test (PTT) was small in GR. During liver perfusion, total, basal, and adrenaline-stimulated liver glucose outputs were high in GR, but additional glucose output in the presence of alanine was negligible. Refeeding (GRL) yielded values close to those of GL. Litter size did not consistently influence any of these variables. The expression of transcripts of the hypothalamic neuropeptides was responsive to feeding regimen, litter size and/or their interaction and differed from G6 to G12, while the metabolic changes of the liver were qualitatively equal in both GR. Therefore, the changes in glucose metabolism in the liver of rats under caloric restriction were not determined by either litter size or hypothalamic neuropeptide expression and were linked only to the prevailing feeding regimen of the adult animal.
先前有报道称,热量限制条件下大鼠的肝脏葡萄糖代谢与自由进食的大鼠不同。本研究假设这些变化:(1)与参与代谢控制的下丘脑神经肽的表达有关;(2)不是窝仔数的残留效应。为了验证这些假设,研究了肝脏葡萄糖代谢以及下丘脑促食欲神经肽NPY(神经肽Y)和AgRP(刺鼠基因相关肽);和促食欲神经肽POMC(阿黑皮素原)和CART(可卡因和苯丙胺调节转录物)的表达。选用来自两种不同窝仔数(G6和G12,分别有6只或12只幼崽)的雄性Wistar大鼠,使其自由进食(GL)、50%热量限制(GR)或热量限制+再喂养(GRL),直至90日龄。GR组的生物测量值低于GL组,而GRL组的生物测量值全部或部分恢复。在丙酮酸耐量试验(PTT)期间,GR组的血糖变化较小。在肝脏灌注过程中,GR组的总肝脏葡萄糖输出量、基础肝脏葡萄糖输出量和肾上腺素刺激的肝脏葡萄糖输出量均较高,但在丙氨酸存在的情况下额外的葡萄糖输出量可忽略不计。再喂养(GRL)产生的值接近GL组。窝仔数并未始终如一地影响这些变量中的任何一个。下丘脑神经肽转录本的表达对喂养方案、窝仔数和/或它们之间的相互作用有反应,并且从G6到G12有所不同,而两组GR组肝脏的代谢变化在性质上是相同的。因此,热量限制条件下大鼠肝脏中葡萄糖代谢的变化既不是由窝仔数也不是由下丘脑神经肽表达决定的,而仅与成年动物当前的喂养方案有关。
