Ortiz Rudy M, Kobori Hiroyuki, Conte Debra, Navar L Gabriel
School of Natural Sciences, University of California, Merced 95344, USA.
Growth Horm IGF Res. 2010 Aug;20(4):282-8. doi: 10.1016/j.ghir.2010.03.003. Epub 2010 May 18.
The mechanisms by which elevated glucocorticoids contribute to decreased body mass via angiotensin II (Ang II) infusion are not completely described. This study addressed the hypothesis that chronic Ang II infusion suppresses hepatic growth hormone receptor (GHr) and IGF1 expressions via an Ang II receptor (AT1)-mediated pathway associated with elevated glucocorticoids. Sprague-Dawley rats were assigned to three groups: 1) Control, 2) Ang II-infused (80 ng/min x 28d) and 3) Ang II+angiotensin receptor blocker (ARB; 10 mg losartan/kg/d x 21d). After 28d, Ang II decreased body mass by 14% (407+/-8 vs 350+/-17 g) and hepatic AT1a, GHr, and IGF1 mRNA expressions by 45%, 44%, and 44%, respectively. ARB treatment completely prevented the loss in body mass (409+/-9 g) and AT1a and GHr expressions and partially recovered the loss of hepatic IGF1. Ang II increased plasma corticosterone (B) 3-fold (173+/-28 vs 555+/-42 ng/mL) and ARB treatment prevented the response (150+/-47 ng/mL). Food consumption did not change suggesting that the decrease in body mass resulted from the catabolic actions of the Ang II-induced increase in systemic B and not from reduced caloric intake. The prevention by ARB treatment of the Ang II-induced decrease in body mass and downregulation of AT1a, GHr and IGF1 coinciding with suppression of plasma B suggests that the Ang II-induced decrease in body mass is AT1 receptor mediated in conjunction with elevated B. These data suggest that alleviating the Ang II-induced cachexia requires targeting AT1 and suppressing glucocorticoid secretion.
通过输注血管紧张素II(Ang II),糖皮质激素升高导致体重下降的机制尚未完全阐明。本研究探讨了以下假说:慢性输注Ang II通过与糖皮质激素升高相关的Ang II受体(AT1)介导的途径,抑制肝脏生长激素受体(GHr)和IGF1表达。将Sprague-Dawley大鼠分为三组:1)对照组,2)输注Ang II组(80 ng/min×28天),3)Ang II+血管紧张素受体阻滞剂(ARB;氯沙坦10 mg/kg/d×21天)。28天后,Ang II使体重下降了14%(407±8 vs 350±17 g),肝脏AT1a、GHr和IGF1 mRNA表达分别下降了45%、44%和44%。ARB治疗完全阻止了体重下降(409±9 g)以及AT1a和GHr表达下降,并部分恢复了肝脏IGF1的下降。Ang II使血浆皮质酮(B)增加了3倍(173±28 vs 555±42 ng/mL),ARB治疗阻止了这种反应(150±47 ng/mL)。食物摄入量没有变化,表明体重下降是由Ang II诱导的全身B增加的分解代谢作用导致的,而不是热量摄入减少。ARB治疗阻止了Ang II诱导的体重下降以及AT1a、GHr和IGF1下调,同时抑制了血浆B,这表明Ang II诱导的体重下降是由AT1受体介导的,同时伴有B升高。这些数据表明,减轻Ang II诱导的恶病质需要靶向AT1并抑制糖皮质激素分泌。