Yang R D, Moldawer L L, Sakamoto A, Keenan R A, Matthews D E, Young V R, Wannemacher R W, Blackburn G L, Bistrian B R
Metabolism. 1983 Jul;32(7):654-60. doi: 10.1016/0026-0495(83)90120-8.
Leukocyte endogenous mediator (LEM), a low-molecular-weight peptide synthesized by monocytic cells during phagocytosis, has been implicated as the host's initiator of the protein metabolic response to infection and inflammation. To determine whether administration of LEM would alter protein kinetics, appearance and oxidation of plasma tyrosine as well as the rates of protein synthesis in liver and skeletal muscle were determined in fasted rats that received a 30-hour continuous infusion of either physiologic saline, LEM, or heat-inactivated LEM. The LEM was obtained from rabbit peritoneal exudate and the treatment solutions supplied 2.8 X 10(8) cell equivalents/100 g of body weight (BW) per day. Endogenous tyrosine oxidation increased from 4.0 +/- 0.4 mumol/100 g BW/h to 5.4 +/- 0.7 mumol/100 g BW/h in animals infused with heat-inactivated LEM and to 7.5 +/- 1.5 mumol/100 g BW/h in rats receiving LEM (P less than 0.01). Nonsecretory protein synthesis in the liver was greatest in rats administered LEM (2239 +/- 325 mg/d) when compared with control groups receiving physiologic saline (1122 +/- 195 mg/d) or heat-inactivated LEM (1374 +/- 62 mg/d; P less than 0.01), whereas skeletal protein synthetic rates were unchanged. Rates of muscle and collagen protein breakdown were estimated from the urinary excretion rate of Nt-methylhistidine and hydroxyproline, respectively, and their excretion rose by 30% (P less than 0.05) and 42% (P less than 0.05) with LEM administration. These results suggest that administration of LEM stimulates a mobilization of amino acids from peripheral tissues to support increased visceral protein anabolism while whole body amino acid oxidation is also enhanced. Since similar effects follow fever and infection, these results suggest that LEM may play an underlying role in the protein metabolic response to infection and inflammation.
白细胞内源性介质(LEM)是一种在吞噬作用期间由单核细胞合成的低分子量肽,被认为是宿主对感染和炎症产生蛋白质代谢反应的启动因子。为了确定给予LEM是否会改变蛋白质动力学,测定了接受30小时持续输注生理盐水、LEM或热灭活LEM的禁食大鼠血浆酪氨酸的出现和氧化以及肝脏和骨骼肌中的蛋白质合成速率。LEM取自兔腹膜渗出液,治疗溶液每天提供2.8×10⁸细胞当量/100克体重(BW)。在输注热灭活LEM的动物中,内源性酪氨酸氧化从4.0±0.4微摩尔/100克体重/小时增加到5.4±0.7微摩尔/100克体重/小时,在接受LEM的大鼠中增加到7.5±1.5微摩尔/100克体重/小时(P<0.01)。与接受生理盐水(1122±195毫克/天)或热灭活LEM(1374±62毫克/天;P<0.01)的对照组相比,给予LEM的大鼠肝脏中非分泌性蛋白质合成最高(2239±325毫克/天),而骨骼肌蛋白质合成速率未改变。肌肉和胶原蛋白分解速率分别根据Nt-甲基组氨酸和羟脯氨酸的尿排泄率估算,给予LEM后它们的排泄分别增加了30%(P<0.05)和42%(P<0.05)。这些结果表明,给予LEM会刺激外周组织中氨基酸的动员,以支持内脏蛋白质合成代谢的增加,同时全身氨基酸氧化也会增强。由于发热和感染后会出现类似的效应,这些结果表明LEM可能在对感染和炎症的蛋白质代谢反应中起潜在作用。
