Lang C H, Frost R A, Ejiofor J, Lacy D B, McGuinness O P
Departments of Cellular and Molecular Physiology and Surgery, Pennsylvania State College of Medicine, Hershey, Pennsylvania 17033-0850, USA.
Am J Physiol. 1998 Dec;275(6):G1291-8. doi: 10.1152/ajpgi.1998.275.6.G1291.
The role of the liver and gut in contributing to the infection-induced fall in circulating insulin-like growth factor I (IGF-I) was examined in chronically catheterized conscious dogs. Two weeks before study, catheters and Doppler flow probes were implanted to assess hepatic and gut balance of IGF-I. To control nutrient intake, dogs were placed on total parenteral nutrition (TPN) as their sole caloric source. After dogs received TPN for 5 days, net hepatic and intestine IGF-I balances were assessed. A hypermetabolic infected state was then induced by the intraperitoneal implantation of a fibrin clot containing Escherichia coli. TPN was continued, and organ IGF-I balance was assessed 24 and 48 h after induction of infection. Arterial IGF-I levels were significantly decreased following infection (111 +/- 18, 62 +/- 10, and 63 +/- 8 ng/ml before and 24 and 48 h after, respectively). Net hepatic IGF-I output decreased markedly (221 +/- 73, to 73 +/- 41 and 41 +/- 17 ng. kg-1. min-1 before and 24 and 48 h after, respectively). The infection-induced decrease in hepatic IGF-I output could not be explained by concomitant alterations in plasma cortisol or insulin levels. The gut demonstrated a net uptake of IGF-I before infection (178 +/- 29 ng. kg-1. min-1). However, after infection, intestinal IGF-I uptake was completely suppressed (-10 +/- 15 and -8 +/- 36 ng. kg-1. min-1). In summary, infection decreases net hepatic IGF-I release 65-80% and completely suppresses net IGF-I uptake by the intestine. As a consequence of these reciprocal changes in IGF-I balance across the liver and intestine, splanchnic production of IGF-I was unchanged by infection. These data suggest that changes in the clearance and/or production of IGF-I by extrasplanchnic tissues contribute to the infection-induced decrease in circulating IGF-I levels.
在长期插管的清醒犬中研究了肝脏和肠道在感染诱导的循环胰岛素样生长因子I(IGF-I)水平下降中的作用。在研究前两周,植入导管和多普勒血流探头以评估肝脏和肠道的IGF-I平衡。为了控制营养摄入,犬接受全胃肠外营养(TPN)作为其唯一的热量来源。犬接受TPN 5天后,评估肝脏和肠道IGF-I的净平衡。然后通过腹腔植入含大肠杆菌的纤维蛋白凝块诱导高代谢感染状态。继续给予TPN,并在感染诱导后24小时和48小时评估器官IGF-I平衡。感染后动脉IGF-I水平显著降低(分别在感染前、感染后24小时和48小时为111±18、62±10和63±8 ng/ml)。肝脏IGF-I的净输出量显著下降(分别在感染前、感染后24小时和48小时为221±73、73±41和41±17 ng·kg-1·min-1)。感染诱导的肝脏IGF-I输出量下降不能用血浆皮质醇或胰岛素水平的同时变化来解释。感染前肠道表现为IGF-I的净摄取(178±29 ng·kg-1·min-1)。然而,感染后,肠道对IGF-I的摄取完全被抑制(-10±15和-8±36 ng·kg-1·min-1)。总之,感染使肝脏IGF-I的净释放减少65%-80%,并完全抑制肠道对IGF-I的净摄取。由于肝脏和肠道之间IGF-I平衡的这些相反变化,感染并未改变内脏对IGF-I的生成。这些数据表明,肝外组织对IGF-I清除和/或生成的变化导致了感染诱导的循环IGF-I水平下降。
