Garg Meena, Thamotharan Manikkavasagar, Rogers Lisa, Bassilian Sara, Lee W N Paul, Devaskar Sherin U
Division of Neonatology and Developmental Biology, Dept. of Pediatrics, David Geffen School of Medicine, UCLA, 10833 Le Conte, MDCC-B2-375, Los Angeles, CA 90095-1752, USA.
Am J Physiol Endocrinol Metab. 2006 Jun;290(6):E1218-26. doi: 10.1152/ajpendo.00474.2005. Epub 2006 Jan 31.
We studied glucose metabolic adaptations in the intrauterine growth-restricted (IUGR) rat offspring to decipher glucose homeostasis in metabolic programming. Glucose futile cycling (GFC), which is altered when there is imbalance between glucose production and utilization, was studied during a glucose tolerance test (GTT) in 2-day-old (n = 8), 2-mo-old (n = 22), and 15-mo-old (n = 22) female rat offspring. The IUGR rats exposed to either prenatal (CM/SP, n = 5 per age), postnatal (SM/CP, n = 6), or pre- and postnatal (SM/SP, n = 6) nutrient restriction were compared with age-matched controls (CM/CP, n = 5). At 2 days, IUGR pups (SP) were smaller and glucose intolerant and had increased hepatic glucose production and increased glucose disposal (P < 0.01) compared with controls (CP). At 2 mo, the GTT, glucose clearance, and GFC did not change. However, a decline in hepatic glucose-6-phosphatase (P < 0.05) and fructose-1,6-biphosphatase (P < 0.05) enzyme activities in the IUGR offspring was detected. At 15 mo, prenatal nutrient restriction (CM/SP) resulted in greater weight gain (P < 0.01) and hyperinsulinemia (P < 0.001) compared with postnatal nutrient restriction (SM/CP). A decline in GFC in the face of a normal GTT occurred in both the prenatal (CM/SP, P < 0.01) and postnatal calorie (SM/CP, P < 0.03) and growth-restricted offspring. The IUGR offspring with pre- and postnatal nutrient restriction (SM/SP) were smaller, hypoinsulinemic (P < 0.03), and hypoleptinemic (P < 0.03), with no change in GTT, hepatic glucose production, GFC, or glucose clearance. We conclude that there is pre- and postnatal programming that affects the postnatal compensatory adaptation of GFC and disposal initiated by changes in circulating insulin concentrations, thereby determining hepatic insulin sensitivity in a phenotype-specific manner.
我们研究了宫内生长受限(IUGR)大鼠后代的葡萄糖代谢适应性,以解读代谢编程中的葡萄糖稳态。在2日龄(n = 8)、2月龄(n = 22)和15月龄(n = 22)的雌性大鼠后代的葡萄糖耐量试验(GTT)期间,研究了葡萄糖无效循环(GFC),当葡萄糖生成与利用之间存在失衡时,GFC会发生改变。将暴露于产前(CM/SP,每个年龄组n = 5)、产后(SM/CP,n = 6)或产前和产后(SM/SP,n = 6)营养限制的IUGR大鼠与年龄匹配的对照组(CM/CP,n = 5)进行比较。在2日龄时,与对照组(CP)相比,IUGR幼崽(SP)体型较小且葡萄糖不耐受,肝葡萄糖生成增加,葡萄糖处置增加(P < 0.01)。在2月龄时,GTT、葡萄糖清除率和GFC没有变化。然而,检测到IUGR后代的肝葡萄糖-6-磷酸酶(P < 0.05)和果糖-1,6-二磷酸酶(P < 0.05)酶活性下降。在15月龄时,与产后营养限制(SM/CP)相比,产前营养限制(CM/SP)导致体重增加更多(P < 0.01)和高胰岛素血症(P < 0.001)。在产前(CM/SP,P < 0.01)和产后热量限制(SM/CP,P < 0.03)以及生长受限的后代中,面对正常的GTT,GFC均下降。产前和产后营养限制(SM/SP)的IUGR后代体型较小,胰岛素血症较低(P < 0.03),瘦素血症较低(P < 0.03),GTT、肝葡萄糖生成、GFC或葡萄糖清除率均无变化。我们得出结论,存在产前和产后编程,其影响由循环胰岛素浓度变化引发的GFC和处置的产后代偿性适应,从而以表型特异性方式决定肝胰岛素敏感性。
