Effects of oxytocin treatment in early life on body weight and corticosterone in adult offspring from ad libitum-fed and food-restricted rats

The aims of this study were: (1) to assess the effects of maternal undernutrition during pregnancy on adult offspring with regard to growth, body composition and plasma levels of glucose, insulin and corticosterone, and (2) to investigate whether oxytocin treatment early in life could ameliorate the adverse effects of food restriction in utero. Pups from ad libitum-fed and food-restricted (60% of ad libitum intake during pregnancy) rats were injected subcutaneously once a day with oxytocin or saline on days 1-14 after birth. At adult age (62 days), male offspring from food-restricted dams had lower body weight, less adipose tissue, lower plasma glucose but higher corticosterone levels, compared to offspring from ad libitum-fed dams. However, oxytocin-treated food-restricted males had higher body weight, higher glucose and lower corticosterone levels compared to their saline-treated counterparts. In conclusion, oxytocin treatment early in life seems to ameliorate some of the adverse effects of food restriction in utero.     

Dietary flax oil during pregnancy and lactation retards disease progression in rat offspring with inherited kidney disease

Dietary flax oil (FO) retards disease progression in growing or adult animal models of kidney disease. To determine whether dietary flax oil during the perinatal period would alter renal disease progression in offspring, Han-SPRD-cy rats with inherited cystic kidney disease were given diets with either 7% FO or corn oil (CO), throughout pregnancy and lactation. At 3 wk of age, offspring were then given either the same or the alternate diet for 7 wk. Rats given FO during the maternal period had 15% less renal cyst growth compared with rats given FO only in the postweaning period. Dietary FO, compared with CO, in the maternal period also resulted in 12% lower cell proliferation and 15% less oxidant injury in diseased kidneys of offspring. Including FO in both the maternal and postweaning period resulted in 29-34% less renal interstitial fibrosis and 22-23% lower glomerular hypertrophy. Along with improved histology, these rats exhibited 13% less proteinuria and 30% lower creatinine clearance when dietary FO was given in the maternal period. The potential for dietary FO during pregnancy and lactation to positively modulate adult renal disease has significant implications for the 1 in 1000 individuals with congenital cystic kidney disease.     

Maternal protein restriction increases hepatic glycogen storage in young rats

This study aimed to determine whether maternal protein restriction alters hepatic glycogen metabolism. Mated female rats were fed diets containing 20% protein throughout pregnancy and lactation (CONT), 8% protein throughout pregnancy and lactation (LP), or 8% protein during the last week of pregnancy only and lactation (LLP). Weights and lengths were reduced in the LLP and LP offspring compared with the CONT offspring. The LLP and LP offspring demonstrated reduced insulin concentrations at both 10 and 26 d and also failed to show the increase in insulin seen with time in the CONT offspring. Serum glucose and leptin levels increased with time but were not different among the groups; however, in relation to adiposity leptin levels were greater in the LLP and LP offspring at 26 d. The LLP and LP offspring had increased hepatic glycogen at day 10 (CONT, 75.1 +/- 9.8; LLP, 103.4 +/- 11.0; LP, 116.0 +/- 18.4 glucose residues/g tissue) and d 26 (CONT, 183.1 +/- 38.9; LLP, 395.3 +/- 16.8; LP, 396.6 +/- 15.1 glucose residues/g tissue). Glycogen synthase expression was increased in the LLP and LP offspring at 10 d but not 26 d; glucose transporter 2 and glycogen phosphorylase expressions were not different at either time. At 26 d glycogen synthase activity was not different; however, glycogen phosphorylase a activity was reduced. The enhanced capacity to store glycogen despite reductions in insulin secretion suggests increased insulin sensitivity possibly acting with an alternative non-insulin-dependent glycogen storage mechanism.     

Regional Brazilian diet-induced low birth weight is correlated with changes in renal hemodynamics and glomerular morphometry in adult age

Number of nephrons, renal hemodynamics, and glomerular morphometry were assessed in rats submitted to a multideficient diet which was developed from a basic regional diet consumed in a Brazilian region of sugarcane cultivation. We evaluated three groups of male Wistar rat offspring: (1) from dams fed a standard diet throughout mating, pregnancy and lactation (control group) and (2) from dams fed the multideficient diet during mating and pregnancy (MalN1 group) or (3) throughout mating, pregnancy, and lactation (MalN2 group). At adult age, the animals were anesthetized to measure mean arterial blood pressure and renal hemodynamics. The MalN1 group, as compared with the control group, showed unaltered body and kidney weights, nephron deficiency, a high mean arterial blood pressure, glomerular hypertrophy, and renal vasoconstriction. The MalN2 group showed the same nephron deficiency and mean arterial blood pressure levels as the MalN1 group. These animals exhibited lower body and kidney weights and no glomerular hypertrophy. In conclusion, the alterations induced by intrauterine malnutrition are compatible with the development of chronic renal failure.     

Effect of maternal protein restriction in rats on cardiac fibrosis and capillarization in adulthood

This study examines the effect of maternal protein restriction in rats on levels of cardiac fibrosis, myocardial capillarization, and media:lumen ratio of intramyocardial arteries in adult offspring. Female Wistar Kyoto rats were fed either a normal protein diet (NPD; 20% casein) or a low-protein diet (LPD; 8.7% casein) during pregnancy and lactation. Female offspring (seven per group) were weaned at 4 wk of age and grown to adulthood. At 24 wk of age, the offspring were perfusion fixed. Cardiac fibrosis and media:lumen ratio of intramyocardial arterioles was assessed using image analysis and cardiac capillarization was stereologically investigated. Body weights at 2 and 24 wk of age were significantly reduced (31% and 8%, respectively) in the LPD offspring; however, heart size was not different at 24 wk. Importantly by adulthood, there was a significant 15% increase in left ventricular interstitial fibrosis in LPD offspring. There were no differences in levels of perivascular fibrosis, myocardial capillarization, or in the media:lumen ratio of intramyocardial arteries between groups. Because cardiac fibrosis is associated with impaired cardiac contractility and arrhythmia, our results suggest that induction of interstitial fibrosis may contribute to the increased cardiac disease in adult subjects who were exposed to an adverse intrauterine environment.     

Maternal protein restriction suppresses the newborn renin-angiotensin system and programs adult hypertension in rats

Restriction of maternal protein intake during rat pregnancy produces offspring that are hypertensive in adulthood, but the mechanisms are not well understood. Our purpose was to determine whether this adult hypertension could be programmed during development by suppression of the fetal/newborn renin-angiotensin system (RAS) and a consequent reduction in nephron number. Pregnant rats were fed a normal protein (19%, NP) or low-protein (8.5%, LP) diet throughout gestation. Birth weight was reduced by 13% (p < 0.0005), and the kidney/body weight ratio was reduced in LP pups. Renal renin mRNA levels were significantly reduced in newborn LP pups; renal renin concentration and renin immunostaining were suppressed. Renal tissue angiotensin II levels were also suppressed in newborn LP (0.079 +/- 0.002 ng/mg, LP versus 0.146 +/- 0.016 ng/mg, NP, p < 0.01). Mean arterial pressure in conscious, chronically instrumented adult offspring (21 wk) was higher in LP (135 +/- 1 mm Hg, LP versus 126 +/- 1 mm Hg, NP, p < 0.00007), and GFR normalized to kidney weight was reduced in LP (p < 0.04). The number of glomeruli per kidney was lower in adult LP offspring (21,567 +/- 1,694, LP versus 28,917 +/- 2,342, NP, p < 0.03), and individual glomerular volume was higher (1.81 +/- 0.16 10(6) microm(3), LP versus 1.11 +/- 0.10 10(6) microm(3), NP, p < 0.005); the total volume of all glomeruli per kidney was not significantly different. Thus, perinatal protein restriction in the rat suppresses the newborn intrarenal RAS and leads to a reduced number of glomeruli, glomerular enlargement, and hypertension in the adult.     

Correlations between the intrauterine metabolic environment and blood pressure in adolescent offspring of diabetic mothers

OBJECTIVE: To investigate associations between maternal diabetes and blood pressure (BP), obesity, impaired glucose tolerance, and serum lipids in offspring and whether these parameters correlate with metabolism during pregnancy. STUDY DESIGN: Body mass index, BP, serum glucose, and insulin during an oral glucose tolerance test, and lipid concentrations were measured in 99 offspring of diabetic mothers (ODM) and 80 members of a control group. RESULTS: ODM were more obese (body mass index 22.5 +/- 5.6 vs 20.3 +/- 4.0 kg/m(2)) and had higher systolic (8 mm Hg) and mean arterial BP (4 mm Hg) but similar diastolic BP compared with the control group. ODM had higher 2-hour glucose (6.6 +/- 1.3 vs 5.7 +/- 0.9 mmol/L) and insulin (580 +/- 544 vs 377 +/- 239 pmol/L) concentrations but lower fasting concentrations of low-density lipoprotein (2.54 +/- 0.67 vs 2.82 +/- 0.70 mmol/L) and total cholesterol (4.01 +/- 0.80 vs 4.40 +/- 0.78 mmol/L). In both groups body mass index, triglycerides, and fasting and 2-hour glucose concentrations showed correlations with BP measurements. Fasting insulin was correlated with BP readings only in the ODM. Correlations were found between second- and third-trimester maternal free fatty acid concentrations and diastolic and mean arterial BP. Third-trimester beta-hydroxybutyrate was correlated with mean arterial BP. CONCLUSIONS: In ODM, abnormalities in weight and glucose tolerance are associated with abnormal maternal metabolism. Higher BP is an additional abnormality associated with fetal overnutrition.     

IUGR in the absence of postnatal "catch-up" growth leads to improved whole body insulin sensitivity in rat offspring

A suboptimal in utero environment leads to fetal adaptations to ensure short-term survival but in the long-term may lead to disease when the postnatal growth does not reflect that in utero. This study examined the effect of IUGR on whole body insulin sensitivity and metabolic activity in adult rats. Female Wistar-Kyoto rats were fed either a normal protein diet (NPD 20% casein) or a low protein diet (LPD; 8.7% casein) during pregnancy and 2 wk of lactation. In offspring at 32 wk of age, indirect calorimetry and dual energy x-ray absorptiometry (DEXA) were performed to assess metabolic activity and body composition. Insulin sensitivity was assessed using a euglycemic-hyperinsulinemic clamp. At 3 d of age, male and female LPD offspring were 23 and 27% smaller than controls, respectively. They remained significantly smaller throughout the experimental period (～10% smaller at 32 wk). Importantly, there was increased insulin sensitivity in LPD offspring (47% increase in males and 38% increase in females); pancreatic insulin content was normal. Body composition, O2 consumption, respiratory exchange ratio (RER), and locomotor activity were not different to controls. These findings suggest that in the absence of "catch-up" growth IUGR programs for improved insulin sensitivity.     

Blood pressure and growth at 6 years of age among offsprings of mothers with hypertension of pregnancy

The association between hypertension of pregnancy and blood pressure (BP) and physical growth of the offspring at 6 years of age has been studied in a historical prospective study. Ninety-four consecutive women who developed hypertension during pregnancy and were hospitalized with a diagnosis of pre-eclampsia and their children were included. The comparison group consisted of individually-matched normal pregnant women. Each mother-child pair was examined when the child was 6 years of age. The mean systolic BP (SBP) of the offspring was 101.3 +/- 10.2 (S.D.) mmHg and that of the controls 99.8 +/- 9.5 mmHg. The mean diastolic BP (DBP) was significantly higher among the cases than among the controls (66.2 +/- 8.3 mmHg and 63.9 +/- 8.0 mmHg, P = 0.03). Among the cases, 11 children had a DBP above the 90th centile, whereas only four among the controls. A low, but significant, correlation was found between maternal and child BP for the cases. The DBP of the children with a positive family history of high BP was significantly higher than those with a negative history. There were no differences in height, weight or obesity index between cases and controls.     

Menhaden fish oil, n-3 polyunsaturated fatty acids, and protection of newborn rats from oxygen toxicity

We have previously reported that newborn rats born to mothers fed a high n-6 polyunsaturated fatty acid (PUFA) (safflower oil) diet demonstrated increased n-6 PUFA in lung lipids and superior tolerance to high oxygen exposure. In the present study, we explored whether high n-3 PUFA might also protect against hyperoxic damage and by what mechanism. Adult female rats were fed either regular rat chow, a high n-3 (menhaden fish oil-based) diet, or a high n-6 (safflower oil-based) diet for 6 wk before and then throughout pregnancy and lactation. Newborn offspring of the high n-3 (fish oil) dams demonstrated increased n-3 PUFA (i.e. eicosapentaenoic and docosahexaenoic acid) and decreased n-6 PUFA (i.e. linoleic and arachidonic acid) in their lung lipids compared to the other two diet groups. The high n-6 (safflower oil) offspring had the opposite PUFA lung lipid pattern (with increases in total n-6 fatty acids and decreases in total n-3 fatty acids). The high n-3 offspring demonstrated markedly decreased lung levels of prostaglandin E2, F2 alpha and thromboxane B2, whereas the high n-6 offspring had higher eicosanoid levels than the regular diet offspring. Offspring of both high n-6 and high n-3 diet dams demonstrated essentially the same superior hyperoxic tolerance compared to regular diet offspring [7-d (greater than 95% O2) survival rates of 110/115 and 99/109, respectively, versus 70/91, p less than 0.01].(ABSTRACT TRUNCATED AT 250 WORDS)     

Intralipid increases lung polyunsaturated fatty acids and protects newborn rats from oxygen toxicity.

Intralipid, derived from soybean oil and containing a high percentage of n-6 family polyunsaturated fatty acids (PUFA) and also linolenic acid, an n-3 family PUFA, is commonly the first fat source provided to very low birth weight premature infants. Following up on our previous reports that newborn rats born to dams fed high-PUFA diets demonstrate superior tolerance to hyperoxia, we examined whether the high-PUFA fat source Intralipid might also protect against oxygen toxicity. Adult female rats were fed either regular Rat Chow or fat-free diet containing 20%-Intralipid as the fat source for 3 wk before and then throughout pregnancy and lactation. One- and 5-d-old offspring of Intralipid diet-fed dams demonstrated significant increases in lung lipid n-6 family PUFA plus elevated linolenic acid compared with regular diet-fed offspring. These characteristic fatty acid patterns, apparent in total lung lipids, were even more pronounced in the triglyceride fraction compared with the phospholipid fraction. Associated with these fatty acid changes were significantly improved hyperoxic survival rates (89 out of 95 = 94% survival after 7 d of greater than 95% O2 exposure) in Intralipid offspring (versus 89 out of 106 = 84%, p less than 0.05 in regular diet offspring) and evidence of superior clinical/pathologic status. No differences in pulmonary antioxidant enzyme or surfactant system development, response of antioxidant enzymes to hyperoxic exposure, or lung prostaglandin E2, 6-keto PGF1-alpha or leukotrienes C4-F4 were present. These findings continue to support the hypothesis that increasing lung PUFA content may provide increased O2 free radical scavenging capacity, thus protecting against hyperoxic lung damage.(ABSTRACT TRUNCATED AT 250 WORDS)     

Polyunsaturated fatty acids and protection of newborn rats from oxygen toxicity

To test whether polyunsaturated fatty acids (PUFA) might be associated with protection against oxygen toxicity in newborn experimental animals, we performed two series of experiments. In the first series, adult female rats were fed one of three diets--regular Rat Chow, a high-PUFA (safflower oil-based) diet, or a low-PUFA (palm oil-based) diet--for several weeks before and throughout pregnancy and lactation. Newborn offspring of the three diet groups had similar antioxidant enzyme activities and surfactant development. Offspring of dams fed the high-PUFA diet had total lung lipid fatty acids characterized by increased linoleic acid (18:2 omega 6) and arachidonic acid (20:4 omega 6) and a significantly increased PUFA/saturated fatty acid ratio, compared with offspring of dams fed the regular diet or low-PUFA diet; associated with this increased PUFA pattern was markedly superior survival (80 of 84 (95%) vs 56 of 84 (67%) for regular-diet offspring, P less than 0.01) after 7 days in greater than 95% oxygen. Conversely, offspring born to dams fed the low-PUFA diet had decreased lung PUFA content and inferior tolerance to prolonged high O2 exposure (survival 38 of 84 (45%)). In the second experimental series, the postnatal provision of high PUFA rat milk to offspring born to dams fed the low-PUFA diet (via "cross-nurturing" by high-PUFA diet dams) rapidly increased their lung lipid PUFA and improved their hyperoxic survival (44 of 50 vs 25 of 50 for low-PUFA diet newborn animals kept with their low-PUFA mother rats, P less than 0.01). These studies suggest that increasing lung lipid PUFA can confer a protective effect against the toxic effects of hyperoxia on the newborn animal lung.     

Lactose in blood in nonpregnant, pregnant, and lactating women.

Lactose synthesized in the mammary gland can pass into the bloodstream by either a paracellular or transcellular pathway. In nonpregnant, nonlactating women, the concentration of lactose in the blood plasma was 1.5 +/- 0.1 microM (mean +/- SEM) in 9 women and undetectable in another 11 women. During pregnancy, this concentration was 3.7 +/- 0.4 microM at 10-21 weeks of gestation, with an increase to 8.7 +/- 1.8 microM by 38-40 weeks of gestation. At the initiation of lactation, the concentration of lactose peaked 3-5 days after birth, with a mean peak concentration of 75 +/- 18 microM, and then decreased to 30 +/- 8 microM when lactation was well established at 6 weeks after birth. These findings suggest that the mammary glands are synthetically active by the beginning of the second trimester of pregnancy and reach maximum synthetic capacity soon after birth. Measurement of concentrations of lactose in the blood plasma during pregnancy and lactation may allow an assessment of the successful initiation of both lactogenesis I and II.     

The cross-generation effect of neonatal macrosomia in rat pups of streptozotocin-induced diabetes

To study the cross-generation effect of enhanced growth in macrosomic newborn rats, we induced mild hyperglycemia in 15 pregnant Sprague Dawley rats by intraperitoneal injection of streptozotocin, 35 mg/kg body weight, on the 5th d of gestation. As reported previously, we produced hyperinsulinemia and accelerated growth in the fetuses of hyperglycemic dams. We also showed that the macrosomic female pups (second generation) continued to have a higher growth rate through the first 12 wk of life. In this study, the second-generation female rats were mated with macrosomic second-generation males; they demonstrated glucose intolerance during late pregnancy and delivered pups (third generation) with higher birth weight and plasma insulin levels than the pups from control second-generation rats. When the macrosomic third-generation pups were raised under identical nutritional and environmental conditions as controls, the macrosomic rats showed accelerated growth and higher fat tissue weight during the first 12 wk of life. Furthermore, the macrosomia was associated with glucose intolerance and higher insulin to glucose ratios compared to controls. We also mated the offspring of second-generation streptozotocin-injected nonmacrosomic as well as the offspring of macrosomic pups of buffer-injected dams; none of the pups from these matings were significantly macrosomic. Therefore, we conclude that the perpetuation of obesity and possibly glucose intolerance across generations in this rat model is predominantly a result of abnormal intrauterine metabolic environment rather than genetic factor driven.     

Modifiable maternal exposures and offspring blood pressure: a review of epidemiological studies of maternal age, diet, and smoking

Prenatal programming of adult disease is well established in animals. In humans the impact of common in utero exposures on long-term offspring health is less clear. We reviewed epidemiology studies of modifiable maternal exposures and offspring blood pressure (BP). Three maternal exposures were identified for review and meta-analyzed where possible: smoking during pregnancy, diet, and age at childbirth. Meta-analysis suggested there was a modest association between higher offspring BP and prenatal exposure to smoke (confounder-adjusted beta = 0.62 mm Hg, 95% confidence interval: 0.19-1.05, I = 16.4%). However, the level of confounder adjustment varied between studies, which in some studies attenuated the association to the null. There was no strong evidence that any component of maternal diet during pregnancy (maternal protein, energy, calcium, and various other nutrients) influences offspring BP. The results of studies of maternal age varied and there was strong evidence of heterogeneity in the pooled analysis. The association with maternal age, if present, was modest (confounder-adjusted beta = 0.09 mm Hg/y, 95% confidence interval: -0.03 to 0.21, I = 89.8%). In sum, there is little empirical evidence that the maternal exposures reviewed program offspring BP. Other components of offspring health may be more susceptible to effects of programming in utero.     

Modulation of neonatal immunological tolerance to ovalbumin by maternal essential fatty acid intake

The present study examines whether dietary essential fatty acid (EFA) intake influences the induction of oral tolerance to ovalbumin (OA) in neonatal and adult rats. During late gestation and throughout lactation Sprague–Dawley rats were fed a diet supplemented (S) with EFA (7% soybean oil), or a diet deficient (D) in EFA (7% hydrogenated lard). The rat offspring were subsequently exposed to OA either via the milk at 10–16 days (neonatal rats), or as adults via the drinking water at 7–9 wk of age. Oral administration of OA to the adult rats lead to suppression of the delayed-type hypersensitivity (DTH) reactivity and IgG antibody response against OA, which was not influenced by their diets. In the offspring of the dams fed the D diet antigen exposure via the milk resulted in suppression of the serum antibody levels and DTH reaction against OA indicating induction of oral tolerance. Higher transforming growth factor beta (TGF- β ) mRNA levels in the draining lymph nodes suggested this to be mediated by regulatory T cells. In contrast, OA exposure of the dams fed the S diet did not result in a suppressed OA response of their offspring. Thus, the quality of FA ingested by the mother may have effects on the development of immunological tolerance to dietary antigens in the offspring. Our results might have importance for the understanding of the increase in allergy related to the Western type of diet.     

Assessment of glycemic control by continuous glucose monitoring system in 50 children with type 1 diabetes starting on insulin pump therapy

OBJECTIVE: To report experience with a continuous glucose monitoring system (CGMS) and to identify factors influencing glycemic control in a large cohort of children and adolescents with type 1 diabetes and change to insulin pump therapy via continuous subcutaneous insulin infusion (CSII). RESEARCH DESIGN and METHODS: In 50 patients [21 boys, 29 girls; median age 12.6 yr (range: 1.3-16.4 yr); diabetes duration 5.0 yr (0.2-13.3)], hemoglobin A1c (HbA1c) and ambulatory CGMS were performed before and 6 wk after starting CSII. Average glucose concentration per 24 h, during day and night time as well as number of excursions, duration, and area under the curve (AUC) of glucose values above 180 mg/dL and below 60 mg/dL were calculated from CGMS data. Simultaneously, metabolic control was documented by standardized self-monitoring of blood glucose (SMBG). RESULTS: In the total cohort, HbA1c improved from 8.1 +/- 1.2% at baseline to 7.7 +/- 0.9% after 6 wk of CSII (p <0.001). This effect was more distinct in boys (8.0 +/- 1.4 vs. 7.5 +/- 1.1%, p=0.007) than in girls (8.1 +/- 1.1 vs. 7.8 +/- 0.7%, p=0.039) as well as in patients with poor glycemic control (HbA1c >8.0%) at baseline (8.9 +/- 0.6 vs. 8.1 +/- 0.8%, p <0.001) and in those older than 12 yr (8.2 +/- 1.2 vs. 7.7 +/- 1.0%, p <0.001). At 6 wk of CSII, the values of glucose average per 24 h, AUC and time above 180 mg/dL, particularly during the day, improved. HbA1c was correlated with AUC above 180 mg/dL (r=0.742, p <0.001) and CGMS average glucose per 24 h (r=0.628, p=0.002), but to a lesser extent with SMBG values (r=0.418, p=0.054). CONCLUSION: With the change to CSII, HbA1c improved significantly after 6 wk of therapy. CGMS usage provided additional information about glycemic control in these patients.     

大鼠不同时期高脂饮食对子代糖脂代谢的影响及机制研究

目的 探讨Sprague-Dawley母鼠不同时期高脂饮食对子代糖脂代谢的影响及相关机制。 方法 根据孕前及孕期哺乳期饮食的不同,将母鼠随机分为4组（n=9）：CC组（孕前、孕期哺乳期均正常饮食）、HC组（孕前高脂饮食、孕期哺乳期正常饮食）、CH组（孕前正常饮食、孕期哺乳期高脂饮食）、HH组（孕前、孕期哺乳期均高脂饮食）;子代生后3周断奶后,全部给予正常饮食。记录母鼠孕前、孕期体重及仔鼠体重。取各组幼年期（3周）、成年期（12周）雄性仔鼠,检测空腹血糖（glucose,GLU）、胰岛素（insulin,INS）及肝脏三酰甘油（triglyceride,TG）、总胆固醇（total cholesterol,TC）水平,计算胰岛素抵抗指数（homeostasis model assessment of insulin resistance,HOMA-IR）、糖耐量试验（glucose tolerance test,GTT）及胰岛素耐量试验（insulin tolerance test,ITT）的曲线下面积（area under the curve,AUC）;取肝脏组织行苏木精-伊红染色和油红O染色,观察肝脏脂质沉积;检测肝脏糖脂代谢关键基因IR、IRS、AKT和FASN、SREBP1c、PPARα的mRNA及其蛋白表达水平。 结果 孕前高脂饮食组（HC组、HH组）母鼠体重较正常饮食组（CC组、CH组）显著增加（P<0.001）;HC组、CH组、HH组母鼠孕期增重较CC组显著增加（P<0.001）。生后3周时,HC组、CH组、HH组的仔鼠体重、肝脏TG及TC含量,以及FASN、SREBP1c、PPARα的mRNA及其蛋白表达水平均较CC组显著增加（P<0.05）,肝脏脂质沉积增加,其中HH组增加最显著;HH组的空腹GLU及INS水平、HOMA-IR、GTT-AUC、ITT-AUC及肝脏p-IRS蛋白表达水平均较CC组显著增加,肝脏IR、IRS的mRNA及其蛋白表达水平均较CC组显著降低（P<0.05）。生后12周时,HC组、CH组、HH组的仔鼠体重、空腹GLU及INS水平、HOMA-IR、GTT-AUC、ITT-AUC、肝脏TG及TC含量、p-IRS蛋白表达水平,以及FASN、SREBP1c、PPARα的mRNA及其蛋白表达水平均较CC组显著增加（P<0.05）,肝脏脂质沉积增加,其中HH组增加最显著;HC组、CH组、HH组IR、IRS、AKT的mRNA水平均较CC组显著降低,IR、IRS、p-AKT蛋白表达水平均较CC组显著降低（P<0.05）。HC组与CH组在不同时期的糖脂代谢水平未见显著性差异（P>0.05）。 结论 大鼠怀孕前后不同时期的高脂饮食对子代的糖脂代谢具有不同的影响,孕前、孕期、哺乳期全程高脂饮食对子代糖脂代谢影响最大;大鼠高脂饮食对其子代糖脂代谢的影响考虑与糖脂代谢基因的表达改变有关。 引用格式:     

Increased renal tubular reabsorption of calcium and magnesium by the offspring of diabetic rat pregnancy

Diabetic pregnancy has a marked influence on offspring calcium and magnesium homeostasis. Urinary excretion of calcium and magnesium is reduced, yet offspring of diabetic pregnancy exhibit hypomagnesemia and hypocalcemia. The aim of this study was to measure renal hemodynamic and tubular function in the offspring of diabetic (OD) and control, nondiabetic (OC) rats at 4 and 8 wk of age to determine the glomerular and tubular mechanisms through which renal calcium and magnesium handling are programmed in utero. The fraction of filtered calcium that was excreted was significantly lower in OD at both 4 and 8 wk of age [8 wk: OC (n = 6), 11.8 +/- 2.9 versus OD (n = 5), 4.3 +/- 0.6%; p < 0.05] and that of magnesium was lower at 8 wk of age [OC (n = 6), 42.4 +/- 7.5 versus OD (n = 5), 13.0 +/- 1.7%; p < 0.01]. This increased reabsorption occurred despite an elevated GFR in OD. These findings clearly indicate that tubular reabsorptive mechanisms for calcium and magnesium are increased markedly in OD. Serum PTH concentration was reduced in 8-wk-old OD [OC (n = 7), 539.4 +/- 142.1 versus OD (n = 9), 174.3 +/- 69.4 pg/ml; p < 0.05], consistent with previous reports in human infants. Taken together, these observations suggest that the basis for the altered renal magnesium and calcium handling in OD involves increased tubular transport activity and possibly increased sensitivity of these mechanisms to PTH.