Effect of feeding sucrose or starch diets on parameters of glucose tolerance in the LA/N-corpulent rat

Glucose turnover in lean and obese rats of the SHR/N-cp and LA/N-cp strains

1. The relationship between hypertension, obesity, non-insulin-dependent diabetes mellitus and various parameters of glucose metabolism was studied. Lean and obese rats of the SHR/N-cp and LA/N-cp congenic strains were studied at four months of age. 2. Tritium and 14C-labeled glucoses were infused in one set of rats while tritiated water and 14C-labeled alanine were infused in a second group. 3. Glucose oxidation, turnover, conversion to glycogen, fatty acid synthesis, and alanine conversion to glucose were determined, as were blood pressure, pulse pressure and heart rate. 4. The presence of obesity influenced body weight, body fat, de novo fatty acid synthesis, organ weights, glucose mass, glucose oxidation, glucose synthesis, glucose carbon turnover and pulse pressure. 5. It had no effect on glycogen synthesis, tissue glycogen levels, blood glucose, glucose space, or blood pressure. 6. Strain differences were observed in final body weight, organ weights, blood pressure, pulse pressure, hepatic fatty acid synthesis, glucose mass, glucose space, glucose synthesis, liver glycogen levels and glucose conversion to muscle glycogen. 7. Strain-phenotype interaction effects were observed on glucose incorporation into hepatic glycogen, Cori cycle activity, hepatic de novo fatty acid synthesis, final body weight, fat pad weight, heart weight, and mean arterial pressure. 8. These results suggest that although obesity and hypertension are genetic traits in these rats, these traits are independent in their influence on the metabolism of glucose and the development of non-insulin-dependent diabetes mellitus.

Genetically obese rats with (SHR/N-cp) and without diabetes (LA/N-cp) share abnormal islet responses to glucose

To assess the effect of hyperglycemia on the function of islets obtained from obese rats, the behavior of isolated islets from LA/N-corpulent (nondiabetic obese) and SHR/N-corpulent (diabetic obese) male rats was examined and compared. Islets from both genetic models showed a left-shifted glucose dose-response curve for insulin release (concentrations for half-maximal release, 5 to 6 mmol/L v 12 to 13 mmol/L in LA/N lean littermates and 3 mmol/L v 10 mmol/L in lean SHR/N). When insulin release was expressed per unit islet volume, the fourfold to fivefold enlarged islets from both obese diabetic and obese nondiabetic rats showed decreased insulin secretory response in high (16.5 to 28 mmol/L) glucose concentrations, although the decrease was more severe in the diabetic rats. Glucose-stimulated insulin release by islets from both models was relatively resistant to inhibition by 1.2 mmol/L mannoheptulose (eg, 82% +/- 3% inhibition in LA/N lean v 16% +/- 8% in LA/N obese), although nearly complete inhibition was observed with 16 mmol/L mannoheptulose (96% v 85%, NS). Islets of obese diabetic rats were also resistant to the calcium-channel blocker, verapamil, suggesting an abnormal pathway of stimulus-secretion coupling for glucose. Glucose oxidation to carbon dioxide was increased in both obese models at all glucose concentrations when expressed per islet. In data expressed per unit volume, the larger islets from the obese-nondiabetic rats showed a left-shifted dose-response curve with an unchanged maximum rate of glucose oxidation at high (16.5 mmol/L) glucose concentrations.(ABSTRACT TRUNCATED AT 250 WORDS)

Degenerated intramural pericytes ('ghost cells') in the retinal capillaries of diabetic rats

One of the earliest histopathological signs of diabetic retinopathy is a selective loss of intramural pericytes from retinal capillaries. In the present study, the retinal vessels of rats with streptozotocin-induced diabetes (STZ Wistar) and rats with genetically-induced insulin dependent diabetes mellitus (BB Wistar) and non-insulin dependent diabetes mellitus (SHR/N-corpulent) were examined after 6 to 8 months duration for diabetes-related retinal microangiopathies. The SHR/N-corpulent (cp) rats were fed a 54% sucrose diet, whereas the STZ Wistar and BB Wistar rats were fed laboratory chow for 32 to 36 weeks. In all the diabetic rats, the retinal capillaries in enzyme-digested flat mounts exhibited an increase in periodic-acid-Schiff (PAS) staining and loss of pericytes compared to their respective euglycemic controls. Pericyte "ghosts", like those defined in human diabetes as intramural pockets lacking normal cell contents, were documented by high resolution micrographs in all the diabetic rats. Endothelial cell proliferation, capillary dilation, and varicose loop formation were noted in some of the diabetic rats. Hence, similar capillary lesions were found in very different groups of diabetic rats. The findings suggest that a chronic high tissue concentration of glucose is the underlying factor which triggers pathogenesis in the pericyte. Hyperglycemia-induced activation of endogenous aldose reductase of the polyol pathway is probably the initial insult, but other factors such as advanced glycosylation products may affect the final outcome.

The effects of low-dose Bay-m-1099 (Miglitol) on serum lipids and liver enzyme activity of obese and obese-diabetic corpulent rats

1. Groups of lean, obese, and obese-non-insulin-dependent diabetic LA/N-cp and SHR/N-cp rats were administered the a-glucosidase inhibitor Miglitol (150 mg/kg diet, ad libitum) from 8 until 15 weeks of age. 2. Phenotype effects (obese greater than lean) were present for weight gain, adiposity, serum glycemic and lipid parameters, and for liver glucokinase, glucose-6-phosphate dehydrogenase, and malic enzyme activity. Miglitol treatment was associated with improvements in glucokinase and malic enzyme in both strains, and in improvements in glycemic parameters in obese rats. 3. These results are consistent with variable improvements in glycemic control and insulin action following low dose Miglitol treatment, and indicate that indirect effects of the drug on insulin sensitivity in peripheral tissues and on glucoregulatory enzymes may contribute to the glycemic improvements observed with this drug, while greater dosages or longer treatment may be required to observe comparable improvements in adiposity or plasma lipid profiles.

The effect of acarbose on the food intake, weight gain, and adiposity of LA/N-cp rats

1. Groups of lean and obese LA/N-cp rats were administered the intestinal glucosidase inhibitor acarbose at 150 or 300 mg/kg diet from 7 until 17 weeks of age and the effects of the drug on food intake patterns and adiposity determined. 2. Dose related effects on body weights, adiposity and feed efficiency ratio were observed (control greater than 150 mg greater than 300 mg drug/kg diet) following treatment in both phenotypes, with the greatest differences observed in the obese phenotype. 3. Acarbose at both dosages was associated with phenotype-specific alterations in food intake amount and feeding pattern, resulting in an attenuation of age-associated increases in food intake. The feed efficiency ratio decreased in both phenotypes, and approached normally fed lean controls in obese rats administered the greater dosage. 4. These results indicate that patterns of food intake and weight gain differ markedly between lean and obese rats of this strain, and acarbose brings about a dose-related attenuation of developing food intake patterns in both phenotypes and which are associated with decreases in weight gain and adiposity. Thus, this drug may have therapeutic potential as an adjunct agent in the treatment of obesity and/or other disorders of carbohydrate intolerance.

The effect of experimental overnutrition on nonshivering thermogenesis and obesity in LA/N-cp rats

1. Groups of congenic adult male lean and obese LA/N-cp rats were fed stock chow or the chow diet plus a cafeteria diet supplement from 4 until 6 months of age. 2. Weight gain, adipose cellularity, and adiposity were greater in obese than in lean rats and all three parameters increased more rapidly in obese than in lean rats when fed the cafeteria-supplemented diet. 3. Resting metabolic rates and basal urinary vanilylmandelic acid excretion were greater in lean than in obese rats, while serum triiodothyronine concentrations were similar in both phenotypes. The cafeteria diet was associated with significant increases in all three metabolic parameters in lean but not in obese rats. 4. The results of this study indicate that the obese phenotype of this strain has an impaired capacity for non-shivering thermogenesis (NST), in association with an enhanced propensity for development of obesity when fed stock or cafeteria diets. Moreover, the impairment in NST involves both sympathetic and thyroidal components, and is likely to be contributory if not causative of obesity in this strain.

Effects of diet and phenotype on adipose cellularity and 5'-deiodinase activity of liver and brown adipose tissue of diabetic SHR/N-cp rats

1. Groups of lean and obese male SHR/N-cp rats were fed isoenergetic diets containing 54% carbohydrate as cornstarch (CS) or sucrose (SU) plus other nutrients from 5 weeks of age, and measures of adiposity, thyroxine 5' deiodinase (T4-5'DI) activity, and tissue and plasma triiodothyronine (T3) content determined at 9.5 months of age. 2. Body weights (BW) of obese greater than lean, and were greater when fed the SU than CS diet in both phenotypes. Phenotype effects (obese greater than lean) were present for fat pad weights and adipose cellularity in most primary adipose tissue depots, and diet effects (SU greater than CS) were present for epididymal and retroperitoneal depots in both phenotypes. 3. Interscapular brown adipose tissue (IBAT) and IBAT:BW ratios of obese greater than lean, and diet effects (SU greater than CS) were present for lean but not obese rats. Liver T4-5'DI activity and plasma and tissue T3 of lean greater than obese, while IBAT 5'DI activity of obese greater than lean in the CS diet. 4. These results indicate that obesity occurs in the SHR/N-cp rat as the result of hypertrophy and hyperplasia of adipose tissue, and that isoenergetic substitution of simple for complex carbohydrate exaggerates fat accretion in lean but not obese rats. Moreover, the obesity occurs in spite of greater mass, cellularity, and T4-5'DI activity of IBAT, consistent with a thermogenic defect in the obese phenotype of this strain.

The effects of norepinephrine and nutritional status on resting metabolic rates in the LA/N-cp rat

1. The effects of diet and norepinephrine (NE) on resting metabolic rate (RMR) were determined using indirect calorimetry in 6-month-old lean and corpulent LA/N-cp rats. RMRs of lean rats were greater than the corpulent. 2. Ingestion of carbohydrate (CHO) in the unfasted and fasted states increased the RMR of both groups, especially in the lean phenotype when compared to oil. 3. Serum T3 and glucose concentrations were similar in both phenotypes. 4. The effects of NE on RMR were maximal after a 200 micrograms NE/kg body weight injections.

Effects of dietary carbohydrate and phenotype on thyroid hormones and brown adipose tissue locularity in adult LA/N-cp rats

1. Groups of lean and corpulent LA/N-cp rats were fed isoenergetic diets containing, 54% carbohydrate as maize starch (MS) or sucrose (SU), 20% protein, 16% mixed fats, plus other essential nutrients and fiber from 1.5-9 months of age. Final body weights of corpulent rats were 2-3 times those of their lean littermates, and were greater with SU than MS diet in both phenotypes. 2. Interscapular brown adipose tissue (IBAT) mass was greater in corpulent than lean and was greater with SU than MS diet in lean but not corpulent rats. IBAT cell diameters and adipocyte volumes were generally similar in both phenotypes, and were not markedly affected by dietary carbohydrate type. 3. Brown adipocyte locularity profiles were qualitatively similar in both phenotypes, and were morphologically indicative of thermogenic activity in both phenotypes. Locule profiles of corpulent animals contained a greater proportion of thermogenically less active types IV and V brown adipocytes than similarly fed lean animals, however, and locule distribution profiles were not influenced by diet. 4. Serum T3 concentrations were similar in both phenotypes, were greater in SU than MS lean rats and were not influenced by diet in the corpulent phenotype. In contrast, serum thyroxine concentrations and percent thyroxine uptake were not influenced by diet or phenotype. 5. These results are consistent with a partial impairment in BAT-mediated thermogenic activity in the corpulent phenotype and suggest that obesity in this strain may be due to factors other than biochemically defective brown adipose tissue thermogenesis.

When does sucrose increase appetite and adiposity?

Two methods of sucrose feeding have been employed in studies with rodents. In the nutritional method, part or all of the starch in a diet is replaced with sucrose. In the solution method, animals maintained on a nutritionally complete diet are given a sucrose solution to drink. The solution method is generally a more effective and reliable method of producing obesity except for weanling rodents. These two methods yield different results with regard to interactions with the fat and protein content of the diet, efficiency of weight gain, disaccharide effects and effects of meal feeding. It is suggested that for the nutritional method, sucrose alters food intake and adiposity via its effects on fat oxidation. For the solution method, the critical factor may be presenting a wet source of calories rather than sucrose per se. Differences in the way sucrose is fed do not account for all divergent results. Different investigators conducting similar experiments have often obtained different results. For these and other reasons, animal studies do not support the idea that sucrose intake causes obesity in humans.

Effects of increased energy expenditure on weight gain and adiposity in the LA-corpulent rat

Groups of lean or pre-obese LA/N-cp rats were subjected to a program of vigorous exercise (less than 4 hr/day) or remained sedentary from 6 weeks until 12 weeks of age. Sedentary pre-obese rats gained weight twice as rapidly as sedentary lean rats. Exercise treatment resulted in greater decrements in body wt in obese than in lean rats, but did not result in absolute weight loss in either group. At 12 weeks of age, fat pad weights in principle depots were 10-15 times greater in corpulent than in lean rats and were significantly smaller in the exercised groups of both phenotypes, and corresponded with lower relative adiposity compared to corresponding sedentary groups. Heart weights were greater in corpulent than lean, while gastrocnemius muscle weights were similar in both phenotypes. Exercise was without effect on the weight of either muscle tissue in either phenotype. Interscapular brown adipose tissue weights and the IBAT:BW ratio were greater in obese than in lean rats. IBAT weights were lower in exercised than sedentary rats of either phenotype, but the IBAT:BW ratio was lower only in the obese exercised rats. In sedentary rats, L-alpha-glycerophosphate dehydrogenase and malic enzyme activity were greater in obese than lean, and exercise treatment resulted in increased L-alpha-glycerophosphate dehydrogenase and malic enzyme only in lean rats. These results are consistent with a redistribution of energy expenditure from energy storing to energy dissipating pathways following vigorous exercise, resulting in slowed rates of weight gain and body fat accretion in both lean and obese animals, with the most significant decrements among pre-obese rats.

Nonshivering thermogenesis in the diabetic SHR/N-cp (corpulent) rat

The effects of isoenergetic sucrose and starch-based diets on thermogenesis were investigated in young adult, male, lean and corpulent SHR/N-cp rats. Corpulent rats gained weight 1.5 times more rapidly than lean, and sucrose diets resulted in more rapid weight gains in both phenotypes. Rates of resting and of norepinephrine-stimulated oxygen consumption were similar in both groups of lean rats and in sucrose-fed corpulent rats, but were decreased in starch-fed corpulent rats. The thermic response to injected norepinephrine occurred normally in all groups. Colonic and rectal temperatures were greater in lean than in corpulent rats. Acute cold exposure (5 degrees C) resulted in decreases in rectal but not colonic temperature in lean rats fed both diets, but resulted in lower temperatures at both sites in corpulent rats, with the greatest decreases being observed in the starch fed corpulent rats. Fifty percent of the corpulent but none of the lean rats succumbed within 24-48 hours following cold exposure. Urinary vanilmandelic acid (VMA) excretion was greater in lean than in corpulent rats, and the sucrose diet induced a greater increment in urinary VMA excretion in lean rats than in corpulent rats. These results are consistent with an impaired activation of sympathetically-mediated thermogenesis via nutritional or environmental stimuli in the corpulent genotype of the SHR/N-cp rat in concert with an economy in energy expenditure which may be contributing factors in the causation of their obese state.