[Peripuberal development of genetic obesity in beta rats. Daily changes in food intake, body weight, deep body temperature, triglyceridemia and glycemia].

: The moderate quality of beta obesity and its relatively slow evolution make it potentially useful for defining the sequence of events that lead to the overt syndrome. Estimates of food intake, live body weight, deep body temperature, triglyceridemia and glycemia were obtained at several times during the day in beta genetically obese and alpha (alpha) control male rats at peripuberal age, in order to characterize the dynamic phase of this obesity and to attempt the definition of some previous proceedings that eventually produce the full obesity syndrome. Beta higher food intake in the light cycle preceded its whole day hyperphagia. Both genotypes showed the normal pattern of predominantly nocturnal feeding. A lower light phase's weight loss in beta preceded the overweight. Thus, beta rats were not significantly heavier than alpha until the end of the last period studied, when they were 75 days old. A defect in adaptive thermogenesis in beta genotype is suggested, as values on deep body temperature in relation to alpha were significantly lower at all times of day tested. Correlation coefficient value between daily net weight gain versus deep body temperature was: r = -0.601 (p less than 0.01), suggesting a diminished lipolytic stimulation in beta brown adipose tissue. A sustained hypertriglyceridemia in beta at every time of the day studied suggested its endogenous source. Differences in glycemia values were not statistically significant between genotypes, though apparently wider variations in beta could reflect a certain glycemic regulation lability in the obese genotype.