In vivo and in vitro studies on the regulatory link between 3-hydroxy-3-methylglutaryl coenzyme A reductase and cholesterol 7 alpha-hydroxylase in rat liver

Gender-based differences in the effect of dietary cholesterol in rats

Male and female rats were fed diets supplemented with cholesterol and palm fat at 10 and 50 g/kg, respectively; serum, hepatic tissue and faeces were analysed. Cholesterol supplementation significantly increased serum and hepatic cholesterol both in male and female rats. Male and female rats fed the cholesterol-containing diet differed significantly in serum cholesterol concentration (2.48 µmol/mL vs 2.92 µmol/mL), concentration of serum triacylglycerols, but not in hepatic cholesterol concentration. The serum and hepatic cholesterol concentrations correlated non-significantly in male rats (r=0.491; P=0.063) and significantly in female rats (r=0.818; P<0.001). Cholesterol supplementation non-significantly decreased relative expression of the hepatic LDL receptor gene and significantly increased relative expression of the hepatic cholesterol 7α-hydroxylase gene in rats of both genders. The faeces of control rats contained similar amounts of cholesterol and bile acids. Cholesterol supplementation increased cholesterol concentration 10 times in the faeces of male rats and 12 times in faeces of female rats. The corresponding increases of bile acid concentration were much lower (83% in male rats and 108% in female rats). It can be concluded that the effects of cholesterol supplementation were more pronounced in female than in male rats.

Properties, entrainment, and physiological functions of mammalian peripheral oscillators

In mammals, the circadian timing system is composed of multiple oscillators that are organized in a hierarchical manner. The central pacemaker, located in the suprachiasmatic nucleus of the hypothalamus, is believed to orchestrate countless subsidiary clocks in the periphery. These peripheral oscillators are cell-autonomous, self-sustained, resilient to cell division, and virtually insensitive to large fluctuations in general transcription rates. However, they are probably not coupled within an organ, and daily zeitgeber signals emanating from the SCN appear to be required to ensure phase coherence within and between tissues. Peripheral clocks are implicated in a variety of biochemical pathways, and recent results tightly link circadian rhythms to several aspects of metabolism. Thus, the expression of many key enzymes conducting rate-limiting steps in various metabolic pathways is regulated in a circadian fashion by core clock components or clock-controlled transcription factors. Genetic loss-of-function studies have now established a role for mammalian circadian clock components in energy homeostasis and xenobiotic detoxification, and the latter manifests itself in the daytime-dependent modulation of drug efficacy and toxicity.