Silymarin and silybin are widely used for their hepatoprotective properties. Our previous studies confirm positive effect of silymarin on lipoprotein profile and lipid homeostasis. Advanced drug forms may improve the bioavailability of these compounds. In this study, we investigate the effects of silybin in different drug forms (standardized silybin, micronized silybin, and silybin in form of phytosomes) on dyslipidemia and glucose metabolism in hereditary hypertriglyceridemic (HHTg) rats. Male HHTg rats were divided into four groups of seven animals and were fed by experimental diets. Silybin significantly decreased serum level of triglycerides in groups of rats fed by standardized silybin and silybin in form of phytosomes compared to control group. Results show that silybin did not affect the total cholesterol level, but significantly increased the levels of HDL cholesterol in all groups of animals. Silybin in a standardized form had the highest hypotriglyceridemic effect. On the other hand, the micronized form has caused the highest increase of protective HDL and most significantly decreased glucose and insulin levels. Our results suggest that silybin is probably responsible for some positive properties of silymarin. Subsequent dose-dependent studies of silybin action may reveal the intensity of its positive effects on lipid and glucose parameters., M. Poruba, Z. Matušková, L. Kazdová, O. Oliyarnyk, H. Malínská, I. Tozzi di Angelo, R. Večeřa., and Obsahuje bibliografii
Silymarin, a mixture of flavonolignans from medicinal plant Silybum marianum, is used in supportive treatment of liver diseases of different etiology due to its hepatoprotective activity, which is considered to involve antioxidative and the membrane stabilizing effects. The liver plays an important role in regulation of metabolism of plasma lipoproteins, and liver injury is often reflected as a secondary dyslipoproteinaemia, which may lead to the development of atherosclerosis, particularly when associated with hypercholesterolaemia. This review summarizes the experimental evidence indicating that silymarin-induced protection of liver functions may be of benefit with regard to liver lipid metabolism related to the regulation of plasma lipoproteins. Moreover, some data suggest that silymarin could have a direct effect on liver cholesterol metabolism by inhibiting cholesterol biosynthesis. It is proposed that silymarin deserves to be studied as a potential hypocholesterolaemic agent.