Post S M, de Roos B, Vermeulen M, Afman L, Jong M C, Dahlmans V E, Havekes L M, Stellaard F, Katan M B, Princen H M
TNO Prevention and Health, Gaubius Laboratory, Leiden, The Netherlands.
Arterioscler Thromb Vasc Biol. 2000 Jun;20(6):1551-6. doi: 10.1161/01.atv.20.6.1551.
Cafestol, a diterpene present in unfiltered coffee, potently increases serum cholesterol levels in humans. So far, no suitable animal model has been found to study the biochemical background of this effect. We determined the effect of cafestol on serum cholesterol and triglycerides in different mouse strains and subsequently studied its mechanism of action in apolipoprotein (apo) E3-Leiden transgenic mice. ApoE3-Leiden, heterozygous low density lipoprotein-receptor (LDLR+/-) knockout, or wild-type (WT) C57BL/6 mice were fed a high- (0.05% wt/wt) or a low- (0.01% wt/wt) cafestol diet or a placebo diet for 8 weeks. Standardized to energy intake, these amounts are equal to 40, 8, or 0 cups of unfiltered coffee per 10 MJ per day in humans. In apoE3-Leiden mice, serum cholesterol was statistically significantly increased by 33% on the low- and by 61% on the high-cafestol diet. In LDLR+/- and WT mice, the increases were 20% and 24%, respectively, on the low-cafestol diet and 55% and 46%, respectively, on the high-cafestol diet. These increases were mainly due to a rise in very low density lipoprotein (VLDL) and intermediate density lipoprotein cholesterol in all 3 mouse strains. To investigate the mechanism of this effect, apoE3-Leiden mice were fed a high-cafestol or a placebo diet for 3 weeks. Cafestol suppressed enzyme activity and mRNA levels of cholesterol 7alpha-hydroxylase by 57% and 58%, respectively. mRNA levels of enzymes involved in the alternate pathway of bile acid synthesis, ie, sterol 27-hydroxylase and oxysterol 7alpha-hydroxylase, were reduced by 32% and 48%, respectively. The total fecal bile acid output was decreased by 41%. Cafestol did not affect hepatic free and esterified cholesterol, but it decreased LDLR mRNA levels by 37%. The VLDL apoB and triglyceride production rates, as measured after Triton injection, were 2-fold decreased by cafestol, indicating that the number of particles secreted had declined and that there was no change in the amount of triglycerides present in the VLDL particle during cafestol treatment. However, the VLDL particles contained a 4-times higher amount of cholesteryl esters, resulting in a net 2-fold increased secretion of cholesteryl esters. The decrease in triglyceride production was the result of a reduction in hepatic triglyceride content by 52%. In conclusion, cafestol increases serum cholesterol levels in apoE*3-Leiden mice by suppression of the major regulatory enzymes in the bile acid synthesis pathways, leading to decreased LDLR mRNA levels and increased secretion of hepatic cholesterol esters. We suggest that suppression of bile acid synthesis may provide an explanation for the cholesterol-raising effect of cafestol in humans.
咖啡醇是一种存在于未过滤咖啡中的二萜类化合物,能显著提高人体血清胆固醇水平。到目前为止,尚未找到合适的动物模型来研究这种效应的生化背景。我们测定了咖啡醇对不同小鼠品系血清胆固醇和甘油三酯的影响,并随后研究了其在载脂蛋白(apo)E3-莱顿转基因小鼠中的作用机制。给apoE3-莱顿、杂合低密度脂蛋白受体(LDLR+/-)敲除或野生型(WT)C57BL/6小鼠喂食高(0.05%重量/重量)或低(0.01%重量/重量)咖啡醇饮食或安慰剂饮食8周。按能量摄入量标准化后,这些量相当于人类每天每10兆焦耳摄入40、8或0杯未过滤咖啡。在apoE3-莱顿小鼠中,低咖啡醇饮食使血清胆固醇统计学显著升高33%,高咖啡醇饮食使血清胆固醇升高61%。在LDLR+/-和WT小鼠中,低咖啡醇饮食分别使血清胆固醇升高20%和24%,高咖啡醇饮食分别使血清胆固醇升高55%和46%。这些升高主要是由于所有3种小鼠品系中极低密度脂蛋白(VLDL)和中间密度脂蛋白胆固醇升高所致。为研究这种效应的机制,给apoE3-莱顿小鼠喂食高咖啡醇或安慰剂饮食3周。咖啡醇分别使胆固醇7α-羟化酶的酶活性和mRNA水平降低57%和58%。参与胆汁酸合成替代途径的酶,即甾醇27-羟化酶和氧甾醇7α-羟化酶的mRNA水平分别降低32%和48%。粪便总胆汁酸排出量减少41%。咖啡醇不影响肝脏游离胆固醇和酯化胆固醇,但使LDLR mRNA水平降低37%。经Triton注射后测定,咖啡醇使VLDL apoB和甘油三酯生成率降低2倍,表明分泌的颗粒数量减少,且在咖啡醇处理期间VLDL颗粒中甘油三酯的量没有变化。然而,VLDL颗粒中胆固醇酯的含量高4倍,导致胆固醇酯的净分泌增加2倍。甘油三酯生成减少是肝脏甘油三酯含量降低52%的结果。总之,咖啡醇通过抑制胆汁酸合成途径中的主要调节酶,提高apoE*3-莱顿小鼠的血清胆固醇水平,导致LDLR mRNA水平降低和肝脏胆固醇酯分泌增加。我们认为,胆汁酸合成的抑制可能为咖啡醇在人体中的胆固醇升高效应提供一种解释。
