Dietary Cholesterol and Defects in Cholesterol Synthesis

膳食胆固醇和胆固醇合成缺陷

• 批准号: 6926171
• 负责人: Robert David Steiner
• 金额: $ 44.01万
• 依托单位: OREGON HEALTH & SCIENCE UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2003
• 资助国家: 美国
• 起止时间: 2003-08-20 至 2008-07-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6926171
• 关键词: Smith Lemli Opitz syndrome; antihypercholesterolemic agent; biotransformation; cholanate compound; cholesterol; clinical research; diet therapy; dietary supplements; enzyme mechanism; gastrointestinal nutrient absorption; human subject; inborn lipid /lipoprotein disorder; isoprenoid; mental retardation; mevalonate; nutrition related tag; patient oriented research; phosphotransferases; steroid biosynthesis

DESCRIPTION (provided by applicant): We wish to study the effects of altering dietary cholesterol (CH) on 2 disorders of CH synthesis: mevalonate kinase deficiency (MKD), and Smith-Lemli-Opitz syndrome (SLOS). SLOS is a multiple congenital anomalies/mental retardation syndrome. MKD causes 2 distinct syndromes, mevalonic aciduria and hyperimmunoglobulinemia D with periodic fever syndrome. Impaired mental and physical development are hallmarks of SLOS and MKD. We hypothesize that long-term supplementation of SLOS subjects with dietary CH with and without statins will raise CH levels, decrease CH precursor synthesis and permit adequate bile acid synthesis. In MKD, the effects of altering dietary CH are unclear. We hypothesize that a low CH diet will be beneficial in MKD, allowing maximal upregulation of HMG CoAR since we postulate that MKD is a disorder of isoprenoid and fatty acid rather than CH synthesis. Mevalonate from HMG CoAR is essential for CH synthesis but also provides isoprenoids essential for cellular function. Furthermore, a normally minor catabolic pathway, the mevalonate shunt, diverts mevalonate from isoprenoid and CH synthesis to the leucine oxidation pathway. Shunting may be protective in SLOS and harmful in MKD. Isoprenoid synthesis and mevalonate shunting may be increased in SLOS due to the enzymatic block distal to the takeoff of these 2 pathways, but decreased in MKD due to the proximal block. In vitro studies are planned to evaluate the effects of perturbations in CH exposure and statins on CH synthesis, mevalonate, isoprenoids, and mevalonate shunt products in SLOS, MKD, and control cells. Isoprenoids and shunt products will also be analyzed in a new SLOS mouse model. Parallel in vivo human studies will look at synthesis of sterols and bile acids, CH absorption, mevalonate excretion as an indicator of HMG CoAR activity, essential fatty acids and leukotrienes, isoprenoids, and mevalonate shunt products in SLOS and MKD, altering dietary CH and statins (SLOS only). The effects of altering dietary CH (and statins in SLOS) on plasma 24-S OH-CH, a measure of brain CH turnover, will be evaluated. We will determine whether mutations in SLOS and MKD genes determine biochemical and clinical phenotype and whether certain genotypes respond differently to altering dietary CH. Studies of metabolism/growth, development, behavior, sleep, feeding, hearing, and vision are performed over the long term to determine if the interventions might be helpful.

描述（由申请人提供）：我们希望研究改变饮食胆固醇（CH）对2种CH合成障碍的影响：甲羟戊酸激酶缺乏症（MKD）和Smith-Lemli-Opitz综合征（SLOS）。SLOS是一种多发性先天性异常/智力迟钝综合征。MKD引起2种不同的综合征，甲羟戊酸尿症和高免疫球蛋白血症D伴周期性发热综合征。智力和身体发育受损是SLOS和MKD的标志。我们假设，长期补充含和不含他汀类药物的膳食CH的SLOS受试者将提高CH水平，减少CH前体合成并允许足够的胆汁酸合成。在MKD中，改变饮食CH的影响尚不清楚。我们假设低CH饮食对MKD有益，允许HMG CoAR的最大上调，因为我们假设MKD是类异戊二烯和脂肪酸而不是CH合成的障碍。来自HMG CoAR的甲羟戊酸对于CH合成是必需的，但也提供细胞功能所必需的类异戊二烯。此外，一个正常的次要分解代谢途径，甲羟戊酸分流，将甲羟戊酸从类异戊二烯和CH合成转向亮氨酸氧化途径。分流在SLOS中可能是保护性的，而在MKD中可能是有害的。在SLOS中，类异戊二烯合成和甲羟戊酸分流可能会增加，这是由于这两条通路起飞远端的酶阻断，但在MKD中，由于近端阻断，类异戊二烯合成和甲羟戊酸分流减少。计划进行体外研究，以评价CH暴露和他汀类药物扰动对SLOS、MKD和对照细胞中CH合成、甲羟戊酸、类异戊二烯和甲羟戊酸分流产物的影响。还将在新的SLOS小鼠模型中分析类异戊二烯和分流产物。平行的人体体内研究将观察固醇和胆汁酸的合成、CH吸收、作为HMG CoAR活性指标的甲羟戊酸排泄、必需脂肪酸和白三烯、类异戊二烯和SLOS和MKD中的甲羟戊酸分流产物，改变饮食CH和他汀类药物（仅SLOS）。将评价改变饮食CH（和SLOS中的他汀类药物）对血浆24-S OH-CH（脑CH周转的指标）的影响。我们将确定SLOS和MKD基因突变是否决定生化和临床表型，以及某些基因型是否对改变饮食CH有不同的反应。长期进行代谢/生长、发育、行为、睡眠、喂养、听力和视力的研究，以确定干预措施是否有帮助。