^ 1.01.11.21.31.41.5Wilson JM, Fitschen PJ, Campbell B, Wilson GJ, Zanchi N, Taylor L, Wilborn C, Kalman DS, Stout JR, Hoffman JR, Ziegenfuss TN, Lopez HL, Kreider RB, Smith-Ryan AE, Antonio J. International Society of Sports Nutrition Position Stand: beta-hydroxy-beta-methylbutyrate (HMB). Journal of the International Society of Sports Nutrition. February 2013, 10 (1): 6. PMC 3568064. PMID 23374455. doi:10.1186/1550-2783-10-6. The [International Society of Sports Nutrition] has concluded the following. 1. HMB can be used to enhance recovery by attenuating exercise induced skeletal muscle damage in trained and untrained populations. ... 4. Thirty-eight mg·kg·BM−1 daily of HMB has been demonstrated to enhance skeletal muscle hypertrophy, strength, and power in untrained and trained populations when the appropriate exercise prescription is utilized. ... 8. HMB’s mechanisms of action include an inhibition and increase of proteolysis and protein synthesis, respectively. 9. Chronic consumption of HMB is safe in both young and old populations.
^(PDF). Abbott Nutrition. 9 August 2016 [22 August 2016]. (原始内容 (PDF)存档于2016-10-12). · Use under medical supervision. · HMB + protein for muscle health.
(PDF). Abbott Nutrition. 7 May 2016 [22 August 2016]. (原始内容 (PDF)存档于2016-10-12). · Administer orally or as a modular via feeding tube ... · Use under medical supervision. · Nutravigor® (CaHMB, calcium β-hydroxy-β-methylbutyrate)
^Zanchi NE, Gerlinger-Romero F, Guimarães-Ferreira L, de Siqueira Filho MA, Felitti V, Lira FS, Seelaender M, Lancha AH. HMB supplementation: clinical and athletic performance-related effects and mechanisms of action. Amino Acids. April 2011, 40 (4): 1015–1025. PMID 20607321. doi:10.1007/s00726-010-0678-0. HMB is a metabolite of the amino acid leucine (Van Koverin and Nissen 1992), an essential amino acid. The first step in HMB metabolism is the reversible transamination of leucine to [α-KIC] that occurs mainly extrahepatically (Block and Buse 1990). Following this enzymatic reaction, [α-KIC] may follow one of two pathways. In the first, HMB is produced from [α-KIC] by the cytosolic enzyme KIC dioxygenase (Sabourin and Bieber 1983). The cytosolic dioxygenase has been characterized extensively and differs from the mitochondrial form in that the dioxygenase enzyme is a cytosolic enzyme, whereas the dehydrogenase enzyme is found exclusively in the mitochondrion (Sabourin and Bieber 1981, 1983). Importantly, this route of HMB formation is direct and completely dependent of liver KIC dioxygenase. Following this pathway, HMB in the cytosol is first converted to cytosolic β-hydroxy-β-methylglutaryl-CoA (HMG-CoA), which can then be directed for cholesterol synthesis (Rudney 1957) (Fig. 1). In fact, numerous biochemical studies have shown that HMB is a precursor of cholesterol (Zabin and Bloch 1951; Nissen et al. 2000).
^ 4.04.1Safety data sheet: 3-Hydroxy-3-methyl butyric acid. Alfa Aesar. 23 March 2005 [9 November 2016]. (原始内容于2016-09-17).
^Coffman DD, Cramer R, Mochel WE. Syntheses by Free-radical Reactions. V. A New Synthesis of Carboxylic Acids. Journal of the American Chemical Society. June 1958, 80 (11): 2882–2887. doi:10.1021/ja01544a072.
^3-OH-isovaleric acid. ChemSpider. Royal Society of Chemistry. 2015 [10 August 2016]. (原始内容于2016-08-11). Experimental Boiling Point: ... 128 °C / 7 mm ... Experimental solubility: Soluble in water
^ 7.07.17.27.3Wu, Hongmei; Xia, Yang; Jiang, Jin; Du, Huanmin; Guo, Xiaoyan; Liu, Xing; Li, Chunlei; Huang, Guowei; Niu, Kaijun. Effect of beta-hydroxy-beta-methylbutyrate supplementation on muscle loss in older adults: a systematic review and meta-analysis. Archives of Gerontology and Geriatrics. 2015-9, 61 (2): 168–175 [2018-05-28]. ISSN 1872-6976. PMID 26169182. doi:10.1016/j.archger.2015.06.020. (原始内容于2019-12-21).请检查|date=中的日期值 (帮助)
^ 8.08.1Holeček, Milan. Beta-hydroxy-beta-methylbutyrate supplementation and skeletal muscle in healthy and muscle-wasting conditions. Journal of Cachexia, Sarcopenia and Muscle. 2017-8, 8 (4): 529–541 [2018-05-28]. ISSN 2190-6009. PMC 5566641. PMID 28493406. doi:10.1002/jcsm.12208. (原始内容于2020-01-25).请检查|date=中的日期值 (帮助)
^ 9.09.1Rossi, Andrea P.; D'Introno, Alessia; Rubele, Sofia; Caliari, Cesare; Gattazzo, Stefano; Zoico, Elena; Mazzali, Gloria; Fantin, Francesco; Zamboni, Mauro. The Potential of β-Hydroxy-β-Methylbutyrate as a New Strategy for the Management of Sarcopenia and Sarcopenic Obesity. Drugs & Aging. 11 2017, 34 (11): 833–840 [2018-05-28]. ISSN 1179-1969. PMID 29086232. doi:10.1007/s40266-017-0496-0. (原始内容于2019-05-09).请检查|date=中的日期值 (帮助)
^ 10.010.1Silva, Vagner R.; Belozo, Felipe L.; Micheletti, Thayana O.; Conrado, Marcelo; Stout, Jeffrey R.; Pimentel, Gustavo D.; Gonzalez, Adam M. β-hydroxy-β-methylbutyrate free acid supplementation may improve recovery and muscle adaptations after resistance training: a systematic review. Nutrition Research (New York, N.Y.). 2017-9, 45: 1–9 [2018-05-28]. ISSN 1879-0739. PMID 29037326. doi:10.1016/j.nutres.2017.07.008. (原始内容于2020-05-06).请检查|date=中的日期值 (帮助)
^ 11.011.111.211.3Wilkinson, D J; Hossain, T; Hill, D S; Phillips, B E; Crossland, H; Williams, J; Loughna, P; Churchward-Venne, T A; Breen, L. Effects of leucine and its metabolite β-hydroxy-β-methylbutyrate on human skeletal muscle protein metabolism. The Journal of Physiology. 2013-06-01, 591 (Pt 11): 2911–2923 [2018-05-28]. ISSN 0022-3751. PMC 3690694. PMID 23551944. doi:10.1113/jphysiol.2013.253203. (原始内容于2020-12-26).
^ 12.012.112.2Brioche, Thomas; Pagano, Allan F.; Py, Guillaume; Chopard, Angèle. Muscle wasting and aging: Experimental models, fatty infiltrations, and prevention. Molecular Aspects of Medicine. 08 2016, 50: 56–87 [2018-05-28]. ISSN 1872-9452. PMID 27106402. doi:10.1016/j.mam.2016.04.006. (原始内容于2019-05-09).请检查|date=中的日期值 (帮助)
^ 13.013.1Molfino, Alessio; Gioia, Gianfranco; Rossi Fanelli, Filippo; Muscaritoli, Maurizio. Beta-hydroxy-beta-methylbutyrate supplementation in health and disease: a systematic review of randomized trials. Amino Acids. 2013-12, 45 (6): 1273–1292 [2018-05-28]. ISSN 1438-2199. PMID 24057808. doi:10.1007/s00726-013-1592-z. (原始内容于2019-10-28).
^Borack, Michael S; Volpi, Elena. Efficacy and Safety of Leucine Supplementation in the Elderly123. The Journal of Nutrition. 2016-12, 146 (12): 2625S–2629S [2018-05-28]. ISSN 0022-3166. PMC 5118760. PMID 27934654. doi:10.3945/jn.116.230771. (原始内容于2020-11-11).
^ 15.015.115.215.315.4Wilson, Jacob M.; Fitschen, Peter J.; Campbell, Bill; Wilson, Gabriel J.; Zanchi, Nelo; Taylor, Lem; Wilborn, Colin; Kalman, Douglas S.; Stout, Jeffrey R. International Society of Sports Nutrition Position Stand: beta-hydroxy-beta-methylbutyrate (HMB). Journal of the International Society of Sports Nutrition. 2013-02-02, 10 (1): 6 [2018-05-28]. ISSN 1550-2783. PMC 3568064. PMID 23374455. doi:10.1186/1550-2783-10-6. (原始内容于2019-11-28).
^ 16.016.116.2Ehling, Stefan; Reddy, Todime M. Direct Analysis of Leucine and Its Metabolites β-Hydroxy-β-methylbutyric Acid, α-Ketoisocaproic Acid, and α-Hydroxyisocaproic Acid in Human Breast Milk by Liquid Chromatography-Mass Spectrometry. Journal of Agricultural and Food Chemistry. 2015-09-02, 63 (34): 7567–7573 [2018-05-28]. ISSN 1520-5118. PMID 26271627. doi:10.1021/acs.jafc.5b02563. (原始内容于2019-05-09).
^Argilés, Josep M.; Campos, Nefertiti; Lopez-Pedrosa, José M.; Rueda, Ricardo; Rodriguez-Mañas, Leocadio. Skeletal Muscle Regulates Metabolism via Interorgan Crosstalk: Roles in Health and Disease. Journal of the American Medical Directors Association. 2016-09-01, 17 (9): 789–796 [2018-05-28]. ISSN 1538-9375. PMID 27324808. doi:10.1016/j.jamda.2016.04.019. (原始内容于2019-10-27).
^Landi, Francesco; Calvani, Riccardo; Tosato, Matteo; Martone, Anna Maria; Ortolani, Elena; Savera, Giulia; D’Angelo, Emanuela; Sisto, Alex; Marzetti, Emanuele. Protein Intake and Muscle Health in Old Age: From Biological Plausibility to Clinical Evidence. Nutrients. 2016-05-14, 8 (5) [2018-05-28]. ISSN 2072-6643. PMC 4882708. PMID 27187465. doi:10.3390/nu8050295. (原始内容于2020-11-11).
^Momaya, Amit; Fawal, Marc; Estes, Reed. Performance-enhancing substances in sports: a review of the literature. Sports Medicine (Auckland, N.Z.). 2015-4, 45 (4): 517–531 [2018-05-28]. ISSN 1179-2035. PMID 25663250. doi:10.1007/s40279-015-0308-9. (原始内容于2019-05-09).请检查|date=中的日期值 (帮助)
^Fuller, John C.; Sharp, Rick L.; Angus, Hector F.; Khoo, Paul Y.; Rathmacher, John A. Comparison of availability and plasma clearance rates of β-hydroxy-β-methylbutyrate delivery in the free acid and calcium salt forms. The British Journal of Nutrition. 2015-11-14, 114 (9): 1403–1409 [2018-05-28]. ISSN 1475-2662. PMID 26373270. doi:10.1017/S0007114515003050. (原始内容于2019-05-09).
^Szcześniak, K. A.; Ostaszewski, P.; Fuller, J. C.; Ciecierska, A.; Sadkowski, T. Dietary supplementation of β-hydroxy-β-methylbutyrate in animals - a review. Journal of Animal Physiology and Animal Nutrition. 2015-6, 99 (3): 405–417 [2018-05-28]. ISSN 1439-0396. PMID 25099672. doi:10.1111/jpn.12234. (原始内容于2019-05-11).请检查|date=中的日期值 (帮助)
^ 22.022.122.222.3Zanchi, Nelo Eidy; Gerlinger-Romero, Frederico; Guimarães-Ferreira, Lucas; de Siqueira Filho, Mário Alves; Felitti, Vitor; Lira, Fabio Santos; Seelaender, Marília; Lancha, Antonio Herbert. HMB supplementation: clinical and athletic performance-related effects and mechanisms of action. Amino Acids. 2011-4, 40 (4): 1015–1025 [2018-05-28]. ISSN 1438-2199. PMID 20607321. doi:10.1007/s00726-010-0678-0. (原始内容于2020-05-12).请检查|date=中的日期值 (帮助)
^ 23.023.1Martin., Kohlmeier,. Leucine. Nutrient Metabolism: Structures, Functions, and Genes 2nd ed. Academic Press. May 2015: 385–388. ISBN 9780123877840. OCLC 870332604. 引文格式1维护:冗余文本 (link)
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四月 01, 2023
羥基, 甲基丁酸, 此條目翻譯品質不佳, 2018年5月29日, 翻譯者可能不熟悉中文或原文語言, 也可能使用了機器翻譯, 請協助翻譯本條目或重新編寫, 并注意避免翻译腔的问题, 明顯拙劣的翻譯請改掛, href, template, html, class, redirect, title, template, href, wikipedia, html, class, redirect, title, wikipedia, 提交刪除, 英語, hydroxy, methylbutyric, acid, 其共轭碱. 此條目翻譯品質不佳 2018年5月29日 翻譯者可能不熟悉中文或原文語言 也可能使用了機器翻譯 請協助翻譯本條目或重新編寫 并注意避免翻译腔的问题 明顯拙劣的翻譯請改掛 a href Template D html class mw redirect title Template D d a a href Wikipedia CSD html G13 class mw redirect title Wikipedia CSD G13 a 提交刪除 b 羥基 b 甲基丁酸 英語 b Hydroxy b methylbutyric acid HMB 其共轭碱为b b 羥基 b 甲基丁酸 b hydroxy b methylbutyrate 是一种人体内天然产生的物质 可用作膳食补充剂 也可用作某些旨在促进伤口愈合的医疗食品的成分 并为因癌症或艾滋病导致肌肉萎缩的人提供营养支持 在健康成年人中 补充HMB已显示增加运动诱发的肌肉大小 肌肉力量和瘦体重增加 减少锻炼对骨骼肌的损害 改善有氧运动表现 并加速锻炼恢复 医学评论和meta分析表明 补充HMB还有助于保持或增加患有年龄相关性肌肉损失的个体的瘦体重和肌肉力量 7 8 9 HMB部分通过刺激蛋白质的产生和抑制肌肉组织中蛋白质的分解产生这些效应 7 10 11 没有发现长期用作成人膳食补充剂的副作用 12 13 14 b 羥基 b 甲基丁酸上方 b 羥基 b 甲基丁酸下方 b 羥基 b 甲基丁酸根離子臨床資料其他名稱Conjugate acid form b hydroxyisovaleric acid3 hydroxyisovaleric acidConjugate base form hydroxymethylbutyrate给药途径By mouth 1 or nasogastric 2 ATC碼none法律規範狀態法律規範美 OTC UN Unscheduled藥物動力學數據代謝產物HMB CoA HMG CoA mevalonate cholesterol acetyl CoA acetoacetate b hydroxybutyrate藥效起始時間 英语 Onset of action HMB FA 30 60 minutes 1 HMB Ca 1 2 hours 1 生物半衰期HMB FA 3 hours 1 HMB Ca 2 5 hours 1 排泄途徑Renal 10 40 excreted 1 3 识别信息IUPAC命名法 3 hydroxy 3 methylbutanoic acidCAS号625 08 1 PubChem CID69362ChemSpider62571 UNII3F752311CDKEGGC20827 ChEBICHEBI 37084 CompTox Dashboard 英语 CompTox Chemicals Dashboard EPA DTXSID20211535ECHA InfoCard100 128 078化学信息化学式C 5H 10O 3摩尔质量118 13 g mol 13D模型 JSmol 英语 JSmol 交互式图像密度 1 1 g cm3 at 20 C 4 熔点 80 C 112 F glass 5 沸点128 C 262 F at 7 mmHg 4 6 SMILES CC C CC O O OInChI InChI 1S C5H10O3 c1 5 2 8 3 4 6 7 h8H 3H2 1 2H3 H 6 7 Key AXFYFNCPONWUHW UHFFFAOYSA N HMB是L 亮氨酸的代谢产物 通过氧化L 亮氨酸 a 酮异己酸 的酮酸而在体内生成 15 16 由于只有一小部分L 亮氨酸被代谢成HMB 因此只能通过直接补充HMB来实现药物活性浓度的化合物在血浆和肌肉中的浓度 15 17 18 目录 1 用途 1 1 适用范围 1 2 医疗 2 药理学 2 1 药效动力学 2 2 药代动力学 2 3 代谢 2 4 生物合成 3 化学 3 1 化学结构 3 2 合成 3 3 体液中的检测 4 参考用途 编辑适用范围 编辑 HMB以游离酸形式 b 羟基b 甲基丁酸 HMB FA 的非处方膳食补充剂形式出售 并且作为共轭碱的单水合钙盐 b 羟基b 甲基丁酸钙一水合物 HMB Ca CaHMB 19 20 医疗 编辑 补充性HMB已被用于许多临床试验中 作为在肌肉萎缩症状 特别是肌肉减少症 中保存瘦体重的治疗 并且已经在临床试验中作为与阻力锻炼结合的辅助疗法进行研究 7 根据两项医学评估和7项随机对照试验的荟萃分析 HMB补充可以保留或增加肌肉减少的老年人的肌肉质量和肌肉强度 7 8 9 HMB不会出现以显着影响老年人的脂肪量 药理学 编辑药效动力学 编辑 已经在体内鉴定了介导HMB诱导的人骨骼肌蛋白质合成增加的信号级联的若干组分 与HMB的代谢前体L 亮氨酸类似 HMB已经显示通过磷酸化雷帕霉素的机制目标 mTOR 和随后激活mTORC1来增加人骨骼肌中的蛋白质合成 这导致细胞核糖体中的蛋白质生物合成通过磷酸化mTORC1的直接目标 即p70S6激酶和翻译阻遏蛋白4EBP1 已经证明在几种非人动物物种中补充HMB通过未知机制增加生长激素和胰岛素样生长因子1 IGF 1 的血清浓度 反过来通过增加的mTOR磷酸化促进蛋白质合成基于人体中有限的临床证据 补充性HMB似乎增加生长激素和IGF 1在抵抗运动中的分泌 10 与L 亮氨酸不同 HMB以人胰岛素非依赖性方式减弱肌肉蛋白质分解 11 人们认为HMB通过抑制骨骼肌中泛素 蛋白酶体系统的19S和20S亚基以及通过不明机制抑制骨骼肌细胞核的凋亡来减少人体中的肌肉蛋白质分解 11 12 根据动物研究 HMB似乎在骨骼肌内被代谢成胆固醇 然后可以将其结合到肌肉细胞膜中 从而增强膜的完整性和功能 HMB对肌肉蛋白质代谢的影响可能有助于稳定肌肉细胞结构 一项综述表明 观察到的HMB诱导的人体剧烈运动后肌肉损伤生物标志物 即肌肉酶如肌酸激酶和乳酸脱氢酶 的血浆浓度降低可能是由于胆固醇介导的肌细胞膜功能改善 21 已显示HMB在体外刺激人肌膜细胞的增殖 分化和融合 这可能增加骨骼肌的再生能力 通过增加某些肌源性调节因子 例如myoD和肌细胞生成素 的蛋白质表达和基因转录因素 如MEF2 HMB诱导的人体肌细胞体外增殖是通过促分裂原活化蛋白激酶ERK1和ERK2的磷酸化作用介导的 HMB诱导的人类肌细胞分化和体外肌肉组织加速融合到肌肉组织中是通过磷酸化Akt 丝氨酸 苏氨酸特异性蛋白激酶 介导的 13 药代动力学 编辑 HMB的游离酸 HMB FA 和单水合钙盐 HMB Ca 形式具有不同的药代动力学 HMB FA相对于HMB Ca 2 5小时 更容易被吸收入血液并具有较长的消除半衰期 3小时 HMB FA的组织吸收和利用比HMB Ca高25 40 在两种形式中 尿中排泄的摄入剂量的分数没有差异 15 摄入后 随着肠道中钙部分的解离 HMB Ca被转化为b 羟基b 甲基丁酸酯 当摄入HMB Ca剂型时 HMB血浆浓度峰值的大小和时间取决于剂量和同时食物摄入量 较高的HMB Ca剂量增加吸收速率 导致血浆HMB水平峰值 Cmax 不成比例地大于线性剂量 反应关系的预期值 并且相对于较低剂量而言发生得更早 HMB Ca与含糖物质的消耗减慢了HMB吸收速率 导致稍后发生的较低的血浆HMB峰值水平 15 HMB通过肾脏消除 大约10 40 的摄入剂量在尿中排泄不变 22 其余60 90 的剂量保留在组织中或作为HMB代谢物排出 给药剂量的尿中排泄的HMB的分数随着剂量的增加而增加 15 代谢 编辑 HMB的代谢由未转化酶催化转化为b 羟基b 甲基丁酰 CoA HMB CoA 23 HMB CoA被烯酰 CoA水合酶或另一种未表征的酶代谢 分别产生b 甲基巴豆酰 CoA MC CoA 或羟甲基戊二酰 CoA HMG CoA 然后通过甲基巴豆酰辅酶A羧化酶将MC CoA转化为甲基戊烯基 CoA MG CoA 其随后通过甲基戊烯酰 CoA水合酶转化为HMG CoA 然后HMG CoA被HMG CoA裂解酶切割成乙酰 CoA和乙酰乙酸 或用于通过甲羟戊酸途径产生胆固醇 22 生物合成 编辑 HMB通过L 亮氨酸 一种支链氨基酸 的代谢在人体内合成 23 在健康个体中 大约60 的膳食L 亮氨酸在数小时后代谢 大约5 2 10 范围 的膳食L 亮氨酸转化为HMB 22 12 绝大多数L 亮氨酸代谢最初是由支链氨基酸转氨酶催化的 生成a 酮异己酸盐 a KIC a KIC主要由线粒体酶支链a 酮酸脱氢酶代谢 后者将其转化为异戊酰 CoA 异戊酰 CoA随后被异戊酰 CoA脱氢酶代谢并转化成MC CoA 其用于乙酰 CoA和其他化合物的合成 在生物素缺乏期间 HMB可以通过烯醇 CoA水合酶和未知的硫酯酶从MC CoA合成 其分别将MC CoA转化为HMB CoA和HMB CoA成为HMB 相对较少量的a KIC在肝脏中被胞内酶4 羟基苯基丙酮酸双加氧酶 KIC双加氧酶 代谢 该酶将a KIC转化为HMB 在健康个体中 这种次要途径 涉及将L 亮氨酸转化为a KIC 然后是HMB 是HMB合成的主要途径 22 化学 编辑b 羟基b 甲基丁酸是一种单羧酸b 羟基酸的天然产物 分子式为C5H10O3 在室温下 纯b 羟基b 甲基丁酸以透明无色至淡黄色液体形式存在 其可溶于水 b 羟基b 甲基丁酸的pKa值为4 4 其折射率是1 42 它可以作为其共轭碱基b 羟基b 甲基丁酸酯阴离子的各种盐获得 化学结构 编辑 b 羟基b 甲基丁酸是有机化合物的羧酸家族的成员 并且像它们一样 它是弱酸 它是丁酸的结构类似物 在其碳原子上带有羟基官能团和甲基取代基 另外 其他结构类似物包括b 羟基丁酸和b 甲基丁酸 合成 编辑 已经开发了多种合成b 羟基b 甲基丁酸的合成路线 首次报道的化学合成通过氧化烯烃 连位二醇和醇前体而接近HMB 1877年 俄罗斯化学家Michael和Alexander Zaytsev报道了用铬酸 H2CrO4 氧化2 甲基戊 4 烯 2 醇制备HMB 24 1880年和1889年 Schirokoff和Reformatsky分别报道 用酸化的高锰酸钾 KMnO4 氧化邻位二醇4 甲基戊烷 1 2 4 三醇 产生HMB 54 55 这个结果是与冷第一次合成最接近 因为冷稀KMnO4将烯烃氧化为邻位顺式二醇 其中热酸KMnO4进一步氧化成含羰基化合物 并且当热酸性条件用于烯烃氧化时不能获得二醇中间体 25 换句话说 外消旋4 甲基戊烷 1 2 4 三醇是2 甲基戊 4 烯 2 醇的衍生物 b 羟基b 甲基丁酸是两者的衍生物 1892年 Kondakow报道了通过高锰酸盐氧化3 甲基丁烷 1 3 二醇制备HMB 26 根据实验条件 丙酮和乙烯酮的环加成产生b 异戊内酯或4 4 二甲基氧杂环丁烷 2 酮 两者在碱性条件下水解生成HMB的共轭碱 卤仿反应为HMB提供了另一种途径 包括用次溴酸钠或次氯酸钠彻底卤化双丙酮醇的甲基酮区 丙酮醇容易从丙酮醇缩合得到 对HMB的有机金属方法涉及叔丁醇与一氧化碳和Fenton试剂 过氧化氢和亚铁 的羧化 27 或者 可以通过真菌Galactomyces reessii微生物氧化b 甲基丁酸来制备HMB 28 体液中的检测 编辑 已经使用核磁共振波谱学 液相色谱 质谱和气相色谱 质谱法在几种体液体中测量了天然产生的HMB的浓度 16 在健康成人的血浆和脑脊液 CSF 中 HMB的平均摩尔浓度已经测定为4 0微摩尔 mM 已经测量了健康男性21 23岁的肌肉液中HMB的平均浓度为7 0mM 11 在任何年龄的健康个体尿液中 排泄的HMB尿浓度已经在0 68mmol mmol肌酸酐的范围内测量 在健康哺乳期妇女的母乳中 HMB和L 亮氨酸的检测范围分别为42 164mg L和2 1 88 5 mg L 16 相比之下 HMB已经在健康奶牛的奶中检测到 浓度 lt 20 29mg L 29 这种浓度太低 不足以成为获得血浆中药物活性浓度的化合物的HMB的适当饮食来源 29 参考 编辑 1 0 1 1 1 2 1 3 1 4 1 5 Wilson JM Fitschen PJ Campbell B Wilson GJ Zanchi N Taylor L Wilborn C Kalman DS Stout JR Hoffman JR Ziegenfuss TN Lopez HL Kreider RB Smith Ryan AE Antonio J International Society of Sports Nutrition Position Stand beta hydroxy beta methylbutyrate HMB Journal of the International Society of Sports Nutrition February 2013 10 1 6 PMC 3568064 PMID 23374455 doi 10 1186 1550 2783 10 6 The International Society of Sports Nutrition has concluded the following 1 HMB can be used to enhance recovery by attenuating exercise induced skeletal muscle damage in trained and untrained populations 4 Thirty eight mg kg BM 1 daily of HMB has been demonstrated to enhance skeletal muscle hypertrophy strength and power in untrained and trained populations when the appropriate exercise prescription is utilized 8 HMB s mechanisms of action include an inhibition and increase of proteolysis and protein synthesis respectively 9 Chronic consumption of HMB is safe in both young and old populations Product Information Ensure Enlive Advanced Therapeutic Nutrition Shake PDF Abbott Nutrition 9 August 2016 22 August 2016 原始内容 PDF 存档于2016 10 12 Use under medical supervision HMB protein for muscle health Product Information Juven PDF Abbott Nutrition 7 May 2016 22 August 2016 原始内容 PDF 存档于2016 10 12 Administer orally or as a modular via feeding tube Use under medical supervision Nutravigor CaHMB calcium b hydroxy b methylbutyrate Zanchi NE Gerlinger Romero F Guimaraes Ferreira L de Siqueira Filho MA Felitti V Lira FS Seelaender M Lancha AH HMB supplementation clinical and athletic performance related effects and mechanisms of action Amino Acids April 2011 40 4 1015 1025 PMID 20607321 doi 10 1007 s00726 010 0678 0 HMB is a metabolite of the amino acid leucine Van Koverin and Nissen 1992 an essential amino acid The first step in HMB metabolism is the reversible transamination of leucine to a KIC that occurs mainly extrahepatically Block and Buse 1990 Following this enzymatic reaction a KIC may follow one of two pathways In the first HMB is produced from a KIC by the cytosolic enzyme KIC dioxygenase Sabourin and Bieber 1983 The cytosolic dioxygenase has been characterized extensively and differs from the mitochondrial form in that the dioxygenase enzyme is a cytosolic enzyme whereas the dehydrogenase enzyme is found exclusively in the mitochondrion Sabourin and Bieber 1981 1983 Importantly this route of HMB formation is direct and completely dependent of liver KIC dioxygenase Following this pathway HMB in the cytosol is first converted to cytosolic b hydroxy b methylglutaryl CoA HMG CoA which can then be directed for cholesterol synthesis Rudney 1957 Fig 1 In fact numerous biochemical studies have shown that HMB is a precursor of cholesterol Zabin and Bloch 1951 Nissen et al 2000 4 0 4 1 Safety data sheet 3 Hydroxy 3 methyl butyric acid Alfa Aesar 23 March 2005 9 November 2016 原始内容存档于2016 09 17 Coffman DD Cramer R Mochel WE Syntheses by Free radical Reactions V A New Synthesis of Carboxylic Acids Journal of the American Chemical Society June 1958 80 11 2882 2887 doi 10 1021 ja01544a072 3 OH isovaleric acid ChemSpider Royal Society of Chemistry 2015 10 August 2016 原始内容存档于2016 08 11 Experimental Boiling Point 128 C 7 mm Experimental solubility Soluble in water 7 0 7 1 7 2 7 3 Wu Hongmei Xia Yang Jiang Jin Du Huanmin Guo Xiaoyan Liu Xing Li Chunlei Huang Guowei Niu Kaijun Effect of beta hydroxy beta methylbutyrate supplementation on muscle loss in older adults a systematic review and meta analysis Archives of Gerontology and Geriatrics 2015 9 61 2 168 175 2018 05 28 ISSN 1872 6976 PMID 26169182 doi 10 1016 j archger 2015 06 020 原始内容存档于2019 12 21 请检查 date 中的日期值 帮助 8 0 8 1 Holecek Milan Beta hydroxy beta methylbutyrate supplementation and skeletal muscle in healthy and muscle wasting conditions Journal of Cachexia Sarcopenia and Muscle 2017 8 8 4 529 541 2018 05 28 ISSN 2190 6009 PMC 5566641 PMID 28493406 doi 10 1002 jcsm 12208 原始内容存档于2020 01 25 请检查 date 中的日期值 帮助 9 0 9 1 Rossi Andrea P D Introno Alessia Rubele Sofia Caliari Cesare Gattazzo Stefano Zoico Elena Mazzali Gloria Fantin Francesco Zamboni Mauro The Potential of b Hydroxy b Methylbutyrate as a New Strategy for the Management of Sarcopenia and Sarcopenic Obesity Drugs amp Aging 11 2017 34 11 833 840 2018 05 28 ISSN 1179 1969 PMID 29086232 doi 10 1007 s40266 017 0496 0 原始内容存档于2019 05 09 请检查 date 中的日期值 帮助 10 0 10 1 Silva Vagner R Belozo Felipe L Micheletti Thayana O Conrado Marcelo Stout Jeffrey R Pimentel Gustavo D Gonzalez Adam M b hydroxy b methylbutyrate free acid supplementation may improve recovery and muscle adaptations after resistance training a systematic review Nutrition Research New York N Y 2017 9 45 1 9 2018 05 28 ISSN 1879 0739 PMID 29037326 doi 10 1016 j nutres 2017 07 008 原始内容存档于2020 05 06 请检查 date 中的日期值 帮助 11 0 11 1 11 2 11 3 Wilkinson D J Hossain T Hill D S Phillips B E Crossland H Williams J Loughna P Churchward Venne T A Breen L Effects of leucine and its metabolite b hydroxy b methylbutyrate on human skeletal muscle protein metabolism The Journal of Physiology 2013 06 01 591 Pt 11 2911 2923 2018 05 28 ISSN 0022 3751 PMC 3690694 PMID 23551944 doi 10 1113 jphysiol 2013 253203 原始内容存档于2020 12 26 12 0 12 1 12 2 Brioche Thomas Pagano Allan F Py Guillaume Chopard Angele Muscle wasting and aging Experimental models fatty infiltrations and prevention Molecular Aspects of Medicine 08 2016 50 56 87 2018 05 28 ISSN 1872 9452 PMID 27106402 doi 10 1016 j mam 2016 04 006 原始内容存档于2019 05 09 请检查 date 中的日期值 帮助 13 0 13 1 Molfino Alessio Gioia Gianfranco Rossi Fanelli Filippo Muscaritoli Maurizio Beta hydroxy beta methylbutyrate supplementation in health and disease a systematic review of randomized trials Amino Acids 2013 12 45 6 1273 1292 2018 05 28 ISSN 1438 2199 PMID 24057808 doi 10 1007 s00726 013 1592 z 原始内容存档于2019 10 28 Borack Michael S Volpi Elena Efficacy and Safety of Leucine Supplementation in the Elderly123 The Journal of Nutrition 2016 12 146 12 2625S 2629S 2018 05 28 ISSN 0022 3166 PMC 5118760 PMID 27934654 doi 10 3945 jn 116 230771 原始内容存档于2020 11 11 15 0 15 1 15 2 15 3 15 4 Wilson Jacob M Fitschen Peter J Campbell Bill Wilson Gabriel J Zanchi Nelo Taylor Lem Wilborn Colin Kalman Douglas S Stout Jeffrey R International Society of Sports Nutrition Position Stand beta hydroxy beta methylbutyrate HMB Journal of the International Society of Sports Nutrition 2013 02 02 10 1 6 2018 05 28 ISSN 1550 2783 PMC 3568064 PMID 23374455 doi 10 1186 1550 2783 10 6 原始内容存档于2019 11 28 16 0 16 1 16 2 Ehling Stefan Reddy Todime M Direct Analysis of Leucine and Its Metabolites b Hydroxy b methylbutyric Acid a Ketoisocaproic Acid and a Hydroxyisocaproic Acid in Human Breast Milk by Liquid Chromatography Mass Spectrometry Journal of Agricultural and Food Chemistry 2015 09 02 63 34 7567 7573 2018 05 28 ISSN 1520 5118 PMID 26271627 doi 10 1021 acs jafc 5b02563 原始内容存档于2019 05 09 Argiles Josep M Campos Nefertiti Lopez Pedrosa Jose M Rueda Ricardo Rodriguez Manas Leocadio Skeletal Muscle Regulates Metabolism via Interorgan Crosstalk Roles in Health and Disease Journal of the American Medical Directors Association 2016 09 01 17 9 789 796 2018 05 28 ISSN 1538 9375 PMID 27324808 doi 10 1016 j jamda 2016 04 019 原始内容存档于2019 10 27 Landi Francesco Calvani Riccardo Tosato Matteo Martone Anna Maria Ortolani Elena Savera Giulia D Angelo Emanuela Sisto Alex Marzetti Emanuele Protein Intake and Muscle Health in Old Age From Biological Plausibility to Clinical Evidence Nutrients 2016 05 14 8 5 2018 05 28 ISSN 2072 6643 PMC 4882708 PMID 27187465 doi 10 3390 nu8050295 原始内容存档于2020 11 11 Momaya Amit Fawal Marc Estes Reed Performance enhancing substances in sports a review of the literature Sports Medicine Auckland N Z 2015 4 45 4 517 531 2018 05 28 ISSN 1179 2035 PMID 25663250 doi 10 1007 s40279 015 0308 9 原始内容存档于2019 05 09 请检查 date 中的日期值 帮助 Fuller John C Sharp Rick L Angus Hector F Khoo Paul Y Rathmacher John A Comparison of availability and plasma clearance rates of b hydroxy b methylbutyrate delivery in the free acid and calcium salt forms The British Journal of Nutrition 2015 11 14 114 9 1403 1409 2018 05 28 ISSN 1475 2662 PMID 26373270 doi 10 1017 S0007114515003050 原始内容存档于2019 05 09 Szczesniak K A Ostaszewski P Fuller J C Ciecierska A Sadkowski T Dietary supplementation of b hydroxy b methylbutyrate in animals a review Journal of Animal Physiology and Animal Nutrition 2015 6 99 3 405 417 2018 05 28 ISSN 1439 0396 PMID 25099672 doi 10 1111 jpn 12234 原始内容存档于2019 05 11 请检查 date 中的日期值 帮助 22 0 22 1 22 2 22 3 Zanchi Nelo Eidy Gerlinger Romero Frederico Guimaraes Ferreira Lucas de Siqueira Filho Mario Alves Felitti Vitor Lira Fabio Santos Seelaender Marilia Lancha Antonio Herbert HMB supplementation clinical and athletic performance related effects and mechanisms of action Amino Acids 2011 4 40 4 1015 1025 2018 05 28 ISSN 1438 2199 PMID 20607321 doi 10 1007 s00726 010 0678 0 原始内容存档于2020 05 12 请检查 date 中的日期值 帮助 23 0 23 1 Martin Kohlmeier Leucine Nutrient Metabolism Structures Functions and Genes 2nd ed Academic Press May 2015 385 388 ISBN 9780123877840 OCLC 870332604 引文格式1维护 冗余文本 link Michael Saytzeff Alexander Synthese des Allyldimethylcarbinols Justus Liebig s Annalen der Chemie 1877 185 2 3 151 169 ISSN 0075 4617 doi 10 1002 jlac 18771850204 英语 McMurry John E Oxidation of Alkenes Epoxidation Hydroxylation and Cleavage Fundamentals of Organic Chemistry 7th edition Cengage Learning 2010 124 126 142 2018 06 10 ISBN 9781439049716 原始内容存档于2019 05 10 引文格式1维护 冗余文本 link Organische Chemie Berichte der deutschen chemischen Gesellschaft 1893 26 4 86 97 ISSN 0365 9496 doi 10 1002 cber 18930260412 英语 Coffman D D Cramer Richard Mochel W E Syntheses by Free radical Reactions V A New Synthesis of Carboxylic Acids Journal of the American Chemical Society 1958 06 80 11 2882 2887 2018 05 28 ISSN 0002 7863 doi 10 1021 ja01544a072 原始内容存档于2020 11 06 英语 Lee I Y Nissen S L Rosazza J P Conversion of beta methylbutyric acid to beta hydroxy beta methylbutyric acid by Galactomyces reessii Applied and Environmental Microbiology 1997 11 63 11 4191 4195 ISSN 0099 2240 PMC 168736 PMID 9361403 29 0 29 1 Ehling Stefan Reddy Todime M Investigation of the presence of b hydroxy b methylbutyric acid and a hydroxyisocaproic acid in bovine whole milk and fermented dairy products by a validated liquid chromatography mass spectrometry method Journal of Agricultural and Food Chemistry 2014 02 19 62 7 1506 1511 2018 05 28 ISSN 1520 5118 PMID 24495238 doi 10 1021 jf500026s 原始内容存档于2019 05 10 取自 https zh wikipedia org w index php title B 羟基 b 甲基丁酸 amp oldid 72205268, 维基百科,wiki,书籍,书籍,图书馆,
