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第 10 期杨金纬，等: 沙库巴曲的工艺优化 ·2149·

3 结论 An evolving strategy in cardiovascular therapeuretic[J]. Eur Heart J,
2003, 34 (12): 886-893.
[2] DANIELS L B, MAISEL A S. Natriuretic peptides[J]. J Am Coll
为了适应工业化生产，本文在现有的沙库巴曲 Cardiol, 2007, 50(25): 2357-2368.
[3] LYU X L (吕训磊), HAO Q (郝群), ZHOU W C (周伟澄).
合成路线基础上，对其生产工艺进行了工业化改进， Graphical synthetic routes of sacubitril[J]. Chinese Journal of
Pharmaceuticals (中国医药工业杂志), 2016, 47(11): 1470-1473.
舍弃了现有合成路线中普遍使用的昂贵手性试剂和 [4] GARY K, MILFORD N J. Biaryl substituted 4-amino-butyric acid
amides: US005217996A[P]. 1992-01-22.
原料，避免了使用有安全隐患以及环保压力的反应 [5] KSANDER G, GHAI R, DEJESUS R, et al. Dicarboxylic acid
试剂，同时规避了柱层析纯化等不利于工业化生产 dipeptide neutral endopeptidase inhibitors[J]. Journal of Medicinal
Chemistry, 1995, 38(10): 1689-1700.
的工艺手段。其中，合成化合物Ⅴ使用了“一锅法”， [6] HOOK D, RUCH T, RISS B, et al. Process for preparing 5-biphenyl-
4-amino-2-methyl pentanoic acid:CN101631765B[P]. 2008-01-10.
多步总收率达 80%以上，工艺路线和产率均优于专 [7] YANG F (杨飞), WANG C J (王春娟), TONG Z L (仝朝龙), et al.
Biaryl-substituted 4-amino-butyric acid derivative, preparation
利[4]的 60%；化合物Ⅵ粗品用正庚烷和乙酸乙酯重 method therefor and uses thereof:CN104230865B[P]. 2014-01-02.
[8] HOOK D, ZHOU J G ( 周建光 ), LI Y Z ( 李云中 ), et al.
结晶后得手性纯度达 99%以上（HPLC），收率 71%， Intermediates of neutral endopeptidase inhibitors and preparation
比专利[4]使用手性柱纯化更适合工业化生产。化合 method thereof:CN102712585B[P]. 2011-01-21.
[9] HOOK D, RISS B, KAUFMANN D, et al. Process and intermediates
物Ⅵ再经脱 Boc、乙酯保护，最后与丁二酸酐进行 for the preparation of 5-biphenyl-4-yl-2-methylpentanoic acid
derivatives:CN101952249B[P]. 2009-01-16.
酰胺缩合后，用甲苯/正庚烷重结晶得到目标产物Ⅷ [10] XU X N (许学农). Method for preparing sacubitril:CN104557600B[P].
2015-01-26.
沙库巴曲，两步总收率在 80%以上。目标产物总收 [11] TIAN W S (田伟生), WANG Y (汪昀), SHI Y (史勇). The synthesis
method of sacubitril:CN106380421B[P]. 2016-08-26.
率约 50%，优于专利[4]的 30%。优化后的工艺没有 [12] CHAO G P (巢国平), LI H G (李红功), LIU R (刘荣), et al. The
柱层析步骤，均使用重结晶的纯化手段，以较高收 invention relates to a method for the preparation of a low triphenyl
oxy-phosphorus intermediate of sacubitril: CN106946742A[P].
率得到了高立体选择性的目标产物，经 3 批连续公 2017-03- 28.
[13] BAI Y H (柏一慧). Preparation of silicon gel-supported pyridinium
斤级放大，该合成路线适合工业化生产。 chlorochromate and its use in oxidation of alcohols[J]. Zhejiang
Chemical Industry (浙江化工), 2007, 38(4): 1-2.
参考文献： [14] SUN G X (孙光祥), ZHANG Y R (张云然), SHAN H Y (单环宇).
Synthesis of kilogram grade sacubitril half calcium salt[J]. Chinese
[1] MANGIAFICO S, BOERRIGTER L C, ANDERSEN I A, et al. Journal of Pharmaceuticals (中国医药工业杂志), 2017, 48(9):
Neutral endopeptidase inhibitor and the natriuretic peptide system: 1264-1269.

（上接第 2131 页） Journal of Cleaner Production, 2017, 147(1): 96-107.
[10] GUAVA D, VALDERRAMA C, FARRANA A, et al. Simultaneous [21] YAN B G (闫兵刚), HU J W (胡家玮), JIANG X Q (姜晓谦), et al.
Adsorption performance and mechanism of phosphate and phytic
phosphate and ammonium removal from aqueous solution by a
hydrated aluminum oxide modified natural zeolite[J]. Chemical acid on mangesium-laden biochar in water[J]. Environmental
Engineering (环境工程), 2020, 38(6): 94-101.
Engineering Journal, 2015, 271: 204-213.
[11] HADDAD K, JELLALI S, JEGUIRIM M, et al. Investigations on [22] TAN H X (谭洪新), ZHOU Q (周琪). Characterzation of adsorption
in stuffings and its removal in substratum in watland[J]. Journal of
phosphorus recovery from aqueous solutions by biochars derived
from magnesium-pretreated cypress sawdust[J]. Journal of Agro-Environment Science (农业环境科学学报), 2005, 24(2):
Environmental Management, 2018, 216: 305-314. 353-356.
[12] CUI X Q, DAI X, KHAN K Y, et al. Removal of phosphate from [23] CHEN T (陈天). Study on the removal phosphorus from waste
aqueous solution using magnesium-alginate/chitosan modified waterby modified egg shells[D]. Nanjing: Nanjing University of
biochar microspheres derived from Thalia dealbata[J]. Bioresource Information Science and Technology (南京信息工程大学), 2011.
Technology, 2016, 218: 1123-1132. [24] JIANG Y H (蒋艳红), LI A Y (李安玉), DENG H (邓华), et al.
[13] NONG F (农夫). Eggshell, good calcium fertilizer[J]. China Flower Adsorption property of phosphorus by magnesium-loaded banana
& Penjing (中国花卉盆景), 2012, (6): 45. stem biochar from swine wastewater[J]. Technology of Water
[14] CHEN Q C, QIN J L, SUN P, et al. Cow dung-derived engineered Treatment (水处理技术), 2020, 46(6): 33-38, 44.
biochar for reclaiming phosphate from aqueous solution and its [25] JIANG Y H (蒋艳红), LI A Y (李安玉), YAN F (严发), et al.
validation as slow-release fertilizer in soil-crop system[J]. Journal of Research on adsorption properties of Mg-loaded banana stalk biochar
Cleaner Production, 2018, 172: 2009-2018. on nitrogen and phosphorus[J]. Journal of Agricultural Resources and
[15] LI R, WANG J J, ZHOU B, et al. Recovery of phosphate from Environment (农业资源与环境学报), 2018, 35(6): 559-567.
aqueous solution by magnesium oxide decorated magnetic biochar [26] YUE X M (岳先名), LI G L (李国莲), LI Z Y (李振宇), et al.
and its potential as phosphate-based fertilizer substitute[J]. Bioresource Adsorption properties of Mg-Al-LDH modified D331 resin on
Technology, 2016, 215: 209-214. phosphorus[J]. Journal of Anhui Jianzhu University (安徽建筑大学
[16] LI R, WANG J J, ZHANG Z, et al. Recovery of phosphate and 学报), 2019, 27(1): 50-56.
dissolved organic matter from aqueous solution using a novel [27] ASHEKUZZAMAN S M, JIANG J Q. Strategic phosphate removal
CaO-MgO hybrid carbon composite and its feasibility in phosphorus by are usable Mg-Fe-Cl layered double hydroxide[J]. Process Safety
recycling[J]. Science of the Total Environment, 2018, 642: 526-536. and Environmental Protection, 2017, 107(3): 454-462.
[17] WANG Y S, CHEN Y T, LIU C, et al. The effect of magnesium [28] WU J L (吴俊麟), LIN J W (林建伟), ZHAN Y H (詹艳慧), et al.
oxide morphology on adsorption of U(Ⅵ) from aqueous solution[J]. Adsorption of phosphate on Mg/Fe layered double hydroxides
Chemical Engineering Journal, 2017, 316: 936-950. (Mg/Fe-LDH) anduse of Mg/Fe-LDH as an amendment for
[18] LASKAR I B, RAJKUMARI K, HUPTA R, et al. Waste snail shell controlling phosphorus release from sediments[J]. Environmental
derived heterogeneous catalyst for biodiesel production by the Science (环境科学), 2020, 41(1): 273-283.
transesterification of soybean oil[J]. RSC Adv, 2018, 8(36): [29] RADNIA H. Isotherm and kinetics of Fe(Ⅱ ) adsorption onto
20131-20142. chitosan in a batch process[J]. Iranica Journal of Energy &
[19] FANG F (房方), LI X (李祥), CHEN J (陈军), et al. Analysis of Environment, 2011, 2(3): 250-257.
FTIR fingerprint of stalactitum before and after processing[J]. [30] NING P, BARK H J, LI B, et al. Phosphate removal from wastewater
Chinese Journal of Pharmaceutical Analysis (药物分析杂志), 2014, by model-La(Ⅲ) zeolite adsorbents[J]. Journal of Environmental
34(1): 169-173. Science, 2008, 20(6): 670-674.
[20] LI R, WANG J J, ZHOU B, et al. Simultaneous capture removal of [31] CHITRAKAR R, TEZUKA S, SONODA A, et al. Phosphate
phosphate, ammonium and organic substances by MgO impregnated adsorption on synthetic goethite and akaganeite[J]. Journal of Colloid
biochar and its potential use in swine wastewater treatment[J]. Interface Science, 2006, 298(2): 602-608.

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