A method for synthesizing linaclotide

A technology of linaclotide and peptide resin, which is applied in the field of drug synthesis, can solve the problems of unfavorable popularization, high production cost, complicated operation, etc., and achieves the advantages of reducing the generation of mismatched by-products, reducing production cost and improving production efficiency. Effect

Active Publication Date: 2021-09-07
SHENZHEN JYMED TECH
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, there are many deficiencies in this type of method: liquid-phase cyclization can only react at a lower concentration, and the reaction efficiency is low. For example, the reaction concentration of the method such as Miriam is only 0.5 mg / mL, otherwise it will cause unnecessary formation of peptide chains. Sequential polymerization will produce a large amount of impurities, which is very unfavorable for industrial scale-up production; before cyclization, multi-step removal of cracking and protecting groups will easily cause a large amount of impurities. In the process of multi-step cyclization, it is necessary to carry out multiple One-step purification, complex operation and increased difficulty of purification; the use of some special amino acids, such as Fmoc-Cys(Mmt)-OH, Fmoc-Cys(Hqm)-OH, makes the production cost higher, which is not conducive to popularization and use

Method used

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  • A method for synthesizing linaclotide
  • A method for synthesizing linaclotide
  • A method for synthesizing linaclotide

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0060] Embodiment 1: the preparation of the Fmoc-Tyr (tBu)-Wang resin that substitution degree is 0.53mmol / g

[0061] Weigh 100g of Wang resin with a substitution degree of 1.0mmol / g in a solid-phase reaction column, add DMF, and swell with nitrogen gas for 60 minutes; weigh 45.9g (100mmol) of Fmoc-Tyr(tBu)-OH, 16.2g of HOBt ( 120mmol), DMAP 1.2g (10mmol), dissolved in DMF, 20.3ml DIC (120mmol) was added in an ice-water bath at 0°C, activated for 5 minutes, added to the reaction column, after 2 hours of reaction, added 70ml acetic anhydride and 60ml pyridine, mixed and sealed After 24 hours, DCM was washed three times, and the resin was dried after shrinking with methanol to obtain Fmoc-Tyr(tBu)-Wang resin. The detected substitution degree was 0.53mmol / g.

Embodiment 2

[0062] Embodiment 2: the preparation of the Fmoc-Tyr (tBu)-Wang resin that the degree of substitution is 0.48mmol / g

[0063] Weigh 100 g of Wang resin with a substitution degree of 1.0 mmol / g, add it to a solid-phase reaction column, wash it twice with DMF, and swell the resin with DMF for 30 minutes, add 45.9 g (100 mmol) of Fmoc-Tyr(tBu)-OH , HOBt 16.2g (120mmol), DMAP 1.2g (10mmol), dissolved in DMF / DCM=1:1 (V / V) mixture, adding 20.3ml DIC (120mmol) in ice water bath for activation for 5min, adding the above In the reaction column of the resin, after 2 hours of reaction. Add 70ml of acetic anhydride and 62ml of pyridine mixture to block for 24h. Wash with DMF for 3 times, DCM for 3 times, shrink and dry with methanol to obtain Fmoc-Tyr(tBu)-Wang resin, the detection degree of substitution is 0.48mmol / g.

Embodiment 3

[0064] Embodiment 3: the preparation of the Fmoc-Tyr (tBu)-Wang resin that substitution degree is 0.55mmol / g

[0065] Weigh 100g of Wang resin with a substitution degree of 1.0mmol / g in a solid-phase reaction column, add DMF, and swell with nitrogen gas for 60 minutes; weigh 45.9g (100mmol) of Fmoc-Tyr(tBu)-OH, 16.2g of HOBt ( 120mmol), HBTU 38.0g (100mmol), DMAP 2.4g (20mmol), dissolved in DMF, 32.0ml DIPEA (150mmol) was added in an ice-water bath at 0°C, activated for 5 minutes, added to the reaction column, reacted for 2 hours, then added 70ml of acetic acid Anhydride and 60ml of pyridine were mixed and sealed for 24 hours, washed three times with DCM, and the resin was dried after shrinking with methanol to obtain Fmoc-Tyr(tBu)-Wang resin with a detection substitution degree of 0.55mmol / g.

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Abstract

The invention relates to the field of medicine synthesis and discloses a method for synthesizing linaclotide. The method uses a solid-phase one-step cyclization method to prepare linaclotide, and the linaclotide linear peptide resin is directly cyclized by an N-X generation succinimide solution oxidation system without cracking to obtain a linaclotide resin. The resin was cleaved, purified and lyophilized to obtain linaclotide. Described N-X generation succinimide is N-chlorosuccinimide, N-bromosuccinimide, N-iodosuccinimide, N-hydroxyl sulfosuccinimide A sort of. The method has the following advantages: 1. The use of solid-phase cyclization firstly plays a false dilution effect, avoids repeated folding of the peptide chain, and can carry out cyclization reaction at a higher concentration, which can greatly improve production efficiency; secondly The linear peptide resin is not cleaved before cyclization, which avoids the generation of a large number of impurities and improves the efficiency of cyclization of linaclotide. 2. One-step cyclization using N-X succinimide can avoid multi-step purification of intermediates, reduce the components of intermediate purification steps, and increase the total yield of linaclotide. 3. Using a specific amino acid side chain protecting group, a pair of disulfide bonds is positioned during the cyclization process, which reduces the generation of mismatched by-products, improves the purity of linaclotide, and greatly improves production efficiency. reduce manufacturing cost.

Description

technical field [0001] The invention relates to the field of drug synthesis, in particular to a method for synthesizing linaclotide. Background technique [0002] Linaclotide is a novel GC-C (enterocyte uridylate cyclase C) receptor agonist developed by Ironwood, which can activate the GC-C receptor on the apical surface of intestinal epithelial cells, resulting in Increased intracellular and extracellular cyclic guanylate. Its net effect is increased secretion of chloride and bicarbonate into the intestinal lumen, resulting in increased fluid secretion and accelerated stool passage. It is used for the treatment of adults with slow transit constipation and irritable bowel syndrome with constipation (IBS-C). The drug was first approved for marketing in the United States on December 17, 2012, under the trade name LINZESS. [0003] Linaclotide is composed of 14 amino acids and contains 3 pairs of disulfide bonds. The specific structural sequence is as follows: [0004] ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C07K7/08C07K1/06C07K1/04
CPCC07K7/08Y02P20/55
Inventor 姚林李新宇支钦张利香吴丽芬朱亮平
Owner SHENZHEN JYMED TECH
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