CN103992401B - Method for preparing exenatide - Google Patents

Abstract

The invention relates to a method for preparing exenatide, and solves the problems that cost is high, yield is low, impurity (des-Glu＜15＞, Glu＜16＞-exenatide) content is relatively large and large-scale production cannot be realized in the prior art. The concrete steps comprise: A) taking amino resin as initial resin, employing an Fmoc solid-phase synthesis method, according to the peptide sequence of the exenatide main chain to successively couple with amino acids with Fmoc protection at N terminal and with protected side chains, wherein in the amino acid coupling reactions of the peptide sequence 15-17, a solution DMF is added with 2,2,2-trifluoroethyl alcohol accounting for 20% by volume of the solution and 1.5 mol/L of urea; and B) after peptide resin is subjected to cracking, employing a reverse-phase filling material for first purification, and employing anion resin for second purification, desalinating to enable the content of impurities des-Glu＜15＞, Glu＜16＞-exenatide to be reduced to 0.1% or less, and performing freeze drying, so as to obtain exenatide. The method is a low-cost preparation technology suitable for large-scale production of exenatide with high purity, and the technology is capable of effectively controlling the content of des-Glu＜15＞, Glu＜16＞-exenatide and does not influence the yield of exenatide.

Description

A kind of method for preparing Exenatide

Technical field

It is a kind of synthesis with glucagon-like-peptide-1 the present invention relates to a kind of preparation method of polypeptide drug (GLP-1) preparation method of the treatment specific drug-Exenatide of the type ii diabetes of receptor stimulating agent.

Background technology

Exenatide, English name：Exenatide, is the peptide of a straight chain 39, and structural formula is as follows：

Peptide sequence is：

H-His-Gly-Glu-Gly-Thr-Phe-Thr-Ser-Asp-Leu-Ser-Lys-Gln-Met-Glu-Glu- Glu-Ala-Val-Arg-Leu-Phe-Ile-Glu-Trp-Leu-Lys-Asn-Gly-Gly-Pro-Ser-Ser-Gly-Ala- Pro-Pro-Pro-Ser-NH₂

Exenatide is the plan duodenin developed by Amylin companies, is mainly used in treating type ii diabetes, In No. 28 approvals of acquisition U.S. FDA of in April, 2005.Exenatide have GLP-1 receptor stimulating agents act on, molecular structure, The aspects such as bioactivity, action target spot and immunogenicity are similar to GLP-1.The molecular structure of Exenatide is homologous with GLP-1 Up to 53 %, architectural difference shows property：（1）C-terminal has more 9 amino acid（PSSGAPPPS）, it is difficult to be degraded by endopeptidase； （2）Second amino acid of N-terminal is glycine, will not be by dipeptidyl peptidase IV（DPP-Ⅳ）Decompose.Special molecular structure makes this , up to 9.57 hours, injection is twice and hypoglycemia occurrence risk is small daily for patient, works as blood glucose rise for long half time of the product in blood plasma When, this product can raise intracellular cAMP, induced insulin release；When blood sugar is reduced, the effect of its induced insulin release Can disappear.Additionally, this product can also reduce the secretion of hyperglycemic factor in blood sugar dependence mode, and postpone gastric emptying.It is existing In having technology US6902744, US6924264, the preparation of Exenatide using synthesis in solid state method.This kind of method is due to Ai Sai That peptide is containing 39 peptides long of amino acid, have that technical difficulty is big, synthesis cycle is long, production cost is high, process intermediates because Cause product purity not high for the impurity for bringing can not be purified, be unfavorable for the problems such as mass producing.

Reported in CN102942625A patents and Ser, Thr, Cys are first derived by the pseudo- proline knot of chemical conversion by liquid phase method Structure, i.e. side chain-hydroxyl or β-sulfydryl form similar proline oxazolidine five-membered ring structures with aldehyde or ketone, then according to Fmoc Synthesis in solid state, HPLC obtain Exenatide after purification, and purity is 95 %, yield is 36 %.This method is given birth to due to first wanting liquid phase Into corresponding false dipeptides, therefore there are problems that synthesis cycle is long, production cost is high, be unfavorable for.

The synthesis in solid state of existing Exenatide, because Exenatide synthesis step is more, causes impurity in products species to compare It is many, including： des-Glu¹⁵,Glu¹⁶- Exenatide and other impurity etc..Wherein relative substance des-Glu¹⁵,Glu¹⁶- Ai Saina The amino acid sequence of peptide is as follows：

H-His-Gly-Glu-Gly-Thr-Phe-Thr-Ser-Asp-Leu-Ser-Lys-Gln-Met-Glu-Ala- Val-Arg-Leu-Phe-Ile-Glu-Trp-Leu-Lys-Asn-Gly-Gly-Pro-Ser-Ser-Gly-Ala-Pro-Pro- Pro-Ser-NH₂

The impurity is one of maximum impurity of toxicity, and extremely unstable, and the presence of the impurity has a strong impact on Ai Saina Peptide content and use safety.Therefore need to find effective method and remove it and reach the % of gold standard rank 0.1 Below.The present inventor's research finds that the means of the impurity prior art are difficult to remove, though some methods can remove part, But removal effect is undesirable, it is difficult to reach gold standard rank while easily causing Exenatide yield reduction in itself.

The present inventor uses existing synthetic method, prepares Exenatide, finds high cost, and yield is low, and impurity is more, is unsuitable for Industrial-scale production.Therefore, the present inventor is studied the preparation method of Exenatide, there is provided a kind of low cost, Purity is high, is adapted to the preparation technology of the Exenatide of large-scale production, and this technique can effectively control des-Glu¹⁵,Glu¹⁶- Chinese mugwort Fill in that peptide content and do not influence the yield problem of Exenatide.

The content of the invention

The present invention relates to a kind of method for preparing Exenatide, the high cost of prior art presence is solved, yield is low, miscellaneous Matter des-Glu¹⁵,Glu¹⁶- Exenatide content is larger, is not suitable for the problem of large-scale production.It is an object of the invention to provide A kind of low cost, purity are high, are adapted to the preparation technology of the Exenatide of large-scale production, and this technique can effectively control des- Glu¹⁵,Glu¹⁶- Exenatide content does not influence the yield problem of Exenatide again.

Synthetic route of the invention is as shown in Figure 1：A）Obtained by amino resins and Fmoc-Ser (tBu)-OH couplings first Fmoc-Ser (tBu)-resin, then by Fmoc solid-phase synthesis, is coupled with N-terminal successively according to Exenatide main chain peptide sequence Fmoc protections and the amino acid of side chain protected, wherein, in the amino acid couplings reaction of peptide sequence 15-17, its body is added in solution D MF The 2,2,2 tfifluoroethyl alcohol of 20 % of product and the urea of 1.5 mol/L；B）After peptide resin cracking, purifying for the first time is filled out using anti-phase Material, second purifying uses resin anion (R.A.), and des-Glu can be made after desalination¹⁵,Glu¹⁶- Exenatide content is reduced to 0.1 Below %, freezes, and obtains Exenatide.Some conventional abbreviations have following meanings in the present invention；

Fmoc ：Fluorenylmethyloxycarbonyl

Fmoc-AA-OH ：The amino acid of fluorenylmethyloxycarbonyl protection

DIC ：N, N '-Diisopropylcarbodiimide

DCC ：N, N '-dicyclohexylcarbodiimide

PyBOP ：Hexafluorophosphoric acid BTA -1- bases-epoxide tripyrrole alkyl phosphorus

HATU ：2- (7- azos BTA)-N, N, N', N'- tetramethylurea hexafluorophosphoric acid ester

HOBt ：1- hydroxy benzenes a pair of horses going side by side triazole

tBu ：The tert-butyl group

Trt ：Trityl

Boc ：Tertbutyloxycarbonyl

Pbf ：2,2,4,6,7- pentamethyl Dihydrobenzofuranes -5- sulfonyls

Tyr ：Tyrosine

Ile ：Isoleucine

Gln ：Glutamine

Asn ：Asparagine

Cys ：Cysteine

Pro ：Proline

Leu ：Leucine

Gly ：Glycine

Arg ：Arginine

Val ：Valine

Trp ：Tryptophan

Ala ：Alanine

Met ：Methionine

Phe ：Phenylalanine

Glu ：Glutamic acid

Lys ：Lysine

Ser ：Serine

Asp ：Aspartic acid

Thr ：Threonine

His ：Histidine

DMF ：N, N '-dimethylformamide

MeOH ：Methyl alcohol

DCM ：Dichloromethane

TFE ：2,2,2- trifluoroethanols

NMP ：1-METHYLPYRROLIDONE

DMSO ：Dimethyl sulfoxide (DMSO)

TFA ：Trifluoracetic acid

EDT ：Dithioglycol

Piperidine ：Hexahydropyridine

DIEA ：N, N '-diisopropylethylamine

For this present invention provides a kind of method for preparing Exenatide, its step is as follows：

Step 1, with amino resins as initial resin, by Fmoc solid-phase synthesis, according to Exenatide main chain peptide sequence according to Amino acid of the secondary coupling with N-terminal Fmoc protections and side chain protected, wherein, in the amino acid couplings reaction of peptide sequence 15-17, solution The 2,2,2 tfifluoroethyl alcohol of its volume 20 % and the urea of 1.5 mol/L are added in DMF；

Step 2, after cracking, purifying for the first time uses reverse phase filler, and second purifying uses resin anion (R.A.), can after desalination So that des-Glu¹⁵,Glu¹⁶- Exenatide content is reduced to 0.1 below %, freezes, and obtains Exenatide.

Wherein, the solid phase synthesis process described in step 1,1）It is starting to use the amino resins of 0.10 ~ 0.35 mmol/g Resin；2）It is 1 to use by volume ratio:Fmoc protection groups on the deprotection liquid removing amino resins of 4 piperidines and DMF composition； 3）In the presence of coupling agent system, amino resins and Fmoc-Ser (tBu)-OH couplings obtain Fmoc-Ser (tBu)-resin； 4）Repeat step 2）、3）, carrying out the coupling of amino acid successively according to Exenatide main chain peptide sequence, coupling amino acid order is： Fmoc-Pro-OH、Fmoc-Pro-OH、Fmoc-Pro-OH、Fmoc-Ala-OH、Fmoc-Gly-OH、Fmoc-Ser(tBu)-OH、 Fmoc-Ser(tBu)-OH、Fmoc-Pro-OH、Fmoc-Gly-OH、Fmoc-Gly-OH、Fmoc-Asn(Trt)-OH、Fmoc- Lys(Boc)-OH、Fmoc-Leu-OH、Fmoc-Trp(Boc)-OH、Fmoc-Glu(OtBu)-OH、Fmoc-Ile-OH、Fmoc- Phe-OH、Fmoc-Leu-OH、Fmoc-Arg(Pbf)-OH、Fmoc-Val-OH、Fmoc-Ala-OH、Fmoc-Glu(OtBu)- OH、Fmoc-Glu(OtBu)-OH、Fmoc-Glu(OtBu)-OH、Fmoc-Met-OH、Fmoc-Gln(Trt)-OH、Fmoc-Lys (Boc)-OH、Fmoc-Ser(tBu)-OH、Fmoc-Leu-OH、Fmoc-Asp(OtBu)-OH、Fmoc-Ser(tBu)-OH、 Fmoc-Thr(tBu)-OH、Fmoc-Phe-OH、Fmoc-Thr(tBu)-OH、Fmoc-Gly-OH、Fmoc-Glu(OtBu)-OH、 Fmoc-Gly-OH、Boc-His(Trt)–OH.Wherein, in the amino acid couplings reaction of peptide sequence 15-17, it is added in solution D MF 2,2, the 2- trifluoroethanols and the urea of 1.5 mol/L of the % of volume 20, due to 2,2,2- trifluoroethanols can destroy beta structure stabilization Property, mitigate the tendency of peptide interchain aggregation, the solvation degree of peptide chain can be greatly improved；And urea molecule is used to hydrogen bond Interference effect destroys the beta sheet of peptide chain, can improve the condensation rate of Fmoc-Glu (OtBu)-OH.

Wherein, the upper amino resins is selected from Rink amide AM resins, Rink amide mbha resins, Sieber Resin；The coupling agent system includes condensing agent and reaction dissolvent, and the condensing agent is selected from DIC/HOBt, PyBOP/HOBt/ DIEA or HATU/HOBt/DIEA；The reaction dissolvent is selected from DMF, DCM, NMP, DMSO or any combination between them.

Wherein, the purification process described in step 2, after thick peptide water dissolves, 1）Purified with C18 posts for the first time, purify bar Part：Mobile phase is：A phases：0.1 %TFA；B phases：Acetonitrile；Gradient program is:To 60 %B in 15 %B, 60min；Detection wavelength 220 nm；Collect purpose peak cut；2）Use anion-exchange column (UniDEAE-10) second；Mobile phase：A is that buffer solution I is molten Liquid（10 mmol/L ammonium acetate aqueous solution weak aqua ammonias adjust its pH value for 7.30 ± 0.20):Acetonitrile=90:10；B is buffer solution II solution（The mmol/L sodium-chloride water solution acetic acid of 10 mmol/L ammonium acetates+100 adjust its pH value for 4.50 ± 0.20): Acetonitrile=90:10；Gradient program is:To 100 %B in 100 %A, 60min；Detection wavelength is 220 nm；Purpose peak is collected to evaporate Point；3）Desalination condition：Mobile phase：A phases：The aqueous solution of 20 mmol/L ammonium acetates:Acetonitrile=95:5；B phases：Water:Acetonitrile=95: 5；C phases：0.03 % vinegar aqueous acids:Acetonitrile=95:5；D phases：0.03 % vinegar aqueous acids:Acetonitrile=50:50；Gradient program For：With mobile phase A Gradient elution 15 minutes, Mobile phase B Gradient elution is converted into 10 minutes, be converted into the ladders such as mobile phase C Degree wash-out 10 minutes, is converted into mobile phase D Gradient elutions 25 minutes；The nm of Detection wavelength 220；Collect purpose peak cut；Can So that des-Glu¹⁵,Glu¹⁶- Exenatide content is reduced to 0.1 below %, and concentrated by rotary evaporation is lyophilized to obtain Exenatide.

The method of the present invention is obtained by screening, and screening process is as follows：

1）The selection of urea concentration：

In amino acid couplings reaction in 15-17 peptide sequences, urea, the selection of urea concentration are added in solution D MF： 1.5 mol/L；2.0 mol/L

2）Add the selection of TFE volumes：

10 %；20 %

3）The selection of resin anion (R.A.) filler：

UniDEAE-10；UniQ-10.

8 kinds of experiment conditions are proposed for this：

Experiment condition 1：

1）8.14 g substitution values are taken for 0.20 mmol/g

Fmoc-Ala-Val-Arg(Pbf)-Leu-Phe-Ile-Glu(OtBu)-Trp(Boc)-Leu-Lys(Boc)-Asn (Trt)-Gly-Gly-Pro-Ser(tBu)-Ser(tBu)-Gly-Ala-Pro-Pro-Pro-Ser(tBu)-Rink amide AM resins (1.0 mmol) are added in solid phase reaction post, are washed with DMF 1 time, swelling 30 minutes with DCM.

2）Volume ratio is 1:The deprotection liquid of 4 piperidines and DMF composition is reacted 5 minutes, and DMF is washed 1 time, and volume ratio is 1: The deprotection liquid of 4 piperidines and DMF composition is reacted 10 minutes, and DMF is washed 6 times.

3）Weigh 1.80 g urea to be added in the mixed solution of 16.5 ml DMF and 3.5 ml TFE, dissolve, be prepared into The DMF/TFE mixed solutions of the urea of 1.5 mol/L.

4）Weigh 2.13 g Fmoc-Glu (OtBu)-OH（5 mmol）、0.68 g HOBt（5 mmol）Add concentration be In the DMF/TFE mixed solutions of the urea of 1.5 mol/L, 0.8 ml DIC are added under ice-water bath（5 mmol）After activation, add In the above-mentioned reaction column equipped with resin, react 2 hours at room temperature.

5）Repeat 2）-4）Twice, similarity condition is coupled two Fmoc-Glu (OtBu)-OH again.

6）Remaining amino acid is coupled successively, and coupling amino acid order is：Fmoc-Met-OH、Fmoc-Gln(Trt)-OH、 Fmoc-Lys(Boc)-OH、Fmoc-Ser(tBu)-OH、Fmoc-Leu-OH、Fmoc-Asp(OtBu)-OH、Fmoc-Ser (tBu)-OH、Fmoc-Thr(tBu)-OH、Fmoc-Phe-OH、Fmoc-Thr(tBu)-OH、Fmoc-Gly-OH、Fmoc-Glu (OtBu)-OH、Fmoc-Gly-OH、Boc-His(Trt)–OH.Coupling is finished, and is washed with DMF 3 times, and DCM is washed 3 times, and MeOH is washed Wash 3 times, DCM is washed 3 times, MeOH is washed 3 times, is drained and is obtained 11.82 g Exenatide Rink amide AM resins.

7）Above-mentioned resin is added in the three neck round bottom flask of 250 mL, by TFA:Thioanisole:Methyl phenyl ethers anisole:EDT= 90:5:3:The 2 volume ratio configuration mL of lysate 100, during lysate added into above-mentioned resin, room temperature reaction 2 hours, filtering is used Resin after a small amount of TFA washings cracking 3 times, merging filtrate, concentration, precipitation 1 is small during the liquid after concentration is added into ice ether When, centrifugation, absolute ether centrifuge washing 6 times, vacuum drying obtains the thick g of peptide 4.20 of Exenatide.The % of HPLC purity 63.57, The % of synthesis yield 82.

8）After the thick peptide of above-mentioned Exenatide is weighed with 4 L water dissolves, purified with C18 posts for the first time, purification condition：Mobile phase For：A phases：0.1 %TFA；B phases：Acetonitrile；Gradient program is:To 60 %B in 15 %B, 60 min；The nm of Detection wavelength 220；Receive Collection purpose peak cut.

9）Use anion-exchange column (UniDEAE-10) second；Mobile phase：A is buffer solution I solution（10 mmol/L vinegar Sour aqueous ammonium weak aqua ammonia adjust its pH value for 7.30 ± 0.20):Acetonitrile=90:10；B is the solution of buffer solution II（10 The mmol/L sodium-chloride water solution acetic acid of mmol/L ammonium acetates+100 adjust its pH value for 4.50 ± 0.20):Acetonitrile=90:10； Gradient program is：To 100 %B in 100 %A, 60 min；Detection wavelength is 220 nm；Collect purpose peak cut.

10）Desalination condition：

Mobile phase：A phases：The aqueous solution of 20 mmol/L ammonium acetates:Acetonitrile=95:5；

B phases：Water:Acetonitrile=95:5；

C phases：0.03 % vinegar aqueous acids:Acetonitrile=95:5；

D phases：0.03 % vinegar aqueous acids:Acetonitrile=50:50；

Gradient program is：With mobile phase A Gradient elution 15 minutes, Mobile phase B Gradient elution is converted into 10 minutes, It is converted into mobile phase C Gradient elutions 10 minutes, is converted into mobile phase D Gradient elutions 25 minutes；

The nm of Detection wavelength 220；Collect purpose peak cut；Concentrated by rotary evaporation, it is lyophilized to obtain Exenatide acetate fine peptide 1.92 The % of g, HPLC purity 99.89, purifies the % of yield 56, the % of total recovery 46.

Experiment condition 2-8, experimental implementation is as shown in experiment condition 1, and each experiment condition and experimental result are as follows：

Result above shows that the purification effect of experiment condition 7 is optimal.

Compared to the prior art the method for the present invention has obvious advantage, and relevant contrast experiment is as follows：

The beneficial effects of the invention are as follows：The present inventor is studied the preparation method of Exenatide, there is provided a kind of Low cost, purity are high, are adapted to the preparation technology of the Exenatide of large-scale production, and this technique can effectively control des-Glu¹⁵, Glu¹⁶- Exenatide content does not influence the yield of Exenatide again.

Brief description of the drawings

Fig. 1 synthetic routes of the invention；

The HPLC spectrograms of the thick peptide of Fig. 2 Exenatides；

The HPLC spectrograms of Fig. 3 Exenatide fine peptides；

The HPLC spectrograms of Fig. 4 Exenatide control samples；

The Exenatide fine peptide mass spectrogram of Fig. 5 embodiments nine.

Specific embodiment

The present invention is further illustrated by the following examples.

Embodiment one：Substitution value is the synthesis of Fmoc-Ser (tBu)-Rink amide AM resins of 0.20 mmol/g

Weigh the Rink amide AM resins that 5.00 g substitution values are 0.20 mmol/g（1 mmol）, it is added to solid phase In reaction column, washed with DMF 1 time, with DCM swellable resins 30 minutes after, it is 1 to use volume ratio:4 piperidines and DMF composition Deprotection liquid is reacted 5 minutes, and DMF is washed 1 time, and it is 1 to use volume ratio:The deprotection liquid of 4 piperidines and DMF composition reacts 10 points Clock, DMF is washed 6 times, weighs 1.92 g Fmoc-Ser (tBu)-OH（5 mmol）With 0.68 g HOBt（5 mmol）Add body Product is than being 1:1 DCM and DMF mixed solutions, add 0.8 ml DIC under ice-water bath（5 mmol）Above-mentioned being equipped with is added after activation In the reaction column of resin, react 2 hours, washed with DMF 3 times, DCM is washed 3 times, MeOH is washed 3 times, DCM is washed 3 times, MeOH Washing 3 times, 5.15 g Fmoc- Ser (tBu)-Rink amide AM resins are obtained after drying.

Embodiment two：Substitution value is the conjunction of Fmoc-Ser (tBu)-Rink amide MBHA resins of 0.20 mmol/g Into

Weigh the Rink amide MBHA resins that 5.00 g substitution values are 0.20 mmol/g（1 mmol）, it is added to solid In phase reaction post, washed with DMF 1 time, with DCM swellable resins 30 minutes after, it is 1 to use volume ratio:4 piperidines and DMF composition Deprotection liquid react 5 minutes, DMF wash 1 time, it is 1 to use volume ratio:The deprotection liquid reaction 10 of 4 piperidines and DMF composition Minute, DMF is washed 6 times, weighs 1.92 g Fmoc-Ser (tBu)-OH（5 mmol）With 0.68 g HOBt（5 mmol）Add Volume ratio is 1:1 DCM and DMF mixed solutions, add 0.8 ml DIC under ice-water bath（5 mmol）Above-mentioned dress is added after activation Have in the reaction column of resin, react 2 hours, washed with DMF 3 times, DCM is washed 3 times, MeOH is washed 3 times, DCM is washed 3 times, MeOH is washed 3 times, and 5.14 g Fmoc-Ser (tBu)-Rink amide MBHA resins are obtained after drying.

Embodiment three：Substitution value is the synthesis of Fmoc-Ser (tBu)-Sieber resins of 0.20 mmol/g

Weigh the Rink amide Sieber resins that 5.00 g substitution values are 0.20 mmol/g（1 mmol）, it is added to In solid phase reaction post, washed with DMF 1 time, with DCM swellable resins 30 minutes after, it is 1 to use volume ratio:4 piperidines and DMF groups Into deprotection liquid react 5 minutes, DMF wash 1 time, it is 1 to use volume ratio:The deprotection liquid reaction of 4 piperidines and DMF composition 10 minutes, DMF was washed 6 times, weighs 1.92 g Fmoc-Ser (tBu)-OH（5 mmol）With 0.68 g HOBt（5 mmol）Plus It is 1 to enter volume ratio:1 DCM and DMF mixed solutions, add 0.8 ml DIC under ice-water bath（5 mmol）Added after activation above-mentioned In reaction column equipped with resin, react 2 hours, washed with DMF 3 times, DCM is washed 3 times, MeOH is washed 3 times, DCM is washed 3 times, MeOH is washed 3 times, and 5.15 g Fmoc- Ser (tBu)-Sieber resins are obtained after drying.

Example IV：The preparation of Exenatide Rink amide AM resins

Weigh Fmoc-Ser (tBu)-Rink amide AM resins that 5.15 g substitution values are 0.20 mmol/g（1 mmol）, add in solid phase reaction post, washed with DMF 1 time, with DCM swelling Fmoc-Ser (tBu)-Rink amide AM resins After 30 minutes, it is 1 to use volume ratio:The deprotection liquid of 4 piperidines and DMF composition is reacted 5 minutes, and DMF is washed 1 time, using body Product is than being 1:The deprotection liquid of 4 piperidines and DMF composition is reacted 10 minutes, and DMF is washed 6 times, weighs 1.69 g Fmoc-Pro- OH（5 mmol）、0.68 g HOBt（5 mmol）It is 1 to add volume ratio:1 DCM and DMF mixed solutions, add under ice-water bath 0.8 ml DIC（5 mmol）After activation, add in the above-mentioned reaction column equipped with resin, react 2 hours at room temperature, with ninhydrin Method detection judges reaction end, if resin water white transparency, then it represents that reaction is complete；Resin develops the color, then it represents that reaction is incomplete, Need to react again 1 hour, this criterion judges reaction end suitable for subsequent amino-acid coupling with ninhydrin method detection.

The step of repeating above-mentioned removing Fmoc protections and add corresponding amino acid couplings, according to Exenatide main chain peptide sequence, Be sequentially completed Fmoc-Pro-OH, Fmoc-Pro-OH, Fmoc-Ala-OH, Fmoc-Gly-OH, Fmoc-Ser (tBu)-OH, Fmoc-Ser(tBu)-OH、Fmoc-Pro-OH、Fmoc-Gly-OH、Fmoc-Gly-OH、Fmoc-Asn(Trt)-OH、Fmoc- Lys(Boc)-OH、Fmoc-Leu-OH、Fmoc-Trp(Boc)-OH、Fmoc-Glu(OtBu)-OH、Fmoc-Ile-OH、Fmoc- Phe-OH、Fmoc-Leu-OH、Fmoc-Arg(Pbf)-OH、Fmoc-Val-OH、Fmoc-Ala-OH、Fmoc-Glu(OtBu)- OH、Fmoc-Glu(OtBu)-OH、Fmoc-Glu(OtBu)-OH、Fmoc-Met-OH、Fmoc-Gln(Trt)-OH、Fmoc-Lys (Boc)-OH、Fmoc-Ser(tBu)-OH、Fmoc-Leu-OH、Fmoc-Asp(OtBu)-OH、Fmoc-Ser(tBu)-OH、 Fmoc-Thr(tBu)-OH、Fmoc-Phe-OH、Fmoc-Thr(tBu)-OH、Fmoc-Gly-OH、Fmoc-Glu(OtBu)-OH、 Fmoc-Gly-OH、Boc-His(Trt)–OH。

Wherein, 1）In the amino acid couplings reaction of peptide sequence 15-17, the 2 of its volume 20%, 2,2- trifluoros are added in solution D MF The urea of ethanol and 1.5 mol/L；2）Solvent is changed to when Fmoc-Leu-OH and Fmoc-Phe-OH is coupled：It is 1 from volume ratio: 4 DMSO and DMF mixed solutions；3）Coupling reagent is changed to when Fmoc-Asp (OtBu)-OH is coupled：PyBOP/HOBt/DIEA；4） Coupling reagent is changed to when Fmoc-Val-OH is coupled：HATU/HOBt/DIEA.Coupling is finished, and is washed with DMF 3 times, DCM washings 3 Secondary, MeOH is washed 3 times, and DCM is washed 3 times, and MeOH is washed 3 times, is drained and is obtained 11.84g Exenatide Rink amide AM trees Fat.

Embodiment five：The preparation of Exenatide Rink amide MBHA resins

Weigh Fmoc-Ser (tBu)-Rink amide MBHA resins that 5.14 g substitution values are 0.20 mmol/g（1 mmol）, add in solid phase reaction post, washed with DMF 1 time, with DCM swelling Fmoc-Ser (tBu)-Rink amide MBHA trees After fat 30 minutes, it is 1 to use volume ratio:The deprotection liquid of 4 piperidines and DMF composition is reacted 5 minutes, and DMF is washed 1 time, is used Volume ratio is 1:The deprotection liquid of 4 piperidines and DMF composition is reacted 10 minutes, and DMF is washed 6 times, weighs 1.69 g Fmoc- Pro-OH（5 mmol）、0.68 g HOBt（5 mmol）It is 1 to add volume ratio:1 DCM and DMF mixed solutions, under ice-water bath Add 0.8 ml DIC（5 mmol）After activation, in the above-mentioned reaction column equipped with resin of addition, after reacting 2 hours at room temperature, with Ninhydrin method detection judges reaction end, if resin water white transparency, then it represents that reaction is complete；Resin develops the color, then it represents that reaction Not exclusively, it is necessary to react again 1 hour, this criterion judges reaction suitable for subsequent amino-acid coupling with ninhydrin method detection Terminal.

The step of repeating above-mentioned removing Fmoc protections and add corresponding amino acid couplings, according to Exenatide main chain peptide sequence, It is sequentially completed：Fmoc-Pro-OH、Fmoc-Pro-OH、Fmoc-Ala-OH、Fmoc-Gly-OH、Fmoc-Ser(tBu)-OH、 Fmoc-Ser(tBu)-OH、Fmoc-Pro-OH、Fmoc-Gly-OH、Fmoc-Gly-OH、Fmoc-Asn(Trt)-OH、Fmoc- Lys(Boc)-OH、Fmoc-Leu-OH、Fmoc-Trp(Boc)-OH、Fmoc-Glu(OtBu)-OH、Fmoc-Ile-OH、Fmoc- Phe-OH、Fmoc-Leu-OH、Fmoc-Arg(Pbf)-OH、Fmoc-Val-OH、Fmoc-Ala-OH、Fmoc-Glu(OtBu)- OH、Fmoc-Glu(OtBu)-OH、Fmoc-Glu(OtBu)-OH、Fmoc-Met-OH、Fmoc-Gln(Trt)-OH、Fmoc-Lys (Boc)-OH、Fmoc-Ser(tBu)-OH、Fmoc-Leu-OH、Fmoc-Asp(OtBu)-OH、Fmoc-Ser(tBu)-OH、 Fmoc-Thr(tBu)-OH、Fmoc-Phe-OH、Fmoc-Thr(tBu)-OH、Fmoc-Gly-OH、Fmoc-Glu(OtBu)-OH、 Fmoc-Gly-OH、Boc-His(Trt)–OH。

Wherein, 1）In the amino acid couplings reaction of peptide sequence 15-17,2, the 2,2- tri- of its volume 20 % are added in solution D MF The urea of fluoroethanol and 1.5 mol/L；2）Solvent is changed to when Fmoc-Leu-OH and Fmoc-Phe-OH is coupled：It is from volume ratio 1:4 DMSO and DMF mixed solutions；3）Coupling reagent is changed to when Fmoc-Asp (OtBu)-OH is coupled：PyBOP/HOBt/DIEA； 4）Coupling reagent is changed to when Fmoc-Val-OH is coupled：HATU/HOBt/DIEA.Coupling is finished, and is washed with DMF 3 times, DCM washings 3 Secondary, MeOH is washed 3 times, and DCM is washed 3 times, and MeOH is washed 3 times, is drained and is obtained 11.86g Exenatide Rink amide AM trees Fat.

Embodiment six：The preparation of Exenatide Sieber resins

Weigh Fmoc-Ser (tBu)-Rink amide MBHA resins that 5.15 g substitution values are 0.20 mmol/g（1 mmol）, add in solid phase reaction post, washed with DMF 1 time, with DCM swelling Fmoc-Ser (tBu)-Rink amide MBHA trees After fat 30 minutes, it is 1 to use volume ratio:The deprotection liquid of 4 piperidines and DMF composition is reacted 5 minutes, and DMF is washed 1 time, is used Volume ratio is 1:The deprotection liquid of 4 piperidines and DMF composition is reacted 10 minutes, and DMF is washed 6 times, weighs 1.69 g Fmoc- Pro-OH（5 mmol）、0.68 g HOBt（5 mmol）It is 1 to add volume ratio:1 DCM and DMF mixed solutions, under ice-water bath Add 0.8 ml DIC（5 mmol）After activation, in the above-mentioned reaction column equipped with resin of addition, after reacting 2 hours at room temperature, with Ninhydrin method detection judges reaction end, if resin water white transparency, then it represents that reaction is complete；Resin develops the color, then it represents that reaction Not exclusively, it is necessary to react again 1 hour, this criterion judges reaction suitable for subsequent amino-acid coupling with ninhydrin method detection Terminal.

The step of repeating above-mentioned removing Fmoc protections and add corresponding amino acid couplings, according to Exenatide main chain peptide sequence, It is sequentially completed：Fmoc-Pro-OH、Fmoc-Pro-OH、Fmoc-Ala-OH、Fmoc-Gly-OH、Fmoc-Ser(tBu)-OH、 Fmoc-Ser(tBu)-OH、Fmoc-Pro-OH、Fmoc-Gly-OH、Fmoc-Gly-OH、Fmoc-Asn(Trt)-OH、Fmoc- Lys(Boc)-OH、Fmoc-Leu-OH、Fmoc-Trp(Boc)-OH、Fmoc-Glu(OtBu)-OH、Fmoc-Ile-OH、Fmoc- Phe-OH、Fmoc-Leu-OH、Fmoc-Arg(Pbf)-OH、Fmoc-Val-OH、Fmoc-Ala-OH、Fmoc-Glu(OtBu)- OH、Fmoc-Glu(OtBu)-OH、Fmoc-Glu(OtBu)-OH、Fmoc-Met-OH、Fmoc-Gln(Trt)-OH、Fmoc-Lys (Boc)-OH、Fmoc-Ser(tBu)-OH、Fmoc-Leu-OH、Fmoc-Asp(OtBu)-OH、Fmoc-Ser(tBu)-OH、 Fmoc-Thr(tBu)-OH、Fmoc-Phe-OH、Fmoc-Thr(tBu)-OH、Fmoc-Gly-OH、Fmoc-Glu(OtBu)-OH、 Fmoc-Gly-OH、Boc-His(Trt)–OH。

Wherein, 1）In the amino acid couplings reaction of peptide sequence 15-17,2, the 2,2- tri- of its volume 20 % are added in solution D MF The urea of fluoroethanol and 1.5 mol/L；2）Solvent is changed to when Fmoc-Leu-OH and Fmoc-Phe-OH is coupled：It is from volume ratio 1:4 DMSO and DMF mixed solutions；3）Coupling reagent is changed to when Fmoc-Asp (OtBu)-OH is coupled：PyBOP/HOBt/DIEA； 4）Coupling reagent is changed to when Fmoc-Val-OH is coupled：HATU/HOBt/DIEA.Coupling is finished, and is washed with DMF 3 times, DCM washings 3 Secondary, MeOH is washed 3 times, and DCM is washed 3 times, and MeOH is washed 3 times, is drained and is obtained 11.86 g Exenatide Sieber resins.

Embodiment seven：The prepare with scale of Exenatide Rink amide AM resins

Weigh Fmoc-Ser (tBu)-Rink amide AM resins that 5152.50 g substitution values are 0.20 mmol/g（1 mol）, add in solid phase reaction post, washed with DMF 1 time, with DCM swelling Fmoc-Ser (tBu)-Rink amide AM resins 30 After minute, it is 1 to use volume ratio:The deprotection liquid of 4 piperidines and DMF composition is reacted 5 minutes, and DMF is washed 1 time, using volume Than being 1:The deprotection liquid of 4 piperidines and DMF composition is reacted 10 minutes, and DMF is washed 6 times, weighs 1690.21 g Fmoc-Pro- OH（5 mol）、680.40 g HOBt（5 mol）It is 1 to add volume ratio:1 DCM and DMF mixed solutions, add under ice-water bath 800 ml DIC（5mol）After activation, in the above-mentioned reaction column equipped with resin of addition, after reacting 2 hours at room temperature, with ninhydrin Method detection judges reaction end, if resin water white transparency, then it represents that reaction is complete；Resin develops the color, then it represents that reaction is incomplete, Need to react again 1 hour, this criterion judges reaction end suitable for subsequent amino-acid coupling with ninhydrin method detection.

The step of repeating above-mentioned removing Fmoc protections and add corresponding amino acid couplings, according to Exenatide main chain peptide sequence, It is sequentially completed：Fmoc-Pro-OH、Fmoc-Pro-OH、Fmoc-Ala-OH、Fmoc-Gly-OH、Fmoc-Ser(tBu)-OH、 Fmoc-Ser(tBu)-OH、Fmoc-Pro-OH、Fmoc-Gly-OH、Fmoc-Gly-OH、Fmoc-Asn(Trt)-OH、Fmoc- Lys(Boc)-OH、Fmoc-Leu-OH、Fmoc-Trp(Boc)-OH、Fmoc-Glu(OtBu)-OH、Fmoc-Ile-OH、Fmoc- Phe-OH、Fmoc-Leu-OH、Fmoc-Arg(Pbf)-OH、Fmoc-Val-OH、Fmoc-Ala-OH、Fmoc-Glu(OtBu)- OH、Fmoc-Glu(OtBu)-OH、Fmoc-Glu(OtBu)-OH、Fmoc-Met-OH、Fmoc-Gln(Trt)-OH、Fmoc-Lys (Boc)-OH、Fmoc-Ser(tBu)-OH、Fmoc-Leu-OH、Fmoc-Asp(OtBu)-OH、Fmoc-Ser(tBu)-OH、 Fmoc-Thr(tBu)-OH、Fmoc-Phe-OH、Fmoc-Thr(tBu)-OH、Fmoc-Gly-OH、Fmoc-Glu(OtBu)-OH、 Fmoc-Gly-OH、Boc-His(Trt)–OH。

Wherein, 1）In the amino acid couplings reaction of peptide sequence 15-17,2, the 2,2- tri- of its volume 20 % are added in solution D MF The urea of fluoroethanol and 1.5 mol/L；2）Solvent is changed to when Fmoc-Leu-OH and Fmoc-Phe-OH is coupled：It is from volume ratio 1:4 DMSO and DMF mixed solutions；3）Coupling reagent is changed to when Fmoc-Asp (OtBu)-OH is coupled：PyBOP/HOBt/DIEA； 4）Coupling reagent is changed to when Fmoc-Val-OH is coupled：HATU/HOBt/DIEA.Coupling is finished, and is washed with DMF 3 times, DCM washings 3 Secondary, MeOH is washed 3 times, and DCM is washed 3 times, and MeOH is washed 3 times, is drained and is obtained 11910.05 g Exenatide Rink amide AM resins.

Embodiment eight：The preparation of the thick peptide of Exenatide

Above-mentioned 100.00 g Exenatides Rink amide AM resins are added in the three neck round bottom flask of 2000 mL, By TFA:Thioanisole:Methyl phenyl ethers anisole:EDT=90:5:3:The 2 volume ratio configuration mL of lysate 1000, lysate is added above-mentioned In resin, room temperature reaction 2 hours, filtering, the resin after washing cracking with a small amount of TFA 3 times, merging filtrate, concentration, after concentration Liquid be added in ice ether and precipitate 1 hour, centrifugation, absolute ether centrifuge washing 6 times, vacuum drying obtains Exenatide The thick g of peptide 35.21.The % of HPLC purity 63.57, the % of synthesis yield 82.

Embodiment nine：The preparation of Exenatide fine peptide acetate

After the above-mentioned thick peptide of 35.21 g Exenatides is weighed with 35 L water dissolves, purified with C18 posts for the first time, purification condition： Mobile phase is：A phases：0.1 %TFA；B phases：Acetonitrile；Gradient program is：To 60%B in 15 %B, 60min；Detection wavelength 220 nm；Collect purpose peak cut.Use anion-exchange column (UniDEAE-10) second；Mobile phase：A is buffer solution I solution（10 Mmol/L ammonium acetate aqueous solution weak aqua ammonias adjust its pH value for 7.30 ± 0.20):Acetonitrile=90:10;B is that buffer solution II is molten Liquid（The mmol/L sodium-chloride water solution acetic acid of 10 mmol/L ammonium acetates+100 adjust its pH value for 4.50 ± 0.20):Acetonitrile= 90:10；Gradient program is：To 100 %B in 100 %A, 60 min；Detection wavelength is 220 nm；Collect purpose peak cut.It is de- The condition of salt：Mobile phase：A phases：The aqueous solution of 20 mmol/L ammonium acetates:Acetonitrile=95:5；B phases：Water:Acetonitrile=95:5；C phases： 0.03 % vinegar aqueous acids:Acetonitrile=95:5；D phases：0.03 % vinegar aqueous acids:Acetonitrile=50:50；Gradient program is：With Mobile phase A Gradient elution 15 minutes, is converted into Mobile phase B Gradient elution 10 minutes, is converted into mobile phase C constant gradients and washes It is de- 10 minutes, it is converted into mobile phase D Gradient elutions 25 minutes；The nm of Detection wavelength 220；Collect purpose peak cut；Revolving is dense Contracting, it is lyophilized to obtain Exenatide acetate fine peptide 16.10 g, the % of HPLC purity 99.89, purify the % of total recovery 56, total recovery 46 %。des-Glu¹⁵, Glu¹⁶- Exenatide content is 0.05 %.

Embodiment ten：Impurity des-Glu¹⁵,Glu¹⁶The assay of-Exenatide

des-Glu¹⁵,Glu¹⁶The content of-Exenatide=Exenatide reference substance content × des-Glu¹⁵,Glu¹⁶- Ai Sai That peptide peak area × Exenatide reference substance concentration × correction factor/（The Exenatide reference substance peak area × thick peptide of Exenatide Concentration) × 100 %=92.15 % × 0.042 × 1.0 × 1.00/（79.406×1.0）×100 %=0.05 %

Note：Exenatide reference substance is consistent with sample size with the testing conditions of Exenatide fine peptide, all for：25 μl.des- Glu¹⁵,Glu¹⁶Correction factor=1.00 of-Exenatide.

Exenatide reference substance concentration：1.0 mg/ml

Exenatide reference substance peak area：79.406 mAU*min （Fig. 3）

Exenatide reference substance content：92.15 %

The thick peptide configuration concentration of Exenatide：1.0 mg/ml

Impurity des-Glu in Exenatide fine peptide¹⁵,Glu¹⁶- Exenatide peak area：0.042 mAU*min

Claims (1)

1. a kind of method for preparing Exenatide, it is characterised in that the described method comprises the following steps：

Step 1, it is even successively according to Exenatide main chain peptide sequence by Fmoc solid-phase synthesis with amino resins as initial resin Amino acid of the connection with N-terminal Fmoc protections and side chain protected, wherein, in the amino acid couplings reaction of peptide sequence 15-17, solution D MF The urea of the middle 2,2,2 tfifluoroethyl alcohol and 1.5mol/L for adding its volume 20%；

Step 2, after peptide resin cracking, 1) purify for the first time using the purifying of C18 posts, purification condition：Mobile phase is：A phases：0.1% TFA；B phases：Acetonitrile；Gradient program is：To 60%B in 15%B, 60min；Detection wavelength 220nm；Collect purpose peak cut；2) Second purifying uses resin anion (R.A.), uses UniDEAE-10 anion-exchange columns；Mobile phase：A is 10mmol/L ammonium acetate water Solution weak aqua ammonia adjusts the buffer solution that its pH value is 7.30 ± 0.20:Acetonitrile=90:10；B be 10mmol/L ammonium acetates+ 100mmol/L sodium-chloride water solution acetic acid adjusts the buffer solution that its pH value is 4.50 ± 0.20:Acetonitrile=90:10；Gradient journey Sequence is：To 100%B in 100%A, 60min；Detection wavelength is 220nm；Collect purpose peak cut；3) desalination condition：Mobile phase： A phases：The aqueous solution of 20mmol/L ammonium acetates:Acetonitrile=95:5；B phases：Water:Acetonitrile=95:5；C phases：0.03% acetic acid it is water-soluble Liquid:Acetonitrile=95:5；D phases：0.03% vinegar aqueous acid:Acetonitrile=50:50；Gradient program is：Washed with mobile phase A constant gradient It is de- 15 minutes, it is converted into Mobile phase B Gradient elution 10 minutes, it is converted into mobile phase C Gradient elutions 10 minutes, it is converted into stream Dynamic phase D Gradient elutions 25 minutes；Detection wavelength 220nm；Collect purpose peak cut；It is lyophilized, obtain Exenatide.