Resin, preparation method thereof and application thereof in preparation of head-tail cyclic peptide

文档序号：842161 发布日期：2021-04-02 浏览：14次中文

阅读说明：本技术 一种树脂及其制备方法以及其在制备头尾环肽中的应用 (Resin, preparation method thereof and application thereof in preparation of head-tail cyclic peptide ) 是由方葛敏席痛快武梦朱汉英张燕妮于 2020-11-27 设计创作，主要内容包括：本发明公开了一种树脂及其制备方法以及其在制备头尾环肽中的应用,其中树脂的结构通式如下所示：本发明通过三次顺序化学修饰(即二硫醇试剂修饰、二(溴甲基)苯修饰和巯基乙胺修饰)2-氯三苯甲基氯树脂获得该种新树脂。通过Fmoc固相合成和液相N端溴乙酰基与C端硫醇的反应,该树脂可直接用于制备不同链长的和结构的硫醚键键合的头尾环肽。(The invention discloses a resin, a preparation method thereof and application thereof in preparing head-tail cyclic peptide, wherein the structural general formula of the resin is as follows: the novel resin is obtained by three times of sequential chemical modification (namely dithiol reagent modification, di (bromomethyl) benzene modification and mercaptoethylamine modification) of 2-chlorotrityl chloride resin. The resin can be directly used for preparing thioether bond head-tail cyclopeptide with different chain lengths and structures by Fmoc solid phase synthesis and reaction of liquid-phase N-terminal bromoacetyl and C-terminal thiol.)

1. A resin is characterized in that the structural general formula is as follows:

2. a method for preparing the resin of claim 1, wherein:

the modified product is obtained by sequentially carrying out dithiol reagent modification, di (bromomethyl) benzene modification and mercaptoethylamine modification on 2-chlorotrityl chloride resin.

3. The method of claim 2, comprising the steps of:

step 1: dithiol reagent modified 2-chlorotrityl chloride resin

After 80. mu. mol of 2-chlorotrityl chloride resin was treated in DCM containing 30% TFA for a period of time, it was reacted with dithiol reagent dissolved in DCM several times until the resin changed color from deep red to light yellow;

step 2: blocking of unreacted groups on the resin

Washing the resin with DCM for 4 times, adding a mixed solvent MeOH/DIEA/DCM, and shaking for 30 minutes at normal temperature;

and step 3: reduction of disulfide bond formation on resin

Washing the resin with DCM for 4 times, adding a mixed solvent beta-ME/DIEA/NMP, and oscillating for 30 minutes at normal temperature;

and 4, step 4: bis (bromomethyl) benzene modified resin

Washing the resin with DCM and DMF in sequence, adding the prepared mixed solvent di (bromomethyl) benzene/DIEA/DMF for reaction, and shaking at normal temperature for 1 hour;

and 5: mercaptoethylamine modified resin

Washing the resin with DMF, adding the mixed solvent mercaptoethylamine/DIEA/DMF, and oscillating at normal temperature for 1 hour;

step 6: blocking of unreacted groups on the resin

Washing the resin with DMF, adding 20% piperidine-containing DMF solution, and shaking at room temperature for 30 min;

and 7: reclosure of unreacted groups on the resin

Washing the resin with DMF, adding mixed solvent MTG/DIEA/NMP, shaking for 30 minutes at normal temperature, and washing the resin with DMF for 4 times to obtain the target product resin.

4. The production method according to claim 3, characterized in that:

in step 1, the dithiol reagent includes 1, 2-ethanedithiol, 1, 3-propanedithiol, 1, 4-butanedithiol, 1, 5-pentanethiol, 1, 6-hexanedithiol, 1, 8-octanethiol, 3, 6-dioxa-1, 8-octanethiol, 1, 9-nonanedithiol, 1, 10-decanedithiol, 1, 11-dodecadithiol, and 1, 16-hexadecanedithiol.

5. Use of the resin of claim 1, wherein: the method is used for preparing head-tail cyclic peptides which contain thioether bond with different chain lengths and structures so as to optimize the thioether bond arm structure of the head-tail thioether bond cyclic peptides.

6. Use according to claim 5, characterized in that it comprises the following steps:

(1) splicing the polypeptide with a specific sequence by standard Fmoc polypeptide solid phase synthesis by using the resin;

(2) after completing the splicing of the N-terminal amino acid, removing the N-terminal Fmoc group with 20% piperidine in DMF, and then blocking the N-terminal amino group with a blocking reagent in the presence of a condensing agent;

(3) cutting the polypeptide from the resin by using trifluoroacetic acid cutting fluid, and precipitating by using glacial ethyl ether to obtain the polypeptide in a powder state;

(4) and (4) dissolving the crude polypeptide product obtained in the step (3) in an organic solvent, oscillating for 2 hours at normal temperature, and analyzing and purifying and separating the target peptide by using reversed-phase liquid chromatography.

7. Use according to claim 6, characterized in that:

the blocking reagent comprises chloroacetic acid, bromoacetic acid or iodoacetic acid.

8. Use according to claim 6, characterized in that:

the organic solvent is DMF, DMSO, H₂O or a mixed solvent prepared by the three components according to any proportion.

9. Use according to claim 8, characterized in that:

the acidity of the organic solvent is adjusted by adding NH₄HCO₃Adjusting the pH value to 8-9.

10. Use according to claim 5 or 6, characterized in that:

the head-tail cyclopeptide is prepared by alkylation reaction of N-terminal bromoacetyl group, chloroacetyl group or iodoacetyl group and C-terminal mercapto group, and covalent crosslinking is realized between N-terminal amino group and C-terminal carboxyl group through a connecting arm with the following structure:

Technical Field

The invention relates to a resin, a preparation method thereof and application thereof in preparing head-tail cyclic peptide. The resin provided by the invention can be used for quickly preparing thioether-bond head-tail cyclopeptide with different chain lengths and structures, and is beneficial to optimizing the thioether connecting arm structure of the head-tail thioether-bond cyclopeptide.

Background

The head-to-tail macrocyclic peptide has structural rigidity, can resist hydrolysis of various proteases, has higher target selectivity and cell membrane permeability, and is an attractive framework structure in modern polypeptide drug discovery. In the aspects of structural modification and functional improvement of polypeptide drugs, head-to-tail cyclization modification of polypeptides is a very common structural optimization mode. Currently, a variety of methods for synthesizing head-to-tail cyclic peptides have been developed, including natural chemical ligation, Ser-based peptide ligation, C-C coupling, thiol-bis-alkylation, and the like. Due to simple operation and low synthesis cost, the thiol-bisalkylation strategy is widely applied to the construction of thioether bond-linked cyclic peptides by people and has become the mainstream strategy for constructing cyclic peptides in combinatorial libraries and phage libraries.

Recent studies have shown that small changes in the thioether-bond linkage arm bond length and bond angle can cause significant changes in the biological activity of cyclic peptides. In order to obtain a head-to-tail macrocyclic peptide with higher activity and stronger enzymatic stability and thioether bond linkage, people need to further optimize the structure and function of the cyclic peptide by changing the chemical structure of a head-to-tail cyclized connecting arm and the length of the connecting arm. However, optimization of the chemical structure of the cyclic peptide linker arm and the length of the linker arm involves a laborious multi-step modification procedure, which is time consuming and inefficient. The synthesis of head-tail cyclic peptide with different chain length and thioether bond relates to the mercapto modification of the N end of protected peptide on resin and the mercapto double alkylation of the head and tail of unprotected peptide in solution. The solid-phase chemical modification and liquid-phase recyclization processes of the polypeptide often have the defects of complicated operation and long period. In order to break through the difficulty of the prior method, the invention provides a novel resin for the rapid direct synthesis of the cyclic peptide, which is beneficial to rapidly optimizing the chemical structure of the cyclic peptide connecting arm and the length of the connecting arm.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a resin, a preparation method thereof and application thereof in preparing head-tail cyclic peptide. The resin structure provided by the invention can easily change the chemical structure of the head-to-tail cyclization connecting arm and the length of the connecting arm so as to further optimize the structure and function of the cyclopeptide.

The structural general formula of the resin is shown as follows:

the resin is obtained by sequentially carrying out dithiol reagent modification, di (bromomethyl) benzene modification and mercaptoethylamine modification on 2-chlorotrityl chloride resin, and specifically comprises the following steps:

step 1: dithiol reagent modified 2-chlorotrityl chloride resin

After 80. mu. mol of 2-chlorotrityl chloride resin was treated in DCM containing 30% TFA for a period of time, it was reacted with dithiol reagent dissolved in DCM (800. mu. mol, 10-fold equivalent) several times until the resin changed color from deep red to light yellow.

Step 2: blocking of unreacted groups on the resin

After washing the resin 4 times with DCM, the mixed solvent MeOH/DIEA/DCM was added and shaken for 30 min at RT.

And step 3: reduction of disulfide bond formation on resin

After resin was washed 4 times with DCM, the mixed solvent beta-ME/DIEA/NMP was added and shaken for 30 minutes at room temperature.

And 4, step 4: bis (bromomethyl) benzene modified resin

The resin was washed with DCM and DMF 4 times sequentially, added with the now prepared mixed solvent di (bromomethyl) benzene/DIEA/DMF reaction mixture and shaken for 1 hour at room temperature.

And 5: mercaptoethylamine modified resin

After the resin is washed by DMF for 4 times, the mixed solvent of mercaptoethylamine/DIEA/DMF is added and shaken for 1 hour at normal temperature.

Step 6: blocking of unreacted groups on the resin

After the resin was washed 4 times with DMF, 20% piperidine in DMF was added and shaken at room temperature for 30 minutes.

And 7: reclosure of unreacted groups on the resin

And (3) after washing the resin with DMF for 4 times, adding a mixed solvent MTG/DIEA/NMP, shaking for 30 minutes at normal temperature, and washing the resin with DMF for 4 times to obtain the resin.

In step 1, the dithiol reagent includes 1, 2-ethanedithiol, 1, 3-propanedithiol, 1, 4-butanedithiol, 1, 5-pentanethiol, 1, 6-hexanedithiol, 1, 8-octanethiol, 3, 6-dioxa-1, 8-octanethiol, 1, 9-nonanedithiol, 1, 10-decanedithiol, 1, 11-dodecadithiol, and 1, 16-hexadecanedithiol.

In step 2, the specific composition of the mixed solvent MeOH/DIEA/DCM is 0.4mL MeOH, 0.2mL DIEA, and 2.4mL DCM.

In step 3, the specific composition of the mixed solvent beta-ME/DIEA/NMP is 0.745mL beta-ME, 1.76mL DIEA and 2.5mL NMP.

In step 4, the specific composition of the mixed solvent bis (bromomethyl) benzene/DIEA/DMF is 108mg (5 times equivalent) of bis (bromomethyl) benzene, 28. mu.L (2 times equivalent) of DIEA and 2mL of DMF.

In step 5, the specific composition of the mixed solvent mercaptoethylamine/DIEA/DMF is 26mg (4 times equivalent) mercaptoethanol, 28. mu.L (4 times equivalent) DIEA and 2mL of DMF.

In step 7, the specific composition of the mixed solvent MTG/DIEA/NMP was 0.69mL of MTG, 1.76mL of DIEA and 2.55mL of NMP.

The application of the resin is that the resin is used for preparing head-tail cyclopeptide which contains thioether bond linkage with different chain lengths and structures so as to optimize the thioether linkage arm structure of the head-tail thioether bond linkage cyclopeptide. The method specifically comprises the following steps:

(1) for a polypeptide with a specific sequence (without special requirements), the resin is utilized to carry out polypeptide splicing through standard Fmoc polypeptide solid phase synthesis;

(2) after completion of the splicing of the N-terminal amino acid, the N-terminal Fmoc group was removed with 20% piperidine in DMF, followed by blocking of the N-terminal amino group with a blocking reagent in the presence of a condensing agent.

The blocking reagent comprises chloroacetic acid, bromoacetic acid or iodoacetic acid.

(3) Cutting the polypeptide from the resin by using trifluoroacetic acid cutting fluid, and precipitating by using glacial ethyl ether to obtain the polypeptide in a powder state;

The organic solvent is DMF, DMSO, H₂O or a mixed solvent prepared by the three components according to any proportion. The acidity of the organic solvent is adjusted by adding a volume of NH₄HCO₃And (1.0M) adjusting the pH value to 8-9 (measured by a precision pH test paper).

The head-tail cyclopeptide is prepared by alkylation reaction of N-terminal bromoacetyl group, chloroacetyl group or iodoacetyl group and C-terminal mercapto group, and covalent crosslinking is realized between N-terminal amino group and C-terminal carboxyl group through a connecting arm with the following structure:

the resin of the invention can conveniently introduce free sulfydryl with different chemical structure characteristics at the C end of the polypeptide. In Fmoc polypeptide solid phase synthesis, bromoacetyl (or chloroacetyl, iodoacetyl) is introduced into the N-terminal of the polypeptide at the same time. The crude peptide is efficiently converted into thioether bond-linked head-to-tail macrocyclic peptide through alkylation reaction of N-terminal bromoacetyl group (or chloroacetyl group or iodoacetyl group) of polypeptide and C-terminal sulfhydryl group. The novel resin enables the structure of the connecting arm of the cyclic peptide to be optimized without complex multi-step operation on the polypeptide, and has good practical application prospect.

In the present invention, the amino group at the N-terminal of the polypeptide and the carboxyl group at the C-terminal are covalently crosslinked by using the newly invented resin to form a head-to-tail cyclic polypeptide. In the invention, the chemical structure of the head-to-tail cyclized connecting arm can be optimized by changing the spatial configuration of the substituent of the di (bromomethyl) benzene; by changing the chain length of the dithiol reagent, the chain length of the head-to-tail cyclized connecting arm can be optimized. The resin optimizes the chemical structure of the cyclic peptide connecting arm and the length of the connecting arm, does not need complicated multistep modification operation, and is beneficial to the research of the structure and function relation of the cyclic peptide.

Drawings

FIG. 1 is a chromatogram and mass spectrum of cyclo-1.

FIG. 2 is a chromatogram and mass spectrum of cyclo-2.

FIG. 3 is a chromatogram and mass spectrum of cyclo-3.

FIG. 4 is a chromatogram and mass spectrum of cyclo-4.

FIG. 5 is a chromatogram and mass spectrum of cyclo-5.

FIG. 6 is a chromatogram and mass spectrum of cyclo-6.

FIG. 7 is a chromatogram and mass spectrum of cyclo-7.

FIG. 8 is a chromatogram and mass spectrum of cyclo-8.

FIG. 9 is a chromatogram and mass spectrum of cyclo-9.

FIG. 10 is a chromatogram and mass spectrum of cyclo-10.

FIG. 11 is a chromatogram and mass spectrum of cyclo-11.

FIG. 12 is a chromatogram and mass spectrum of cyclo-12.

FIG. 13 is a chromatogram and mass spectrum of cyclo-13.

FIG. 14 is a chromatogram and mass spectrum of cyclo-14.

FIG. 15 is a chromatogram and mass spectrum of cyclo-15.

Detailed Description

The following examples further illustrate specific embodiments of the present invention. Note that, where not specifically stated, the statements and technical terms used in the present application are the same as those understood by a person skilled in the art to which the present invention pertains. Any other materials equivalent to those described in the summary of the invention may be used in the same way for the implementation of the invention. Also, the novel resins discussed herein are not limited to the synthesis of the cyclic peptides presented herein.

The meanings of the abbreviations used in the present invention are listed in the following table:

to facilitate the demonstration of the details of the invention, we show the details of the invention by synthesizing a series of thioether-bonded head-to-tail cyclized peptides as examples.

Example 1: the novel resin is obtained by treating 2-chlorotrityl chloride resin with 1, 2-ethanedithiol/1, 4-dibromomethylbenzene/2-aminoethanethiol and is applied to the preparation of thioether bond-bonded macrocyclic peptide cyclo-1.

The resin, the preparation method thereof and the specific synthetic process for preparing the head-tail cyclic peptide by using the resin in the embodiment comprise the following steps:

(1) acid treatment of 2-Chlorotribenzyl chloride resin (loading 0.56mmol/g, 80. mu. mol): 3mL of the prepared DCM containing 30% TFA was added to 143mg of the resin, and after 5 minutes of reaction at ordinary temperature, the waste liquid was discarded.

(2)1, 2-ethanedithiol treatment: 1, 2-ethanedithiol (10eq, 76. mu.L) was dissolved in 3mL of DCM, transferred to the acid-treated resin, reacted for 10 minutes at ambient temperature, and the procedure was repeated until the resin faded to pale yellow and the resin was washed 4 times with DCM.

(3) MeOH blocking: to the resin was added 3mL of methanol blocking reagent (MeOH/DIEA/DCM, 0.4mL/0.2mL/2.4mL), reacted at room temperature for 30 minutes, and the resin was washed 4 times with DCM.

(4) Reduction of mercaptan: a thiol reducing agent (0.745 mL. beta. -ME, 1.76mL DIEA, 2.5mL NMP) was added to the resin to react at room temperature for 30 minutes, and the resin was washed with DCM 4 times and DMF 4 times in this order.

(5) Bis (bromomethyl) benzene modified resin: the mixed solution of 1, 4-bis (bromomethyl) benzene/DIEA/DMF (108 mg/28. mu.L/2 mL) was added to the resin, and reacted at room temperature for 1 hour, and the resin was washed 4 times with DMF.

(6) Mercaptoethylamine modified resin: the mixture mercaptoethylamine/DIEA/DMF (26 mg/28. mu.L/2 mL) was added to the resin, the reaction was carried out at room temperature for 1 hour, and the resin was washed 4 times with DMF.

(7) Piperidine blocking resin: 3mL of 20% piperidine in DMF was added to the resin, and the reaction was carried out at room temperature for 30 minutes, and the resin was washed with DMF 5 times.

(8) Thiol blocking resin: the mixture MTG/DIEA/M \ NMP (690. mu.L/1.76 mL/2.55mL) was added to the resin, the reaction was carried out at room temperature for 30 minutes, the resin was washed with DMF 5 times, and the resin was swollen with DMF for 20 minutes.

(9) Condensation of amino acids: 128mg of Fmoc-Leu-OH (4.5eq), 52mg of Oxyma (4.5eq) and 56. mu.L of DIC (4.5eq) were dissolved in 1.5mL of DMF, mixed well and then added to a solid phase synthesis tube, the reaction was carried out for 40 minutes in a metal bath at 55 ℃ and the resin was washed 3 times with DMF;

(10) blocking of unreacted amine groups: adding 1.5mL of mixed solvent acetic anhydride/2, 6-dimethyl pyridine/DMF (5:6:89) into the resin, reacting for 2 minutes at normal temperature, and washing the resin with DMF for 5 times;

(11) fmoc removal: adding 1.5mL of 20% piperidine DMF solution into the resin, reacting for 10 minutes at normal temperature, discarding the solution, adding 1.5mL of 20% piperidine DMF solution into the resin, reacting for 10 minutes at normal temperature, and washing the resin with DMF for 5 times;

(12) solid-phase splicing of amino acids: repeating the steps (9) to (11), condensing corresponding amino acids one by one in sequence until the N-terminal Pro solid phase assembly is completed, and removing the Fmoc group of the N-terminal Pro;

(13) n-terminal bromoacetylation reaction: weighing 32mg of bromoacetic acid (4.5eq), 52mg of Oxyma (4.5eq) and 56 μ L of DIC (4.5eq) and dissolving in 1.5mL of DMF, mixing uniformly and adding into a solid phase synthesis tube, reacting for 40 minutes in a metal bath at 55 ℃, washing the resin with DMF for 3 times and washing the resin with DCM for 3 times;

(14) cutting and precipitating resin: after drying the resin at room temperature for 5 minutes, 3mL of a prepared cleavage reagent (TFA: phenol: water: TIPS: 88:5:5:2, v/v) was added to the synthesis tube, and reacted at room temperature for 2 hours, followed by collection of TFA cleavage solution, precipitation with ethyl acetate 3 times, and centrifugation to obtain 44mg of crude peptide in total.

(15) Head-to-tail cyclization of the polypeptide: weighing 1mg of crude linear polypeptide product to dissolveAt 0.2mL of DMF/H₂O (2: 1, pH 8.0, with 1M NH₄HCO₃Adjustment) in the mixed solvent, shaking at normal temperature for 2 hours, and then analyzing by reverse phase liquid chromatography (mobile phase: A: 90% water + 10% acetonitrile + 0.1% TFA, B: 90% acetonitrile + 10% water + 0.1% TFA, volume ratio; flow rate 1.0mL/min, method (2 → 2 → 90 → 90 → 90B%), Time/min (0 → 2 → 30 → 35 → 40), to give the target cyclic peptide cyclo-1.

Example 2: the 2-chlorotrityl chloride resin is treated by 1, 6-hexanedithiol/1, 4-dibromomethylbenzene/2-aminoethanethiol to obtain a novel resin which is applied to the preparation of thioether bond-linked macrocyclic peptide cyclo-2.

The resin, the preparation method thereof and the specific synthetic process for preparing the head-tail cyclic peptide by using the resin comprise the following steps:

(2)1, 6-hexanedithiol treatment: 1, 6-hexanedithiol (10eq,121 μ L) was dissolved in 3mL of DCM and transferred to the acid treated resin and reacted for 10 min at ambient temperature, this procedure was repeated until the resin faded to light yellow and the resin was washed 4 times with DCM.

(3) MeOH blocking: to the resin was added 3mL of methanol blocking reagent (MeOH/DIEA/DCM, 0.4mL/0.2mL/2.4mL), reacted at room temperature for 30 minutes, and the resin was washed 4 times with DCM.

(7) Piperidine blocking resin: 3mL of 20% piperidine in DMF was added to the resin, and the reaction was carried out at room temperature for 30 minutes, and the resin was washed with DMF 5 times.

(15) Head-to-tail cyclization of the polypeptide: weighing 1mg of crude linear polypeptide dissolved in 0.2mL of DMF/H₂O (2: 1, pH 8.0, with 1M NH₄HCO₃Adjustment) in the mixed solvent, shaking at normal temperature for 2 hours, and then analyzing by reverse phase liquid chromatography (mobile phase: A: 90% water + 10% acetonitrile + 0.1% TFA, B: 90% acetonitrile + 10% water + 0.1% TFA, volume ratio; flow rate of flow1.0mL/min, method (2 → 2 → 90 → 90 → 90B%), Time/min (0 → 2 → 30 → 35 → 40), gives the target cyclic peptide cyclo-2.

Example 3: the 2-chlorotrityl chloride resin is treated by 1, 8-octanedithiol/1, 4-dibromomethylbenzene/2-aminoethanethiol to obtain a novel resin which is applied to the preparation of macrocyclic peptide cyclo-3 bonded with thioether bonds.

The resin, the preparation method thereof and the specific synthetic process for preparing the head-tail cyclic peptide by using the resin comprise the following steps:

(2)1, 8-octanedithiol treatment: 1, 8-octanedithiol (10eq,143 μ L) was dissolved in 3mL of DCM, transferred to the acid-treated resin, reacted for 10 minutes at ambient temperature, and the procedure was repeated until the resin faded to light yellow, and the resin was washed 4 times with DCM.

(3) MeOH blocking: to the resin was added 3mL of methanol blocking reagent (MeOH/DIEA/DCM, 0.4mL/0.2mL/2.4mL), reacted at room temperature for 30 minutes, and the resin was washed 4 times with DCM.

(7) Piperidine blocking resin: 3mL of 20% piperidine in DMF was added to the resin, and the reaction was carried out at room temperature for 30 minutes, and the resin was washed with DMF 5 times.

(15) Head-to-tail cyclization of the polypeptide: weighing 1mg of crude linear polypeptide dissolved in 0.2mL of DMF/H₂O (2: 1, pH 8.0, with 1M NH₄HCO₃Adjustment) in the mixed solvent, shaking at normal temperature for 2 hours, and then analyzing by reverse phase liquid chromatography (mobile phase: A: 90% water + 10% acetonitrile + 0.1% TFA, B: 90% acetonitrile + 10% water + 0.1% TFA, volume ratio; flow rate 1.0mL/min, method (2 → 2 → 90 → 90 → 90B%), Time/min (0 → 2 → 30 → 35 → 40), to give the target cyclic peptide cyclo-3.

Example 4: the novel resin is obtained by treating 2-chlorotrityl chloride resin with 1, 2-ethanedithiol/1, 4-dibromomethylbenzene/2-aminoethanethiol and is applied to the preparation of thioether bond-bonded macrocyclic peptide cyclo-4.

The resin, the preparation method thereof and the specific synthetic process for preparing the head-tail cyclic peptide by using the resin comprise the following steps:

(3) MeOH blocking: to the resin was added 3mL of methanol blocking reagent (MeOH/DIEA/DCM, 0.4mL/0.2mL/2.4mL), reacted at room temperature for 30 minutes, and the resin was washed 4 times with DCM.

(7) Piperidine blocking resin: 3mL of 20% piperidine in DMF was added to the resin, and the reaction was carried out at room temperature for 30 minutes, and the resin was washed with DMF 5 times.

(9) Condensation of amino acids: 107mg of Fmoc-Gly-OH (4.5eq), 52mg of Oxyma (4.5eq) and 56. mu.L of DIC (4.5eq) were dissolved in 1.5mL of DMF, mixed well and then added to a solid phase synthesis tube, the reaction was carried out for 40 minutes in a metal bath at 55 ℃, and the resin was washed 3 times with DMF;

(12) solid-phase splicing of amino acids: repeating the steps (9) to (11), condensing the corresponding amino acids one by one in sequence until the N-terminal Val solid phase assembly is completed, and removing the Fmoc group of the N-terminal Val;

Example 5: the novel resin is obtained by treating 2-chlorotrityl chloride resin with 1, 2-ethanedithiol/1, 3-dibromomethylbenzene/2-aminoethanethiol and is applied to the preparation of thioether bond-bonded macrocyclic peptide cyclo-5.

The resin, the preparation method thereof and the specific synthetic process for preparing the head-tail cyclic peptide by using the resin comprise the following steps:

(3) MeOH blocking: to the resin was added 3mL of methanol blocking reagent (MeOH/DIEA/DCM, 0.4mL/0.2mL/2.4mL), reacted at room temperature for 30 minutes, and the resin was washed 4 times with DCM.

(5) Bis (bromomethyl) benzene modified resin: the mixed solution of 1, 3-bis (bromomethyl) benzene/DIEA/DMF (108 mg/28. mu.L/2 mL) was added to the resin, reacted at room temperature for 1 hour, and the resin was washed 4 times with DMF.

(7) Piperidine blocking resin: 3mL of 20% piperidine in DMF was added to the resin, and the reaction was carried out at room temperature for 30 minutes, and the resin was washed with DMF 5 times.

(15) Head-to-tail cyclization of the polypeptide: weighing 1mg of the crude linear polypeptide dissolved in 0.2mL of DMSO (pH 8.0, with 1M NH)₄HCO₃Adjustment) in the mixed solvent, shaking at normal temperature for 2 hours, and then analyzing by reverse phase liquid chromatography (mobile phase: A: 90% water + 10% acetonitrile + 0.1% TFA, B: 90% acetonitrile + 10% water + 0.1% TFA, volume ratio; flow rate 1.0mL/min, method (2 → 2 → 90 → 90 → 90B%), Time/min (0 → 2 → 30 → 35 → 40), to give the target cyclic peptide cyclo-5. Example 6: the novel resin is obtained by treating 2-chlorotrityl chloride resin with 1, 2-ethanedithiol/1, 2-dibromomethylbenzene/2-aminoethanethiol and is applied to the preparation of thioether bond-bonded macrocyclic peptide cyclo-6.

The resin, the preparation method thereof and the specific synthetic process for preparing the head-tail cyclic peptide by using the resin comprise the following steps:

(3) MeOH blocking: to the resin was added 3mL of methanol blocking reagent (MeOH/DIEA/DCM, 0.4mL/0.2mL/2.4mL), reacted at room temperature for 30 minutes, and the resin was washed 4 times with DCM.

(5) Bis (bromomethyl) benzene modified resin: the mixed solution of 1, 2-bis (bromomethyl) benzene/DIEA/DMF (108 mg/28. mu.L/2 mL) was added to the resin, reacted at room temperature for 1 hour, and the resin was washed 4 times with DMF.

(7) Piperidine blocking resin: 3mL of 20% piperidine in DMF was added to the resin, and the reaction was carried out at room temperature for 30 minutes, and the resin was washed with DMF 5 times.

(15) Head-to-tail cyclization of the polypeptide: weighing 1mg of the crude linear polypeptide dissolved in 0.2mL of DMSO (pH 8.0, with 1M NH)₄HCO₃Adjustment) in the mixed solvent, shaking at normal temperature for 2 hours, and then analyzing by reverse phase liquid chromatography (mobile phase: A: 90% water + 10% acetonitrile + 0.1% TFA, B: 90% acetonitrile + 10% water + 0.1% TFA, volume ratio; flow rate 1.0mL/min, method (2 → 2 → 90 → 90 → 90B%), Time/min (0 → 2 → 30 → 35 → 40), to give the target cyclic peptide cyclo-6. Example 7: the 2-chlorotrityl chloride resin is treated by 1, 6-hexanedithiol/1, 4-dibromomethylbenzene/2-aminoethanethiol to obtain a novel resin which is applied to the preparation of thioether bond-linked macrocyclic peptide cyclo-7.

The resin, the preparation method thereof and the specific synthetic process for preparing the head-tail cyclic peptide by using the resin comprise the following steps:

(3) MeOH blocking: to the resin was added 3mL of methanol blocking reagent (MeOH/DIEA/DCM, 0.4mL/0.2mL/2.4mL), reacted at room temperature for 30 minutes, and the resin was washed 4 times with DCM.

(7) Piperidine blocking resin: 3mL of 20% piperidine in DMF was added to the resin, and the reaction was carried out at room temperature for 30 minutes, and the resin was washed with DMF 5 times.

(15) Head-to-tail cyclization of the polypeptide: weighing 1mg of the crude linear polypeptide dissolved in 0.2mL of DMSO (pH 8.0, with 1M NH)₄HCO₃Adjustment) in the mixed solvent, shaking at normal temperature for 2 hours, and then analyzing by reverse phase liquid chromatography (mobile phase: A: 90% water + 10% acetonitrile + 0.1% TFA, B: 90% acetonitrile + 10% water + 0.1% TFA, volume ratio; flow rate 1.0mL/min, method (2 → 2 → 90 → 90 → 90B%), Time/min (0 → 2 → 30 → 35 → 40), to give the target cyclic peptide cyclo-7. Example 8: the 2-chlorotrityl chloride resin is treated by 1, 6-hexanedithiol/1, 3-dibromomethylbenzene/2-aminoethanethiol to obtain a novel resin which is applied to the preparation of thioether bond-linked macrocyclic peptide cyclo-8.

The resin, the preparation method thereof and the specific synthetic process for preparing the head-tail cyclic peptide by using the resin comprise the following steps:

(3) MeOH blocking: to the resin was added 3mL of methanol blocking reagent (MeOH/DIEA/DCM, 0.4mL/0.2mL/2.4mL), reacted at room temperature for 30 minutes, and the resin was washed 4 times with DCM.

(7) Piperidine blocking resin: 3mL of 20% piperidine in DMF was added to the resin, and the reaction was carried out at room temperature for 30 minutes, and the resin was washed with DMF 5 times.

(15) Head-to-tail cyclization of the polypeptide: weighing 1mg of the crude linear polypeptide dissolved in 0.2mL of DMSO (pH 8.0, with 1M NH)₄HCO₃Adjustment) in the mixed solvent, shaking at normal temperature for 2 hours, and then analyzing by reverse phase liquid chromatography (mobile phase: A: 90% water + 10% acetonitrile + 0.1% TFA, B: 90% acetonitrile + 10% water + 0.1% TFA, volume ratio; flow rate 1.0mL/min, method (2 → 2 → 90 → 90 → 90B%), Time/min (0 → 2 → 30 → 35 → 40), to give the target cyclic peptide cyclo-8. Example 9: the 2-chlorotrityl chloride resin is treated by 1, 6-hexanedithiol/1, 2-dibromomethylbenzene/2-aminoethanethiol to obtain a novel resin which is applied to the preparation of thioether bond-linked macrocyclic peptide cyclo-9.

The resin, the preparation method thereof and the specific synthetic process for preparing the head-tail cyclic peptide by using the resin comprise the following steps:

(3) MeOH blocking: to the resin was added 3mL of methanol blocking reagent (MeOH/DIEA/DCM, 0.4mL/0.2mL/2.4mL), reacted at room temperature for 30 minutes, and the resin was washed 4 times with DCM.

(7) Piperidine blocking resin: 3mL of 20% piperidine in DMF was added to the resin, and the reaction was carried out at room temperature for 30 minutes, and the resin was washed with DMF 5 times.

(15) Head-to-tail cyclization of the polypeptide: weighing 1mg of the crude linear polypeptide dissolved in 0.2mL of DMSO (pH 8.0, with 1M NH)₄HCO₃Adjustment) in the mixed solvent, shaking at normal temperature for 2 hours, and then analyzing by reverse phase liquid chromatography (mobile phase: A: 90% water + 10% acetonitrile + 0.1% TFA, B: 90% acetonitrile + 10% water + 0.1% TFA, volume ratio; flow rate 1.0mL/min, method (2 → 2 → 90 → 90 → 90B%), Time/min (0 → 2 → 30 → 35 → 40), to give the target cyclic peptide cyclo-9. Examples10: the 2-chlorotrityl chloride resin is treated by 1, 8-octanedithiol/1, 4-dibromomethylbenzene/2-aminoethanethiol to obtain a novel resin which is applied to the preparation of macrocyclic peptide cyclo-10 bonded by thioether bonds.

The resin, the preparation method thereof and the specific synthetic process for preparing the head-tail cyclic peptide by using the resin comprise the following steps:

(3) MeOH blocking: to the resin was added 3mL of methanol blocking reagent (MeOH/DIEA/DCM, 0.4mL/0.2mL/2.4mL), reacted at room temperature for 30 minutes, and the resin was washed 4 times with DCM.

(7) Piperidine blocking resin: 3mL of 20% piperidine in DMF was added to the resin, and the reaction was carried out at room temperature for 30 minutes, and the resin was washed with DMF 5 times.

(15) Head-to-tail cyclization of the polypeptide: weighing 1mg of the crude linear polypeptide dissolved in 0.2mL of DMSO (pH 8.0, with 1M NH)₄HCO₃Adjustment) in the mixed solvent, shaking at normal temperature for 2 hours, and then analyzing by reverse phase liquid chromatography (mobile phase: A: 90% water + 10% acetonitrile + 0.1% TFA, B: 90% acetonitrile + 10% water + 0.1% TFA, volume ratio; flow rate 1.0mL/min, method (2 → 2 → 90 → 90 → 90B%), Time/min (0 → 2 → 30 → 35 → 40), to give the target cyclic peptide cyclo-10. Example 11: the 2-chlorotrityl chloride resin is treated by 1, 8-octanedithiol/1, 3-dibromomethylbenzene/2-aminoethanethiol to obtain a novel resin which is applied to the preparation of the macrocyclic peptide cyclo-11 bonded by thioether bonds.

The resin, the preparation method thereof and the specific synthetic process for preparing the head-tail cyclic peptide by using the resin comprise the following steps:

(3) MeOH blocking: to the resin was added 3mL of methanol blocking reagent (MeOH/DIEA/DCM, 0.4mL/0.2mL/2.4mL), reacted at room temperature for 30 minutes, and the resin was washed 4 times with DCM.

(7) Piperidine blocking resin: 3mL of 20% piperidine in DMF was added to the resin, and the reaction was carried out at room temperature for 30 minutes, and the resin was washed with DMF 5 times.

(15) Head-to-tail cyclization of the polypeptide: weighing 1mg of the crude linear polypeptide dissolved in 0.2mL of DMSO (pH 8.0, with 1M NH)₄HCO₃Adjustment) in the mixed solvent, shaking at normal temperature for 2 hours, and then analyzing by reverse phase liquid chromatography (mobile phase: A: 90% water + 10% acetonitrile + 0.1% TFA, B: 90% acetonitrile + 10% water + 0.1% TFA, volume ratio; flow rate 1.0mL/min, method (2 → 2 → 90 → 90 → 90B%), Time/min (0 → 2 → 30 → 35 → 40), to give the target cyclic peptide cyclo-11. Example 12: the 2-chlorotrityl chloride resin is treated by 1, 8-octanedithiol/1, 2-dibromomethylbenzene/2-aminoethanethiol to obtain a novel resin which is applied to the preparation of macrocyclic peptide cyclo-12 bonded by thioether bonds.

The resin, the preparation method thereof and the specific synthetic process for preparing the head-tail cyclic peptide by using the resin comprise the following steps:

(3) MeOH blocking: to the resin was added 3mL of methanol blocking reagent (MeOH/DIEA/DCM, 0.4mL/0.2mL/2.4mL), reacted at room temperature for 30 minutes, and the resin was washed 4 times with DCM.

(7) Piperidine blocking resin: 3mL of 20% piperidine in DMF was added to the resin, and the reaction was carried out at room temperature for 30 minutes, and the resin was washed with DMF 5 times.

(15) Head-to-tail cyclization of the polypeptide: weighing 1mg of the crude linear polypeptide dissolved in 0.2mL of DMSO (pH 8.0, with 1M NH)₄HCO₃Adjustment) in the mixed solvent, shaking at normal temperature for 2 hours, and then analyzing by reverse phase liquid chromatography (mobile phase: A: 90% water + 10% acetonitrile + 0.1% TFA, B: 90% acetonitrile + 10% water + 0.1% TFA, volume ratio; flow rate 1.0mL/min, method (2 → 2 → 90 → 90 → 90B%), Time/min (0 → 2 → 30 → 35 → 40), to give the target cyclic peptide cyclo-12. Example 13: the novel resin is obtained by treating 2-chlorotrityl chloride resin with 3, 6-dioxa-1, 8 octane dithiol/1, 4-dibromomethylbenzene/2-aminoethanethiol, and is applied to the preparation of thioether-bond-bonded macrocyclic peptide cyclo-13.

The resin, the preparation method thereof and the specific synthetic process for preparing the head-tail cyclic peptide by using the resin comprise the following steps:

(2)3, 6-dioxa-1, 8 octane dithiol treatment: 3, 6-dioxa-1, 8 octane dithiol (10eq, 135. mu.L) was dissolved in 3mL of DCM, transferred to the acid-treated resin, reacted for 10 minutes at normal temperature, and the procedure was repeated until the resin was faded to pale yellow and the resin was washed 4 times with DCM.

(3) MeOH blocking: to the resin was added 3mL of methanol blocking reagent (MeOH/DIEA/DCM, 0.4mL/0.2mL/2.4mL), reacted at room temperature for 30 minutes, and the resin was washed 4 times with DCM.

(7) Piperidine blocking resin: 3mL of 20% piperidine in DMF was added to the resin, and the reaction was carried out at room temperature for 30 minutes, and the resin was washed with DMF 5 times.

(15) Head-to-tail cyclization of the polypeptide: weighing 1mg of the crude linear polypeptide dissolved in 0.2mL of DMSO (pH 8.0, with 1M NH)₄HCO₃Adjustment) in the mixed solvent, shaking at normal temperature for 2 hours, and then analyzing by reverse phase liquid chromatography (mobile phase: A: 90% water + 10% acetonitrile + 0.1% TFA, B: 90% acetonitrile + 10% water + 0.1% TFA, volume ratio; flow rate 1.0mL/min, method (2 → 2 → 90 → 90 → 90B%), Time/min (0 → 2 → 30 → 35 → 40), to give the target cyclic peptide cyclo-13. Example 14: the novel resin is obtained by treating 2-chlorotrityl chloride resin with 3, 6-dioxa-1, 8 octane dithiol/1, 3-dibromomethylbenzene/2-aminoethanethiol, and is applied to the preparation of thioether-bond-bonded macrocyclic peptide cyclo-14.

The resin, the preparation method thereof and the specific synthetic process for preparing the head-tail cyclic peptide by using the resin comprise the following steps:

(3) MeOH blocking: to the resin was added 3mL of methanol blocking reagent (MeOH/DIEA/DCM, 0.4mL/0.2mL/2.4mL), reacted at room temperature for 30 minutes, and the resin was washed 4 times with DCM.

(7) Piperidine blocking resin: 3mL of 20% piperidine in DMF was added to the resin, and the reaction was carried out at room temperature for 30 minutes, and the resin was washed with DMF 5 times.

(15) Head-to-tail cyclization of the polypeptide: weighing 1mg of the crude linear polypeptide dissolved in 0.2mL of DMSO (pH 8.0, with 1M NH)₄HCO₃Adjustment) in the mixed solvent, shaking at normal temperature for 2 hours, and then analyzing by reverse phase liquid chromatography (mobile phase: A: 90% water + 10% acetonitrile + 0.1% TFA, B: 90% acetonitrile + 10% water + 0.1% TFA, volume ratio; flow rate 1.0mL/min, method (2 → 2 → 90 → 90 → 90B%), Time/min (0 → 2 → 30 → 35 → 40), to give the target cyclic peptide cyclo-14. Example 15: the novel resin is obtained by treating 2-chlorotrityl chloride resin with 3, 6-dioxa-1, 8 octane dithiol/1, 2-dibromomethylbenzene/2-aminoethanethiol, and is applied to the preparation of thioether-bond-bonded macrocyclic peptide cyclo-15.

The resin, the preparation method thereof and the specific synthetic process for preparing the head-tail cyclic peptide by using the resin comprise the following steps:

(3) MeOH blocking: to the resin was added 3mL of methanol blocking reagent (MeOH/DIEA/DCM, 0.4mL/0.2mL/2.4mL), reacted at room temperature for 30 minutes, and the resin was washed 4 times with DCM.

(7) Piperidine blocking resin: 3mL of 20% piperidine in DMF was added to the resin, and the reaction was carried out at room temperature for 30 minutes, and the resin was washed with DMF 5 times.

(15) Head-to-tail cyclization of the polypeptide: weighing 1mg of the crude linear polypeptide dissolved in 0.2mL of DMSO (pH 8.0, with 1M NH)₄HCO₃Conditioning) mixed solvent, shaking for 2 hours at normal temperature, and then performing reversed phase liquid chromatographyAnalysis was performed (mobile phase A: 90% water + 10% acetonitrile + 0.1% TFA, B: 90% acetonitrile + 10% water + 0.1% TFA, volume ratio; flow rate 1.0mL/min, method (2 → 2 → 90 → 90 → 90B%), Time/min (0 → 2 → 30 → 35 → 40) to obtain the target cyclic peptide cyclo-15.

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Resin, preparation method thereof and application thereof in preparation of head-tail cyclic peptide

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