双芳基环化技术在合成具有高度灵活性的环状脑啡肽类似物中的应用。

IF 3 3区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Amino Acids Pub Date : 2024-03-01 DOI:10.1007/s00726-023-03371-5

Maria Różanowska, Gabriela Szczupaj, Michał Nowakowski, Priyadharshni Rajagopal, Piotr F J Lipiński, Joanna Matalińska, Aleksandra Misicka, Marek Lisowski, Łukasz Jaremko, Mariusz Jaremko

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引用次数: 0

摘要

根据 Miyaura 玻里化和铃木偶联方法，合成了一系列 10 个环状双芳基脑啡肽类似物，其 1 和 4 位分别含有 Tyr 或 Phe 残基。由两个芳香族氨基酸残基侧链形成的双键桥具有元-元、元-对位、对-元和对-对位构型。多肽的构象特性通过 CD 和 NMR 进行了研究。CD 研究只能比较单个肽的构象，而 NMR 研究和 XPLOR 计算则提供了有关肽构象的详细信息。对其中一种类似物进行的量子化学计算证实了 XPLOR 计算的可靠性。在所有肽中都没有发现分子内氢键。它们折叠后呈 IV 型 β 转构象。由于存在较大的立体应变，形成双芳键的芳香碳原子明显呈金字塔形。体外测试了其中七种肽对μ-阿片受体的亲和力。

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Applications of biaryl cyclization in the synthesis of cyclic enkephalin analogs with a highly restricted flexibility.

A series of 10 cyclic, biaryl analogs of enkephalin, with Tyr or Phe residues at positions 1 and 4, were synthesized according to the Miyaura borylation and Suzuki coupling methodology. Biaryl bridges formed by side chains of the two aromatic amino acid residues are of the meta-meta, meta-para, para-meta, and para-para configuration. Conformational properties of the peptides were studied by CD and NMR. CD studies allowed only to compare conformations of individual peptides while NMR investigations followed by XPLOR calculations provided detailed information on their conformation. Reliability of the XPLOR calculations was confirmed by quantum chemical ones performed for one of the analogs. No intramolecular hydrogen bonds were found in all the peptides. They are folded and adopt the type IV β-turn conformation. Due to a large steric strain, the aromatic carbon atoms forming the biaryl bond are distinctly pyramidalized. Seven of the peptides were tested in vitro for their affinity for the µ-opioid receptor.

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来源期刊

Amino Acids 生物-生化与分子生物学

CiteScore

6.40

自引率

5.70%

发文量

审稿时长

2.2 months

期刊介绍： Amino Acids publishes contributions from all fields of amino acid and protein research: analysis, separation, synthesis, biosynthesis, cross linking amino acids, racemization/enantiomers, modification of amino acids as phosphorylation, methylation, acetylation, glycosylation and nonenzymatic glycosylation, new roles for amino acids in physiology and pathophysiology, biology, amino acid analogues and derivatives, polyamines, radiated amino acids, peptides, stable isotopes and isotopes of amino acids. Applications in medicine, food chemistry, nutrition, gastroenterology, nephrology, neurochemistry, pharmacology, excitatory amino acids are just some of the topics covered. Fields of interest include: Biochemistry, food chemistry, nutrition, neurology, psychiatry, pharmacology, nephrology, gastroenterology, microbiology