Design, synthesis, inhibitory activity, and molecular simulations study for d-glucose-conjugated thioureas containing pyrimidine ring as multitarget inhibitors against α-amylase, α-glucosidase, DDP-4, and PTP1B in Type 2 diabetes mellitus†

IF 3.597 Q2 Pharmacology, Toxicology and Pharmaceutics

MedChemComm Pub Date : 2024-06-28 DOI:10.1039/D4MD00334A

Vu Ngoc Toan, Do Son Hai, Hoang Thi Kim Van, Nguyen Minh Tri, Duong Ngoc Toan, Nguyen Thi Thanh Mai and Nguyen Dinh Thanh

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Abstract

A series of tetra-O-acetyl-α-D-glucopyranosyl thioureas 8a–l of substituted 2-aminopyrimidines 4a–l have been designed and synthesized. The latter were prepared from corresponding chalcones 3a–l of p-bromoacetophenone and appropriate substituted benzaldehydes by their reaction with guanidine. The target thiourea compounds 8a–l exhibited significant inhibitory activity in vitro against enzymes that were related to type 2 diabetes mellitus, including α-amylase, α-glucosidase, DPP-4, and PTP1B. Amongst these thioureas, compound 8k with an ortho-methoxy group was the most potential enzyme inhibitor against α-amylase with an IC₅₀ value of 9.72 ± 0.34 μM. Its meta-isomer 8j was the strongest inhibitor against α-glucosidase with IC₅₀ = 9.73 ± 0.72 μM. In the inhibition against DPP-4, compound 8f with a para-bromo substituent exhibited the strongest activity with an IC₅₀ value of 2.53 ± 0.03 nM. In the inhibition against PTP1B, compound 8h with a para-isopropyl substituent had the strongest inhibitory activity with an IC₅₀ value of 2.74 ± 0.03 μM. The enzyme kinetics of the most active compounds, including 8j, 8f and 8h against α-glucosidase, DPP-4, and PTP1B, respectively, were studied. The obtained results showed that 8j was a competitive α-glucosidase inhibitor with an inhibitory constant K_I value of 9.31 μM. Compound 8f was a non-competitive inhibitor for DDP-4 with an inhibitory constant K_I value of 12.57 μM. Compound 8h was also a non-competitive inhibitor for DDP-4 with an inhibitory constant K_I value of 12.41 μM. The cytotoxicity of the most active compounds, including 8f and 8k (against α-amylase), 8i and 8j (against α-glucosidase), 8a, 8f, and 8g (against DPP-4), and 8d, 8f, and 8h (against PTP1B) was screened. The obtained cytotoxicity showed that all tested inhibitors were noncytotoxic to human normal cell line 3T3. Induced fit docking simulations of all synthesized compounds 8a–l were performed on four enzymes 4W93 (for α-amylase), 3TOP (for α-glucosidase), 3W2T (for DPP-4), and 1NNY (for PTP1B). Key interactions of each of these ligands with residues in the active pocket of each studied enzyme have been shown.

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含嘧啶环的 d-葡萄糖共轭硫脲类化合物作为 2 型糖尿病中 α-淀粉酶、α-葡萄糖苷酶、DDP-4 和 PTP1B 的多靶点抑制剂的设计、合成、抑制活性和分子模拟研究。

我们设计并合成了一系列取代 2-氨基嘧啶 4a-l 的四-O-乙酰基-α-d-吡喃葡萄糖基硫脲类化合物 8a-l。后者是由对溴苯乙酮的相应查耳酮 3a-l 和适当的取代苯甲醛与胍反应制备的。目标硫脲化合物 8a-l 在体外对与 2 型糖尿病有关的酶（包括 α-淀粉酶、α-葡萄糖苷酶、DPP-4 和 PTP1B）具有显著的抑制活性。在这些硫脲类化合物中，带有正交甲氧基的化合物 8k 是对α-淀粉酶最有潜力的酶抑制剂，其 IC50 值为 9.72 ± 0.34 μM。它的元异构体 8j 是对α-葡萄糖苷酶最强的抑制剂，IC50 = 9.73 ± 0.72 μM。在对 DPP-4 的抑制作用中，具有对溴取代基的化合物 8f 的活性最强，其 IC50 值为 2.53 ± 0.03 nM。在对 PTP1B 的抑制作用中，具有对位异丙基取代基的化合物 8h 具有最强的抑制活性，其 IC50 值为 2.74 ± 0.03 μM。研究了最有效化合物（包括 8j、8f 和 8h）分别对 α-葡萄糖苷酶、DPP-4 和 PTP1B 的酶动力学。结果表明，8j 是一种竞争性的 α-葡萄糖苷酶抑制剂，其抑制常数 K I 值为 9.31 μM。化合物 8f 对 DDP-4 是一种非竞争性抑制剂，其抑制常数 K I 值为 12.57 μM。化合物 8h 对 DDP-4 也是一种非竞争性抑制剂，其抑制常数 K I 值为 12.41 μM。筛选了最有活性化合物的细胞毒性，包括 8f 和 8k（针对 α-淀粉酶）、8i 和 8j（针对 α-葡萄糖苷酶）、8a、8f 和 8g（针对 DPP-4）以及 8d、8f 和 8h（针对 PTP1B）。细胞毒性结果表明，所有测试的抑制剂对人类正常细胞株 3T3 均无细胞毒性。对 4W93（针对 α-淀粉酶）、3TOP（针对 α-葡萄糖苷酶）、3W2T（针对 DPP-4）和 1NNY（针对 PTP1B）四种酶进行了所有合成化合物 8a-l 的诱导拟合对接模拟。这些配体与所研究的每种酶的活性袋中的残基之间的关键相互作用都已显示出来。

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来源期刊

MedChemComm BIOCHEMISTRY & MOLECULAR BIOLOGY-CHEMISTRY, MEDICINAL

CiteScore

4.70

自引率

0.00%

发文量

审稿时长

2.2 months

期刊介绍： Research and review articles in medicinal chemistry and related drug discovery science; the official journal of the European Federation for Medicinal Chemistry. In 2020, MedChemComm will change its name to RSC Medicinal Chemistry. Issue 12, 2019 will be the last issue as MedChemComm.