Synthesis, Anticancer Activities, and Mechanism of N-Heptyl-Containing Biguanide Derivatives.

BACKGROUND In recent years, the anticancer effects of biguanide drugs have received considerable attention. However, the effective concentration of biguanide drugs to kill cancer cells is relative high. Thus, we focus on structural modification of biguanides to obtain better antitumor candidates. Previous study in our laboratory has found that a biguanide compound containing n-heptyl group has the potent anticancer activity. However, the effect of different substituents on the benzene ring side of the biguanides on the anti-proliferative activity is unknown. OBJECTIVE A series of n-heptyl-containing biguanide derivatives whose benzene rings were modified by halogen substitution based on the intermediate derivatization method were further synthesized to find new compounds with improved antiproliferative activities. METHOD Ten n-heptyl-containing biguanide derivatives were synthesized via established chemical procedures. The activities of these derivatives were explored by MTT assay, clonogenic assay, and scratch assay. The protein levels were detected via Western blotting to explore the mechanisms underlying. RESULTS The optimal biguanide derivatives 10a-10c, 11d exhibited IC50 values of 2.21-9.59µΜ for five human cancer cell lines, significantly better than the control drug proguanil. The results of clonogenic and scratch wound healing assays also confirmed the inhibitory effects of derivatives 10a-10c, 11d on the proliferation and migration of human cancer cell lines. Western blot results demonstrated that one representative derivative, 10c upregulates AMPK signal pathway and downregulates mTOR/4EBP1/p70S6K. CONCLUSION All biguanide derivatives containing n-heptyl group are more active than proguanil, indicating that the modification of n-heptyl-containing biguanide derivatives provides a novel approach for the development of novel high efficient antitumor drugs.

• Publication year

  2022

• Venue

  Medicinal chemistry

• Publication date

  2022-02-10

• Fields of study

  Medicine, Chemistry

• Identifiers
  DOI 10.2174/1573406418666220210111458PMID 35142271
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar, PubMed

• No claims are published for this paper.

• No concepts are published for this paper.

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