Combination of Metformin with Chemotherapeutic Drugs Via Different Molecular Mechanisms

Overview

Journal Cancer Treat Rev

Publisher Elsevier

Specialty Oncology

Date 2017 Feb 6

PMID 28161619

Citations 45

Authors

Mei Peng

Kwame Oteng Darko

Ting Tao

Yanjun Huang

Qiongli Su

Caimei He

Tao Yin

Zhaoqian Liu

Xiaoping Yang

Affiliations

Soon will be listed here.

Abstract

Metformin, a widely prescribed drug for treating type II diabetes, is one of the most extensively recognized metabolic modulators which has shown an important anti-cancer property. However, fairly amount of clinical trials on its single administration have not demonstrated a convincing efficiency yet. Thus, recent studies tend to combine metformin with clinical commonly used chemotherapeutic drugs to decrease their toxicity and attenuate their tumor resistance. These strategies have displayed promising clinical benefits. Interestingly, metformin experiences a diversity of molecular mechanisms when it combines different chemotherapeutic drugs. For example, AMPK/mTOR signaling pathway activation plays a major role when it combines with hormone modulating drugs. In contrast, suppression of HIF-1, p-gp and MRP1 protein expression is its main mechanism when metformin combines with anti-metabolites. Furthermore, when combining of metformin with antibiotics, inhibition of oxidative stress and inflammatory signaling pathway becomes a novel pharmaceutical mechanism for its cardio-protective effect. Induction of apoptotic mitochondria and nucleus could be the major player for the synergistic effect of its combination with cisplatin. In contrast, down-regulation of lipoprotein or cholesterol synthesis might be the undefined molecular base when metformin combines with taxane. Thus, deep exploration of molecular mechanisms of metformin with these different drugs is critical to understand its synergistic effect and help for personalized administration. In this mini-review, detailed molecular mechanisms of these combinations are discussed and summarized. This work will promote better understanding of molecular mechanisms of metformin and provide precise targets to identify specific patient groups to achieve satisfactory treatment efficacy.

Citing Articles

Activation of the LKB1/AMPK/HIF-1α Pathway by Metformin to Promote Neovascularisation in Cerebral Ischaemia.

Chen H, Yuan Y, Zhang Y, Liu X, Chen Q, Liu C Neurochem Res. 2024; 49(12):3263-3276.

PMID: 39240424 DOI: 10.1007/s11064-024-04235-4.

Metformin induces autophagy of cisplatin-resistant human gastric cancer cells in addition to apoptosis.

Fang C, Yang J, Chiang J, Shieh P, Tsai F, Tsai C Biomedicine (Taipei). 2023; 13(2):14-23.

PMID: 37937302 PMC: 10627204. DOI: 10.37796/2211-8039.1408.

Current perspectives and trends in nanoparticle drug delivery systems in breast cancer: bibliometric analysis and review.

Sun S, Wang Y, Gao X, Wang H, Zhang L, Wang N Front Bioeng Biotechnol. 2023; 11:1253048.

PMID: 37771575 PMC: 10523396. DOI: 10.3389/fbioe.2023.1253048.

The development and benefits of metformin in various diseases.

Dong Y, Qi Y, Jiang H, Mi T, Zhang Y, Peng C Front Med. 2023; 17(3):388-431.

PMID: 37402952 DOI: 10.1007/s11684-023-0998-6.

Synergistic Effect of Metformin and Lansoprazole Against Gastric Cancer through Growth Inhibition.

Kao H, Tsai K, Lin W Int J Med Sci. 2023; 20(6):717-724.

PMID: 37213670 PMC: 10198141. DOI: 10.7150/ijms.82407.