Metformin revert insulin‐induced oxaliplatin resistance by activating mitochondrial apoptosis pathway in human colon cancer HCT116 cells

Liu, Chao; Liu, Qianqian; Yan, Aiwen; Chang, Hui; Ding, Yuyin; Tao, Junye; Qiao, Chun‐Feng

doi:10.1002/cam4.3029

Cited by 20 publications

(18 citation statements)

References 19 publications

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“…In human cancer cells, metformin inhibited the complex I activity of mitochondrial and cellular respiration, which is regulated by glucose. [ 42 ] Complexes I and III are the main source of ROS production in the mitochondria. Recent studies have emphasized the development of therapeutic strategies that are based on modulation of ROS levels to treat cancer.…”

Section: Discussionmentioning

confidence: 99%

Cytotoxicity of metformin against HT29 colon cancer cells contributes to mitochondrial Sirt3 upregulation

Khodaei

Hosseini

Omidi

et al. 2020

J Biochem & Molecular Tox

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Cancer and diabetes, the two mitochondria‐related diseases, have recently been linked to silent mating‐type information regulation 2 homolog 3 (SIRT3) activity irregularities. In this study, the effect of metformin, an antidiabetic with anticancer properties, has been evaluated on mitochondrial functionality markers, cell death pathways, and SIRT3 enzyme activity in the colon cancer cell line, HT‐29, and human embryonic kidney cells (HEK 293). HT‐29 cells were treated with metformin (5, 10, 20, 40, and 80 µM) for 24, 48, and 72 h for measuring the IC50 concentration. Reactive oxygen species (ROS) production, apoptosis, mitochondrial membrane potential, SIRT3 activity, and expression were evaluated against the colon cancer cell line, HT‐29. Results indicated a higher ROS production at 6 than 12 h with metformin treatment. Metformin modified the mitochondrial membrane potential, resulting in cell death induction. Results from SIRT3 activity and expression showed that metformin increased its activity and expression in cancer cells. In conclusion, metformin in HT‐29 cells disturbed the mitochondrial activity via increased ROS levels and SIRT3 activity, and these rapid modifications may play a key role in its cytotoxic property.

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Section: Discussionmentioning

confidence: 99%

Cytotoxicity of metformin against HT29 colon cancer cells contributes to mitochondrial Sirt3 upregulation

Khodaei

Hosseini

Omidi

et al. 2020

J Biochem & Molecular Tox

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“…Recently, several computational tools and resources have enabled annotating specific P-site as a known drug target (Krug et al, 2019) or correlating the P-site abundance (Abelin et al, 2016; Dele-Oni et al, 2021; Litichevskiy et al, 2018) with drug sensitivity across cell line panels (Frejno et al, 2020). Furthermore, metformin has shown synergistic effects with CRC genotoxic chemotherapy in vitro ( Khader et al ., 2021; Liu et al, 2020; Richard and Martinez Marignac, 2015; Sang et al ., 2020). Therefore, we asked whether we could leverage the metformin phosphoproteomic signatures we discovered to predict the metformin-drug interactions in CRC.…”

Section: Resultsmentioning

confidence: 99%

“…Furthermore, metformin has shown synergistic effects with CRC genotoxic chemotherapy in vitro (Khader et al, 2021;Liu et al, 2020;Richard and Martinez Marignac, 2015;Sang et al, 2020). Therefore, we asked whether we could leverage the metformin phosphoproteomic signatures we discovered to predict the metformin-drug interactions in CRC.…”

Section: Leveraging the Metformin Signature To Predict Novel Metformi...mentioning

confidence: 99%

Deep Phosphoproteomic Elucidation of Metformin-Signaling in Heterogenous Colorectal Cancer Cells

Šalovská

Gao

Müller‐Dott

et al. 2022

Preprint

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The biguanide drug metformin is a safe and widely prescribed drug for type 2 diabetes. Interestingly, hundreds of clinical trials were set to evaluate the potential role of metformin in the prevention and treatment of cancer including colorectal cancer (CRC). To interrogate cell signaling events and networks in CRC and explore the druggability of the metformin-rewired phosphorylation network, we performed a proteomic and phosphoproteomic analysis on a panel of 12 molecularly heterogeneous CRC cell lines. Using in-depth data-independent analysis mass spectrometry (DIA-MS), we profiled a total of 10,142 proteins and 56,080 phosphosites (P-sites) in CRC cells treated with metformin for 30 minutes and 24 hours. Our results indicate that metformin does not directly trigger or inhibit any immediate phosphorylation events. Instead, it primarily remodels cell signaling in the long-term. Strikingly, the phosphorylation response to metformin was highly heterogeneous in the CRC panel, uncovering four groups of metformin responsivity. We further performed a network analysis to systematically estimate kinase/phosphatase activities and reconstruct signaling cascades in each cell line. We created a 'MetScore' which catalogs the most consistently perturbed P-sites among CRC cells for future studies. Finally, we leveraged the metformin P-site signature to identify pharmacodynamic interactions revealing a number of candidate metformin-interacting drugs. Together, we provide a data resource using state-of-the-art phosphoproteomics to understand the metformin-induced cell signaling for potential cancer therapeutics.

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“…In addition, as an increased IDacT resulted in poor survival, some approaches could be used to minimize its impact on survival or decrease its incidence based on our aforementioned reasons. For example, metformin (a classical agent for the treatment of diabetes mellitus) could be used to control the fluctuation of glucose and it was also found to be effective in reversing insulin-induced oxaliplatin resistance in human colon cancer HCT-116 cells [ 42 ]; and clinically, metformin was demonstrated to be helpful in improving OS in stage II-III CRC in adjuvant settings [ 43 , 44 ]. In addition, for CRHT, a recent study indicated that administration of pegfilgrastim on the same day as capecitabine-based chemotherapy in gastrointestinal cancers was safe, as it did not require dose reductions or cause a chemotherapy delay [ 45 ].…”

Section: Discussionmentioning

confidence: 99%

Irregular delay of adjuvant chemotherapy correlated with poor outcome in stage II-III colorectal cancer

Chen

et al. 2022

BMC Cancer

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Aims Adjuvant chemotherapy (ACT) plays an important role in improving the survival of stage II-III colorectal cancer (CRC) patients after curative surgery. However, the prognostic role of irregular delay of ACT (IDacT) for these patients has been less studied. Materials and methods A total of 117 stage II-III CRC patients who underwent radical resection and received at least 3 months ACT were enrolled retrospectively. The significance of IDacT, including total delay (TD) and delay per cycle (DpC), in predicting disease-free survival (DFS) was determined using receiver operating characteristic curve (ROC) analysis. The survival differences between the TD, DpC-short and DpC-long subgroups were tested using Kaplan–Meier analysis, and risk factors for prognosis were determined using a Cox proportional hazards model. Results Using 35.50 and 3.27 days as the optimal cut-off points for TD and DpC, respectively, ROC analysis revealed that TD and DpC had sensitivities of 43.60% and 59.00% and specificities of 83.30% and 62.80%, respectively, in predicting DFS (both P < 0.05). No differences in the clinicopathological parameters were found between the TD, DpC-short or -long subgroups except histological differentiation in different TD subgroups and combined T stages in different DpC subgroups (both P = 0.04). Patients in the TD or DpC-long group exhibited significantly worse survival than in the -short group (TD: Log rank = 9.11, P < 0.01; DpC: Log rank = 6.09, P = 0.01). DpC was an independent risk factor for prognosis (HR = 2.54, 95% CI: 1.32–4.88, P = 0.01). Conclusions IDacT had a profound effect on the outcome for stage II-III CRC. Although TD and DpC were significant for the prognosis, DpC was more robust, and patients who presented DpC for a long time had a significantly worse DFS.

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Metformin revert insulin‐induced oxaliplatin resistance by activating mitochondrial apoptosis pathway in human colon cancer HCT116 cells

Cited by 20 publications

References 19 publications

Cytotoxicity of metformin against HT29 colon cancer cells contributes to mitochondrial Sirt3 upregulation

Cytotoxicity of metformin against HT29 colon cancer cells contributes to mitochondrial Sirt3 upregulation

Deep Phosphoproteomic Elucidation of Metformin-Signaling in Heterogenous Colorectal Cancer Cells

Irregular delay of adjuvant chemotherapy correlated with poor outcome in stage II-III colorectal cancer

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