Metformin and Everolimus: A Promising Combination for Neuroendocrine Tumors Treatment

Vitali, Eleonora; Boemi, Ilena; Tarantola, Giulia; Piccini, Sara; Zerbi, Alessandro; Veronesi, Giulia; Baldelli, Roberto; Mazziotti, Gherardo; Smiroldo, Valeria; Lavezzi, Elisabetta; Spada, Anna; Mantovani, Giovanna; Lania, Andrea

doi:10.3390/cancers12082143

Cited by 16 publications

(17 citation statements)

References 44 publications

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“…Water-soluble rapamycin analogues (temsirolimus and everolimus), ATP-competitive mTOR inhibitors (MLN0128, PP242, AZD2014 and AZD8055), and dual PI3K/mTOR inhibitors (NVP-BEZ235, LY3023414, SAR245409, XL765, PQR309, XH00230381967, SN20229799306, GSK2126458, and PKI-587) have been used to treat multiple cancers [101] . Although the antitumour effect of mTOR inhibitor monotherapy alone was limited, the combination of mTOR inhibition and other treatments, such as anti-PD-1 antibody or metformin, had synergistic antitumour activity [ 102 , 103 ]. These synergistic effects of targeting mTOR pathway and inhibiting glycolysis have also been reported in several cancers, including lymphoma, leukaemia, and colorectal cancer [ 104 , 105 ].…”

Section: Lactate In the Tmementioning

confidence: 99%

Lactate in the tumour microenvironment: From immune modulation to therapy

et al. 2021

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Disordered metabolic states, which are characterised by hypoxia and elevated levels of metabolites, particularly lactate, contribute to the immunosuppression in the tumour microenvironment (TME). Excessive lactate secreted by metabolism-reprogrammed cancer cells regulates immune responses via causing extracellular acidification, acting as an energy source by shuttling between different cell populations, and inhibiting the mechanistic (previously 'mammalian') target of rapamycin (mTOR) pathway in immune cells. This review focuses on recent advances in the regulation of immune responses by lactate, as well as therapeutic strategies targeting lactate anabolism and transport in the TME, such as those involving glycolytic enzymes and monocarboxylate transporter inhibitors. Considering the multifaceted roles of lactate in cancer metabolism, a comprehensive understanding of how lactate and lactate-targeting therapies regulate immune responses in the TME will provide insights into the complex relationships between metabolism and antitumour immunity.

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Section: Lactate In the Tmementioning

confidence: 99%

Lactate in the tumour microenvironment: From immune modulation to therapy

et al. 2021

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“…The first study (MetNet1, NCT02294006), is a prospective, open-label, single-arm trial in which patients with advanced panNETs will receive metformin in combination with first-line somatostatin analogs and everolimus, and the second (MetNet2, NCT02823691) is a pilot, single-arm, open-label, prospective study investigating the safety profile of upfront metformin in combination with lanreotide in patients with advanced well-differentiated gastrointestinal and lung NETs [ 24 ]. In both studies, patients without DM taking metformin are included, based on published preclinical data indicating that metformin also produces direct (cell-autonomous) antitumor effects, independent of glucose extracellular concentration [ 25 , 26 ].…”

Section: Discussionmentioning

confidence: 99%

Impact of Diabetes and Metformin Use on Enteropancreatic Neuroendocrine Tumors: Post Hoc Analysis of the CLARINET Study

Pusceddu

Vernieri

Maïo

et al. 2021

Cancers

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The prognostic role of diabetes mellitus (DM) in advanced enteropancreatic neuroendocrine tumors (NETs) is unclear. Progression free survival (PFS) was assessed in post-hoc analyses of the 96-week, phase III, double-blind, placebo-controlled CLARINET study of lanreotide 120 mg in patients with advanced non-functional enteropancreatic NETs with DM (with/without metformin) and without DM. Of 204 patients, there were 79 with DM (lanreotide, n = 42 {metformin, n = 14}; placebo, n = 37 {metformin, n = 10}) and 125 without DM (lanreotide, n = 59; placebo, n = 66). Median PFS was 96.0 and 98.0 weeks with and without DM, respectively (hazard ratio 1.20 {95% confidence interval 0.79 to 1.82}; p = 0.380). No difference in PFS was observed in lanreotide-treated patients with/without DM (p = 0.8476). In the placebo group, median PFS was numerically shorter with versus without DM (p = 0.052) and was significantly longer in patients with DM and metformin (85.7 weeks) versus without metformin (38.7 weeks; p = 0.009). Multivariable Cox analyses showed that DM at baseline was not associated with PFS (p = 0.079); lanreotide was significantly associated with lower disease progression risk (p = 0.017). Lanreotide efficacy was confirmed in patients with advanced enteropancreatic NETs, regardless of diabetic status; DM was not a negative prognostic factor. A potential antitumor effect of metformin was observed in patients receiving placebo.

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“…Metformin inhibited the cellular proliferation of neuroendocrine tumor cells of different origins and reduced cell viability in two pNET cell lines (BON-1 and QPG-1). Actually, the effective metformin concentrations in cell growth media exceeded the plasma metformin levels reached in patients treated with safe dosages, just as in studies with pituitary tumor cell cultures [ 13 , 187 , 246 , 247 , 248 , 249 ].…”

Section: Metformin Actions On Pituitary Tumor Cells and Gastroenteropancreatic Neuroendocrine Tumor Cellsmentioning

confidence: 99%

“…Finally, in QPG-1 cells, metformin was shown to upregulate the aryl hydrocarbon receptor-interacting protein (AIP). The outcome of AIP silencing in these cells, suggest the involvement of this factor in the antitumorigenic effect of metformin, which is again related to the mTOR pathway downregulation [ 248 , 249 ].…”

Section: Metformin Actions On Pituitary Tumor Cells and Gastroenteropancreatic Neuroendocrine Tumor Cellsmentioning

confidence: 99%

“…Indeed, Vitali and coworkers showed that the combined treatment was more effective than monotherapy in inhibiting pNET cells in vitro. Moreover, the authors also developed a model of everolimus-resistant cells and proved that metformin maintained its effects in these cells [ 248 ].…”

Section: Metformin Actions On Pituitary Tumor Cells and Gastroenteropancreatic Neuroendocrine Tumor Cellsmentioning

confidence: 99%

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Integrated or Independent Actions of Metformin in Target Tissues Underlying Its Current Use and New Possible Applications in the Endocrine and Metabolic Disorder Area

Tulipano

2021

IJMS

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Metformin is considered the first-choice drug for type 2 diabetes treatment. Actually, pleiotropic effects of metformin have been recognized, and there is evidence that this drug may have a favorable impact on health beyond its glucose-lowering activity. In summary, despite its long history, metformin is still an attractive research opportunity in the field of endocrine and metabolic diseases, age-related diseases, and cancer. To this end, its mode of action in distinct cell types is still in dispute. The aim of this work was to review the current knowledge and recent findings on the molecular mechanisms underlying the pharmacological effects of metformin in the field of metabolic and endocrine pathologies, including some endocrine tumors. Metformin is believed to act through multiple pathways that can be interconnected or work independently. Moreover, metformin effects on target tissues may be either direct or indirect, which means secondary to the actions on other tissues and consequent alterations at systemic level. Finally, as to the direct actions of metformin at cellular level, the intracellular milieu cooperates to cause differential responses to the drug between distinct cell types, despite the primary molecular targets may be the same within cells. Cellular bioenergetics can be regarded as the primary target of metformin action. Metformin can perturb the cytosolic and mitochondrial NAD/NADH ratio and the ATP/AMP ratio within cells, thus affecting enzymatic activities and metabolic and signaling pathways which depend on redox- and energy balance. In this context, the possible link between pyruvate metabolism and metformin actions is extensively discussed.

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Metformin and Everolimus: A Promising Combination for Neuroendocrine Tumors Treatment

Cited by 16 publications

References 44 publications

Lactate in the tumour microenvironment: From immune modulation to therapy

Lactate in the tumour microenvironment: From immune modulation to therapy

Impact of Diabetes and Metformin Use on Enteropancreatic Neuroendocrine Tumors: Post Hoc Analysis of the CLARINET Study

Integrated or Independent Actions of Metformin in Target Tissues Underlying Its Current Use and New Possible Applications in the Endocrine and Metabolic Disorder Area

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