Head-to-head comparison of inorganic nitrate and metformin in a mouse model of cardiometabolic disease

Head-to-head comparison of inorganic nitrate and metformin in a mouse model of cardiometabolic disease

Unhealthy dietary habits contribute to the increasing incidence of metabolic syndrome and type 2 diabetes (T2D), which is accompanied by oxidative stress, compromised nitric oxide (NO) bioavailability and increased cardiovascular risk. Apart from lifestyle changes, biguanides such as metformin are t...

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Veröffentlicht in:Nitric oxide 2020-04, Vol.97, p.48-56
Hauptverfasser: Cordero-Herrera, Isabel, Guimarães, Drielle D., Moretti, Chiara, Zhuge, Zhengbing, Han, Huirong, McCann Haworth, Sarah, Uribe Gonzalez, Arturo Eduardo, Andersson, Daniel C., Weitzberg, Eddie, Lundberg, Jon O., Carlström, Mattias
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container_issue
container_start_page 48
container_title Nitric oxide
container_volume 97
creator Cordero-Herrera, Isabel
Guimarães, Drielle D.
Moretti, Chiara
Zhuge, Zhengbing
Han, Huirong
McCann Haworth, Sarah
Uribe Gonzalez, Arturo Eduardo
Andersson, Daniel C.
Weitzberg, Eddie
Lundberg, Jon O.
Carlström, Mattias
description Unhealthy dietary habits contribute to the increasing incidence of metabolic syndrome and type 2 diabetes (T2D), which is accompanied by oxidative stress, compromised nitric oxide (NO) bioavailability and increased cardiovascular risk. Apart from lifestyle changes, biguanides such as metformin are the first-line pharmacological treatment for T2D. Favourable cardiometabolic effects have been demonstrated following dietary nitrate supplementation to boost the nitrate-nitrite-NO pathway. Here we aim to compare the therapeutic value of inorganic nitrate and metformin alone and their combination in a model of cardiometabolic disease. Mice were fed control or high fat diet (HFD) for 7 weeks in combination with the NO synthase (NOS) inhibitor l-NAME to induce metabolic syndrome. Simultaneously, the mice were treated with vehicle, inorganic nitrate, metformin or a combination of nitrate and metformin in (drinking water). Cardiometabolic functions were assessed in vivo and tissues were collected/processed for analyses. HFD + L-NAME was associated with cardiometabolic dysfunction, compared with controls, as evident from elevated blood pressure, endothelial dysfunction, impaired insulin sensitivity and compromised glucose clearance as well as liver steatosis. Both nitrate and metformin improved insulin/glucose homeostasis, whereas only nitrate had favourable effects on cardiovascular function and steatosis. Mechanistically, metformin and nitrate improved AMPK signalling, whereas only nitrate attenuated oxidative stress. Combination of nitrate and metformin reduced HbA1c and trended to further increase AMPK activation. Nitrate and metformin had equipotent metabolic effects, while nitrate was superior regarding protection against cardiovascular dysfunction and liver steatosis. If reproduced in future clinical trials, these findings may have implications for novel nutrition-based strategies against metabolic syndrome, T2D and associated complications. [Display omitted] What is already known:•Reduced nitric oxide (NO) bioavailability is associated with cardiometabolic dysregulation.•Inorganic nitrate and metformin treatments have been associated with AMPK activation and favourable metabolic effects. What this study adds:•The metabolic effects of nitrate were as potent as those observed with metformin•Nitrate was superior regarding cardiovascular protection, which may be explained by attenuated oxidative stress Clinical significance: •These findings may have implications
doi_str_mv 10.1016/j.niox.2020.01.013
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HFD + L-NAME was associated with cardiometabolic dysfunction, compared with controls, as evident from elevated blood pressure, endothelial dysfunction, impaired insulin sensitivity and compromised glucose clearance as well as liver steatosis. Both nitrate and metformin improved insulin/glucose homeostasis, whereas only nitrate had favourable effects on cardiovascular function and steatosis. Mechanistically, metformin and nitrate improved AMPK signalling, whereas only nitrate attenuated oxidative stress. Combination of nitrate and metformin reduced HbA1c and trended to further increase AMPK activation. Nitrate and metformin had equipotent metabolic effects, while nitrate was superior regarding protection against cardiovascular dysfunction and liver steatosis. If reproduced in future clinical trials, these findings may have implications for novel nutrition-based strategies against metabolic syndrome, T2D and associated complications. 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subjects Medicin och hälsovetenskap
title Head-to-head comparison of inorganic nitrate and metformin in a mouse model of cardiometabolic disease
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