Anti-oxidant effect of nitrite in the pancreatic islets of type 2 diabetic male rats

doi:10.22038/IJBMS.2023.68245.14900

. 2023 Apr;26(4):420-428.

doi: 10.22038/IJBMS.2023.68245.14900.

Anti-oxidant effect of nitrite in the pancreatic islets of type 2 diabetic male rats

Asghar Ghasemi¹, Sevda Gheibi^{1

2}, Khosrow Kashfi³, Sajad Jeddi¹

Affiliations

¹ Endocrine Physiology Research Center, Research Institute for Endocrine Sciences, Shahid Beheshti University of Medical Sciences, Tehran, Iran.
² Department of Clinical Sciences in Malmö, Unit of Molecular Metabolism, Lund University Diabetes Center, Clinical Research Center, Lund University, Malmö, Sweden.
³ Department of Molecular, Cellular and Biomedical Sciences, Sophie Davis School of Biomedical Education, City University of New York School of Medicine, New York, USA.

PMID: 37009002
PMCID: PMC10008387
DOI: 10.22038/IJBMS.2023.68245.14900

Anti-oxidant effect of nitrite in the pancreatic islets of type 2 diabetic male rats

Asghar Ghasemi et al. Iran J Basic Med Sci. 2023 Apr.

. 2023 Apr;26(4):420-428.

doi: 10.22038/IJBMS.2023.68245.14900.

Authors

Asghar Ghasemi¹, Sevda Gheibi^{1

2}, Khosrow Kashfi³, Sajad Jeddi¹

Affiliations

¹ Endocrine Physiology Research Center, Research Institute for Endocrine Sciences, Shahid Beheshti University of Medical Sciences, Tehran, Iran.
² Department of Clinical Sciences in Malmö, Unit of Molecular Metabolism, Lund University Diabetes Center, Clinical Research Center, Lund University, Malmö, Sweden.
³ Department of Molecular, Cellular and Biomedical Sciences, Sophie Davis School of Biomedical Education, City University of New York School of Medicine, New York, USA.

PMID: 37009002
PMCID: PMC10008387
DOI: 10.22038/IJBMS.2023.68245.14900

Abstract

Objectives: Nitrite, a nitric oxide (NO) donor, increases insulin secretion from pancreatic islets and has positive metabolic effects in type 2 diabetes (T2D). Here, we test the hypothesis of whether nitrite-induced insulin secretion is due to blunting of diabetes-induced oxidative stress in the islets.

Materials and methods: T2D was created in male rats using a combination of streptozotocin at 25 mg/kg and a high-fat diet. Wistar rats were assigned to 3 groups (n=6 in each group), including control, T2D, and T2D+nitrite; the latter group consumed drinking water containing sodium nitrite (50 mg/l) for eight weeks. At the end of the study, mRNA levels of NADPH oxidase (Nox1, 2, 3, and 4), superoxide dismutase (SOD1, 2, and 3), glutathione peroxides (GPX1 and 7), glutathione reductase (GR), catalase, thioredoxin (TXN1 and 2), and thioredoxin reductase (TXNRD1) were measured in the isolated pancreatic islets.

Results: In the islets of diabetic rats, mRNA expressions of Nox1, 2, and 4 were higher, whereas expressions of SOD1, 2, catalase, GPX1, 7, GR, and TXN1 were lower than controls. Nitrite significantly (all P-values<0.05) decreased gene expression of Nox1 (0.39-fold) and Nox4 (0.23-fold) and increased gene expression of SOD1 (2.2-fold), SOD2 (2.8-fold), catalase (2.7-fold), GPX1 (2.2-fold), GPX7 (6.0-fold), GR (3.0-fold), TXN1 (2.1-fold), and TXNRD1 (2.3-fold) in diabetic rats.

Conclusion: Nitrite decreased oxidative stress in isolated pancreatic islets of rats with T2D by suppressing oxidants and augmenting anti-oxidants. These findings favor the notion that nitrite-induced insulin secretion is partially due to decreased oxidative stress.

Keywords: Nitric oxide; Nitrite; Oxidative stress; Pancreatic islets; Rat; Type 2 diabetes.

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Conflict of interest statement

None.

Figures

**Figure 2**
Effect of nitrite administration on mRNA expression of NADPH oxidase (Nox) isoforms [Nox1 (A), Nox2 (B), Nox3 (C), and Nox4 (D)] in rats with type 2 diabetes (T2D). Symbols ** and *** show significant differences at P<0.01 and P<0.001, respectively, vs the control group. Symbol ## shows a significant difference at P<0.01 vs the diabetic group. Values are mean±SEM (n=6/group)

**Figure 3**
Effect of nitrite administration on mRNA expression of superoxide dismutase (SOD) isoforms [SOD1 (A), SOD2 (B), and SOD3 (C)] and catalase (D) in rats with type 2 diabetes (T2D). Symbols ** and *** show significant differences at P<0.01 and P<0.001, respectively, vs the control group. Symbols ## and ### show significant differences at P<0.01 and P<0.001, respectively, vs the diabetic group. Values are mean±SEM (n=6/group)

**Figure 4**
Effect of nitrite administration on mRNA expression of glutathione peroxidase (GPX) isoforms [GPX1 (A) and GPX7 (B)] and glutathione reductase (GR, C), in rats with Type 2 diabetes (T2D). Symbols * and *** show significant differences at P<0.05 and P<0.001, respectively, vs the control group. Symbols #, ##, and ### show significant differences at P<0.05, P<0.01, and P<0.001, respectively, vs the diabetic group. Values are mean±SEM (n=6/group)

**Figure 5**
Effect of nitrite administration on mRNA expression of thioredoxin (TXN) isoforms [TXN1 (A) and TXN2 (C)], and thioredoxin reductase (TXNRD1, C), in rats with Type 2 diabetes (T2D). Symbols * and ** show significant differences at P<0.05 and P<0.001, respectively, vs the control group. Symbols # and ### show significant differences at P<0.05 and P<0.001, respectively, vs the diabetic group. Values are mean±SEM (n=6/group)

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References

1. International Diabetes Federation. IDF Diabetes Atlas, 8th edn. Brussels, Belgium: International Diabetes Federation. 2019. http://www.diabetesatlas.org .
1. Ghasemi A, Norouzirad R. Type 2 diabetes: An updated overview. Crit Rev Oncog. 2019;24:213–222. - PubMed
1. Ghasemi A, Jeddi S. Anti-obesity and anti-diabetic effects of nitrate and nitrite. Nitric Oxide. 2017;70:9–24. - PubMed
1. Lundberg JO, Carlstrom M, Weitzberg E. Metabolic effects of dietary nitrate in health and disease. Cell Metab. 2018;28:9–22. - PubMed
1. Ohtake K, Nakano G, Ehara N, Sonoda K, Ito J, Uchida H, et al. Dietary nitrite supplementation improves insulin resistance in type 2 diabetic KKA(y) mice. Nitric Oxide. 2015;44:31–38. - PubMed

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[1] International Diabetes Federation. IDF Diabetes Atlas, 8th edn. Brussels, Belgium: International Diabetes Federation. 2019. http://www.diabetesatlas.org .

[2] International Diabetes Federation. IDF Diabetes Atlas, 8th edn. Brussels, Belgium: International Diabetes Federation. 2019. http://www.diabetesatlas.org .

[3] Ghasemi A, Norouzirad R. Type 2 diabetes: An updated overview. Crit Rev Oncog. 2019;24:213–222. - PubMed

[4] Ghasemi A, Norouzirad R. Type 2 diabetes: An updated overview. Crit Rev Oncog. 2019;24:213–222. - PubMed

[5] Ghasemi A, Jeddi S. Anti-obesity and anti-diabetic effects of nitrate and nitrite. Nitric Oxide. 2017;70:9–24. - PubMed

[6] Ghasemi A, Jeddi S. Anti-obesity and anti-diabetic effects of nitrate and nitrite. Nitric Oxide. 2017;70:9–24. - PubMed

[7] Lundberg JO, Carlstrom M, Weitzberg E. Metabolic effects of dietary nitrate in health and disease. Cell Metab. 2018;28:9–22. - PubMed

[8] Lundberg JO, Carlstrom M, Weitzberg E. Metabolic effects of dietary nitrate in health and disease. Cell Metab. 2018;28:9–22. - PubMed

[9] Ohtake K, Nakano G, Ehara N, Sonoda K, Ito J, Uchida H, et al. Dietary nitrite supplementation improves insulin resistance in type 2 diabetic KKA(y) mice. Nitric Oxide. 2015;44:31–38. - PubMed

[10] Ohtake K, Nakano G, Ehara N, Sonoda K, Ito J, Uchida H, et al. Dietary nitrite supplementation improves insulin resistance in type 2 diabetic KKA(y) mice. Nitric Oxide. 2015;44:31–38. - PubMed

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Anti-oxidant effect of nitrite in the pancreatic islets of type 2 diabetic male rats

Affiliations

Anti-oxidant effect of nitrite in the pancreatic islets of type 2 diabetic male rats

Authors

Affiliations

Abstract

Conflict of interest statement

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