Defective Allele of the Neuronal Nitric Oxide Synthase Gene Increases Insulin Resistance During Acute Phase of Myocardial Infarction

Defective Allele of the Neuronal Nitric Oxide Synthase Gene Increases Insulin Resistance During Acute Phase of Myocardial Infarction

Background: Glycemic disorders are strong predictors of mortality in ST-elevation myocardial infarction (STEMI) patients, and disruption in nitric oxide (NO) production is associated with insulin-resistant states. We evaluated whether a defective allele of the neuronal nitric oxide synthase (nNOS) g...

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Veröffentlicht in:International journal of general medicine 2021-01, Vol.14, p.3669-3676
Hauptverfasser: Nobrega, Otavio T, Campos-Staffico, Alessandra M, Oliveira, Elayne Kelen, Munhoz, Daniel B, Moura, Filipe A, Carvalho, Luis Sergio F, Soares, Alexandre Anderson SM, Gomes, Ciro M, Tonet-Furioso, Audrey C, Sposito, Andrei C
Format: Artikel
Sprache:eng
Schlagworte:
blood glucose
Blood sugar
Brazil
Cholesterol
Creatinine
Diabetes
Drugs
Enzymes
Ethylenediaminetetraacetic acid
Gene expression
Genes
Glucose
Health aspects
Heart attack
Heart attacks
Homeostasis
Hyperglycemia
Hypertension
Hypoglycemic agents
insulin
Insulin resistance
Laboratories
Metabolism
Mortality
myocardial infarction
Neurons
Nitrates
Nitric oxide
Original Research
polymorphism
Smoking
Type 2 diabetes
vasodilation
Veins & arteries
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Zusammenfassung:Background: Glycemic disorders are strong predictors of mortality in ST-elevation myocardial infarction (STEMI) patients, and disruption in nitric oxide (NO) production is associated with insulin-resistant states. We evaluated whether a defective allele of the neuronal nitric oxide synthase (nNOS) gene (NOS1) might influence insulin response and blood-glucose balance during the acute phase of STEMI and if post-infarction total plasma-NO levels and vasodilation scores varied across nNOS genotypes. Methods: Consecutive patients with STEMI (n=354) underwent clinical evaluations and genotyping for the promoter variation rs41279104. In-hospital clinical and blood evaluations were performed at admission and five days after STEMI, with glycemic, insulinemic, and disposition indices assessed at the same times. Flow-mediated dilation (FMD) was assessed by reactive hyperemia on the 30th day. Results: Homozygotes for the defective allele (A) showed lower glycemia and insulin sensitivity on day 1 while showing the highest [beta]-cell function and no changes in the circulating NO pool, which is compatible with hyperresponsive [beta] cells counteracting the inherent glucoseresistant state of AA patients. At day 5, glycemic scores had shifted to indicate greater insulin sensitivity among A homozygotes, paralleled by a significant yet poor increase in NO bioavailability compared to that among G carriers. All in all, defective homozygotes showed greater insulin resistance at admission that had reversed by 5 days after STEMI. Even so, A carriers developed lower FMD scores compared to G homozygotes after the acute phase. Conclusion: A defective nNOS allele (and due decline in NO production) seemed to elicit a hyperinsulinemia response to compensate for an insulin-resistant state during the acute phase of STEMI and to be associated with poor endothelial function after the acute phase. Keywords: nitric oxide, insulin, blood glucose, vasodilation, polymorphism, myocardial infarction
ISSN:1178-7074
1178-7074
DOI:10.2147/IJGM.S313661