RESISTÊNCIA INSULINICA MIOCÁRDICA E HIPERTENSÃO ARTERIAL SISTÊMICA

Abstract

Background: Low availability of Glut-4 transporters in the sarcolemma of cardiac cells characterizes myocardial insulin resistance (MIR), which is triggered separately from generalized insulin resistance. Insulin receptors are quite evident in the heart muscle and vessels, and mitochondrial activity performs a significant role in MIR preserving cellular homeostasis through cell reproduction, cells livelihoods, and energy generation. Objective: To evaluate the MIR mechanism and its association with hypertension by signaling pathways design. Methods: PubMed database was employed to search for reviews publications with MIR. The referenced data of the signaling pathway was chosen by aggregating references from the Kyoto Encyclopedia of Genes and Genomes (KEGG) database. A signaling pathway was designed based on MIR research manuscripts, where we show several mechanisms included in the MIR. The KEGG server was employed to exploit the interrelationship protein-protein, and elaborate signaling pathway diagram. The signaling pathway mapping was carried out with PathVisio software. Results: We selected 42 articles from a total of 450 articles in the PubMed database that presented a significant association between the terms “insulin resistance myocardial” AND “signaling pathway” AND “systemic arterial hypertension”. Founded on database-validated research papers, we chose well-founded pathways and we succeeded in representative description of these pathways. The reproduction contigs taken from the KEGG database designed the signaling pathway of the bio-molecules that lead to MIR. Thus, the acting among multiple mechanisms releases factors that participate in the development of MIR. Conclusion: The interaction among various mechanisms and molecular interactions are important factors in developing MIR.