Essential Oil of Carvone Chemotype Lippia alba (Verbenaceae) Regulates Lipid Mobilization and Adipogenesis in Adipocytes.

Obesity is characterized by an expansion of adipose tissue due to excessive accumulation of triglycerides in adipocytes, causing hypertrophy and hyperplasia, followed by hypoxia, alterations in adipocyte functionality, and chronic inflammation. However, current treatments require changes in lifestyle that are difficult to achieve and some treatments do not generate sustained weight loss over time. Therefore, we evaluated the effect of the essential oil (EO) of Lippia alba (Verbenaceae) carvone chemotype on viability, lipid mobilization, and adipogenesis of adipocytes in two normal and pathological cellular models in vitro. In 3T3-L1 adipocytes, a normal and a pathological model of obesity were induced, and then the cells were treated with L. alba carvone chemotype EO to evaluate cell viability, lipid mobilization, and adipogenesis. L. alba carvone chemotype EO does not decrease adipocyte viability at concentrations of 0.1, 1, and 5 µg/mL; furthermore, there was evidence of changes in lipid mobilization and adipogenesis, leading to a reversal of adipocyte hypertrophy. These results could be due to effects produced by EO on lipogenic and lipolytic pathways, as well as modifications in the expression of adipogenesis genes. L. alba carvone chemotype EO could be considered as a possible treatment for obesity, using the adipocyte as a therapeutic target.

Hipertrofia y resistencia a la insulina en un modelo in vitro de obesidad y DMT2 inducida por alta glucosa e insulina / Hypertrophy and insulin resistance in an in vitro model of obesity and T2DM induced by high glucose and insulin

Resumen Introducción: La obesidad es considerada un factor de riesgo para desarrollar resistencia a la insulina. La expansión del tejido adiposo se ha relacionado con el aumento de la producción de citoquinas proinflamatorias que, junto a los ácidos grasos son responsables, al menos en parte, del desarrollo de la resistencia a la insulina y esta a su vez, facilita el desarrollo de diabetes mellitus tipo 2 (DMT2). Objetivo: El propósito de este estudio fue realizar y caracterizar un modelo in vitro de obesidad empleando concentraciones altas de glucosa e insulina en una línea de células adipocitarias. Métodos: Se indujo modelo de hipertrofia celular realizando un estímulo en adipocitos maduros con una concentración de glucosa (450 mg/dL) e insulina (106 pmol/L) (modelo HGHI). Tras estímulo se realizaron ensayos de viabilidad celular, diámetro celular, movilización de lípidos y marcadores de señalización de insulina. Resultados: Tras el tratamiento con HGHI, se evidencia hipertrofia adipocitaria, incremento en la acumulación de lípidos, reducción de la ruptura de éstos, alteración de la señalización de insulina y tendencia a modificación de proteínas de marcadores de estrés de retículo y estrés oxidativo. Conclusión: Estos resultados demuestran la validez del modelo in vitro que simula al menos en parte la obesidad asociada a insulino resistencia, siendo una herramienta útil para estudiar los mecanismos de susceptibilidad a obesidad y resistencia a la insulina inducida in vitro con diferentes moléculas.

Abstract Introduction: Obesity is considered a risk factor for developing insulin resistance. The increase in adipose tissue has been related to the increase in the production of pro-inflammatory cytokines, which together with fatty acids are responsible, at least in part, for the development of insulin resistance, and this in turn facilitates the development of T2 diabetes mellitus type 2 (DMT2). Objective: The purpose of this study was to perform and characterize an in vitro model of obesity using high concentrations of glucose and insulin on an adipocyte cell line. Methods: A cell hypertrophy model was induced by stimulating mature adipocytes with a concentration of glucose (450 mg/dL) and insulin (106 pmol/L) (HGHI model). The cell viability, cell diameter, lipid mobilization and insulin signalling markers were evaluated. Results: After HGHI treatment, adipocytes show hypertrophy, increase in lipid accumulation, reduction of lipid breakdown, alteration of insulin signalling, a tendency to modify proteins of reticulum stress markers and, oxidative stress. Conclusion: These results demonstrate a new in vitro model that simulates, at least in part, obesity associated with insulin resistance being a useful tool to study the mechanisms of susceptibility to obesity and insulin resistance induced in vitro by different molecules.