Epigenética: definición, bases moleculares e implicaciones en la salud y en la evolución humana

La Epigenética se refiere a los cambios heredables en el ADN e histonas que no implican alteraciones en la secuencia de nucleótidos y modifican la estructura y condensación de la cromatina, por lo que afectan la expresión génica y el fenotipo. Las modificaciones epigenéticas son metilación del ADN y modificaciones de histonas. Objetivo: hacer una revisión de la literatura sobre el concepto de epigenética y su impacto en la salud. Materiales y métodos: se realizó una revisión de la bibliografía sobre el concepto de epigenética, sus bases biológicas, el impacto sobre la salud y la enfermedad y su relación con la evolución. Resultados: los mecanismos epigenéticos han cobrado cada vez más importancia debido a la creciente asociación con enfermedades complejas y comunes, así como por su impacto en la salud de generaciones futuras y en la evolución humana. Conclusiones: la Epigenética tiene un claro impacto en la salud del individuo, en la de su descendencia y en la evolución de la especie humana.

Epigenetics and autoimmune diseases

Epigenetics is defined as the study of all inheritable and potentially reversible changes in genome function that do not alter the nucleotide sequence within the DNA. Epigenetic mechanisms such as DNA methylation, histone modification, nucleosome positioning, and microRNAs (miRNAs) are essential to carry out key functions in the regulation of gene expression. Therefore, the epigenetic mechanisms are a window to understanding the possible mechanisms involved in the pathogenesis of complex diseases such as autoimmune diseases. It is noteworthy that autoimmune diseases do not have the same epidemiology, pathology, or symptoms but do have a common origin that can be explained by the sharing of immunogenetic mechanisms. Currently, epigenetic research is looking for disruption in one or more epigenetic mechanisms to provide new insights into autoimmune diseases. The identification of cell-specific targets of epigenetic deregulation will serve us as clinical markers for diagnosis, disease progression, and therapy approaches.

Organic solvents as risk factor for autoimmune diseases: a systematic review and meta-analysis

Background: Genetic and epigenetic factors interacting with the environment over time are the main causes of complex diseases such as autoimmune diseases (ADs). Among the environmental factors are organic solvents (OSs), which are chemical compounds used routinely in commercial industries. Since controversy exists over whether ADs are caused by OSs, a systematic review and meta-analysis were performed to assess the association between OSs and ADs. Methods and Findings: The systematic search was done in the PubMed, SCOPUS, SciELO and LILACS databases up to February 2012. Any type of study that used accepted classification criteria for ADs and had information about exposure to OSs was selected. Out of a total of 103 articles retrieved, 33 were finally included in the meta-analysis. The final odds ratios (ORs) and 95% confidence intervals (CIs) were obtained by the random effect model. A sensitivity analysis confirmed results were not sensitive to restrictions on the data included. Publication bias was trivial. Exposure to OSs was associated to systemic sclerosis, primary systemic vasculitis and multiple sclerosis individually and also to all the ADs evaluated and taken together as a single trait (OR: 1.54; 95% CI: 1.25-1.92; p-value, 0.001). Conclusion: Exposure to OSs is a risk factor for developing ADs. As a corollary, individuals with non-modifiable risk factors (i.e., familial autoimmunity or carrying genetic factors) should avoid any exposure to OSs in order to avoid increasing their risk of ADs.