Epigenetics in non-small cell lung carcinomas.

OBJECTIVE: To perform a systematic review of the main epigenetic aberrations involved in non-small cell lung carcinomas' (NSCLC) diagnosis, progression, and therapeutics. MATERIALS AND METHODS: We performed a systematic review of the scientific literature on lung cancer epigenetics, focusing on NSCLC. RESULTS: Several advances in the molecular study of classical epigenetic mechanisms and massive studies of lung cancer epigenome have contributed relevant new evidence revealing that various molecular complexes are functionally influencing genetic-epigenetic and transcriptional mechanisms that promote lung tumorigenesis (initiation, promotion, and progression), and are also involved in NSCLC therapyresistance mechanisms. CONCLUSIONS: Several epigenetic complexes and mechanisms must be analyzed and considered for the design of new and efficient therapies, which could be fundamental to develop an integrated knowledge to achieve a comprehensive lung cancer personalized medicine.

OBJETIVO: Realizar una revisión sistemática y estructurada de las principales aberraciones epigenéticas involucradas en el diagnóstico, progresión y terapia del cáncer pulmonar de células no pequeñas (CPCNP). MATERIAL Y MÉTODOS: Revisión sistemática de literatura científica sobre epigenética del cáncer pulmonar del grupo CPCNP. RESULTADOS: El estudio de los diversos mecanismos epigenéticos y su impronta epigenética en el epigenoma del cáncer pulmonar han arrojado nuevas evidencias a nivel biológico, biomédico y médico-clínico del impacto que los mecanismos epigenéticotranscripcionales promueven de manera activa y reversible sobre los procesos de tumorigénesis, progresión histopatológica y mecanismos de resistencia a la terapia oncológica pulmonar. CONCLUSIONES: Deben analizarse diferentes complejos y mecanismos epigenéticos para el estudio y diseño de esquemas nuevos y eficaces de terapia epigenética, los cuales podrían ser fundamentales para desarrollar un conocimiento integral en el desarrollo de la medicina personalizada en el cáncer pulmonar del grupo CPCNP.

DNA methylation of NR3c1 in infancy: Associations between maternal caregiving and infant sex.

Caregivers play a critical role in scaffolding infant stress reactivity and regulation, but the mechanisms by which this scaffolding occurs is unclear. Animal models strongly suggest that epigenetic processes, such as DNA methylation, are sensitive to caregiving behaviors and, in turn, offspring stress reactivity. We examined the direct effects of caregiving behaviors on DNA methylation in infants and infant stress reactivity. Infants and mothers (N = 128) were assessed during a free play when infants were 5 months old. Maternal responsiveness and appropriate touch were coded. and infant buccal epithelial cells were sampled to assess for DNA methylation of the glucocorticoid receptor gene, NR3c1 exon 1F. Infant cortisol reactivity was assessed in response to the still-face paradigm. Greater levels of maternal responsiveness and appropriate touch were related to less DNA methylation of specific regions in NR3c1 exon 1F, but only for females. There was no association with maternal responsiveness and appropriate touch or DNA methylation of NR3c1 exon 1F on prestress cortisol or cortisol reactivity. Our results are discussed in relation to programming models that implicate maternal care as an important factor in programing infant stress reactivity.

Los cuidadores juegan un papel esencial en el andamiaje de la reactividad y regulación del estrés infantil pero los mecanismos por medio de los cuales aparece este andamiaje no están claros. Los modelos animales fuertemente sugieren que los procesos epigenéticos, tales como la metilación del ADN, son sensibles a los comportamientos de prestaciones de cuidado y por consiguiente a la reactividad al estrés por parte de los hijos. Examinamos los efectos directos que los comportamientos de prestaciones de cuidado tienen sobre la metilación de ADN en infantes y, por consiguiente, la reactividad del estrés infantil. Los infantes y sus madres (N = 128) fueron evaluados durante una sesión de juego libre cuando los infantes tenían 5 meses de edad. Se codificó la sensibilidad materna y la apropiada forma de tocar y se obtuvo muestra de las células epiteliales bucales del infante para analizar la metilación de ADN del gen receptor glucocorticoide, NR3c1, exón 1F. Se evaluó la reactividad del infante al cortisol como respuesta al paradigma de la cara quieta. Niveles mayores de sensibilidad materna y apropiada forma de tocar se relacionaron con menos metilación de ADN de regiones específicas en NR3c1 exón 1F, aunque sólo en las niñas. No se presentó ninguna asociación con la sensibilidad materna y la apropiada forma de tocar, o metilación de ADN de NR3c1 exón 1F en el cortisol pre-estrés o la reactividad del cortisol. Nuestros resultados se discuten en relación con modelos de programación que implican cuidado materno como un importante factor en la programación de la reactividad del estrés del infante.

Les personnes prenant soin des enfants jouent un rôle critique dans l'échafaudage de la réaction au stress du nourrisson et la régulation mais les mécanismes selon lesquels cet échafaudage se bâtit ne sont pas clairs. Les modèles animaux suggèrent fortement que des processus épigénétiques, comme la méthylation de l'ADN, sont sensibles au comportements de qui prend soin d'eux et en conséquence déclenchent un réaction au stress. Nous avons examiné les effets directs des comportements soignants sur la méthylation de l'ADN chez les bébés, en ensuite sur la réaction au stress du nourrisson. Des nourrissons et leurs mères (N = 128) ont été évalués au moyen d'un jeu libre quand les bébés avaient 5 mois d'âge. La réaction maternelle et le toucher approprié ont été codés et des cellules épithéliales buccales du bébé ont été prélevées afin d'évaluer la méthylation de l'ADN du gène récepteur glucocorticoïde, le NR3c1 exon 1F. La réaction du cortisol du bébé a été évaluée en réponse au paradigme du visage immuable. Des niveaux plus élevés de réaction maternelle et de toucher approprié étaient liés à une méthylation de l'ADN des régions spécifiques de NR3c1 exon 1F moindre, mais seulement chez les filles. On n'a trouvé aucun lien avec la réaction maternelle et le toucher approprié ou de méthylation NR3c1 exon 1F de l'ADN sur le cortisol pré-test ou de réaction du cortisol. Nos résultats sont discutés en relation aux modèles de programme qui impliquent que le soin maternel en tant que facteur important dans la programmation de la réaction au stress du bébé.

El ácido valproico como agente sensibilizador al tratamiento anticáncer.

Valproic acid is an antiepileptic drug with more than 50 years of clinical use. In the past decade, its anticancer effects were discovered. Analyses in groups of patients who used this drug for years have shown that it decreases the frequency of head and neck cancer. Recent studies show the anticancer effect of combining valproic acid with chemotherapy, biological therapy and antioxidant systems inhibitors, with exceptional results. In this review, we analyze the metabolism of valproic acid and its application against cancer.

El ácido valproico es un fármaco antiepiléptico con más de 50 años de uso clínico. En la década pasada se descubrieron sus efectos anticancerígenos. El análisis de grupos de pacientes que utilizaron este fármaco durante años ha mostrado que disminuye la frecuencia de cáncer de cabeza y cuello. Estudios recientes evidencian el efecto anticáncer al combinar el ácido valproico con la quimioterapia, terapia biológica e inhibidores de sistemas antioxidantes, con resultados excepcionales. En esta revisión se analiza el metabolismo del ácido valproico y su aplicación contra el cáncer.

Toward an integrative molecular approach to wildlife disease.

Pathogens pose serious threats to human health, agricultural investment, and biodiversity conservation through the emergence of zoonoses, spillover to domestic livestock, and epizootic outbreaks. As such, wildlife managers are often tasked with mitigating the negative effects of disease. Yet, parasites form a major component of biodiversity that often persist. This is due to logistical challenges of implementing management strategies and to insufficient understanding of host-parasite dynamics. We advocate for an inclusive understanding of molecular diversity in driving parasite infection and variable host disease states in wildlife systems. More specifically, we examine the roles of genetic, epigenetic, and commensal microbial variation in disease pathogenesis. These include mechanisms underlying parasite virulence and host resistance and tolerance, and the development, regulation, and parasite subversion of immune pathways, among other processes. Case studies of devil facial tumor disease in Tasmanian devils (Sarcophilus harrisii) and chytridiomycosis in globally distributed amphibians exemplify the broad range of questions that can be addressed by examining different facets of molecular diversity. For particularly complex systems, integrative molecular analyses present a promising frontier that can provide critical insights necessary to elucidate disease dynamics operating across scales. These insights enable more accurate risk assessment, reconstruction of transmission pathways, discernment of optimal intervention strategies, and development of more effective and ecologically sound treatments that minimize damage to the host population and environment. Such measures are crucial when mitigating threats posed by wildlife disease to humans, domestic animals, and species of conservation concern.

Epigenetic changes in neurology: DNA methylation in multiple sclerosis. / Modificaciones epigenéticas en neurología: alteraciones en la metilación del ADN en la esclerosis múltiple.

INTRODUCTION: Epigenetics is defined as the study of the mechanisms that regulate gene expression without altering the underlying DNA sequence. The best known is DNA methylation. Multiple Sclerosis (MS) is a disease with no entirely known etiology, in which it is stated that the involvement of environmental factors on people with a genetic predisposition, may be key to the development of the disease. It is at this intersection between genetic predisposition and environmental factors where DNA methylation may play a pathogenic role. DEVELOPMENT: A literature review of the effects of environmental risk factors for the development of MS can have on the different epigenetic mechanisms as well as the implication that such changes have on the development of the disease. CONCLUSION: Knowledge of epigenetic modifications involved in the pathogenesis of MS, opens a new avenue of research for identification of potential biomarkers, as well as finding new therapeutic targets.

Epigenetic mechanisms in the development of memory and their involvement in certain neurological diseases. / Mecanismos epigenéticos en el desarrollo de la memoria y su implicación en algunas enfermedades neurológicas.

INTRODUCTION: Today, scientists accept that the central nervous system of an adult possesses considerable morphological and functional flexibility, allowing it to perform structural remodelling processes even after the individual is fully developed and mature. In addition to the vast number of genes participating in the development of memory, different known epigenetic mechanisms are involved in normal and pathological modifications to neurons and therefore also affect the mechanisms of memory development. DEVELOPMENT: This study entailed a systematic review of biomedical article databases in search of genetic and epigenetic factors that participate in synaptic function and memory. CONCLUSIONS: The activation of gene expression in response to external stimuli also occurs in differentiated nerve cells. Neural activity induces specific forms of synaptic plasticity that permit the creation and storage of long-term memory. Epigenetic mechanisms play a key role in synaptic modification processes and in the creation and development of memory. Changes in these mechanisms result in the cognitive and memory impairment seen in neurodegenerative diseases (Alzheimer disease, Huntington disease) and in neurodevelopmental disorders (Rett syndrome, fragile X, and schizophrenia). Nevertheless, results obtained from different models are promising and point to potential treatments for some of these diseases.

[General concepts of epigenetics: Projections in paediatrics]. / Conceptos generales de epigenética: proyecciones en pediatría.

Current evidence supports the notion that alterations in intrauterine growth and during the first years of life have a substantial effect on the risk for the development of chronic disease, which in some cases is even higher than those due to genetic factors. The persistence and reproducibility of the phenotypes associated with altered early development suggest the participation of mechanisms that would record environmental cues, generating a cellular reprogramming (i.e., epigenetic mechanisms). This review is an introduction to a series of five articles focused on the participation of epigenetic mechanisms in the development of highly prevalent chronic diseases (i.e., cardiovascular, metabolic, asthma/allergies and cancer) and their origins in the foetal and neonatal period. This series of articles aims to show the state of the art in this research area and present the upcoming clues and challenges, in which paediatricians have a prominent role, developing strategies for the prevention, early detection and follow-up.

[Epigenetics and obesity]. / Epigenética y obesidad.

Current evidence supports the notion that exposure to various environmental conditions in early life may induce permanent changes in the epigenome that persist throughout the life-course. This article focuses on early changes associated with obesity in adult life. A review is presented on the factors that induce changes in whole genome (DNA) methylation in early life that are associated with adult onset obesity and related disorders. In contrast, reversal of epigenetic changes associated with weight loss in obese subjects has not been demonstrated. This contrasts with well-established associations found between obesity related DNA methylation patterns at birth and adult onset obesity and diabetes. Epigenetic markers may serve to screen indivuals at risk for obesity and assess the effects of interventions in early life that may delay or prevent obesity in early life. This might contribute to lower the obesity-related burden of death and disability at the population level. The available evidence indicates that epigenetic marks are in fact modifiable, based on modifications in the intrauterine environment and changes in food intake, physical activity and dietary patterns patterns during pregnancy and early years of adult life. This offers the opportunity to intervene before conception, during pregnancy, infancy, childhood, and also in later life. There must be documentation on the best preventive actions in terms of diet and physical activity that will modify or revert the adverse epigenetic markers, thus preventing obesity and diabetes in suceptible individuals and populations.

[Placental epigenetic programming in intrauterine growth restriction (IUGR)]. / Programación epigenética placentaria en restricción del crecimiento intrauterino.

Intrauterine growth restriction (IUGR) is a perinatal condition affecting foetal growth, with under the 10th percentile of the weight curve expected for gestational age. This condition has been associated with higher cardiovascular and metabolic risk and post-natal obesity. There are also major changes in placental function, and particularly in a key molecule in this regulation, nitric oxide. The synthesis of nitric oxide has numerous control mechanisms and competition with arginase for their common substrate, the amino acid L-arginine. This competition is reflected in various vascular diseases and particularly in the endothelium of the umbilical vessels of babies with IUGR. Along with this, there is regulation at the epigenetic level, where methylation in specific regions of some gene promoters, such as the nitric oxide synthase, regulating their expression. It is currently of great interest to understand the mechanisms by which diseases such as IUGR may be conditioned, particularly by maternal nutritional and metabolic conditions, and epigenetic mechanisms that could eventually be modifiable, and thus a focus of interest for health interventions.

[Epigenetics in allergic diseases and asthma]. / Epigenética en enfermedades alérgicas y asma.

Allergic diseases and asthma are the result of complex interactions between genetic predisposition and environmental factors. Asthma is one of the most prevalent chronic disease among children. In this article we review some environmental factors like: allergen exposition, tobacco, bacteria, microbial components, diet, obesity and stress, which influences during intrauterine and infancy life in the epigenetic regulation of asthma and allergic diseases. The review has been done in three models: in-vitro, animal and human.

Epigenetics and epilepsy.

INTRODUCTION: Epigenetics is the study of heritable modifications in gene expression that do not change the DNA nucleotide sequence. Some of the most thoroughly studied epigenetic mechanisms at present are DNA methylation, post-transcriptional modifications of histones, and the effect of non-coding RNA molecules. Gene expression is regulated by means of these mechanisms and disruption of these molecular pathways may elicit development of diseases. DEVELOPMENT: We describe the main epigenetic regulatory mechanisms and review the most recent literature about epigenetic mechanisms and how those mechanisms are involved in different epileptic syndromes. CONCLUSION: Identifying the epigenetic mechanisms involved in epilepsy is a promising line of research that will deliver more in-depth knowledge of epilepsy pathophysiology and treatments.

Childhood trauma is linked to epigenetic age deceleration in young adults with previous youth residential care placements.

Background: Early adversity increases the risk for mental and physical disorders as well as premature death. Epigenetic processes, and altered epigenetic aging in particular, might mediate these effects. While the literature that examined links between early adversity and epigenetic aging is growing, results have been heterogeneous.Objective: In the current work, we explored the link between early adversity and epigenetic aging in a sample of formerly out-of-home placed young adults.Method: A total of N = 117 young adults (32% women, age mean = 26.3 years, SD = 3.6 years) with previous youth residential care placements completed the Childhood Trauma Questionnaire (CTQ) and the Life Events Checklist (LEC-R) and provided blood samples for the analysis of DNA methylation using the Illumina Infinium MethylationEPIC BeadChip Microarray. Epigenetic age was estimated using Hovarth's and Hannum's epigenetic clocks. Furthermore, Hovarth's and Hannum's epigenetic age residuals were calculated as a proxy of epigenetic aging by regressing epigenetic age on chronological age. The statistical analysis plan was preregistered (https://osf.io/b9ev8).Results: Childhood trauma (CTQ) was negatively associated with Hannum's epigenetic age residuals, ß = -.23, p = .004 when controlling for sex, BMI, smoking status and proportional white blood cell type estimates. This association was driven by experiences of physical neglect, ß = -.25, p = .001. Lifetime trauma exposure (LEC-R) was not a significant predictor of epigenetic age residuals.Conclusion: Childhood trauma, and physical neglect in particular, was associated with decelerated epigenetic aging in our sample. More studies focusing on formerly institutionalized at-risk populations are needed to better understand which factors affect stress-related adaptations following traumatic experiences.

Growing literature links early adversity to altered epigenetic aging, yet results have been heterogeneous.We assessed childhood and lifetime trauma exposure using the Childhood Trauma Questionnaire and the Life Events Checklist and estimated epigenetic aging by obtaining Horvath's and Hannum's epigenetic age residuals in a sample of formerly out-of-home placed young adults.In this high-risk sample, childhood trauma, physical neglect in particular, but not lifetime trauma was negatively related to epigenetic aging.

Neurodegeneration and epigenetics: A review.

Neuronal function and differentiation are tightly regulated by both genome and epigenome. Based on the environmental information the epigenetic changes occur. Neurodegeneration is the consequence of dysregulation of both the genome and epigenome. In this study, we saw different types of alterations of epigenome present in neuronal cells of different model organisms for neurodegenerative disorders. The epigenetic modifications including chromatin modification, DNA methylation, and changes in regulatory RNAs (miRNA) are having a great impact on neurodegenerative disorders as well as memory. The effects of these re-editing in the neuronal cells cause Alzheimer's disease, Parkinson's disease, Huntington's disease but an unusual form of neuroepigenetics has been seen in Prion Disease. Subsequently, for the development of treatment of these diseases, epigenetic modifications should be kept in mind. Although until now many reports came on drug discovery inhibiting histone deacetylases and DNA methyltransferases to reverse the epigenetic change but they lack targeted delivery and sometimes cause a cytotoxic effect on neuronal cells. In future, advancement in targeted and non-cytotoxic drugs should be the main focus for therapeutic treatment of the neurodegenerative disorders.

Evaluation of epigenetic-related gene expression (DNMT, HDAC1) in Iranian patients with systemic lupus erythematosus.

BACKGROUND: Systemic lupus erythematosus (SLE) is an autoimmune disease in which the immune system abnormally reacts against cells and tissues leading to inflammation. Epigenetic alterations, including DNA methylation and histone modification, have critical effects on autoimmune disease and SLE pathogenesis via dysregulation of critical genes. AIMS: The purpose of this study was to evaluate the epigenetic-related gene expression of DNA methyltransferase (DNMT) and histone deacetylase 1 (HDAC1) in Iranian patients with SLE. METHODS: This matched case-control study included 16 people with SLE and 16 healthy people who were referred to the Rafsanjani rheumatology clinic, in southeast Iran. The expression of DNMT and HDAC1 genes was measured through a real-time PCR assay of blood samples. RESULTS: DNMT gene expression did not differ significantly between SLE and healthy groups (P=0.21). In contrast, HDAC1 gene expression was enhanced in the SLE group, but this enhancement failed to reach statistical significance (P=0.94). CONCLUSION: The results of this study suggest that overexpression of HDAC1 could serve as a diagnostic for SLE disease. Additional studies with larger sample sizes are required to confirm our findings. Evaluation of other genes related to SLE disease is essential and may help to make an accurate diagnosis of the disease.

Community and domestic violence are associated with DNA methylation GrimAge acceleration and heart rate variability in adolescents.

Background: Cumulative exposure to violence can change the regulation of epigenetic and physiological markers. Although violence has been associated with accelerated cellular aging, little is known about associations with cardiac autonomic activity.Objective: The current study aimed to investigate the relationship of exposure to community and domestic violence (CDV) with vagal activity and epigenetic aging acceleration.Methods: A total of 86 adolescents (57% female) were evaluated and interviewed at two time-points in São Gonçalo (2014-2019), a Brazilian city with high levels of violence. Exposure to CDV was assessed in both time-points. GrimAge acceleration was calculated from saliva DNA methylation using Infinium HumanMethylation450K (Illumina) collected in the first assessment. Heart rate variability (HRV) was collected during two stress tasks at the second assessment.Results: The exposure to violence witnessed or directly experienced at home and in the community increased significantly (t = 4.87, p < .01) across two-time points, and males had reported higher violence exposure (t = 2.06, p = .043). Violence at 1st assessment was significantly associated with GrimAge acceleration (B = .039, p value = .043). Violence at both assessments were associated with HRV measured during the narration of the worst trauma (traumaHRV) (B = .009, p value = .039, and B = .007, p value = .024, 1st and 2nd assessment respectively). GrimAge acceleration was significantly associated with traumaHRV (B = .043, p value = .049), and HRV measured during a 3D roller coaster video (B = .061, p value = .024).Conclusions: We found relevant evidence that experiencing violence during adolescence is associated with epigenetic aging and stress-related vagal activity. Understanding these factors during this period could contribute to the development of early interventions for health promotion.HIGHLIGHTS Higher exposure to Community and domestic violence is associated with increased GrimAge acceleration.Higher GrimAge acceleration is associated with increased stress-related vagal activity.Exposure to community and domestic violence increased significantly over time.

Genetic component of autoimmune rheumatological diseases.

The purpose of this review is to present the main aspects of the genetic component of autoimmune rheumatic diseases, including the characteristics of the multifactorial or polygenic inheritance model, and its monogenic forms, as well as the main associated genes in both cases. The epigenetic changes involved, and the influence of the environment and sex that confer greater risk to women suffering from any of these diseases. Finally, to make known the advances that the study of omic sciences has allowed, opening the way to a new molecular classification of these diseases, aimed at personalized medicine. A review of the literature of the last 5 years, of English-language publications, in the PubMed database was performed and 28 review articles, and 19 original articles were included. Knowledge of the genetic factors involved in the aetiology of autoimmune rheumatic diseases, thanks to the availability of molecular studies, allows a better understanding of their pathophysiology and the possibility of diagnosis and treatment based on molecular markers in the future.

Archetype and epigenetics - approximations: contributions of epigenetics to the clinical practice of analytical psychology.

In this paper we address the question of epigenetics by evidencing some mechanisms related to gene expression, which, we understand, can in a way be used as metaphors for movements occurring during the psychotherapeutic process. The possibility of a dialogue between epigenetics and analytical psychology begins with the hereditary and archetypal question and takes shape in the dimension of the analytical encounter. Through the Jungian attitude model, we propose a way of moving between the two sciences. This paper provides a brief review of the concept of archetype, covering recent publications. It then describes the main mechanisms of epigenetics and, finally, addresses the analytical process and presents the authors' proposal to consider the archetypal expression in the light of epigenetics.

Dans cet article nous étudions la question de l'épigénétique en montrant quelques mécanismes en lien avec l'expression d'un gène. Nous pensons que, d'une certaine manière, ces mécanismes peuvent être utilisés en tant que métaphores des mouvements qui se produisent durant le processus thérapeutique. La possibilité d'un dialogue entre l'épigénétique et la psychologie analytique commence par la question héréditaire et archétypale, et prend forme dans la dimension de la rencontre analytique. A travers le modèle de l'attitude Jungienne nous proposons une manière de circuler d'une science à l'autre. Cet article offre un bref examen du concept d'archétype, couvrant les publications récentes. Il décrit ensuite les mécanismes principaux de l'épigénétique et s'occupe finalement du processus analytique en présentant la proposition de l'auteur qui est de considérer l'expression archétypale à la lumière de l'épigénétique.

En este trabajo abordamos el tema de la epigenética al evidenciar algunos mecanismos relacionados con la expresión genética, la cual puede ser utilizada como metáforas para los movimientos que suceden durante el proceso terapéutico. La posibilidad de un diálogo entre epigenética y psicología analítica comienza con la pregunta sobre la herencia y el arquetipo y toma forma en la dimensión del encuentro analítico. A través del modelo de actitud analítica, proponemos una forma de movimiento entre dos ciencias. El presente trabajo ofrece una breve revisión del concepto de arquetipo, abarcando publicaciones recientes. Luego describe los mecanismos principales de la epigenética y finalmente, aborda el proceso analítico y presenta la propuesta de las autoras de considerar la expresión arquetípica a la luz de la epigenética.

Neste artigo, abordamos a questão da epigenética evidenciando alguns mecanismos relacionados à expressão gênica, que, entendemos, podem de certa forma ser usados como metáforas para movimentos que ocorrem durante o processo terapêutico. A possibilidade de um diálogo entre epigenética e psicologia analítica começa com a questão hereditária e arquetípica e toma forma na dimensão do encontro analítico. Através do modelo de atitude junguiana, propomos uma maneira de nos mover entre duas ciências. Este artigo fornece uma breve revisão do conceito de arquétipo, abrangendo publicações recentes. Em seguida, descreve os principais mecanismos da epigenética e, finalmente, aborda o processo analítico e apresenta a proposta do autor de considerar a expressão arquetípica à luz da epigenética.

Epigenetics and the return to the great mother archetype.

Epigenetics is the study of how signals from the environment can change gene expression through the creation of molecules and chemical bonds that can last a lifetime and, therefore, determine the phenotype (the characteristics of the individual resulting from the interaction of their genotype [genes] with their environment). Research in this field began at McGill University, Canada, where it was observed that rats' mothers who were more nurturing raised more resilient pups. Since then, many studies have been carried out with animals and humans, showing the link between epigenetic changes and the experience of the great mother archetype - with potential consequences for the emotional life of the individual and for society.

L'épigénétique est l'étude de comment les signaux provenant de l'environnement peuvent changer l'expression des gènes, par la création de molécules et de liens chimiques qui peuvent durer toute la vie et qui, de ce fait, déterminent le phénotype. La recherche dans ce domaine a commencé à l'université McGill au Canada: il y a été observé que les mères de rats plus maternelles élevaient des jeunes plus résilients. Depuis, de nombreuses études ont été menées avec des animaux et des humains, montrant le lien entre les changements épigénétiques et l'expérience de l'archétype de la grande mère, avec des conséquences potentielles pour la vie émotionnelle de l'individu et pour la société.

La epigenética es el estudio de cómo señales del medio ambiente pueden modificar la expresión genética, a través de la creación de moléculas y enlaces químicos que pueden durar toda la vida y, por lo tanto, determinar el fenotipo. Las investigaciones en este campo comenzaron en la Universidad McGill, en Canadá, donde fue observado que las madres de ratas que fueron más nutricias criaban crías más resilientes. Desde entonces, se han llevado a cabo muchos estudios con animales y humanos, mostrando el vínculo entre los cambios epigenéticos y la experiencia del arquetipo de la Gran Madre - con consecuencias potenciales para la vida emocional del individuo y de la sociedad.

A epigenética é o estudo de como o ambiente pode interferir na expressão gênica, através de moléculas e ligações químicas que podem durar por toda a vida e, portanto, determinar o fenótipo. Todas as pesquisas começaram na universidade McGill, onde observou-se que ratas mais cuidadosas, maior comportamento de limpar e lamber os filhotes, acabavam por desenvolver filhotes com mais resiliência. Desde então muitas pesquisas foram realizadas com animais e seres humanos evidenciando a ligação entre epigenética e a experiência dentro do arquétipo da grande mãe e suas potenciais consequências para com os aspectos emocionais do indivíduo e da sociedade.

Epigenetic changes in headache.

INTRODUCTION: Multiple factors, including both genetic and environmental mechanisms, appear to play a role in the aetiology of headache. An interesting area of study is the possible involvement of epigenetic mechanisms in headache development and the transformation to chronic headache, and the potential role of these factors as a therapeutic target. METHODS: We performed a literature review of the involvement of different epigenetic mechanisms in headache, mainly using the Medline/PubMed database. To this end, we used the following English search terms: headache, migraine, epigenetics, DNA methylation, histones, non-coding RNA, and miRNA. RESULTS: A total of 15 English-language publications related to the above terms were obtained. CONCLUSION: There is limited but consistent evidence of the relationship between epigenetics and headache; it is therefore essential to continue research of epigenetic changes in headache. This may help to understand the pathophysiology of headache and even to identify candidate biomarkers and new, more effective, therapeutic targets.

piRNAs: nature, biogenesis, regulation, and their potential clinical utility.

RNAs that interact with PIWI (P-element Induced Wimpy) proteins, called piRNAs, were discovered in 2006. Considered the "guardians of the genome," piRNAs were first described in germ cells of Mus musculus and Drosophila melanogaster. Since then, studies have focused on elucidating their origin, biogenesis, and mechanisms of action. Today, we know some of the molecules that participate in these processes, but the nature of the molecular processes that they perform remains largely unknown. However, recent studies have demonstrated that both the piRNAs and their associated proteins are also expressed in somatic cells, suggesting that their scope of action is much greater than initially thought. In addition, their union to PIWI proteins generates a silencing complex that represses the transcriptional and post-transcriptional expression of repeated sequences, including elements known as "transposables". Finally, a recent discovery revealed that this complex could modulate the silencing of specific messenger RNAs (mRNA) necessary for cell regulation. The regulatory function that piRNAs perform in various cellular processes has led to a diversification in their study concerning various diseases, including cancer, where there are indications of their potential function as diagnostic tools, biomarkers for prognoses, and future therapeutic targets. Recently, changes in piRNAs expression have been observed in diseases related to air pollution exposition, such as respiratory diseases.

Los RNA que interactúan con las proteínas PIWI (P-element Induced Wimpy), conocidos como piRNA, fueron descubiertos en 2006. Desde entonces, los estudios se han enfocado en dilucidar su origen, biogénesis y mecanismos de acción. En la actualidad se conocen algunas de las moléculas que participan en estos procesos. Sin embargo, los procesos moleculares que estas llevan a cabo aún se desconocen. Considerados como los «guardianes del genoma¼, los piRNA inicialmente se describieron en células germinales de Mus musculus y Drosophila melanogaster, pero los estudios recientes han demostrado que tanto los piRNA como sus proteínas asociadas se expresan también en células somáticas, lo que sugiere que la acción de los piRNA es mayor de lo que antes se pensaba. Además, su unión con las proteínas PIWI genera un complejo de silenciamiento que reprime la expresión de manera transcripcional y postranscripcional de secuencias repetidas, ­incluyendo elementos conocidos como «transponibles¼. Por último, un descubrimiento ha demostrado que este complejo puede modular el silenciamiento de ciertos RNA mensajeros necesarios para la regulación celular. La función reguladora de los piRNA en múltiples procesos celulares ha contribuido a la diversificación de su estudio en diferentes enfermedades, incluyendo el cáncer, en el que hay indicaciones de su potencial función como herramientas de diagnóstico, biomarcadores de pronóstico y, en un futuro, dianas terapéuticas. Recientemente se han observado cambios en la expresión de piRNA en enfermedades relacionadas con la exposición a contaminantes ambientales, como las enfermedades respiratorias.