Abstract
Psychiatric illnesses are a major public health concern due to their prevalence and heterogeneity of symptom presentation resulting from a lack of efficacious treatments. Although dysregulated dopamine (DA) signaling has been observed in a myriad of psychiatric conditions, different pathophysiological mechanisms have been implicated which impede the development of adequate treatments that work across all patient populations. The ventral tegmental area (VTA), a major source of DA neurons in the brain reward pathway, has been shown to have altered activity that contributes to reward dysregulation in mental illnesses and drug addiction. It has now become better appreciated that epigenetic mechanisms contribute to VTA DA dysfunction, such as through histone modifications, which dynamically regulate transcription rates of critical genes important in synaptic plasticity underlying learning and memory. Here, we provide a focused review on differential histone modifications within the VTA observed in both humans and animal models, as well as their relevance to disease-based phenotypes, specifically focusing on epigenetic dysregulation of histones in the VTA associated with early life stress (ELS) and drugs of abuse. Locus- and cell-type-specific targeting of individual histone modifications at specific genes within the VTA presents novel therapeutic targets which can result in greater efficacy and better long-term health outcomes in susceptible individuals that are at increased risk for substance use and psychiatric disorders.
Highlights
Psychiatric disorders pose an extraordinary challenge to healthcare professionals due to their high prevalence and distribution globally
Using a rat model of early life stress (ELS), we have found that MD induces GABAergic metaplasticity at GABAergic synapses onto ventral tegmental area (VTA) DA neurons that preferentially promotes long-term depression (LTD) (Authement et al, 2015)
Transgenerational epigenetic inheritance has been documented in the case of DNA methylation (Sen et al, 2015), but not yet in the case of histone modifications
Summary
Psychiatric disorders pose an extraordinary challenge to healthcare professionals due to their high prevalence and distribution globally. While various degrees of genetic and phenotypic heterogeneity exist among patients, exposure to environmental risk factors contributes to individual variability through their effects on developmental organization of functional connections within discrete brain networks. This creates challenges in the development of therapeutics that are efficacious, long lasting, and generalizable across patient populations. This review will provide a succinct and up-to-date summary of major findings on different histone modifications observed in the VTA following exposure to ELS and drugs of abuse as environmental risks for psychiatric disorders (Figure 1)
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