DESCRIPTION (provided by applicant): Nineteen million people a year in the United States experience depression. A potentially lethal disease, depression puts a strain on family members, leads to lost hours at school and work, is costly to treat, and places a substantial burden on society. In light of this, it is surprising that the pathogenesis of depression is still poorly understood. One feature of the illness that is clear - depression is highly correlated with an abnormal response to stress. The stress response is mediated by the hypothalamic-pituitary-adrenal (HPA) axis. Activity of the HPA axis is normally tightly regulated, in large part because the end products, glucocorticoids, are potent down- regulators of the system. In depression, neurons in the hypothalamus that synthesize and secrete the peptide that triggers the stress response, corticotropin-releasing hormone (CRH), are insensitive to glucocorticoid down-regulation. Because these neurons are the final common integrators of inputs from the central nervous system and the hormonal milieu, if they are abnormally responsive, the entire functioning of the axis is negatively affected. The experiments described in this proposal are designed to elucidate mechanisms by which glucocorticoids down-regulate expression of the CRH gene (crh). Aims 1 and 2 take advantage of a relatively new and powerful technique, chromatin immunoprecipitation (ChIP), and a relatively new neuronal cell line (IVB), which has many features of CRH cells in the hypothalamus. Aim 1 is designed to determine which arrays of co-regulatory proteins are required for down-regulation of crh expression. Aim 2 is designed to determine the role that chromatin modification enzymes and their epigenetic marks play in regulating crh. In Aim 3, the work will be taken into an in vivo setting. Data gained from Aims 1 and 2 will guide the in vivo work by narrowing the array of possible candidates to be chosen for analysis. Two in vivo settings will be studied. First, patterns of coregulators and histone modification enzymes will be assessed at the circadian peak and trough of corticosterone (Cort). These experiments will permit analysis of the effect physiological changes in Cort levels exert on coregulators and histone modification enzymes. Second, rats will be administered metyrapone at short time points, and the same parameters assessed as in the circadian studies. Taken together, the studies will permit molecular analysis of epigenetic mechanisms that regulate the stress response. This unique combination of approaches to the study of depression will produce a novel array of data, leading to a greater understanding of mechanisms of HPA regulation, and increasing our ability to identify novel drug targets for the treatment of depression. PUBLIC HEALTH RELEVANCE: Depression is a remarkably common illness that carries a lifetime risk of 20-25% - one in every five people will experience an episode of depression in the United States. A potentially lethal disease, depression puts strain on family members, leads to lost hours at school and work, is costly to treat, and places a substantial burden on society. Many cases are treatable with drugs such as fluoxetine (Prozac), but rarely is any single drug continually efficacious for a given individual. The current trend is to use a combination of drugs;however, many of these drugs'mechanisms of action are poorly understood. Optimizing this poly-pharmaceutical approach can be better accomplished by defining various steps in the pathogenesis of depression, which will lead to the identification of novel drug targets. One aspect of depression is clear - it is inexorably linked to a dysfunctional response to stress. The physiological system that mounts the stress response is the hypothalamic-pituitary-axis. Stressors are integrated in the hypothalamus, which sits at the base of the brain. These cells synthesize and secrete corticotropin-releasing hormone, or CRH. It is this peptide that triggers the stress response, and it is the cells that synthesize CRH that are abnormal. The proposed studies are designed to elucidate mechanisms by which the stress steroids, glucocorticoids, exert their usual, and profound, inhibitory effect on the CRH neurons. The studies take advantage of a powerful technique, chromatin immunoprecipitation, which is currently in its infancy as an investigatory tool of the nervous system. Additionally, the studies incorporate a relatively new cell line derived from the hypothalamus that has many features of CRH neurons. Data from the cell line will be used to develop mechanistic models of the stress response, which will be tested in vivo in the last set of proposed experiments.
|Effective start/end date||1/09/09 → 30/11/15|
- National Institute of Mental Health: $362,619.00
- National Institute of Mental Health: $377,185.00
- National Institute of Mental Health: $366,049.00
- National Institute of Mental Health: $348,232.00
- National Institute of Mental Health: $362,503.00
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