Alcohol abuse and alcoholism are major burdens for our society. While the development of excessive drinking patterns is influenced by many factors, stress in general, and stress during childhood in particular, are believed to be important etiological elements in this process. Indeed, chronic stress has been shown to alter neurotransmission in many brain systems linked to drug taking and alter the rewarding properties of a variety of abused drugs, including alcohol. Little is known, however about how the neurobiological response to stress might alter the way a subject responds to alcohol. Strikingly, many of the brain regions, including the orbital and medial prefrontal cortex, the amygdala and the hippocampus, that have been shown to modulate the response to stress, are also part of the brain reward circuitry, which is central in the development of excessive drinking. This commonality of neural circuitry suggests that these regions may play a role in mediating the effects of stress on alcohol consumption. In addition, serotonin-containing neurons of the dorsal raphe nucleus, which innervates all of the areas listed above, along with the hypothalamus, is a key modulator of the stress response, and is able to modify the response to drugs as well. This project, first funded in 2003, is designed to continue to study the interaction of childhood stress and ethanol by employing a well-studied model of childhood stress in rhesus monkeys, nursery-rearing. By comparing young adult nursery-reared monkeys to normal motherreared controls from the same colony, we are studying: 1) drinking behavior, 2) neuroendocrine status, 3) the serotonin transporter and receptors, and Corticotropin releasing factor receptors. Relevance to Public Health: Adults, who in childhood experience traumatic events like separation from their parents, are at increased risk for alcohol abuse and alcoholism. The causes for this increased risk are unknown. The proposed studies are designed to directly address the mechanisms by which childhood stress leads to adult alcoholism by studying the drinking behavior and brain structure and function of animals that experienced maternal separation. This information from this project can have important influences on how traumatized children may be protected from later substance abuse. ? ? ?
Akinyeke, Tunde; Weber, Sydney J; Davenport, April T et al. (2017) Effects of alcohol on c-Myc protein in the brain. Behav Brain Res 320:356-364 |
Rowland, Jared A; Stapleton-Kotloski, Jennifer R; Alberto, Greg E et al. (2017) Changes in nonhuman primate brain function following chronic alcohol consumption in previously naïve animals. Drug Alcohol Depend 177:244-248 |
Maldjian, Joseph A; Shively, Carol A; Nader, Michael A et al. (2016) Multi-Atlas Library for Eliminating Normalization Failures in Non-Human Primates. Neuroinformatics 14:183-90 |
Telesford, Qawi K; Laurienti, Paul J; Davenport, April T et al. (2015) The effects of chronic alcohol self-administration in nonhuman primate brain networks. Alcohol Clin Exp Res 39:659-71 |
Burnett, Elizabeth J; Grant, Kathleen A; Davenport, April T et al. (2014) The effects of chronic ethanol self-administration on hippocampal 5-HT1A receptors in monkeys. Drug Alcohol Depend 136:135-42 |
Davenport, April T; Grant, Kathleen A; Szeliga, Kendall T et al. (2014) Standardized method for the harvest of nonhuman primate tissue optimized for multiple modes of analyses. Cell Tissue Bank 15:99-110 |
Maldjian, Joseph A; Daunais, James B; Friedman, David P et al. (2014) Vervet MRI atlas and label map for fully automated morphometric analyses. Neuroinformatics 12:543-50 |
Shan, Hong Qu; Hammarback, James A; Godwin, Dwayne W (2013) Ethanol inhibition of a T-type Ca²+ channel through activity of protein kinase C. Alcohol Clin Exp Res 37:1333-42 |
Telesford, Qawi K; Laurienti, Paul J; Friedman, David P et al. (2013) The effects of alcohol on the nonhuman primate brain: a network science approach to neuroimaging. Alcohol Clin Exp Res 37:1891-900 |
Corcoran, Christopher A; Pierre, Peter J; Haddad, Tyler et al. (2012) Long-term effects of differential early rearing in rhesus macaques: behavioral reactivity in adulthood. Dev Psychobiol 54:546-55 |
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