It is important to note that these factors are neither unique to

It is important to note that these factors are neither unique to stress resilience during adolescence, nor the only elements likely at work modulating an individual’s resilience to stress. Instead, these factors are discussed to illustrate potential mechanisms through which resilience to adolescent stress may be realized and provide examples of future lines of research that could be investigated. The HPA axis is the primary neuroendocrine axis that mediates stress-induced hormonal responses. This response is driven by a cascade of signals beginning with the release

of corticotropin-releasing DAPT hormone (CRH) from the paraventricular nucleus of the hypothalamus. CRH is released into the hypophyseal portal system, which in turn leads to the release of adrenocorticotropin hormone (ACTH) from the anterior pituitary. ACTH then stimulates the secretion of the glucocorticoids (i.e.,

cortisol in primates and corticosterone in many rodent species) from the adrenal cortex (Herman and Cullinan, 1997, Herman et al., 2003 and Ulrich-Lai and Herman, 2009). In the short-term, release of these hormones mediate many beneficial effects, JAK inhibitor such as mobilization of energy stores, reduced inflammation, and enhanced immune activity and memory formation (McEwen, 2007, Roozendaal, 2000, Sapolsky et al., 2000 and Dhabhar, 2009). However, if individuals experience prolonged or repeated exposure to these stress-related hormones, then negative effects may emerge, including altered metabolism and cognitive deficits (McEwen, 2005, McEwen and Stellar, 1993, McEwen, 2003, Sapolsky, 1999, Herbert et al., 2006, McEwen, 2004 and van Praag, 2004). Therefore, factors that modulate the responsiveness of the HPA axis

may have significant and widespread consequences for the individual. Many experiments have addressed how experiences early in life shape HPA axis function and the implications these changes may have over on an individual’s later physiology and behavior (Korosi and Baram, 2010). One salient influence on early life programming of the HPA axis is the relative presence or absence of a caregiver, usually the mother in rodent studies, and the quantity and quality of parental care. Data derived from the “handling” paradigm (Levine, 1957), in which brief periods of maternal separation lead to enhanced maternal behavior, have led to numerous discoveries about the role of maternal care on the offspring’s HPA function (Caldji et al., 2000 and Tang et al., 2014). It has been shown that increased quantity of arch backed nursing and licking and grooming (Liu et al., 1997), as well as the consistency of these maternal behaviors (Akers et al., 2008), are important variables in reducing stress reactivity in adulthood. Neonatal handling has also been shown to modify HPA function in adolescent animals.

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