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Adolescence is a distinct developmental period characterized by behavioral and physiological maturation. Rapid ongoing changes during neurodevelopment in particular present potential opportunities for stress to have lasting effects on longitudinal outcomes of behavioral and neuroendocrine function. While adult stress effects on outcomes during adulthood have been characterized, little is known about the lasting effects of adolescent repeated stressor exposure on outcomes during adolescence. We have previously reported different stress responses in adolescent rats relative to adult rats, including a blunted fear response outcome in adulthood in rats stressed during adolescence. The present study characterized the ontogeny of behavioral and neuroendocrine responses to eight underwater trauma (UWT) exposures in rats over a two week poststress time period during adolescence (P34) or adulthood (P83) relative to age-matched control groups that underwent eight swimming episodes without UWT. Repeated UWT exposures starting in adolescence, but not adulthood, resulted in adverse behavioral responses on the elevated plus maze 1 day post-stress. Corticosterone responses did not differ between UWT-exposed and controls for either age group at 1 day or at 7 days poststress, although there was an effect of age on corticosterone levels. We conclude that repeated UWT stress events have a lasting, negative behavioral effect on adolescent rats that is not observed in adult rats after the two-week exposure window. These results suggest that neurophysiological mechanisms underlying recovery from a repeated stressor are immature in adolescence relative to adulthood in rats.

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Stress exposure during development may influence adulthood stress response severity. The present study investigates persisting effects of two adolescent stressors upon adulthood response to predator exposure (PE). Rats were exposed to underwater trauma (UWT) or PE during adolescence, then to PE after reaching adulthood. Rats were then exposed to predator odor (PO) to test responses to predator cues alone. Behavioral and neuroendocrine assessments were conducted to determine acute effects of each stress experience. Adolescent stress altered behavioral response to adulthood PE. Acoustic startle response was blunted. Bidirectional changes in plus maze exploration were revealed as a factor of adolescent stress type. Neuroendocrine response magnitude did not predict severity of adolescent or adult stress response, suggesting that different adolescent stress events may differentially alter developmental outcomes regardless of acute behavioral or neuroendocrine response. We report that exposure to two different stressors in adolescence may differentially affect stress response outcomes in adulthood. Acute response to an adolescent stressor may not be consistent across all stressors or all dependent measures, and may not predict alterations in developmental outcomes pertaining to adulthood stress exposure. Further studies are needed to characterize factors underlying long-term effects of a developmental stressor.

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The pro-inflammatory enzyme cyclooxygenase-2 (COX-2) is regularly expressed in the hippocampal neurons, but its role in emotional trauma is not known. Here we show that a single acute stress caused by a near-drowning experience results in heightened anxiety-like behavior one month after the trauma. Biochemical analyses of dorsal and ventral hippocampal CA1, CA3 and dentate gyrus revealed decreased ubiquitination and elevated levels of COX-2 in the traumatized animals only in the ventral CA1. To reveal the identity of the ubiquitin E3 ligase that targets COX-2, we tested the effect of several representative E3 ligases on COX-2 expression in vitro. We found that while AIP4 and Nedd4 had no effect, Mdm2 lowered COX-2 expression by nearly 50%, an effect that was not observed by its dominant negative form. To test whether this also occurs in the hippocampus, we immunoprecipitated Mdm2 from dorsal and ventral CA1 of traumatized and control animals and probed for the presence of COX-2. Our results showed that the levels of Mdm2 were not affected by the trauma but there was significantly less COX-2 associated with Mdm2 in the ventral but not dorsal CA1 of the traumatized animals. Together these data propose that an increase in COX-2 expression in ventral CA1 following trauma is likely due to its attenuated degradation. Unraveling the pathways and mechanisms that control hippocampal COX-2 degradation is important to boost the development of novel therapeutic approaches designed to treat stress-related pathologies.

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The objective of the present study was to evaluate the interaction of two kinds of external stimuli (long-term tactile stimulation and underwater trauma) on the exploratory behavior of malnourished rats in an elevated plus maze (EPM). The results showed that tactile stimulation partially recovered body weight deficits produced by malnutrition and decreased EPM exploration. Malnutrition increased EPM exploration while underwater trauma decreased it, thus reducing differences between well nourished and malnourished animals. These data show that only one of the two external stimuli (underwater trauma) interacted with diet condition, suggesting that the stress caused by trauma was efficient in decreasing higher EPM exploration, equalizing the response of malnourished animals to that of non-traumatized well-nourished animals.

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We observed a case of Aeromonas genus infection in soft tissue caused by an underwater trauma. The patient was a 67-year-old male. His chief complaint was the left cruralgia, and his medical history was unremarkable. The clinical history was that he fell into a rice field while riding a bicycle on July 22, 2005, and suffered a blow to the left eras. On the same day, he was emergently referred to our hospital. He was diagnosed with a left eras bruise; after his wound was washed and sewed up, antibiotics were administered. When he visited our hospital again on July 24, he was hospitalized because of aggravated infection. His wound was urgently washed, drained, and debrided.<br>Aeromonas genus was detected in a bacterial culture. The wound was opened and debrided on August 5 because skin necrosis appeared on the sewed portion of the wound due to continued infection. As the infection receded, granulation was promoted by bFGF and the patient was declared healed on September 22. The Aeromonas genus is a gram-negative, rod-shaped genus of bacteria that lives underwater, and a fatal course due to infection with it is possible even from a mild trauma. Although few cases of Aeromonas infection in soft tissue during spa treatment have been reported, springs could always be polluted by them because they are environmental bacteria. It is important to suspect bacterial infection in the case of an underwater trauma and administer appropriate treatment. In addition, it is necessary to consider the possibility of contamination of spa water with bacteria when we receive spa treatment. We want to enlighten spa operators and users about preventing infection in the future.