Stress can promote palatable food intake, and consumption of palatable foods may dampen psychological and physiological responses to stress. Here we develop a rat model of daily limited sweetened drink intake to further examine the linkage between consumption of preferred foods and hypothalamic-pituitary-adrenocortical axis responses to acute and chronic stress. Adult male rats with free access to water were given additional twice-daily access to 4 ml sucrose (30%), saccharin (0.1%; a noncaloric sweetener), or water. After 14 d of training, rats readily learned to drink sucrose and saccharin solutions. Half the rats were then given chronic variable stress (CVS) for 14 d immediately after each drink exposure; the remaining rats (nonhandled controls) consumed their appropriate drinking solution at the same time. On the morning after CVS, responses to a novel restraint stress were assessed in all rats. Multiple indices of chronic stress adaptation were effectively altered by CVS. Sucrose consumption decreased the plasma corticosterone response to restraint stress in CVS rats and nonhandled controls; these reductions were less pronounced in rats drinking saccharin. Sucrose or saccharin consumption decreased CRH mRNA expression in the paraventricular nucleus of the hypothalamus. Moreover, sucrose attenuated restraint-induced c-fos mRNA expression in the basolateral amygdala, infralimbic cortex, and claustrum. These data suggest that limited consumption of sweetened drink attenuates hypothalamic-pituitary-adrenocortical axis stress responses, and calories contribute but are not necessary for this effect. Collectively the results support the hypothesis that the intake of palatable substances represents an endogenous mechanism to dampen physiological stress responses.
Maintaining rats on total parenteral nutrition (TPN) for 6 days significantly reduced mass (-34%), protein (-32%), and DNA (-35%) in small intestine and colon (29-37% decrease). Coinfusion of glucagon-like peptide-2 (GLP-2) normalized each of these variables in duodenum, jejunum, and ileum, but not in colon. Histological analysis of tissue revealed normal mucosa thickness and villus height in small intestine of GLP-2-treated rats, whereas nontreated rats maintained on TPN exhibited villus shortening (-30%) and thinning (-23%) of mucosa. These results suggest that hormonal alterations may be more important than an absence of luminal nutrition in TPN-associated mucosal changes. Additionally, GLP-2 normalization of gut mucosa permits accurate assessment of the influence of reversal of hypoplasia on gut barrier function.
Immature myeloid cells have been implicated as a source of postburn inflammation, and the appearance of these cells correlates with enhanced upregulation of hematopoiesis. The role of proliferative cells in postburn immune changes has not been directly tested. Gemcitabine, a ribonucleotide reductase inhibitor, has been shown to deplete proliferative immature myeloid cells in tumor models while sparing mature cells, leading to restored lymphocyte function and tumor regression. We treated burn mice at postburn day 6 (PBD6) with 120 mg/kg gemcitabine. On PBD8, splenocytes were taken and stimulated with LPS, peptidoglycan, or concanavalin A. The blood and spleen cell populations were enumerated by flow cytometry or automated cell counter. In addition, mice treated with gemcitabine were given LPS or infected with Pseudomonas aeruginosa at PBD8, and mortality was monitored. Gemcitabine depleted burn-induced polymorphonuclear leukocytes and inflammatory monocytes without affecting mature F4/80 macrophages. This was accompanied by reduced TNFα, IL-6, and IL-10 production by burn splenocytes. Burn splenocytes stimulated with mitogens exhibited increased nitric oxide production relative to sham mice. In vivo treatment of burn mice with gemcitabine blocked these burn-induced changes without damaging lymphocyte function. Treatment of burn mice with gemcitabine ameliorated burn-induced susceptibility to LPS and infiltration of polymorphonuclear leukocytes into the liver and lung. Finally, gemcitabine treatment blocked the protective effect of burn injury upon P. aeruginosa infection. Our report shows that proliferative cells are major drivers of postburn immune changes and provides evidence that implicates immature myeloid cells in these processes.
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