We examined the effect of vitamin A deficiency on natural killer (NK) cell activity and interferon (IFN) production. Rats were weaned at 16 or 21 d of age onto semisynthetic diets containing either 0 or 4 micrograms retinol/g diet. At the time of study, retinol-depleted rats had serum vitamin A concentrations less than 7% of those of pair-fed controls. In two studies, rats exhibited no external signs of retinol deficiency, but with further depletion some symptoms were observed. Splenic NK cell activity against chromium-51-labeled YAC-1 cells was significantly decreased in vitamin A-depleted rats (22-80% of values for control rats, depending on the degree of retinol deficiency), regardless of the ratio of effector to target cells used. When vitamin A-depleted rats were repleted orally with retinol, NK cell activity was consistently normalized. To understand the possible mechanisms involved in decreasing NK cell activity, we investigated IFN production by concanavalin A-stimulated spleen cells from vitamin A-depleted, from repleted and from control animals. IFN titers were significantly decreased (22-33% of values for control rats) in supernatants of spleen cell cultures of the vitamin A-depleted rats. Repletion with vitamin A resulted in IFN activities ranging from 80 to 130% of controls. Adding alpha/beta IFN in vitro to the spleen cells of vitamin A-depleted animals increased their NK cell activity. The number of spleen cells reacting with a monoclonal antibody specific for rat NK cells was slightly lower in retinol-depleted rats, but not enough to account for the differences in NK cell and IFN activities. These data suggest that vitamin A deficiency affect the nonspecific arm of the immune system, possibly by altering the functional capacity of cells to produce lymphokines needed for the generation of an appropriate cytolytic response.
To determine the ability of young rats to produce antibody against pneumococcal polysaccharide (SSS-III), weaning rats were fed a semipurified diet containing no retinol (A-) or 4 micrograms retinol/g diet (A+). Splenic antibody response specific to SSS-III was 17% (p less than or equal to 0.05) of control for A- Sprague-Dawley rats; similarly, the response of retinol-depleted Lewis rats was 22% (p less than or equal to 0.05) of pair-fed controls. No kinetic differences were observed in the antibody response between A- and control Lewis rats. Retinol depletion more markedly reduced the antibody response of male rats than female rats despite equally low tissue retinol concentrations. For both strains, retinol repletion near the time of immunization normalized antibody production. When male Lewis rats were fed the A- diet longer, the antibody response of A- rats was only 3% of pair-fed controls; repletion again normalized antibody production. Thus, retinol supplementation near the time of immunization can restore the immune response in previously compromised A- rats.
Genistein is a naturally occurring isoflavone found in soy. Genistein has been shown to increase the open probability of the most common cystic fibrosis (CF) disease-associated mutation, ∆F508-CFTR. Mice homozygous for the ∆F508 mutation are characterized with severe intestinal disease and require constant laxative treatment for survival. This pathology mimics the intestinal obstruction (meconium ileus) seen in some cystic fibrosis patients. This study tested whether dietary supplementation with genistein would reduce the dependence of the ∆F508 CF mouse model on laxatives for survival, thereby improving mortality rates. At weaning (21 days), homozygous ∆F508 mice were maintained on one of three diet regimens for a period of up to 65 days: normal diet, normal diet plus colyte, or genistein diet. Survival rates for males were as follows: standard diet (38%, n = 21), standard diet plus colyte (83%, n = 42) and genistein diet (60%, n = 15). Survival rates for females were as follows: standard diet (47%, n = 19), standard diet plus colyte (71%, n = 38), and genistein diet (87%, n = 15). Average weight of male mice fed genistein diet increased by ~2.5 g more (p = 0.006) compared to those with colyte treatment. Genistein diet did not change final body weight of females. Expression of intestinal SGLT-1 increased 2-fold (p = 0.0005) with genistein diet in females (no change in males, p = 0.722). Expression of GLUT2 and GLUT5 was comparable between all diet groups. Genistein diet reduced the number of goblet cells per micrometer of crypt depth in female (p = 0.0483), yet was without effect in males (p = 0.7267). The results from this study demonstrate that supplementation of diet with genistein for ~45 days increases the survival rate of female ∆F508-CF mice (precluding the requirement for laxatives), and genistein only improves weight gain in males.
Genistein is a naturally occurring isoflavone found in soy. Mice homozygous for the ∆F508 mutation are characterized with severe intestinal disease and require constant laxative treatment for survival. This pathology mimics the intestinal obstruction (meconium ileus) seen in some cystic fibrosis (CF) patients. We therefore tested whether dietary supplementation with genistein would reduce the dependence of the ∆F508 CF mouse model on laxatives for survival, thereby improving mortality rates. At weaning (21 days), we maintained homozygous ∆F508 mice on three diet regimens for a period of up to 65 days; normal diet, normal diet + Colyte or genistein diet. Survival rates for males were as follows: standard diet (38%), standard diet plus Colyte (83%) or genistein diet (60%). Survival rates for females were as follows: standard diet (47%), standard diet plus Colyte (71%), or genistein diet (87%). Average weight of male mice fed genistein diet increased by ~2.5 g more compared to those with Colyte treatment. Genistein diet did not change final body weight of females. Expression of SGLT-1 increased 2-fold with genistein diet in females (no change in males). Expression of GLUT2 and GLUT5 was comparable between all diet groups. Genistein diet reduced the number of goblet cells per micometer of crypt depth in female, yet was without effect in males. We conclude that supplementation of diet with genistein for ~45 days increases the survival rate of female ∆F508-CF mice precluding the requirement for laxatives, and only improves weight gain in males.
Growing evidence has demonstrated the benefits of regular exercise on cardiovascular, neural, and cognitive function in humans with Alzheimer’s disease (AD). However, the consequences of AD on gastrointestinal morphology and the effects of regular exercise, which plays an important role against the development of certain gastrointestinal-related diseases, are still poorly understood. Therefore, to assess the changes in intestinal structure in a mouse model of AD and the impact of exercise, 2-month-old 3xTg-AD male mice were subjected to treadmill running 5 days per week for a period of 5 months. Jejunum from 3xTg-AD mice analyzed by histochemical methods revealed significant alterations in morphology. Compared to age-matched wild-type (WT) mice, villi length and crypt depth were increased, and collagen content of jejunum was elevated in 3xTg-AD mice. Jejunum wall dimensions, expressed as total wall thickness, outer longitudinal thickness, and inner circular thickness were decreased in 3xTg-AD compared to WT. Smooth muscle actin expression in jejunal wall was decreased in 3xTg-AD. Most of these aberrations were improved with exercise. Western blot expression of cyclin dependent kinase 5 (CDK5, involved in neural cell death and hyperphosphorylation of tau), was elevated in 3xTg-AD jejunum. This was associated with a 4-fold increase in tau5 expression. Exercise prevented the increase in expression of CDK5 and tau5. Expression of caspase 3 (an apoptotic marker) was elevated in 3xTg-AD jejunum and exercise prevented this. The results of our study indicate that the abnormalities in jejunum of the 3xTg mouse model of AD were prevented with exercise training.
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