Barbara L. Gocinski scite author profile

Changes in mucosal defense have been implicated as important factors affecting infections complications in critically ill patients. To study the effects of nutrient administration on gut-associated lymphatic tissue (GALT), ICR mice were randomized to receive chow plus intravenous saline, intravenous feeding of a total parenteral nutrition (TPN) solution, or enteral feeding of the same TPN solution. In a second series of experiments, a more complex enteral diet (Nutren) was compared with chow feeding and enteral TPN. After 5 days of feeding with experimental diets, lymphocytes were harvested from the mesenteric lymph nodes (MLNs), Peyer's patches (PPs), lamina propria (LP) cells, and intraepithelial (IE) spaces of the small intestine to determine cell yields and phenotypes. Small intestinal washings, gallbladder contents, and sera were collected and analyzed for immunoglobulin A (IgA) levels. In both series of experiments, there were no significant changes within the MLNs. There were significant decreases in total cell yields from the PPs, IE spaces, and LP in animals fed with TPN solution, either enterally or parenterally, as compared with chow-fed mice. Total T cells were decreased in both TPN-fed groups in the PPs and LP, whereas total B cells were decreased in the PP, IE, and LP populations. Total cell numbers remained normal in the Nutrenfed group, except for a decrease in LP T cells. CD4+ LP cells decreased significantly with a reduction in the CD4/CD8 ratio in mice fed TPN solution either intravenously or enterally, whereas IgA recovery from small intestinal washings was significantly decreased in the same groups.(ABSTRACT TRUNCATED AT 250 WORDS)

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Seasonal shifts in giant panda feeding behavior: relationships to bamboo plant part consumption

Hansen

Carr

Apanavicius

et al. 2010

Zoo Biology

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The giant panda (Ailuropoda melanoleuca) is classified as a carnivore, yet subsists on a diet comprised almost exclusively of bamboo. Wild and captive giant pandas use highly selective foraging behaviors for processing and consuming bamboo. These behaviors are for the first time quantified in captive giant pandas over a 5-year period of time showing highly specific seasonal trends. Giant panda feeding behavior was recorded using live video observations of two giant pandas housed at the Memphis Zoo from November 2003 to June 2008. Leaf was the primary plant part consumed from June to December, whereas culm was consumed primarily from February to May, with both bears displaying similar seasonal shifts in plant part consumption. From May to June, leaf consumption increased significantly (P-values<0.001); from June to August, leaf consumption remained high and stable. From December to March, leaf consumption decreased significantly (P-values<0.001). Specific behaviors for bamboo leaf and culm consumption were also observed. Both bears formed wads of leaves before ingestion while feeding on leaf, but the male employed this feeding behavior more often than the female (54 and 33%, respectively). Both bears used similar culm-stripping behavior (26 and 25%), used to remove the outer layer and isolate the pith for consumption. This study indicates that unique seasonal foraging behaviors observed in wild pandas are also apparent in captive animals in relation to plant part selectivity and feeding behaviors.

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Bombesin Affects Mucosal Immunity and Gut-Associated Lymphoid Tissue in Intravenously Fed Mice

Kudsk²,

Hamidian³

et al. 1995

Arch Surg

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The effect of age on the infection and immunoresponsiveness of mice to Babesia microti

Habicht

Benach

Leichtling

et al. 1983

Mechanisms of Ageing and Development

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Changes in urinary androgen concentration indicate that male giant pandas (Ailuropoda melanoleuca) respond to impending female oestrus during and outside the typical spring breeding season

Gocinski

Knott

Roberts

et al. 2018

Reprod. Fertil. Dev.

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Giant pandas have been described as mono-oestrus spring breeders, yet males exposed to aseasonal oestrous females in the autumn or winter exhibit breeding behaviours and interest in mating. In the present study, urinary androgens and sperm parameters were quantified for males exposed to females expressing oestrus during spring, autumn or winter to examine plasticity of reproductive seasonality in giant pandas. Monthly average androgen concentrations for two males exposed to females in either seasonal or aseasonal oestrus were greater (P<0.001) than baseline concentrations. Evaluation of daily androgen concentrations revealed a peak that was three- to fivefold greater than baseline, occurring an average of 5 days before ovulation for both seasonal and aseasonal cycles. There were no significant differences in testes volume, sperm motility, forward progression or sperm concentration in males between female seasonal and aseasonal cycle years. Male gonadal activity was more variable without a clear pattern in years when the female was anovulatory than when she was ovulatory (seasonal or aseasonal). These data show the flexible reproductive capacity of male giant pandas as demonstrated by a rapid physiological readiness to mate in response to female oestrous cues within or outside the normal breeding season and may suggest a facultative seasonal reproduction with a 'female-induced rut'.

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Roles of CD4+ and CD8+ T cells in murine contact sensitivity revealed by in vivo monoclonal antibody depletion.

Gocinski

Tigelaar

1990

273

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mAb specific for murine CD4+ and CD8+ T cell subsets were utilized to determine the populations participating in delayed-in-time, cutaneous hypersensitivity responses in BALB/c mice. In vivo depletions of these T cell phenotypes revealed that delayed-type hypersensitivity to cellular and protein Ag were mediated by CD4+ effector cells, whereas CD8+ cells down-regulated such responses. Similar depletions in mice prior to sensitization with the hapten 1-fluoro-2,4-dinitrobenzene demonstrated a more complex pattern of cell participation in contact sensitivity (CS) responses. Depletion of CD4+ cells resulted in strikingly enhanced ear swelling, indicating not only an important effector role for CD8+ cells but also a down-regulatory role for some CD4+ cells; depletion of CD8+ cells revealed that some CD4+ cells also act as CS effectors. In vitro depletion of immune lymph node cells with the same mAb before adoptive transfer confirmed CS effector roles for both subsets, and also suggested that at least some CD4+ suppressors act on the efferent limb of the CS response, perhaps by down-regulating the activity of CD8+ effector cells. Partial in vivo depletion with small amounts anti-CD4 mAb and subsequent flow cytometric analysis of residual CD4+ cells was consistent with the hypothesis that CD4+ CS effector cells express a higher density of the CD4 antigen than do CD4+ suppressor cells, raising the possibility that these two functionally distinct CD4+ populations might be separable on the basis of their surface expression of CD4.

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Gut-Associated Lymphoid Tissue (Galt) Changes Secondary to Enteral (En) and Parenteral (Pn) Administration of a TPN Solution

Gocinski

Langkamp‐Henken

et al. 1994

The Journal of Trauma: Injury, Infection, and Critical Care

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cis-dominant regulation of CD4 and CD8 gene expression in rat/mouse T cell heterohybridomas.

Gocinski

Sun²,

Coleclough³

1993

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To determine whether expression of CD4 and CD8 molecules on T cells is determined-solely by transacting regulators, we examined heterohybridomas derived from the fusion of a rat CD4+ T cell line and the CD4- CD8- mouse thymoma BW5147. The majority of hybrid offspring expressed rat CD4. However, a fraction of the cell lines obtained expressed not only rat CD4 but also various amounts of mouse CD4 and CD8 molecules from both species. Cloning of two of these heterogeneous lines revealed that expression of all four Ag varied not only between different clones but also within clonal populations. The expression of Ag not present on the parental cells suggested an alteration in the normally stable regulatory mechanisms present in those cells. Moreover, a lack of concordant expression between the rat and mouse loci was observed, indicating that active and silent homologous loci can exist together in single nuclei. Expression of CD4 and CD8 in these cells, therefore, cannot be solely mediated by trans-acting diffusible regulators but must also depend on cis-dominant effects on the loci themselves. The phenotypic heterogeneity of clonal populations was found to result from unpredictable shifts, both positive and negative, in the expression of CD4 and CD8 over time, indicating that the cis-dominant effects were only quasistable. Preliminary examinations of the density of 5-methylcytosine within the CD4 and CD8 loci in various phenotypic populations separated by FACS from within heterogeneous clones revealed a correlation between surface expression of the mouse CD8 protein and a lack of methylation around the mouse CD8 gene. In contrast, the CD4 gene remained extensively methylated regardless of its surface expression.

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