Roge Bates scite author profile

Roge Bates

4Publications

38Citation Statements Received

45Citation Statements Given

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118

Affiliations

Harrington Cancer Center, Texas Tech University Health Sciences Center, Texas Tech University

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Spaceflight and development of immune responses

Sonnenfeld

Foster

Morton

et al. 1998

Journal of Applied Physiology

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The NIH.R1 Space Shuttle experiment was designed to study the effects of spaceflight on rodent development. Pregnant rats were flown on the Space Shuttle for 11 days, and pregnant control rats were maintained in animal enclosure modules in a ground-based chamber under conditions approximating those in flight. Additional controls were in standard housing. The effects of the flight on immunological parameters of dams, fetuses, and pups were determined. Blastogenesis of spleen cells in response to mitogen was inhibited in flown dams but was not inhibited in cells from their pups. Interferon-γ production by spleen cells showed a trend toward inhibition in flown dams but not in their pups. The response of bone marrow cells to colony-stimulating factor showed a trend toward inhibition after spaceflight in dams, but the response of fetus and pup liver cells was not inhibited. Total serum IgG was not affected by spaceflight. None of the examined immune parameters that were altered in rat dams after spaceflight was found to be altered in their offspring.

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2-Deoxy--Glucose–Induced Metabolic Stress Enhances Resistance to Listeria monocytogenes Infection in Mice

Miller

Bates

Koebel

et al. 1998

Physiology & Behavior

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Antiorthostatic Suspension Stimulates Profiles of Macrophage Activation in Mice

Miller

Bates

Koebel

et al. 1999

Neuroimmunomodulation

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The antiorthostatic suspension model simulates certain physiological effects of spaceflight. We have previously reported BDF1 mice suspended by the tail in the antiorthostatic orientation for 4 days express high levels of resistance to virulent Listeria monocytogenesinfection. In the present study, we examined whether the increased resistance to this organism correlates with profiles of macrophage activation, given the role of the macrophage in killing this pathogen in vivo. We infected BDF1 mice with a lethal dose of virulent L. monocytogenes on day 4 of antiorthostatic suspension and 24 h later constructed profiles of macrophage activation. Viable listeria could not be detected in mice suspended in the antiorthostatic orientation 24 h after infection. Flow cytometric analysis revealed the numbers of granulocytes and mononuclear phagocytes in the spleen of infected mice were not significantly altered as a result of antiorthostatic suspension. Splenocytes from antiorthostatically suspended infected mice produced increased titers of IL-1. Serum levels of neopterin, a nucleotide metabolite secreted by activated macrophages, were enhanced in mice infected during antiorthostatic suspension, but not in antiorthostatically suspended naive mice. Splenic macrophages from mice infected on day 4 of suspension produced enhanced levels of lysozyme. In contrast to the results from antiorthostatically suspended infected mice, macrophages from antiorthostatically suspended uninfected mice did not express enhanced bactericidal activities. The collective results indicate that antiorthostatic suspension can stimulate profiles of macrophage activation which correlate with increased resistance to infection by certain classes of pathogenic bacteria.

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16-Epiestriol, a Novel Anti-Inflammatory Nonglycogenic Steroid, Does Not Inhibit IFN-γ Production by Murine Splenocytes

Miller

Bates²,

Bjorndahl³

et al. 1998

Journal of Interferon & Cytokine Research

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All the steroidal anti-inflammatory drugs currently available are glucocorticoids. The desired anti-inflammatory activities of glucocorticoids frequently are accompanied by adverse side effects, notably glycogenic activities and profound immunosuppression, that can limit clinical use. We recently identified 16-epiestriol, a naturally occurring steroid, as exhibiting significant anti-inflammatory activity without glycogenic activity. In the present study, we compared the effects of 16-epiestriol and hydrocortisone on the capacity of murine splenocytes to produce interferon-y (IFN-y). We injected young adult male BDF1 mice once with 20 mg/kg hydrocortisone or 20, 5, or 1 mg/kg 16-epiestriol and 4 h later harvested the splenocytes. Flow cytometric analysis confirmed that 16-epiestriol did not alter the number of CD3+ T cells in the spleen. In contrast to the suppressive effects of hydrocortisone, none of the 16-epiestriol concentrations inhibited concanavalin A-stimulated IFN-gamma production by spleen cells, as determined by ELISA. Incubating spleen cells from untreated mice in concentrations of 16-epiestriol ranging from 1 mg/ml to 100 pg/ml did not alter profiles of IFN-gamma production, in contrast to the suppressive dose-response effects of hydrocortisone. Collectively, these results support the contention that 16-epiestriol may be a clinically useful safe anti-inflammatory steroid without profound immunosuppressive activities.

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Roge Bates

Spaceflight and development of immune responses

2-Deoxy--Glucose–Induced Metabolic Stress Enhances Resistance to Listeria monocytogenes Infection in Mice

Antiorthostatic Suspension Stimulates Profiles of Macrophage Activation in Mice

16-Epiestriol, a Novel Anti-Inflammatory Nonglycogenic Steroid, Does Not Inhibit IFN-γ Production by Murine Splenocytes

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