Yoshihiko Yagyu scite author profile

Yoshihiko Yagyu

5Publications

56Citation Statements Received

31Citation Statements Given

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Nara Medical University

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Enhanced Interleukin Production after Long-Term Administration of Erythromycin Stearate

Kita

Sawaki

Nishikawa³

et al. 1990

Pharmacology

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The effects of erythromycin stearate (10 mg/kg/day) were studied on productions of interleukin (IL)-l and -2 in mice after a long-term treatment. A 28-day treatment resulted in higher levels of IL-1 production by macrophages and of IL-2 production by splenocytes, while a 7-day treatment did not increase them. T-cell growth factor activity of IL-2 preparation prepared on day 28 of treatment as determined by HT-2 cell proliferation was reduced by about 40% in the presence of anti-murine IL-4 monoclonal antibodies, while control IL-2 activity was not reduced. Furthermore, a 28-day treatment with erythromycin stearate increased concanavalin A-induced blastogenesis of splenocytes significantly. These results suggest that long-term treatment with erythromycin stearate can stimulate host defense by increasing interleukin production.

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Alterations of Host Resistance to Mouse Typhoid Infection by Sex Hormones

Kita

Yagyu

Nishikawa

et al. 1989

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The effect on mouse typhoid infection of a 3-day treatment of female virgin mice with 1 mg/day of female sex hormones (estrogen or progesterone), maintaining the same hormonal levels observed in pregnant mice for 30 days, was investigated in order to clarify the mechanisms of altered resistance during pregnancy. Estrogen-exposed mice were more susceptible to the intraperitoneal challenge with Salmonella typhimurium as compared with the vehicle control mice, while progesterone treatment increased the survival times of mice. Estrogen exposure increased the number of peritoneal cells after treatment, but the inflammatory cellular response after infection was significantly suppressed. Although the estrogen-treated and vehicle control mice had the same degrees of peritoneal cellular responses after infection, the death rates in the estrogen-treated mice were higher than those in the vehicle control mice against challenge with 1 LD50 of S. typhimurium. On the other hand, progesterone treatment resulted in the marked influx of peritoneal cells after treatment was terminated, and also it induced a significant increase in the number of peritoneal cells after infection. Although survival times in the progesterone group were higher than those in other groups, all progesterone-treated mice died after a challenge with 1,000 LD50 of S. typhimurium. These results suggest that progesterone enhances nonspecific resistance by increasing the influx of peritoneal cells after infection, while estrogen affects the acute inflammatory responses.

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Effects of Mouse Testicular Extract on Immunocompetent Cells

Emoto¹,

Yagyu²,

Nishikawa³

et al. 1989

American J Rep Immunol

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We investigated mouse testicular extract (TE) to clarify its biological functions in reproductive immunity. TE, at concentrations of 50-300 micrograms/ml, enhanced macrophage activities of spreading, glucose consumption, and cytostasis against a susceptible tumor cell line. On the other hand, TE inhibited concanavalin A (Con A)-induced T-cell blastogenesis in the dose range of 10-600 micrograms/ml. To elucidate the origin of TE, W/Wv mice, which genetically lack germ cells, were used. TE obtained from W/Wv mice enhanced the spreadability of macrophages and inhibited Con A-induced blastogenesis of T cells. The enhancement of macrophage spreading was only achieved by the interstitial fluid (IF), while the suppression of Con A-induced T-cell responses was detected in seminiferous tubule fluid (STF) as well as in IF. TE did not affect listerial antigen-specific responses of lymphocytes in vitro. These results suggest that TE has the capacity to regulate the biological responses associated with reproduction.

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Biological Functions of Mouse Seminal Vesicle Fluid I. Suppression of Blastogenic Responses of Lymphocytes

Emoto

Kita

Nishikawa

et al. 1990

Archives of Andrology

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The effect of mouse seminal vesicle fluid (SVF) on blastogenic response of splenocytes to mitogens was investigated. SVF significantly suppressed blastogenic response of splenocytes to concanavalin A and phytohemagglutinin in a dose-dependent manner, but blastogenic response to lipopolysaccharide was suppressed only at low, although significant, levels, even at high concentrations of SVF. Extensive dialysis did not reduce the capacity of SVF to inhibit blastogenesis of splenocytes. For elucidation of the mechanisms of suppression of blastogenic response, interleukin-2 (IL-2)-dependent cells were cultured in the presence of IL-2 and various concentrations of SVF. The presence of SVF did not inhibit the proliferative response of IL-2-dependent cells to IL-2. These results suggest that the suppression of blastogenic response of T lymphocytes to mitogens in seminal plasma is caused by an undialyzable component (or components) derived from seminal vesicle and is attributable to the alteration of receptors for mitogens or of IL-2 receptors that are expressed on stimulation by mitogens.

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The Effect of Erythromycin Treatment of Natural Killer (NK) Cell Activity in Patients with Chronic Lower Respiratory Tract Infections

Mikasa¹,

Sawaki²,

Konishi³

et al. 1989

kansenshogakuzasshi

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Yoshihiko Yagyu

Enhanced Interleukin Production after Long-Term Administration of Erythromycin Stearate

Alterations of Host Resistance to Mouse Typhoid Infection by Sex Hormones

Effects of Mouse Testicular Extract on Immunocompetent Cells

Biological Functions of Mouse Seminal Vesicle Fluid I. Suppression of Blastogenic Responses of Lymphocytes

The Effect of Erythromycin Treatment of Natural Killer (NK) Cell Activity in Patients with Chronic Lower Respiratory Tract Infections

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