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ABSTRACT
This study investigates whether androgen receptors (AR) mediate the suppressive effect of testosterone on self-healing Plasmodium chabaudi malaria. Our data show the following. (1) Female and castrated male mice of the inbred strain C57BL/10 self-heal and survive infections when challenged with 106 P. chabaudi-parasitized erythrocytes. However, self-healing is prevented when circulating testosterone levels are high as in intact males or in females and castrated males pretreated with 0·9 mg testosterone twice a week for 3 weeks. (2) The lethal outcome of P. chabaudi in intact males is not affected by different doses of AR blockers such as cyproterone acetate, cyproterone, flutamide and nilutamide when applied at least 3 weeks before infection and during infection. Also, these AR blockers do not impair the testosterone-induced lethal outcome of infections in testosterone-treated females and castrated males. (3) Tfm mice possessing mutant non-functional ARs and normal 'male' testosterone levels succumb to infection with P. chabaudi. However, the corresponding wild-type mice possessing functioning ARs are able to resist P. chabaudi infections at low circulating testosterone levels. (4) In contrast to testosterone, testosterone metabolites such as 5α-dihydrotestosterone, 5β-dihydrotestosterone, androsterone and 1-dehydrotestosterone cannot suppress self-healing in castrated male B10 mice. Our data suggest that testosterone suppresses the development of protective immunity against P. chabaudi malaria, and that this immunosuppressive effect of testosterone is not primarily mediated by the classical AR response.
Journal of Endocrinology (1992) 135, 407–413
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Search for other papers by W. N. Kühn-Velten in
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ABSTRACT
Testosterone suppresses immunity against malaria caused by Plasmodium chabaudi in B10 mice. Since this effect is probably not mediated through the classical androgen-receptor response, we investigated whether testosterone might act, after aromatization to oestradiol (OE2), through the oestrogen receptor (ER). Indeed, OE2 was found to act immunosuppressively when used at only about 1% of the immunosuppressive dose of testosterone. This becomes evident as an OE2-induced suppression of self-healing of P. chabaudi infections in female and castrated male B10 mice. The immunosuppressive OE2 effect is associated with a 16-fold increase in the circulating level of OE2 and can be prevented by ER blockers such as tamoxifen and clomifene. In contrast, the immunosuppressive effect of testosterone, which is not associated with any changes in the level of OE2, cannot be abolished by ER blockers or by aromatase inhibitors, such as atamestane and drofazar hydrochloride. Moreover, OE2 and testosterone act differently on spleen cells; OE2 induces a decrease in CD4+-T-cells, whereas testosterone causes an increase in CD8+-T-cells and a decrease in total nucleated spleen cells. The immunosuppressive effect of testosterone, but not that of OE2, can be adoptively transferred to syngeneic mice by nucleated spleen cells, predominantly T-cells. Our data show that the immunosuppressive activity of testosterone, in contrast to OE2, is not mediated through the ER. The immunosuppressive action of testosterone is therefore thought to be primarily mediated through a non-genomic mechanism.
Journal of Endocrinology (1993) 139, 487–494
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Search for other papers by W N Kühn-Velten in
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Search for other papers by F Wunderlich in
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Abstract
Testosterone induces susceptibility to Plasmodium chabaudi malaria by imposing restrictions on those mechanisms which mediate resistance controlled by genes of the H-2 complex and the non-H-2 background in mice. This study investigated whether these restrictions are abolished after withdrawal of testosterone. Female mice of the inbred strain C57BL/10 were treated with 0·9 mg testosterone twice a week for 3 weeks and testosterone was then withdrawn for 12 weeks. The treatment raised plasma testosterone levels from 0·18 ng/ml to 3·79 ng/ml. After the testosterone treatment, these levels progressively dropped and reached 0·21 ng/ml by week 12 after testosterone withdrawal. Surprisingly, however, the testosterone-induced susceptibility still persisted. When mice were challenged on week 12 after testosterone withdrawal, P. chabaudi infections were still fatal in testosterone-treated mice, in contrast to self-healing infections in resistant, i.e. untreated, control mice. In addition, testosterone caused a persistent decrease in the levels of total IgG antibodies, especially IgG1 and IgG2b isotypes. In contrast, testosterone-induced changes in spleen cells, such as the reduction in number by 50%, the relative increase in CD8+ cells and the decrease in Ig+ cells, as well as the acquisition of the susceptible phenotype, were completely reversed on week 10 after testosterone withdrawal at the latest. Testosterone did not affect the production of the TH1-signalling cytokine interferon-γ and the TH2-signalling cytokines interleukin (IL)-4 and IL-10 in response to P. chabaudi malaria. Together, our data indicated that the gene-controlled host resistance to P. chabaudi malaria is subject to superior hormonal imprinting: when once induced by testosterone, mechanisms which suppress resistance thus causing susceptibility persist independently of testosterone.
Journal of Endocrinology (1997) 153, 275–281