Karl Heinrich Fritzemeier scite author profile

There is increasing evidence suggesting that estrogens augment skeletal muscle regeneration processes after injury. To study the contribution of estrogen receptors α and β (ERα and ERβ) during muscle regeneration, skeletal muscles of ovariectomized (OVX) rats, as well as ERα- and ERβ-knockout (αErko and βErko) mice, were injured with a myotoxin (notexin). OVX rats were simultaneously treated with the ER-selective ligands genistein, ERα agonist 16α-LE2 (alpha), ERβ agonist 8β-VE2 (beta), or 17β-estradiol (E(2)). OVX rats showed significantly elevated serum creatine kinase (CK) activity after muscle injury compared to intact sham-treated animals. Treatment with ER ligands significantly reduced CK activity. TNF-α, IL-10, and MCP-1 expression served to characterize immune responses. Treatment with all ER ligands, but particularly E(2) and beta, reduced TNF-α, but elevated MCP-1 and IL-10 expression. PCNA and MyoD expression served to define satellite cell activation and proliferation and were found to be up-regulated by beta and E(2). To further study muscle regeneration responses, expression of the embryonic myosin heavy chain (MHC) was analyzed. Beta and E(2) but not alpha increased embryonic MHC expression compared to OVX. The absence of ERβ in βErko mice negatively affected CK activity levels and expression of satellite cell and muscle regeneration markers (MHC embryonic, MyoD, Pax7) compared with αErko and wild-type mice. In a classic Hershberger assay using male rats, beta stimulated muscle growth, accompanied by a strong induction of IGF-1 expression. Our data provide evidence that ERβ signaling is involved in the regulation of skeletal muscle growth and regeneration by stimulating anabolic pathways, activating satellite cells and modulating immune responses.

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Estrogen receptor beta is involved in skeletal muscle hypertrophy induced by the phytoecdysteroid ecdysterone

Parr

Zhao

Haupt

et al. 2014

Molecular Nutrition Food Res

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Molecular effects of ER alpha- and beta-selective agonists on regulation of energy homeostasis in obese female Wistar rats

Weigt

Hertrampf

Kluxen

et al. 2013

Molecular and Cellular Endocrinology

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The bone-protective effect of the phytoestrogen genistein is mediated via ERα-dependent mechanisms and strongly enhanced by physical activity

Hertrampf

Gruca

Seibel

et al. 2007

Bone

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Drospirenone: a Novel Progestogen with Antimineralocorticoid and Antiandrogenic Activity

Muhn¹,

Fuhrmann²,

Fritzemeier³

et al. 1995

Annals of the New York Academy of Sciences

153

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Drospirenone (ZK 30595; 6 beta, 7 beta, 15 beta, 16 beta-dimethylen-3-oxo-17 alpha-pregn-4-ene-21, 17-carbolactone) is a novel progestogen under clinical development. Drospirenone is characterized by an innovative pharmacodynamic profile which is very closely related to that of progesterone. Potential applications include oral contraception, hormone replacement therapy and treatment of hormonal disorders. The pharmacological properties of drospirenone were investigated in vitro by receptor binding and transactivation experiments and in vivo in appropriate animal models. In qualitative agreement with progesterone, the compound binds strongly to the progesterone and the mineralocorticoid receptor and with lower affinity to androgen and glucocorticoid receptors. There is no detectable binding to the estrogen receptor. Steroid hormone agonistic and antagonistic activities of progesterone and drospirenone were compared in transactivation experiments. Individual steroid hormone receptors were artificially expressed together with a reporter gene in appropriate cell lines. Both hormones were unable to induce any androgen receptor-mediated agonistic activity. Rather, both progesterone and drospirenone distinctly antagonized androgen-stimulated transcriptional activation. Likewise, both compounds only very weakly activated the mineralocorticoid receptor but showed potent aldosterone antagonistic activity. Drospirenone did not induce glucocorticoid receptor-driven transactivation. Progesterone was a weak agonist in this respect. Drospirenone exerts potent progestogenic and antigonadotropic activity which was studied in various animal species. It efficiently promotes the maintenance of pregnancy in ovariectomized rats, inhibits ovulation in rats and mice and stimulates endometrial transformation in the rabbit. Furthermore, drospirenone shows potent antigonadotropic, i.e., testosterone-lowering activity in male cynomolgus monkeys. The progestogenic potency of drospirenone was found to be in the range of that of norethisterone acetate. The majority of clinically used progestogens are androgenic. Drospirenone, like progesterone, has no androgenic but rather an antiandrogenic effect. This property was demonstrated in castrated, testosterone propionate substituted male rats by a dose-dependent inhibition of accessory sex organ growth (seminal vesicles, prostate). In this model, the potency of drospirenone was about a third that of cyproterone acetate. Drospirenone, like progesterone, shows antimineralocorticoid activity, which causes moderately increased sodium and water excretion. This is an outstanding characteristic which has not been described for any other synthetic progestogen before. Drospirenone is eight to ten times more effective in this respect than spironolactone. The natriuretic effect was demonstrable for at least three weeks upon daily treatment of rats with a dose of 10 mg/animal. Drospirenone is devoid of any estrogenic, glucocorticoid or antiglucocorticoid activity. In summary, drospirenone, like progesterone, c...

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