Astrocytes in the rat medial amygdala are responsive to adult androgens

Johnson, Ryan T.; Schneider, Amanda; DonCarlos, Lydia L.; Breedlove, S. Marc; Jordan, Cynthia L.

doi:10.1002/cne.23061

Cited by 43 publications

(41 citation statements)

References 96 publications

(156 reference statements)

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“…We suspect that this elevated level of T in Tg mice is due to their reduced body weight by 5 days of T treatment, as we have obtained similar findings in rats that differ in body weight. 30 …”

Section: Resultsmentioning

confidence: 99%

Androgen receptors in muscle fibers induce rapid loss of force but not mass: Implications for spinal bulbar muscular atrophy

et al. 2013

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Introduction Testosterone (T) induces motor dysfunction in transgenic (Tg) mice overexpressing wild type androgen receptor (AR) in skeletal muscles. Since many genes implicated in motor neuron disease are expressed in skeletal muscles, mutant proteins may act in muscles to instigate muscle dysfunction in motor neuron disease. Methods We examined contractile properties of the extensor digitorum longus (EDL) and soleus (SOL) muscles in vitro after 5 and 3 days of T treatment in motor-impaired Tg female mice. Results Both muscles showed deficits in tetanic force after 5 days of T treatment, without losses in muscle mass, protein content, or fiber number. By 3 days of T treatment, only SOL showed a deficit in tetanic force comparable to that at 5 days of treatment. In both treatments, EDL shows slowed twitch kinetics, whereas SOL shows deficits in the twitch/tetanus ratio. Conclusions These results suggest calcium handling mechanisms in muscle fibers are defective in motor-impaired mice.

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Section: Resultsmentioning

confidence: 99%

Androgen receptors in muscle fibers induce rapid loss of force but not mass: Implications for spinal bulbar muscular atrophy

et al. 2013

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“…In the adult brain testosterone regulates the expression of GFAP in the hippocampus (Day et al, 1993(Day et al, , 1990) and reduces the aging-induced increase in GFAP expression in the cerebellum (Day et al, 1998). Testosterone also regulates the number and morphological complexity of astrocytes in the posterodorsal medial amygdala of male and female rats (Johnson et al, 2012). Furthermore, testosterone increases the number of astrocytes in the hippocampus and the interpeduncular nucleus of male rats (Emamian et al, 2010;Hajos et al, 1999).…”

Section: Effects Of Testosteronementioning

confidence: 96%

Regulation of astroglia by gonadal steroid hormones under physiological and pathological conditions

Acaz‐Fonseca

Ávila-Rodriguez

Garcia-Segura

et al. 2016

Progress in Neurobiology

101

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“…Furthermore, males carrying the testicular feminization mutation (tfm) of the androgen receptor and females do not display MePD increases in astrocyte number and branching during adolescence. In contrast, wildtype males display normative increases in MePD astrocyte number and branching, indicating that normative androgen receptor function is necessary for the adolescent development of this sexual dimorphism (Johnson, Breedlove, & Jordan, 2013; Johnson, Schneider, DonCarlos, Breedlove, & Jordan, 2012). Thus, strong evidence suggests that adolescent changes in astrocyte number and branching in males contributes to the sexual dimorphism in MePD cell volume.…”

Section: 5 Neurobiological Mechanisms Underlying Hormone-dependent mentioning

confidence: 99%

The organizing actions of adolescent gonadal steroid hormones on brain and behavioral development

Schulz

Sisk

2016

Neuroscience & Biobehavioral Reviews

244

149

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Adolescence is a developmental period characterized by dramatic changes in cognition, risk-taking and social behavior. Although gonadal steroid hormones are well-known mediators of these behaviors in adulthood, the role gonadal steroid hormones play in shaping the adolescent brain and behavioral development has only come to light in recent years. Here we discuss the sex-specific impact of gonadal steroid hormones on the developing adolescent brain. Indeed, the effects of gonadal steroid hormones during adolescence on brain structure and behavioral outcomes differs markedly between the sexes. Research findings suggest that adolescence, like the perinatal period, is a sensitive period for the sex-specific effects of gonadal steroid hormones on brain and behavioral development. Furthermore, evidence from studies on male sexual behavior suggests that adolescence is part of a protracted postnatal sensitive period that begins perinatally and ends following adolescence. As such, the perinatal and peripubertal periods of brain and behavioral organization likely do not represent two discrete sensitive periods, but instead are the consequence of normative developmental timing of gonadal hormone secretions in males and females.

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Astrocytes in the rat medial amygdala are responsive to adult androgens

Cited by 43 publications

References 96 publications

Androgen receptors in muscle fibers induce rapid loss of force but not mass: Implications for spinal bulbar muscular atrophy

Androgen receptors in muscle fibers induce rapid loss of force but not mass: Implications for spinal bulbar muscular atrophy

Regulation of astroglia by gonadal steroid hormones under physiological and pathological conditions

The organizing actions of adolescent gonadal steroid hormones on brain and behavioral development

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