Neuronal Size in the Spinal Nucleus of the Bulbocavernosus: Direct Modulation by Androgen in Rats with Mosaic Androgen Insensitivity

Watson, Neil V.; Freeman, Louise M.; Breedlove, S. Marc

doi:10.1523/jneurosci.21-03-01062.2001

Cited by 66 publications

(39 citation statements)

References 42 publications

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“…Given that adult SNB motoneurons in C57BL6J mice contain ARs and that the size of their cell bodies also depends on adult levels of androgen, androgen may also act directly via ARs in SNB motoneurons to regulate _soma size in C57BL6J mice, as it does in rats (Watson et al, 2001). We also found that the percentage of AR-IR motoneurons in C57BL6J mice was highest in the SNB, lowest in the RDLN and intermediate in the DLN, matching the rank order of AR expression levels previously described for rats .…”

Section: Discussionmentioning

confidence: 99%

“…Castration in adulthood reduces SNB soma size and BC/LA muscle size in rats and also in some strains of mice, while androgen treatment reverses this effect (Breedlove & Arnold, 1981;Forger and Breedlove, 1986;Wee & Clemens, 1987). In rats, androgens act directly through androgen receptors in SNB motoneurons to regulate soma size (Watson et al, 2001). The length of SNB dendrites also decreases after castration of adult rats (Kurz et al, 1986).…”

Section: Introductionmentioning

confidence: 98%

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Androgen-sensitivity of somata and dendrites of spinal nucleus of the bulbocavernosus (SNB) motoneurons in male C57BL6J mice

Zuloaga

Morris

Monks

et al. 2007

Hormones and Behavior

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In rats, androgens in adulthood regulate the morphology of motoneurons in the spinal nucleus of the bulbocavernosus (SNB), including the size of their somata and the length of their dendrites. There are conflicting reports about whether androgens exert similar influences on SNB motoneurons in mice. We castrated or sham-operated C57BL6J mice at 90 days of age and, thirty days later, injected cholera toxin conjugated horseradish peroxidase into the bulbocavernosus muscle (to label SNB motoneurons) on one side, and into intrinsic foot muscles contralaterally (to label motoneurons of the retrodorsolateral nucleus (RDLN)). Castrated mice had significantly smaller SNB somas compared to sham operated mice while there were no differences in soma size of RDLN motoneurons. Dendritic length in C57BL6J mice, estimated in 3-dimensions, also decreased significantly after adult castration. In rats, androgens act directly through androgen receptors (AR) in SNB motoneurons to control soma size and nearly all their SNB motoneurons contain AR. Since SNB somata in C57BL6J mice shrank after adult castration, we used immunocytochemistry to characterize AR expression in SNB cells as well as motoneurons in the RDLN and dorsolateral nucleus (DLN). A pattern of labeling matched that seen previously in rats: the highest percentage of AR-immunoreactive motoneurons are in the SNB (98%), the lowest in the RDLN (25%), and an intermediate number in the DLN (78%). This pattern of AR labeling is consistent with the possibility that androgens also act directly on SNB motoneurons in mice to regulate soma size in mice.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 98%

Androgen-sensitivity of somata and dendrites of spinal nucleus of the bulbocavernosus (SNB) motoneurons in male C57BL6J mice

Zuloaga

Morris

Monks

et al. 2007

Hormones and Behavior

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“…The SNB is comprised of 2 distinct groups of motoneurons: the group that responds morphologically to androgen projects to the sexually dimorphic BC/LA muscles, whereas the group that does not respond morphologically to androgens projects to the sexually monomorphic external anal sphincter [19]. Although it is clear that androgens act via ARs in SNB motoneurons to increase the size of their somata [20], both androgen-responsive and androgen-unresponsive subpopulations of SNB motoneurons express AR [18]. Taken together, these results indicate that AR expression within motoneurons is necessary but not sufficient for androgen to increase the size of SNB motoneurons.…”

Section: Introductionmentioning

confidence: 99%

Steroid Receptor Coactivator-1 Is Not Required for Androgen-Mediated Sexual Differentiation of Spinal Motoneurons

Monks

O’Malley

et al. 2003

Neuroendocrinology

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Steroid receptor coactivator-1 (SRC-1) amplifies genomic steroid hormone signal transduction and has been implicated in steroid-mediated sexual differentiation of the mammalian nervous system. We investigated the possible effect of an SRC-1 null mutation on 2 morphological endpoints of androgenic signaling: the number and size of motoneurons within the spinal nucleus of the bulbocavernosus (SNB). In wild-type C57/BL6 mice, SRC-1 immunoreactive nuclei were observed within the SNB and one of its target muscles, the levator ani. However, SRC-1 null mice were indistinguishable from sex-matched wild-type littermates in both SNB number and cross-sectional area of SNB motoneurons. Similarly, we found no difference between SRC-1 null and wildtype littermates in the number or size of motoneurons in the retrodorsolateral nucleus, a motor pool that is not typically sexually differentiated in either number or size. These results demonstrate that SRC-1 is not essential for the development and maintenance of a sexually dimorphic neuromuscular system.

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“…The fact that androgens increase cell size and process outgrowth in MN hybrid cells, but only in those expressing AR, provides evidence that androgens are capable of acting directly on motoneurons to affect these properties in a cell autonomous fashion in vitro (Brooks et al, 1998). In accordance, a series of experiments using rats with mosaic androgen insensitivity (in which a portion of motoneurons do not express functional AR) has demonstrated that androgen can regulate motoneurons in a cell autonomous manner in vivo as well (Monks et al, 1999;Monks and Watson, 2001;Watson et al, 2001).…”

Section: Future Directionsmentioning

confidence: 90%

Androgen regulation of axon growth and neurite extension in motoneurons

Fargo

Galbiati

Foecking

et al. 2008

Hormones and Behavior

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Androgens act on the CNS to affect motor function through interaction with a widespread distribution of intracellular androgen receptors (AR). This review highlights our work on androgens and process outgrowth in motoneurons, both in vitro and in vivo. The actions of androgens on motoneurons involve the generation of novel neuronal interactions that are mediated by the induction of androgendependent neurite or axonal outgrowth. Here, we summarize the experimental evidence for the androgenic regulation of the extension and regeneration of motoneuron neurites in vitro using cultured immortalized motoneurons, and axons in vivo using the hamster facial nerve crush paradigm. We place particular emphasis on the relevance of these effects to SBMA and peripheral nerve injuries.

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Neuronal Size in the Spinal Nucleus of the Bulbocavernosus: Direct Modulation by Androgen in Rats with Mosaic Androgen Insensitivity

Cited by 66 publications

References 42 publications

Androgen-sensitivity of somata and dendrites of spinal nucleus of the bulbocavernosus (SNB) motoneurons in male C57BL6J mice

Androgen-sensitivity of somata and dendrites of spinal nucleus of the bulbocavernosus (SNB) motoneurons in male C57BL6J mice

Steroid Receptor Coactivator-1 Is Not Required for Androgen-Mediated Sexual Differentiation of Spinal Motoneurons

Androgen regulation of axon growth and neurite extension in motoneurons

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