Sexual dimorphism and androgen regulation of satellite cell population in differentiating rat levator ani muscle

The bulbocavernosus (BC) and levator ani (LA) muscles of rats show remarkable androgen-dependent sexual dimorphism. These muscles are additionally of interest because they are thought to indirectly mediate sexual differentiation of innervating spinal motoneurons. This sexual differentiation of the BC/LA is thought to be due to an increase in muscle units in the male rat during the first week after birth. We examined the cellular basis of this differentiation by studying satellite cells in the LA of postnatal day 2.5 rats, when sexual dimorphism is already prominent. Two experiments were performed in which LA satellite cells were measured: (1) wild-type (WT) males were compared with females and to Tfm androgen receptor mutant males, which are androgen insensitive despite producing masculine amounts of testosterone, and (2) females treated prenatally and/or postnatally with testosterone proprionate were compared with females receiving vehicle injections. Our results indicate that WT males have a larger LA and a greater number of satellite cells in the LA muscle than females or Tfm males. However, satellite cell density was similar for all three groups. Prenatal testosterone treatment masculinized LA size and resulted in a corresponding increase in satellite cell populations, while postnatal TP treatment resulted in a tendency for increased satellite cell density without a significant increase in LA size. Taken together, these studies indicate that satellite cells in the neonatal LA muscle are sexually dimorphic, and that this dimorphism likely results from perinatal actions of androgens on androgen receptors.     

Importance of target innervation in recovery from axotomy-induced loss of androgen receptor in rat perineal motoneurons

In adult male rats, axotomy of the spinal nucleus of the bulbocavernosus (SNB) motoneurons transiently down-regulates androgen receptor (AR) immunoreactivity. The present study investigates the importance of target reinnervation in the recovery of AR expression in axotomized SNB motoneurons after short (up to 5 days) and long (1 to 6 weeks) periods of recovery. In the long-term recovery experiment, animals were divided into two groups. In one, the two stumps of the cut pudendal nerve, which carries the axons of the SNB motoneurons, were sutured together immediately after axotomy. In the second group, the proximal stump was ligated immediately after axotomy to prevent target reinnervation. Axotomy of the SNB motoneurons caused a significant down-regulation in AR immunoreactivity within 3 days. At 6 weeks, AR immunoreactivity was still depressed in ligated animals but had recovered to control levels in resutured animals. The recovery in the resutured group was coincident with the first signs of reinnervation of the target perineal muscles, although reinnervation seemed to lag behind AR immunoreactivity. SNB soma size was significantly reduced 2 weeks after axotomy and returned to control levels after 6 weeks of recovery only in the resutured animals. These findings suggest that the target perineal muscles play a role in the regulation of AR expression and androgen sensitivity in the SNB motoneurons, perhaps mediated by muscle-derived trophic factors. © 1995 John Wiley & Sons, Inc.     

Maintenance of the spinal nucleus of the bulbocavernosus neuromuscular system is not influenced by physiological levels of glucocorticoids

The spinal nucleus of the bulbocavernosus (SNB) neuromuscular system mediates sexual reflexes, and is highly sexually dimorphic in rats. While maintenance of this system in adulthood is mainly dependent on androgens, there is also evidence to suggest that glucocorticoids may have a catabolic effect. We conducted a series of studies to fully examine the influence of basal glucocorticoids on the size of the SNB motoneurons and the associated bulbocavernosus (BC) and levator ani (LA) muscles. Specifically, we examined whether the muscles and motoneurons of the SNB neuromuscular system are affected by: (1) blockade of endogenous glucocorticoids via delivery of the antagonist RU-486 at doses ranging from low to high, (2) removal of endogenous glucocorticoids via adrenalectomy, or (3) restoration of physiological corticosterone levels via implants following adrenalectomy. In each study, we found that muscle and motoneuron size were unaffected by glucocorticoid manipulation. In contrast to previous results with supraphysiological levels of glucocorticoids, our results indicate that basal, nonstress levels of glucocorticoids do not influence the size of the BC/LA muscles or their associated SNB motoneurons.     

Testosterone control of endplate and non-endplate acetylcholinesterase in the rat levator ani muscle

The time course of effects of castration (5–60 days) and testosterone treatment (15–60 days) of adult male rats were examined on the endplate (+EP) and non-endplate (–EP) acetylcholinesterase (AChE) of the androgen-dependent levator ani (LA) muscle. The thiocholine method was used to determine the enzyme activity. Castration caused LA muscle atrophy within 5 days but reduced the –EP and +EP AChE after 10 and 20 days, respectively. Following 30 days castration –EP and +EP AChE reached respectively 41% and 35% of control activity. Testosterone retrieval restored the control values of both muscle weight and total AChE after 15 and 60 days, respectively. Recovery of the +EP AChE preceded that of –EP AChE by 30 days. The results showed that in the rat LA muscle, +EP and –EP AChE depend on a continuous testosterone regulation that predominates at +EP region spreading thereafter to –EP region. Those data suggest a hormone regulation of AChE exerted indirectly through the synthesis and release of neurotrophic substances.     

Transient and permanent effects of androgen during synapse elimination in the levator ani muscle of the rat

Young male rats were castrated at 7 days of age, and treated with testosterone propionate daily from 7 to 34 days of age. At 13 months of age, motor axons and terminals innervating the levator ani (LA) muscle were stained with tetranitroblue tetrazolium (TNBT). The number of separate axons innervating individual muscle fibers was counted, and muscle fiber diameter was measured. Previous studies have shown that this androgen treatment increases muscle fiber diameter and delays synapse elimination, measured as (1) a greater percentage of muscle fibers innervated by multiple axons and (2) larger motor units. The present results indicate that the androgenic effect on synapse elimination is permanent, in that high levels of multiple innervation persisted for 12 months after the end of androgen treatment. In contrast, the effect on muscle fiber diameter was not maintained for this period. This dissociation of androgenic effects on the pattern of innervation from androgenic effects on muscle fiber diameter offers further evidence that the androgenic maintenance of multiple innervation is not dependent on muscle fiber size. In addition, circulating testosterone levels were measured at 50 and 60 days of age in animals similarly treated with androgen or oil from 7 to 34 days of age. By 60 days of age, testosterone levels in hormone-treated animals had dropped below detectability, comparable to levels in oil-treated controls. This provides additional evidence that androgen treatment during juvenile development can have permanent effects on the adult pattern of innervation in the LA muscle.     

Effect of foreign innervation on the androgen-sensitive levator ani muscle of the rat

Summary Cross-union of the tibial with the pudendal nerve innervating the androgen-sensitive levator ani (LA) muscle of male rats, results in reversal of the histochemical muscle fibre pattern concerning myofibrillar ATPase, succinate dehydrogenase and phosphorylase enzyme activities. The homogeneous muscle fibre pattern of the LA muscle is changed to a mosaic pattern of muscles normally innervated by the tibial nerve. The success of the hetero-reinnervation is shown by practically full recovery of muscle weight and of isometric twitch-contraction properties of the LA muscle. Castration of 2-months duration, i. e. lack of the male sex hormone, leads to marked atrophy but no change in histochemical muscle fibre pattern. Hetero-reinnervation of the LA muscle results in change of histochemical enzyme pattern even if the cross-union of nerves is performed after long periods of castration leading to very marked decrease of muscle fibre size. However, testosterone application alone after castration increases markedly muscle fibre size but does not lead to reversal of muscle fibre pattern. The myotropic hormonal influence on the target (LA) muscle is therefore primarily of myogenic origin and specificity of hormonal action is maintained even with a foreign nerve innervating the muscle. The experiments, thus, provide evidence for the differentiation of specific neural influences affecting muscle fibre pattern and hormonal influences in respect to the myotropic action of the sex hormone on the androgen-sensitive LA muscle.     

Axotomy of developing rat spinal motoneurons: Cell survival,soma size,muscle recovery,and the influence of testosterone

During the period of synapse elimination, motoneurons are impaired in their ability to generate or regenerate axonal branches: following partial denervation of their target muscle, young motoneurons do not sprout to nearby denervated fibers and after axonal injury, they fail to reinnervate the muscle. In the rat levator ani (LA) muscle, which is innervated by motoneurons in the spinal nucleus of the bulbocavernosus (SNB), synapse elemination ends relatively late in development and can be regulated by testosterone. We took advantage of this system to determine if the end of synapse elimination and the development of regenerative capabilities by motoneurons share a common mechanism, or, alternatively, if these two events can be dissociated in time. Axotomy on or before postnatal day 14 (P14) caused the death of SNB motoneurons. By P21, toward the end of synapse elimination in the LA muscle, SNB motoneurons had developed the ability to survive axonal injury. Altering testosterone levels by castration on P7 followed by 4 weeks of either testosterone propionate or control injections did not change the ability of SNB motoneurons to survive axonal injury during development, although these same treatments alter the time course of synapse elimination in the LA muscle. Thus, we dissociated the inability of SNB motoneurons to recover from axonal injury from their developmental elimination of synaptic terminals. We also measured the effect of early axotomy on motoneuronal soma size and on target muscle weight. Axotomy on P14 caused a long-lasting decrease in the soma size of surviving SNB motoneurons, whereas motoneurons axotomized on P28 recovered their normal soma size. Axotomy on or before P7 caused severe atrophy of the target muscles, matching the extensive loss of motoneurons. However, target muscle recovery after axotomy on P14 was as good as recovery after axotomy at later ages, despite greater motoneuronal death after axotomy on P14. This result may reflect an increase in motor unit size, a decrease in polyneuronal innervation by SNB motoneurons that survive axotomy on P14, or a combination of the two. © 1995 John Wiley & Sons, Inc.     

Cytomorphometry of skeletal muscle: The influence of age and testosterone on the rat M. levator ani

Summary The levator ani muscle of the rat was examined by correlated light and electron microscopic morphometry. Corrections were made for shrinkage, compression, and differences in stretching. Age, castration, and subsequent testosterone treatment do not affect the fiber number, the filament lattice, and the size of the filaments and myonuclei. The fibers in intact growing males increase in width and length. The number of myonuclei rises, although relatively slower than the amount of contractile material.Castration, performed at six weeks, partially suppresses fiber growth. The increase of mean fiber width is more strongly inhibited than that of fiber length. Myonuclear multiplication is almost completely arrested in castrates, and the amount of contractile material per myonucleus is lower than in intact males of equal age.Testosterone, administered at about two months following orchidectomy, highly accelerates the transversal fiber growth, but fiber length is not significantly influenced. Between the fourth and seventh day of treatment a marked increase in myonuclear number occurs.Analysis of the frequency distribution of the individual fiber widths, which is logarithmic-normal in intact males, revealed that the hormonal influence on the net result of protein anabolism and catabolism markedly differs in the various fibers of a single muscle.With the technical assistance of Tineke J. Hoogenboezem.     

Androgen receptor mRNA expression in Xenopus laevis CNS: Sexual dimorphism and regulation in laryngeal motor nucleus

Using Northern analysis, in situ hybridization, and nuclease protection assays, the expression and regulation of androgen receptor messenger RNA (AR mRNA) was examined in the CNS of juvenile Xenopus laevis. Only one of the AR mRNA isoforms expressed in X. laevis is transcribed in the CNS as shown by Northern blot analysis. Nuclease protection assays demonstrate that the expression of AR mRNA is higher in the brain stem than in the telencephalon and diencephalon. Although expression of AR mRNA is widespread throughout the CNS, cells of cranial nerve nucleus IX-X (N. IX-X) and spinal cord display the highest in situ hybridization signals in their cytoplasm. Double labeling using horseradish peroxidase and digoxigenin labeled AR probes reveals that laryngeal and anterior spinal cord motor neurons express AR mRNA. More cells express AR mRNA in N. IX-X of males than of females. The number of AR expressing cells in N. IX-X decreases following gonadectomy in both sexes, and dihydrotestosterone (DHT) treatment for 1 month reverses this effect. Increased expression of AR mRNA in the brain of DHT treated animals is also apparent in nuclease protection assays. Sex differences in number of AR expressing cells and hormone regulation of AR mRNA expression in motor nuclei may influence neuromuscular systems devoted to sexually differentiated behaviors. © 1996 John Wiley & Sons, Inc.     

Androgen receptor expression reduces stemness characteristics of prostate cancer cells (PC3) by repression of CD44 and SOX2

Studies have shown that a subgroup of tumor cells possess stemness characteristics having self-renewal capacity and the ability to form new tumors. We sought to identify the plausible stemness factor that determines the “molecular signature” of prostate cancer (PCa) cells derived from different metastases (PC3, PCa2b, LNCaP, and DU145) and whether androgen receptor (AR) influences the maintenance of stemness features. Here we show sex-determining region Y (SRY)-box 2 (SOX2) as a putative stem cell marker in PC3 PCa cells and not in DU145, PCa2b, or LNCaP cells. PCa2b and PC3 cells were derived from bone metastases. PCa2b cells which are positive for the AR failed to demonstrate the expression of either cluster of differentiation 44 (CD44) or SOX2. Knockdown (KD) of AR in these cells did not affect the expression of either CD44 or SOX2. Conversely, PC3 cells, which are negative for AR, expressed both CD44 and SOX2. However, the expression of AR downregulated the expression of both CD44 and SOX2 in PC3 cells. CD44 regulates SOX2 expression as KD of CD44 and reduces SOX2 levels considerably. SOX2 KD attenuated not only the expression of SNAIL and SLUG but also the migration and tumorsphere formation in PC3 cells. Collectively, our findings underscore a novel role of CD44 signaling in the maintenance of stemness and progression of cancer through SOX2 in AR-independent PC3 cells. SOX2 has a role in the regulation of expression of SNAIL and SLUG. SOX2 could be a potential therapeutic target to thwart the progression of SOX2-positive cancer cells or recurrence of androgen-independent PCa.     

Androgen effects on the solubility and conformational change of the androgen receptor in baculovirus expression system

To purify the androgen receptor (AR) efficiently from baculovirus expression system, we fused 6 histidine residues with the N-terminal domain of AR as a tag to specifically bind to Ni+2-affinity column. Our data indicated that adding androgen can increase the binding capacity of his-tag AR to the Ni+2-affinity column, and this increased binding capacity of AR could be due to the exposure of histidine residues of N-terminal domain induced by androgen. The androgen-enhanced binding to Ni+2-column also correlated with the increasing solubility of AR. Electrophoretic mobility shift assay further indicated that only purified AR could interact with androgen response element. Together, our data suggest that the binding of androgen to the hormone binding domain of AR may result in the conformational change of the N-terminal domain of AR and increase the hydrophilic property of AR.     

Effect of castration and testosterone administration on the neuromuscular junction in the levator ani muscle of the rat

Summary The ultrastructure of the neuromuscular junction (n.m.j.) of the androgen-sensitive levator ani muscle was studied in normal adult male rats, in 8-month-old rats castrated at the age of one month and in castrated rats treated with testosterone propionate (TP). Castration does not result in significant changes of the n.m.j. The density of synaptic vesicles and the postsynaptic junctional folds remain practically normal in spite of marked atrophy of the muscle. TP administration for 7 days results in marked changes in preand postsynaptic structures. There is slow progressive depletion of synaptic vesicles, appearance of cisternae and coated vesicles in axon terminals, and coalescence of coated vesicles with the plasma membrane. Coated vesicles are also found inside Schwann cells and among junctional folds. Dense core vesicles appear both in the axon terminals and in the postsynaptic area. Collateral sprouting of terminal axons with the formation of new immature junctions is observed. After 35 days of TP administration depletion of synaptic vesicles continues. Glycogen -particles, mostly freely dispersed, occasionally seen in axon terminals 7 days after TP administration, subsequently increase in number. In the endplate zone of the muscle fibre increased protein synthesis is indicated by a rapid increase in ribosomes and irregularly located myofilaments and myofibrils. The appearance of n.m.j. after testosterone administration resembles that described after nerve stimulation; the degree of change is however less pronounced.The authors wish to acknowledge the skillful technical assistance of Mrs. L. Vedralová     

EGR1基因在牛骨骼肌卫星细胞分化不同时期的表达及定位

目的:研究EGR1基因在牛骨骼肌卫星细胞(MDSCs)分化过程的表达、定位及入核机制。方法:以牛的MDSCs为实验材料,在分化培养基中分别分化培养1 d、3 d和5 d,每组3个重复,检测不同分化时间的MDSCs中EGR1基因的表达和EGR1蛋白的定位情况;采用 CRISPRi方法干扰内源EGR1的表达,结合定点突变和激光共聚焦方法初步探索了EGR1蛋白入核的机制。结果:qRT-PCR和Western blot检测结果显示随着分化时间的进行,EGR1 基因在转录水平和蛋白水平的表达都显著高于未分化的细胞,并随时间的延长而表达逐渐升高,分化第3日时表达量最高,随后开始下降。免疫荧光检测到EGR1蛋白主要在分化的MDSCs中表达,并随肌管数量增多而表达量增加。共聚焦结果显示随着细胞分化的进行,部分EGR1蛋白转移进入细胞核。定点突变EGR1蛋白S533A后,分化的MDSCs细胞核内没有检测到EGR1蛋白。结论:在牛骨骼肌卫星细胞分化过程中,EGR1基因转录表达水平升高,部分EGR1蛋白转移入细胞核,且EGR1蛋白C端第533位丝氨酸磷酸化是入核所必需的。     

Distribution of androgen receptor immunoreactivity in the spinal cord of wild-type,androgen-insensitive and gonadectomized male rats

The polyclonal antiserum PG21 was used to detect androgen receptor (AR) protein in three motoneuronal pools of the male rat lumbar spinal cord. In gonadally intact, wild-type males, the spinal nucleus of the bulbocavernosus (SNB), dorsolateral nucleus (DLN), and retrodorsolateral nucleus (RDLN) all displayed immunolabeling of cell nuclei. The percentage of motoneurons displaying such labeling was highest in the SNB and lowest in the RDLN. This pattern of AR immunocytochemical labeling agrees well with previous steroid autoradiographic studies of androgen accumulation in the rat spinal cord. In contrast, virtually no motoneurons in any of the three pools displayed nuclear AR immunostaining in long-term gonadectomized males or in gonadally intact males carrying the Tfm mutation, which renders the AR incompetent. In gonadectomized males, labeling was restored in the SNB and DLN, but not the RDLN, 30 min after an injection of replacement testosterone. Eight hours of testosterone exposure restored immunolabeling in all three motor nuclei. Apparent cytoplasmic staining was seen in SNB motoneurons of untreated castrates and Tfm rats, but not intact rats, suggesting that AR residing in the cytoplasm translocates to the nucleus on binding to androgen in these motoneurons. © 1995 John Wiley & Sons, Inc.     

The influence of age and testosterone on the ribosomal population in the m. levator ani and a thigh muscle of the rat

Summary The influence of age, castration, and subsequent testosterone treatment on the population of (poly)ribosomes in rat skeletal muscle fibers was studied, using a procedure which clearly differentiates ribonucleoprotein particles from glycogen granules. The m. levator ani, known to be highly reactive to testosterone, was compared with a thigh muscle.The effect of increasing age is about the same in both muscles: the concentration of intermyofibrillar ribosomes decreases, in contrast to the ribosomal abundance in the paranuclear cones of sarcoplasm, which remains approximately constant. Castration and testosterone treatment do not affect the ribosomal concentration in the thigh muscle, but in the m. levator ani the following effects were observed. Castration, performed at six weeks, elicits a marked decrease of the paranuclear ribosomes, but the intermyofibrillar concentration does not noticeably differ from the intact controls. Testosterone, administered at three months following orchidectomy, causes a rapid rise in the paranuclear population. The concentration of the intermyofibrillar ribosomes shows a transient increase. Very early, the concentration of glycogen granules is augmented also, both in between and within the myofibrils. These observations are related to quantitative changes of the contractile system reported previously. It is emphasized that the effects discussed highly depend on the age of orchidectomy.With the technical assistance of Tineke J. Hoogenboezem.     

Perineal muscles and motoneurons are sexually monomorphic in the naked mole‐rat (Heterocephalus glaber)

Naked mole‐rats are eusocial mammals that live in colonies with a single breeding female and one to three breeding males. All other members of the colony, known as subordinates, are nonreproductive and exhibit few sex differences in behavior or genital anatomy. This raises questions about the degree of sexual differentiation in subordinate naked mole‐rats. The striated perineal muscles associated with the phallus [the bulbocavernosus (BC), ischiocavernosus (IC), and levator ani (LA) muscles], and their innervating motoneurons, are sexually dimorphic in all rodents examined to date. We therefore asked whether perineal muscles and motoneurons were also sexually dimorphic in subordinate naked mole‐rats. Muscles similar to the LA and IC of other rodents were found in naked mole‐rats of both sexes. No clear BC muscle was identified, although a large striated muscle associated with the urethra in male and female naked mole‐rats may be homologous to the BC of other rodents. There were no sex differences in the volumes of the LA, IC, or the urethral muscles. Motoneurons innervating the perineal muscles were identified by retrograde labeling with cholera‐toxin‐conjugated horseradish peroxidase. All perineal motoneurons were found in a single cluster in the ventrolateral lateral horn, in a position similar to that of Onuf's nucleus of carnivores and primates. There was no sex difference in the size or number of motoneurons in Onuf's nucleus of naked mole‐rats. Thus, unlike findings in any other mammal, neither the perineal muscles nor the perineal motoneurons appear to be sexually differentiated in subordinate naked mole‐rats. © 2002 Wiley Periodicals, Inc. J Neurobiol 51: 33–42, 2002