Mechanoinhibitory effect of estradiol in guinea pig urinary bladder smooth muscles

Male Lower Urinary Tract Dysfunction: An Underrepresented Endpoint in Toxicology Research

Lower urinary tract dysfunction (LUTD) is nearly ubiquitous in men of advancing age and exerts substantial physical, mental, social, and financial costs to society. While a large body of research is focused on the molecular, genetic, and epigenetic underpinnings of the disease, little research has been dedicated to the influence of environmental chemicals on disease initiation, progression, or severity. Despite a few recent studies indicating a potential developmental origin of male LUTD linked to chemical exposures in the womb, it remains a grossly understudied endpoint in toxicology research. Therefore, we direct this review to toxicologists who are considering male LUTD as a new aspect of chemical toxicity studies. We focus on the LUTD disease process in men, as well as in the male mouse as a leading research model. To introduce the disease process, we describe the physiology of the male lower urinary tract and the cellular composition of lower urinary tract tissues. We discuss known and suspected mechanisms of male LUTD and examples of environmental chemicals acting through these mechanisms to contribute to LUTD. We also describe mouse models of LUTD and endpoints to diagnose, characterize, and quantify LUTD in men and mice.

Estrogens influence differentially on the pelvic floor muscles activation at somatovisceral reflexes involved in micturition of rabbits

OBJECTIVE

To determine the estrogen-dependency of the bladder and urethral function and the coordinated activation of pelvic floor muscles (PFM) during micturition.

METHODS

We allocated age-matched female rabbits to control, 1-month ovariectomized (OVX), and OVX plus 2-week estradiol benzoate (EB) groups to record cystometry, urethral pressure, and electromyograms of bulbospongiosus (Bsm), and pubococcygeus muscles (Pcm) simultaneously. We also measured serum estradiol levels and myofiber cross-sectional area. We assessed urodynamic and urethral variables, categorized the Bsm-Pcm activation patterns at storage and voiding phases, and obtained the power spectrum density of muscle activation around the voiding phase. We investigated the influence of ovarian hormones, in general, and the contribution of estrogen, particularly on the functions of the bladder, urethra, and PFM. Statistical significance was set at P < 0.05.

RESULTS

Ovarian hormones influence the bladder, urethral, and PFM functions. The urodynamics analyses indicated estrogens contribute to voiding duration and, to a lesser extent, to the time between bladder contractions. Urethral pressure at closure (maximal pressure-to-maximal urethral pressure ratio) improved partially (8%, P < 0.05) in the OVX plus 2-week estradiol benzoate compared with OVX, but urethral resistance increased (∼1.9-fold, P < 0.05) compared with control rabbits. Our findings support that Pcm activity at voiding is estrogen-sensitive, albeit EB administration reduced it at storage resume, which relates to high urethral resistance.

CONCLUSIONS

Ovariectomy impairs bladder and urethral pressures and Bsm and Pcm activation at micturition in anesthetized rabbits. Estrogen administration partially reverts some of these effects and influences Pcm activation.

Nongenomic modulation of the large conductance voltage- and Ca2+-activated K+ channels by estrogen: A novel regulatory mechanism in human detrusor smooth muscle

Estrogens have an important role in regulating detrusor smooth muscle (DSM) function. However, the underlying molecular and cellular mechanisms by which estrogens control human DSM excitability and contractility are not well known. Here, we used human DSM specimens from open bladder surgeries on 27 patients to elucidate the mechanism by which 17β-estradiol regulates large conductance voltage- and Ca²⁺-activated K⁺ (BK) channels, the most prominent K⁺ channels in human DSM We employed single BK channel recordings on inside-out excised membrane patches, perforated whole-cell patch-clamp on freshly isolated DSM cells, and isometric tension recordings on DSM-isolated strips to investigate the mechanism by which 17β-estradiol activates BK channels. 17β-Estradiol (100 nmol/L) rapidly increased depolarization-induced whole-cell K⁺ currents in DSM cells. The 17β-estradiol stimulatory effects on whole-cell BK currents were completely abolished by the selective BK channel inhibitor paxilline (1 μmol/L), clearly indicating that 17β-estradiol specifically activates BK channels. 17β-Estradiol also increased the frequency of ryanodine receptor-mediated transient BK currents. Single BK channel recordings showed that 17β-estradiol (100 nmol/L) significantly increased the BK channel open probability of inside-out excised membrane patches, revealing that 17β-estradiol activates BK channels directly. 17β-Estradiol reduced spontaneous phasic contractions of human DSM-isolated strips in a concentration-dependent manner (100 nmol/L-1 μmol/L), and this effect was blocked by paxilline (1 μmol/L). 17β-Estradiol (100 nmol/L) also reduced nerve-evoked contractions of human DSM-isolated strips. Collectively, our results reveal that 17β-estradiol plays a critical role in regulating human DSM function through a direct nongenomic activation of BK channels.

17Beta-Estradiol Inhibits Calcium-Activated Potassium Channel Expressions in Rat Whole Bladder

Purpose:

To investigate the effect of estrogen on the expression of calcium-activated potassium (K_Ca) channels in an overactive bladder rat model. To this end, mRNA and protein levels of K_Ca channel subtypes in the bladder of ovariectomized rats were measured by reverse transcription polymerase chain reaction and western blotting, respectively.

Methods:

Ten-week-old female Sprague-Dawley rats were divided randomly into 3 groups: sham-operated control group (n=11), ovariectomy group (n=11), and the group treated with estrogen after ovariectomy (n=12). Rats in the last group were subcutaneously injected with 17β-estradiol (50 μg/kg) every other day for 2 weeks, whereas rats in the other 2 groups received vehicle (soybean oil) alone. Two weeks after treatment, the whole bladder was excised for mRNA and protein measurements.

Results:

Protein levels of the large-conductance K_Ca (BK) channels in the ovariectomy group were 1.5 folds higher than those in the sham-operated control group. However, the protein levels of the other K_Ca channel subtypes did not change significantly upon bilateral ovariectomy. Treatment with 17β-estradiol after ovariectomy restored BK channel protein levels to the control value. In contrast, BK channel mRNA levels were not significantly affected by either ovariectomy alone or 17β-estradiol treatment. The small-conductance K_Ca type 3 channel (SK3) mRNA and protein levels decreased to 75% of control levels upon 17β-estradiol treatment.

Conclusions:

These results suggest that 17β-estradiol may influence urinary bladder function by modulating BK and SK3 channel expression.

Regulation of Guinea Pig Detrusor Smooth Muscle Excitability by 17β-Estradiol: The Role of the Large Conductance Voltage- and Ca2+-Activated K+ Channels

Estrogen replacement therapies have been suggested to be beneficial in alleviating symptoms of overactive bladder. However, the precise regulatory mechanisms of estrogen in urinary bladder smooth muscle (UBSM) at the cellular level remain unknown. Large conductance voltage- and Ca²⁺-activated K⁺ (BK) channels, which are key regulators of UBSM function, are suggested to be non-genomic targets of estrogens. This study provides an electrophysiological investigation into the role of UBSM BK channels as direct targets for 17β-estradiol, the principle estrogen in human circulation. Single BK channel recordings on inside-out excised membrane patches and perforated whole cell patch-clamp were applied in combination with the BK channel selective inhibitor paxilline to elucidate the mechanism of regulation of BK channel activity by 17β-estradiol in freshly-isolated guinea pig UBSM cells. 17β-Estradiol (100 nM) significantly increased the amplitude of depolarization-induced whole cell steady-state BK currents and the frequency of spontaneous transient BK currents in freshly-isolated UBSM cells. The increase in whole cell BK currents by 17β-estradiol was eliminated upon blocking BK channels with paxilline. 17β-Estradiol (100 nM) significantly increased (~3-fold) the single BK channel open probability, indicating direct 17β-estradiol-BK channel interactions. 17β-Estradiol (100 nM) caused a significant hyperpolarization of the membrane potential of UBSM cells, and this hyperpolarization was reversed by blocking the BK channels with paxilline. 17β-Estradiol (100 nM) had no effects on L-type voltage-gated Ca²⁺ channel currents recorded under perforated patch-clamp conditions. This study reveals a new regulatory mechanism in the urinary bladder whereby BK channels are directly activated by 17β-estradiol to reduce UBSM cell excitability.

Central role of the BK channel in urinary bladder smooth muscle physiology and pathophysiology

The physiological functions of the urinary bladder are to store and periodically expel urine. These tasks are facilitated by the contraction and relaxation of the urinary bladder smooth muscle (UBSM), also known as detrusor smooth muscle, which comprises the bladder wall. The large-conductance voltage- and Ca(2+)-activated K(+) (BK, BKCa, MaxiK, Slo1, or KCa1.1) channel is highly expressed in UBSM and is arguably the most important physiologically relevant K(+) channel that regulates UBSM function. Its significance arises from the fact that the BK channel is the only K(+) channel that is activated by increases in both voltage and intracellular Ca(2+). The BK channels control UBSM excitability and contractility by maintaining the resting membrane potential and shaping the repolarization phase of the spontaneous action potentials that determine UBSM spontaneous rhythmic contractility. In UBSM, these channels have complex regulatory mechanisms involving integrated intracellular Ca(2+) signals, protein kinases, phosphodiesterases, and close functional interactions with muscarinic and β-adrenergic receptors. BK channel dysfunction is implicated in some forms of bladder pathologies, such as detrusor overactivity, and related overactive bladder. This review article summarizes the current state of knowledge of the functional role of UBSM BK channels under normal and pathophysiological conditions and provides new insight toward the BK channels as targets for pharmacological or genetic control of UBSM function. Modulation of UBSM BK channels can occur by directly or indirectly targeting their regulatory mechanisms, which has the potential to provide novel therapeutic approaches for bladder dysfunction, such as overactive bladder and detrusor underactivity.

Effects of 17beta-oestradiol on rat detrusor smooth muscle contractility

The aim of this study was to investigate the effect of 17β-oestradiol (E₂) on detrusor smooth muscle contractility and its possible neuroprotective role against ischaemic-like condition, which could arise during overactive bladder disease. The effect of E₂ was investigated on rat detrusor muscle strips stimulated with carbachol, KCl and electrically, in the absence or presence of a selective oestrogen receptor antagonist (ICI 182,780) and, by using confocal Ca²⁺ imaging technique, measuring the amplitude (ΔF/F₀) and the frequency of spontaneous whole cell Ca²⁺ flashes. Moreover, the effect of 1 and 2 h of anoxia–glucopenia and reperfusion (A-G/R), in the absence or presence of the hormone, was evaluated in rat detrusor strips perfused with Krebs solution which underwent electrical field stimulation to stimulate intrinsic nerves; the amplitude and the frequency of Ca²⁺ flashes were also measured. 17β-Oestradiol exhibited antispasmogenic activity assessed on detrusor strips depolarized with 60 mm KCl at two different Ca²⁺ concentrations. 17β-Oestradiol at the highest concentration tested (30 μm) significantly decreased detrusor contractions induced by all the stimuli applied. In addition, the amplitude and the frequency of spontaneous Ca²⁺ flashes were significantly decreased in the presence of E₂ (10 and 30 μm) compared with control detrusor strips. In strips subjected to A-G/R, a significant increase in the amplitude of both spontaneous and evoked flashes was observed. 17β-Oestradiol was found to increase the recovery of detrusor strips subjected to A-G/R. The ability of E₂ to suppress contraction in control conditions may explain its ability to aid recovery following A-G/R.

Estrogen administration attenuates bladder outlet obstruction induced oxidative stress in the female rabbit

AIMS

Estrogen administration to female rabbits induces a functional hypertrophy of the bladder. The aim of this study was to investigate whether supplementation of estrogen in the female rabbit with partial bladder outlet obstruction (PBOO) would affect the severity of bladder dysfunction.

METHODS

We surgically created PBOO in female New Zealand White rabbits. Group 1 included sham operated rabbits which served as controls. Group 2 received PBOO without estrogen treatment. Group 3 received estrogen treatment after PBOO. Group 4 received estrogen pretreatment before PBOO. The bladders were then removed for contractile, biochemical, and protein expression studies. There were four rabbits per group.

RESULTS

(1) PBOO resulted in significant decreases in the contractile responses to all forms of stimulation (field stimulation [FS], carbachol, KCl, ATP). Both pretreatment and post-treatment with estrogen resulted in significantly increased contractile responses to all forms of stimulation, although the responses were still lower than control. (2) PBOO resulted in a significant decrease in the activity of choline acetyltransferase (ChAT). Both pretreatment and post-treatment with estrogen resulted in significant increases in ChAT activity back toward control levels. (3) PBOO resulted in significant increases in both protein oxidation and nitration; both pretreatment and post-treatment with estrogen significantly reduced oxidation and nitration toward control levels.

CONCLUSIONS

Estrogen pretreatment and post-treatment in the female rabbit ameliorated contractile and biochemical dysfunctions associated with PBOO. This improvement is likely due to reduced oxidative stress. As expected, pretreatment was generally more effective than post-treatment.

Prostatic inflammation and obstructive voiding in the adult Noble rat: impact of the testosterone to estradiol ratio in serum

BACKGROUND

The age-related decline of the testosterone to estradiol (T-to-E(2)) ratio in serum is associated with the increased prevalence of prostatic inflammation and lower urinary tract symptoms suggesting obstructive voiding. The impact of the T-to-E(2) ratio on the development and reversal of non-bacterial prostatic inflammation and obstructive voiding was tested in adult Noble rats.

METHODS

Adult male Noble rats (n = 16) were treated with estradiol (83 microg/day) and two different doses (280 and 830 microg/day) of testosterone to cause hypoandrogenic and hyperandrogenic states with elevated estrogen. After the 13-week hormonal treatment, urodynamical measurements and electrical activity recording of the rhabdosphincter muscle were performed under anesthesia. Testosterone, estradiol, and prolactin concentrations in serum were measured and inflammatory changes in the dorsolateral prostate were classified and counted.

RESULTS

Histopathological and urodynamical analyses indicated that the hypoandrogenic animals with a decreased T-to-E(2) ratio (10 versus > 300 in control) developed prostatic inflammation and non-obstructive voiding. The hyperandrogenic state with decreased T-to-E(2) ratio of 50 decreased the aggressiveness of the inflammation and the number of inflamed acini in the prostate and caused urethral obstruction associated with rhabdosphincter dysfunction.

CONCLUSIONS

Different responses of the prostatic inflammation and voiding function to the change in T-to-E(2) ratio imply that non-bacterial prostatic inflammation is not a sufficient condition for the development of obstructive voiding. The present study finds no support for the idea that age- and/or obesity-related hypoandrogenic state with a decreased ratio of T-to-E(2) would cause urethral obstruction.

Increased alpha1-adrenergic activity in the rat bladder by depletion of ovarian hormones

PURPOSE

It is possible that postmenopausal loss of ovarian hormones leads to sensitization and/or over expression of alpha1-adrenergic receptors. The objective of this study was to determine whether ovariectomy enhances efferent transmission and, hence, increases contractility in the rat bladder by increasing alpha1-adrenergic receptors.

MATERIALS AND METHODS

This hypothesis was tested in 4 urethane anesthetized groups of female rats, including regularly cycling rats in metestrus and proestrus, and rats 4 months after ovariectomy with and without estradiol replacement, respectively. The bladder was catheterized through the urethra to measure intravesical pressure. The left femoral artery was also catheterized for local delivery of the nonspecific alpha1-adrenergic agonist phenylephrine, the alpha1-adrenergic antagonist prazosin, the specific alpha1A antagonist 5-methylurapidil or dimethyl sulfoxide (Sigma) in saline vehicle. In some rats bladder contractility was assessed by cystometry, followed by treatment with phenylephrine injected via the femoral artery. In other rats the bladder was denervated and a platinum electrode was wrapped around branches of the left pelvic nerve for electrical stimulation. The amplitude of micturition contractions and contractions evoked by phenylephrine or pelvic nerve stimulation was measured.

RESULTS

Micturition and phenylephrine evoked bladder contractions were significantly increased in ovariectomized rats without estradiol replacement. Prazosin significantly decreased contractions evoked by pelvic stimulation in a dose dependent manner. This decrease was significantly larger in ovariectomized rats without estradiol replacement compared to that in the other groups. The inhibition of stimulation evoked contractions by 5-methylurapidil was also greater in ovariectomized rats without estradiol replacement than in rats with estradiol replacement.

CONCLUSIONS

Results suggest that the depletion of ovarian hormones after ovariectomy enhances alpha1-adrenergic activity.

The effects of ovariectomy and estrogen replacement on acetylcholine release from nerve fibres and passive stretch-induced acetylcholine release in female rat bladder

AIMS

The present study investigated the effects of ovariectomy and estrogen replacement on the release of acetylcholine (Ach) from cholinergic neurons as well as on the tetrodotoxin (TTX)-insensitive stretch-induced Ach release in isolated rat detrusor. In addition, the above effects on rat micturition characteristics were also studied.

METHODS

Thirty female rats randomly received a sham operation, ovariectomy, or ovariectomy plus estrogen replacement. Using metabolic cages, micturition parameters were recorded. Then, in vitro functional experiments that included the measurements of nerve-mediated detrusor muscle contraction, Ach release from nerve fibres, and stretch-induced TTX-insensitive Ach release were performed. Ach release was measured using microdialysis and high-performance liquid chromatography.

RESULTS

Ovariectomized rats showed a significant decrease in voided volume and significant increase in 24-hr frequency of voiding. Ovariectomy caused the significant increase in both TTX-insensitive basal Ach release and TTX-insensitive stretch-induced Ach release. On the other hand, ovariectomy caused a significant decrease in Ach release from nerve fibres, resulting in the decrease in the contractile responses of detrusor muscle to electrical nerve stimulation. Estrogen replacement restored these alterations induced by ovariectomy.

CONCLUSIONS

Our findings showed that as a results of estrogen deficiency, Ach release from nerve fibres decreased, suggesting that this reduction of Ach released from cholinergic nerves may cause the decrease in detrusor contractility. Furthermore, this study also demonstrated that stretch-induced TTX-insensitive Ach release was increased by ovariectomy. This may be a contributing factor to the development of overactive bladder in elderly women.

Structural changes in the bladder walls of pregnant and hormone-treated rats: correlation with bladder dynamics

OBJECTIVE

To evaluate the effects of oestrogen, progesterone and pregnancy on bladder dynamics, and assess the associated histological and structural changes in the bladder wall in a rat model.

MATERIALS AND METHODS

Adult female Sprague-Dawley rats were divided into groups and treated as follows: nonpregnant controls (NC); pregnant (PG); oophorectomized and treated with oestrogen (ES); oophorectomized and treated with progesterone (PR); and oophorectomized controls (OO). Simultaneous and continuous renal pelvic and bladder pressures were recorded during bladder filling and emptying. Connective tissue and smooth muscle were analysed morphometrically and quantitatively, and immunohistochemistry used to evaluate the distribution and expression of collagen types I, III and IV.

RESULTS

PG rats had significantly greater bladder compliance than NC, OO and PR rats (P < 0.05). This correlated with the morphometric analysis, with bladders of PG and PR rats having lower connective tissue to smooth muscle ratios than NC, ES and OO rats (P < 0.05). Collagen I was increased in the lamina propria of PG and ES rats, and the detrusor muscle layer showed greater localization of collagen III in the interfascicular space in the PG and PR rats than in the other groups. There was no change in the distribution of collagen IV.

CONCLUSION

PG and PR rats had the highest bladder compliance and the changes paralleled structural changes in the bladders, specifically in the ratio of connective tissue to smooth muscle, and the distribution and expression of collagens I and III. These changes have age-related implications in the urinary tract.

Estrogen modulates the expression of myosin heavy chain in detrusor smooth muscle

The effect of low serum estrogen levels on urinary bladder function remains poorly understood. Using a rabbit model, we analyzed the effects of estrogen on the expression of the isoforms of myosin, the molecular motor for muscle contraction, in detrusor smooth muscle. Expression of myosin heavy chain (MHC) isoforms, which differ in the COOH-terminal (SM1 and SM2) and the NH(2)-terminal (SM-A and SM-B) regions as a result of alternative splicing of the mRNA at either the 3'- or 5'-ends, was analyzed in age-matched female rabbits that were sham operated, ovariectomized (Ovx), and given estrogen after ovariectomy (4 rabbits/group). Ovx rabbits showed a significant decrease in the overall MHC content per gram of wet detrusor smooth muscle compared with controls (P < 0.04), which was reversed by estrogen replacement (P < 0.02). MHC content, as a proportion of total milligram of protein in the bladder tissue extracted, was also increased in estrogen-treated Ovx rabbits. Quantitative competitive RT-PCR revealed 1.72-, 2.63-, and 5.82 x 10(6) copies of MHC mRNA/100 ng total mRNA in Ovx, control, and estrogen-treated rabbits, respectively (P < 0.01). RT-PCR analysis using oligonucleotides specific for the region containing the SM1/SM2 MHC alternative splice sites indicated a lower SM2-to-SM1 ratio in estrogen-treated compared with control and Ovx rabbits (P < 0.05). Similarly, SDS-PAGE analysis of extracted myosin from estrogen-treated rabbits revealed a significantly lower SM2-to-SM1 isoform ratio compared with control and Ovx rabbits (P < 0.05). Expression of the SM-A and SM-B isoforms was not affected. These results indicate that myosin content is increased upon estrogen replacement in Ovx rabbits and that the abundance of SM1 relative to SM2 is greater in estrogen-treated rabbits compared with normal and Ovx rabbits. These data suggest that estrogen affects alternative splicing at the 3'-end of the MHC pre-mRNA to increase the proportion of SM1 vs. SM2.

Acute modulation of Ca2+ influx on rat heart by 17beta-estradiol

Estrogens initiate their action by binding to specific intracellular receptors and then acting on gene expression. In addition, there is growing evidence of a direct membrane effect via interaction with a cell surphase receptor. The aim of the present study was to investigate the acute effects of 17beta-estradiol on Ca2+ fluxes through second messenger pathways in rat cardiac muscle. Exposure of rat ventricle to low levels of 17beta-estradiol (10(-12)-10(-8) M) increased 45Ca2+ influx within 1 min (+38%); the response was biphasic, peaking at 2 and 5 min (+60 and +55%, respectively). The effect of the hormone on rat heart seems to be specific since 17alpha-estradiol, dihydrotestosterone, and progesterone were devoid of activity. The effect of 17beta-estradiol (5 min, 10(-10) M) was suppressed by nitrendipine (1 microM) and LaCl3 (10 microM), involving the activation of voltage-dependent Ca2+ channels in the acute increase of rat heart calcium influx by the hormone. 17Beta-estradiol rapidly increased cAMP content and PKA activity of rat cardiac muscle in parallel to the changes in Ca2+ uptake. In addition the cAMP antagonist Rp-cAMPS suppressed 17beta-estradiol-dependent Ca2+ influx. Altogether, the data suggest the involvement of the cAMP/PKA messenger system in the nongenomic modulation of Ca2+ influx in rat cardiac muscle by physiological levels of 17beta-estradiol.

In vitro administration of 17 beta-estradiol inhibits drug-induced contractions of the rat isolated seminal vesicle

1. The rat isolated seminal vesicle responded to noradrenaline (NA), acetylcholine (ACh), potassium chloride (KCl) and barium chloride (BaCl2) with reproducible contractions. 2. 17 beta-estradiol (17 beta E) cumulatively added in the isolated organ bath reduced the number of contractions with all agonists used in the rank order of potency: BaCl2 > or = KCl > ACh > NA. The dose-response curves constructed in the presence of 17 beta E (2 x 10(-5) mol/l) produced a rightward shift and a reduction in the maximum response showing inhibitory activity. 3. When the calcium content in the normal Krebs medium (2.5 mmol/l) was reduced to half, the inhibitory activity of 17 beta E was potentiated. The maximum inhibition rates to KCl (phasic and tonic), BaCl2 and ACh were significantly (P < 0.05) different from each other. 4. The inhibitory effects of 17 beta E against all agonists tested were found to be similar in their responses to verapamil, but were much lower in potency. 5. The inhibitory effects of 17 beta E was seen only when the hormone was present in the tissue environment and was readily reversible as soon as the tissue was washed with the Krebs medium, suggesting that the effect of 17 beta E is localized. 6. It is suggested that the in vitro application of 17 beta E on the rat isolated seminal vesicle interferes with the process of translocation of calcium ions from the extracellular medium.

Estrogen modifies an electrocommunication signal by altering the electrocyte sodium current in an electric fish, Sternopygus

Many species of electric fish emit sexually dimorphic electrical signals that are used in gender recognition. In Sternopygus, mature females produce an electric organ discharge (EOD) that is higher in frequency and shorter in pulse duration than that of mature males. EOD pulse duration is determined by ion currents in the electrocytes, and androgens influence EOD pulse duration by altering the inactivation kinetics of the electrocyte sodium current. We examined whether estrogen modulates the female-specific EOD and, if so, whether it regulates EOD pulse duration by acting on the same androgen-sensitive ion current in the electrocytes. We implanted gonadectomized Sternopygus with either empty SILASTIC capsules (control), one capsule filled with estradiol-17beta (E2; low dose), or three capsules of E2 (high dose). Twelve days after implantation, E2-treated fish had plasma E2 levels approximately 3.3-fold (low dose) or approximately 7.1-fold (high dose) higher than controls. After implantation, both E2-treated groups had higher EOD frequency and shorter EOD pulse duration than controls and their own preimplantation values. Through immunocytochemistry, we identified immunoreactive estrogen receptors in the nuclei of electrocytes, indicating that these cells are directly responsive to estrogen. In addition, voltage-clamp studies showed that E2 affected the electrocyte ion currents kinetics: the sodium inactivation time constant was significantly lower in E2-treated fish than in controls. Thus, sexual dimorphism in the electrocommunication signal results, at least in part, from estrogens and androgens acting in opposite directions on the same ion current in the electrocytes.

The effect of ovariectomy on the contractile response of the rat isolated detrusor muscle and urethra

Contractile responses induced by carbachol on the detrusor muscle and by noradrenaline on the isolated urethra were compared between ovariectomized rats pretreated with estradiol (50 microg/animal s.c. twice daily for five days), untreated ovariectomized rats and intact animals. In the detrusor muscle, contractions induced by 30 microM carbachol, when normalized with respect to KCl 100 mM-induced contraction, were similar for the three groups. Furthermore, contractions induced by 100 microM noradrenaline in the isolated urethra were not significatively different between groups. However, the pD2 value for noradrenaline was greater in urethral tissue from ovariectomized rats compared with ovariectomized -estrogen treated and control rats. A similar result was found for pD2 values for carbachol-induced contractions on the detrusor muscle. These results suggest that ovariectomy increases the sensitivity of the urinary bladder and urethra to the contractile effects of carbachol and noradrenaline, respectively and that this effect is reversed by in vivo estrogen pretreatment.