Potassium channels and human corporeal smooth muscle cell tone: diabetes and relaxation of human corpus cavernosum smooth muscle by adenosine triphosphate sensitive potassium channel openers

PURPOSE: Sustained contraction of human corporeal smooth muscle depends on continuous transmembrane calcium flux through voltage gated calcium channels. K channels modulate corporeal smooth muscle membrane potential and, thus, ultimately affect transmembrane calcium flux. Therefore, we characterized relaxation responses elicited by the K channel modulators pinacidil and levcromakalim on isolated human corporeal tissue strips. We also evaluated the possibility that there may be alterations in adenosine triphosphate sensitive K channel pharmacology/function related to the presence of diabetes mellitus. MATERIALS AND METHODS: A total of 215 isolated human corporeal tissue strips obtained from 57 male patients with organic erectile dysfunction were investigated. Cumulative concentration-response curves were constructed at half log increments for steady state relaxation responses elicited by pinacidil and levcromakalim on equivalently phenylephrine pre-contracted (to approximately 75% of maximum) isolated corporeal tissue strips. Potassium currents were measured using the cell attached whole cell patch clamp technique on freshly isolated corporeal smooth muscle cells. RESULTS: A concentration dependent, glibenclamide sensitive relaxation response of phenylephrine pre-contracted corporeal tissue strips was observed for pinacidil and levcromakalim. Consistent with such observations, electrophysiological recordings on freshly isolated myocytes revealed that pinacidil (10 microM.) and levcromakalim (10 microM.) induced whole cell potassium currents that were blocked by glibenclamide (10 microM.). In addition, statistical analysis revealed that phenylephrine pre-contracted corporeal tissue strips from patients without diabetes were more sensitive to relaxation by both compounds than corporeal tissue strips excised from those with diabetes. Furthermore, relaxation responses elicited by pinacidil and levcromakalim were not affected by charybdotoxin or 4-aminopyridine but were completely reversed by KCl or tetraethylammonium chloride. CONCLUSIONS: These data indicate that the adenosine triphosphate sensitive K channel subtype is likely to have an important role in the relaxation of isolated corporeal tissue strips and, moreover, they are the molecular target for the K channel modulators/openers levcromakalim and pinacidil. Such observations are consistent with the supposition that alterations in the structure/function/activity of these potassium channels may underlie at least some aspects of observed diabetes related differences in tissue sensitivity to K channel modulators.     

Enhanced contractility of rabbit corpus cavernosum smooth muscle by oxidized low density lipoproteins

We have investigated the effect of oxidatively-modified low density lipoproteins (ox-LDL) on the contractility of rabbit trabecular smooth muscle. Low density lipoproteins (LDL) were isolated from fresh human plasma pooled from multiple donors and oxidized by exposure to copper. Corpus cavernosum strips from New Zealand White rabbits were studied in organ chambers for isometric tension measurement. Corporeal strips in which moderate tone was induced by phenylephrine, contracted when exposed to ox-LDL, but not when exposed to either native LDL (nLDL) or LDL protected from oxidation by butylated hydroxytoleune (BHT-LDL). Removal of the endothelium, or treatment of the corporeal strips with N(omega)-nitro-L-arginine (nitric oxide synthase inhibitor), methylene blue of LY83583 (guanylate cyclase inhibitors/superoxide producing agents), did not prevent ox-LDL-induced contraction. ox-LDL, dose-dependently, enhanced the contractile response of corporeal strips to low and moderate concentrations by phenylephrine. nLDL had no significant effect on phenylephrine-induced contraction of corporeal strips. ox-LDL, nLDL or BHT-LDL had no effect on relaxation induced by the endothelium-dependent dilator, acetylcholine, or the nitric oxide donor, nitroprusside. In conclusion, this present study demonstrates significant pro-contractile effects of ox-LDL on corporeal smooth muscle, this effect is independent of the endothelium or the nitric oxide/cGMP pathway. The pro-contractile effect of ox-LDL may interfere with penile smooth muscle relaxation, necessary for the initiation and maintenance of penile erection.     

Dual mechanism of action of nicorandil on rabbit corpus cavernosal smooth muscle tone

The potential of ATP-sensitive potassium channel openers (KCOs) for the treatment of male erectile dysfunction has recently been suggested based on positive clinical outcomes following intra-cavernosal administration of pinacidil. Agents that increase the levels of cGMP via elevation of nitric oxide (NO) nitroglycerin, for example, are also effective in improving erectile function preclinically and clinically. The aim of the present study was to determine the effects and mechanism of the action of nicorandil on rabbit corpus cavernosum. The in vitro regulation of smooth muscle tone was assessed in isolated cavernosal tissues pre-contracted with phenylephrine. Nicorandil, but not its major metabolite, relaxed phenylephrine-precontracted cavernosum smooth muscle with an EC(50) of 15 microM. The effects of nicorandil were only partially reversed by the K(ATP) channel blocker glyburide (10 microM) or by a soluble guanylate cyclase (sGC) inhibitor 1H-[1,2,4] oxadiazole [4,3-a] quinoxalin-1-one (ODQ, 3 microM). However, a combination of ODQ and glyburide completely blocked the relaxant effects of nicorandil. The results of the present study indicate that nicorandil can relax rabbit cavernosal tissue in vitro via a mechanism that involves activation of K(ATP) channels and stimulation of soluble guanylate cyclase.     

Relaxation effects of adrenomedullin in isolated rabbit corpus cavernosum smooth muscle

OBJECTIVES: To clarify the pharmacological effects of adrenomedullin, a potent vasodilator and hypotensive peptide isolated from human phaeochromocytoma cells, on corpus cavernosal smooth muscle in vitro, as the intracavernosal injection of adrenomedullin induces penile erection in the anaesthetized cat. MATERIALS AND METHODS: The effects of adrenomedullin were investigated in isolated muscle strips from New Zealand rabbit corpus cavernosum smooth muscle pre-contracted with phenylephrine alone, in the presence of indomethacin (cyclooxygenase inhibitor), Nomega-nitro l-arginine methyl ester (L-NAME, a nitric oxide synthase inhibitor), and K+-channel blockers. RESULTS: Adrenomedullin caused relaxation of isolated pre-contracted rabbit corpus cavernosum strips in a concentration-dependent manner. The response of corpus cavernosum was unaffected L-NAME, indomethacin and K+-channel blockers. CONCLUSION: The relaxation exerted by adrenomedullin in rabbit corporal tissue may arise from the effect of the drug on its specific receptors and/or calcitonin gene-related peptide-1 receptors. The relaxant effect of adrenomedullin might lead to novel clinical applications for erectile dysfunction.     

Up-regulation of bradykinin response in rat and human bladder smooth muscle

PURPOSE: Responses to bradykinin were investigated in vitro in isolated control and hypertrophic smooth muscle strips from rat bladder. MATERIALS AND METHODS: Bladder hypertrophy was induced by a 10-day period of partial urinary outflow obstruction. In addition, human bladder strips were also investigated. RESULTS: Bradykinin (1 nM. to 1 microM.) caused contractions in all tissues studied. In the freshly isolated rat bladder preparations bradykinin induced contractions were similar and of small amplitude in control and hypertrophic tissues. After a 4-hour equilibratory period contractile responses to bradykinin and the B1 specific bradykinin receptor agonist desArg9 bradykinin were slightly increased in the controls but there was approximately a 6-fold increase in the hypertrophic muscle strips. After 4 hours of equilibration the human bladder strips showed a smaller but still significant increase in contractile response to bradykinin. Indomethacin, a cyclooxygenase inhibitor, almost abolished the increased response, which suggests that prostanoids are involved in the up-regulated response. The protein synthesis inhibitor cycloheximide inhibited up-regulation by approximately 50% in hypertrophic and control muscle strips from rat bladder and normal muscle from human bladder. CONCLUSIONS: These results demonstrate that bradykinin receptor responses are present in rat and human detrusor muscle and they can be up-regulated in vitro. Experiments on hypertrophic rat bladder revealed that this process is enhanced in hypertrophy.     

Modulation of Ca2+ sensitivity regulates contractility of rabbit corpus cavernosum smooth muscle

PURPOSE: We examined the role of the modulation of Ca2+ sensitivity for regulating the contractility of corpus cavernosum smooth muscle. MATERIALS AND METHODS: We applied simultaneous measurements of intracellular Ca2+ concentration and tension in fura-PE3 loaded intact strips and receptor coupled permeabilization by alpha-toxin. RESULTS: In intact fura-PE3 loaded strips the tension induced by 10 microM. phenylephrine was significantly greater than that produced by depolarization with 118 mM. K+, although the extent of intracellular Ca2+ concentration elevations was similar. During sustained contraction induced by 10 microM. phenylephrine the application of 10 microM. Y-27632 (a Rho kinase inhibitor) induced relaxation with a slight decrease in intracellular Ca2+ concentration, while the application of 3 microM. GF109203X (a protein kinase C inhibitor) induced relaxation without changing intracellular Ca2+ concentration. In alpha-toxin permeabilized strips 10 microM. phenylephrine induced a larger increase in force at a constant intracellular Ca2+ concentration and produced a leftward shift in the intracellular Ca2+ concentration-tension relationship, a response that was partially inhibited by pretreatment with Y-27632 or GF109203X. CONCLUSIONS: These results indicate that in rabbit corpus cavernosum smooth muscle phenylephrine induces contraction not only by increasing intracellular Ca2+ concentration, but also by increasing Ca2+ sensitivity of the contractile apparatus in a Rho kinase and protein kinase C dependent manner. Antagonism of Ca2+ sensitization pathways in the corpus cavernosum smooth muscle represents an alternate target for the treatment of erectile dysfunction.     

Ionic currents in single smooth muscle cells of the human vas deferens

PURPOSE: Smooth muscle cells of the vas deferens have an important role in carrying sperms to the exterior but little is known of their electrophysiological properties. We characterized the voltage-gated ion channel currents in single smooth muscle cells of the human vas deferens (HVSMCs). MATERIALS AND METHODS: We observed contractile responses of 8 circular smooth muscle strips of the human vas deferens to a high concentration (10 mM) of tetraethylammonium. HVSMCs were isolated using proteolytic enzymes (collagenase and papain), and were used for an electro-physiological study using whole cell and inside-out patch clamp configurations. RESULTS: The application of 10 mM tetraethylammonium induced rhythmic contractions of the strips. When HVSMCs were dialyzed with a KCl solution, step depolarizations of membrane potential evoked oscillatory outward K currents that were not inactivated. The large conductance Ca activated K (BKCa) and delayed rectifier components of the outward current were identified. The BKCa channel showed a large single channel conductance (162.7 +/- 13.2 pS with 5 mM K in the patch pipette). Two types of Ca currents were identified in the whole cell configuration. With a cell held at -50 mV an L-type Ca current was present during a depolarizing step pulse. From a holding potential of -90mV L-type and T-type Ca currents were elicited by depolarizing step pulses. CONCLUSIONS: HVSMCs have 2 (L and T) types of Ca channels and 2 types of K (BKCa and delayed rectifier) channels. Voltage dependent changes of these ion channels and their interactions may be important in regulating vas contractility.     

Effect of chronic renal failure on the purinergic responses of corpus cavernosal smooth muscle in rabbits

OBJECTIVE: To examine purinergic relaxation responses in chronic renal failure (CRF) in an experimental rabbit model, and thus evaluate the possible involvement of the purinergic system in erectile dysfunction with CRF. MATERIALS AND METHODS: The relaxant effects of ATP were measured in strips of corpus cavernosum smooth muscle taken from control and CRF rabbits. CRF was induced in New Zealand white rabbits as previously described. Penises were excised from CRF rabbits 4 weeks after inducing uraemia. In an organ bath the strips from controls and CRF rabbit corpus cavernosum were pre-contracted with phenylephrine and increasing doses of adenosine and ATP added. RESULTS: In the pre-contracted rabbit cavernosal tissue the relaxations induced by adenosine and ATP were unchanged in CRF. CONCLUSION: The lack of any relaxant effect of adenosine or ATP on the relaxation of cavernosal smooth muscle in rabbits with CRF might be because the relaxant effects of these agents are endothelium-independent and the endothelial purinergic receptor density was unchanged in CRF.     

Ca2+ sensitization in contraction of human bladder smooth muscle

PURPOSE: The role of Ca2+ sensitization in the contraction of human bladder urinary smooth muscle (UBSM) was investigated. MATERIALS AND METHODS: Simultaneous measurements of intracellular Ca2+ concentration ([Ca2+]i) and tension in fura-2 loaded intact strips and receptor coupled strips permeabilized with alpha-toxin were applied. Protein expressions was confirmed by Western blot analysis. RESULTS: In intact fura-2 loaded strips 1 microM carbachol (CCh) induced a greater contraction and a lower [Ca2+]i elevation than that induced by 60 mM K depolarization. In alpha-toxin permeabilized strips 1 microM CCh induced contraction at constant [Ca2+]i and produced a leftward shift in the [Ca2+]i-tension relationship. RhoA, Rho-associated kinase (ROCK) I, ROCK II and CPI-17 proteins were expressed in human UBSM. In intact fura-2 loaded strips the application of 3 microM Y-27632, a ROCK inhibitor, or 3 microM bisindolylmaleimide I (GF109203X), a protein kinase C inhibitor, during the sustained phase of contraction induced by 1 microM CCh induced relaxation without changing [Ca2+]i. In alpha-toxin permeabilized strips the application of 3 microM Y-27632 or 3 microM GF109203X during the sustained contraction induced by 0.3 microM Ca plus 10 microM guanosine triphosphate and 1 microM CCh induced relaxation at constant [Ca2+]i. CONCLUSIONS: These results indicate that in human UBSM CCh induces contraction, not only by increasing [Ca2+]i, but also by increasing the Ca2+ sensitivity of the contractile apparatus in a ROCK and protein kinase C dependent manner. Antagonism of Ca2+ sensitization pathways may represent an alternative target in the treatment of overactive bladder.     

Calcium channel blockade in smooth muscle of the human upper urinary tract. II. Effects on norepinephrine-induced activation

The effects of the calcium channel blockers verapamil and nifedipine on norepinephrine-induced activation were studied in different tissues of the human upper urinary tract. In usually inactive ureteral muscle strips, norepinephrine induced predominantly phasic contractions with only minimal effects on resting tension. In contrast, in isolated segments of the renal calyx and pelvis, irrespective of preexisting spontaneous phasic activity, the same agonist effected a long-lasting tonic contraction. These different types of mechanical activity induced by norepinephrine showed different sensitivities to calcium channel blockers, phasic contractions being potently suppressed while the tonic response was little affected by the drugs. This different pattern of response to norepinephrine and the different sensitivity of the responses to calcium channel blockers suggest different and separate coupling mechanisms between the receptors involved and the calcium pools responsible for initiation of contraction. The existence of different calcium pathways activating the contractile proteins in the human upper urinary tract is postulated.     

Influence of nitric oxide signalling pathways on pre-contracted human detrusor smooth muscle in vitro

OBJECTIVES: To assess the effects of nitric oxide (NO) donors on human detrusor strips in vitro under conditions which attempt to mimic those occurring in vivo during the tonic phase of bladder contraction, as NO may promote relaxation by modulating parasympathetic excitation contraction coupling. MATERIALS AND METHODS: With ethical approval from the local ethics committee, human detrusor tissue was obtained from a heterogeneous clinical group after obtaining informed consent. Detrusor strips were dissected and mounted in a 1-mL, superfused organ bath. After pre-contraction with carbachol, the effect of NO donors, sodium nitroprusside (SNP) and S-nitro-N-acetylpenicillamine, a cell-permeable cyclic nucleotide analogue (dibutyl-cGMP), and inhibitors (methylene blue and ibuprofen) on isometric tension were assessed. All drugs were dissolved in Tyrode solution (pH 7.4), passed through a thermostatically controlled (36 degrees C) warming jacket and bubbled with 95% O2/5% CO2. RESULTS: Both NO donors and db-cGMP evoked a complex response in pre-contracted tissue, i.e. relaxation, contraction or a transient relaxation followed by contraction. Inhibition of soluble guanylyl cyclase significantly attenuated NO-mediated contraction, indicating the involvement of cGMP, but this inhibition did not significantly affect the relaxant response. The relaxant response was also potentiated by ibuprofen. SNP and db-cGMP evoked similar responses, although the occurrence of the responses (relaxation, contraction or biphasic) was significantly different in normal and pathological human detrusor. CONCLUSIONS: NO donors and db-cGMP modulate carbachol-evoked contraction of human detrusor smooth muscle in vitro. There is probably a NO/cGMP signalling pathway, with inhibition of endogenous cGMP by methylene blue, suggesting that SNP evokes contraction via cGMP. However, NO donors and db-cGMP evoked a complex response (relaxant, contractile or biphasic), suggesting that NO and cGMP may also act independently and/or via several pathways.     

Effects of castration on nitric oxide-mediated relaxations in male rat corpus cavernosum smooth muscle

BACKGROUND: The effects of castration on nitric oxide- mediated relaxations and nitric oxide synthase activity in male rat corpus cavernosum smooth muscles. METHODS: Eight-week-old male rats were assigned to two groups: control (sham operated) and castrated animals. After 8 weeks, corpus cavernosum smooth muscle strips were mounted in an organ bath for isometric tension recordings. Electrical field stimulation (EFS) was applied to the strips precontracted with 30 microM phenylephrine. The microdialysis probe was inserted into the strip, and Krebs-Henseleit solution was perfused into the probe. The dialysate during EFS and cholinergic stimulation was collected, and the amount of NO(-)(2)/NO(-)(3) (NOx) released in the dialysate was measured by the Greiss method. Sodium nitroprusside and carbachol were cumulatively added to the strips precontracted with 30 microM phenylephrine. RESULTS: EFS caused frequency-dependent relaxations and NOx releases in the strips. Pretreatment with N(omega)-nitro-L-arginine (100 microM) and tetrodotoxin (1 microM) completely inhibited relaxations and NOx releases. The maximum relaxation in the castration group was significantly greater than that in the control group. The release of NOx was significantly greater in the castration group than in the control group. Sodium nitroprusside relaxed the tissues in both groups similarly. Carbachol failed either to relax the tissue or to increase the amount of NOx production in the tissue. CONCLUSION: The present data suggest that castration enhances nitric oxide synthase activity and nitric oxide-mediated relaxations in the male rat corpus cavernosum.     

Comparison of the relaxant effects of alfuzosin,phentolamine and sildenafil on rabbit isolated corpus cavernosum

OBJECTIVE: To compare the direct relaxant effects of alfuzosin, phentolamine and sildenafil in rabbit isolated corpus cavernosum (CC) pre-contracted with phenylephrine or KCl. MATERIALS AND METHODS: Penile erectile tissue was obtained from male New Zealand White rabbits (22-26 weeks old). The CC was cut into longitudinal strips and mounted under 2 g resting tension in 5-mL jacketed organ baths containing a modified Krebs solution bubbled with 95% O2, 5% CO2 and maintained at 37 degrees C. Tissue strips were pre-contracted by 60 mmol/L KCl or 10 micro mol/L phenylephrine. After obtaining a stable plateau of contractions, test compounds were added to the organ bath. The relaxant potencies were expressed as the percentage of inhibition of the plateau of contraction induced by 10 micro mol/L phenylephrine. RESULTS: Alfuzosin showed a concentration-dependent relaxing effect on rabbit CC pre-contracted by 10 micro mol/L phenylephrine, with a mean (sd) pIC50 of 7.64 (0.06). The relaxant effect was unaffected by pre-incubation with 100 micro mol/L Nomega-nitro-l-arginine methyl ester (L-NAME). Phentolamine had a potency similar to alfuzosin, with a pIC50 of 7.44 (0.08). Both alfuzosin and phentolamine were completely ineffective on the plateau of contraction induced by 60 mmol/L KCl. In contrast to alfuzosin, sildenafil was equipotent in relaxing the rabbit CC against each contractile agent, with pIC50 values of 7.25 (0.09) and 7.23 (0.22) with 10 micro mol/L phenylephrine and 60 mmol/L KCl, respectively. The relaxant response to sildenafil was partly blocked by pretreatment with 100 micro mol/L L-NAME, with pIC50 values of 7.94 (0.09) and 6.63 (0.32) without and with L-NAME, respectively. Sildenafil, incubated for 45 min at 10 micro mol/L, had no relaxant effect on the resting tension of the preparation or on the concentration-response curve to phenylephrine. CONCLUSIONS: The direct relaxant effect of alfuzosin is mediated through alpha1-adrenoceptor blockade. The relaxations induced by phentolamine and alfuzosin are independent of nitric oxide, whereas those induced by sildenafil are, at least partly, sensitive to L-NAME and a selective soluble guanylate cyclase inhibitor, indicating the involvement of nitric oxide and soluble guanylate cyclase. Alfuzosin and phentolamine effectively counteract alpha1-adrenoceptor-mediated contractions of rabbit CC. If valid for human CC, such an effect may contribute to an improved erectile function in patients treated for benign prostatic hyperplasia.     

Effect of Mucosal Removal on the Response of the Feline Bladder to Pharmacological Stimulation

The urothelium plays an important role in the maintenance of normal bladder function. It provides a nonpermeable barrier to the contents of urine. The urothelium is directly involved in the transduction of both intravesical pressure and intravesical volume information to the afferent nerve fibers located within the lamina propria area. A third function may be to modulate bladder contractile function through local secretion of bioactive substances into the muscularis layers adjacent to the urothelium. To test this last hypothesis, the following experiments were performed: Strips of female cat bladders were isolated from the bladder body, base and urethra. The mucosa of alternate adjacent strips was removed, and the contractile response to field stimulation (FS), bethanechol (body), phenylephrine (base, urethra) and KCl was determined.For the bladder body, the strips without mucosa responded to FS, bethanechol, adenosine triphosphate (ATP) and KCl significantly greater than the strips with mucosa intact. For the bladder base and urethra, the contractile responses to FS, KCl and phenylephrine were significantly greater for the strips with mucosa removed as compared with the strips with mucosa intact. For the urethra and bladder base, FS in the presence of phenylephrine produced a relaxation. For the bladder base, the degree of FS relaxation of the isolated strips with mucosa removed was significantly greater than the strips with mucosa intact. For the urethra, FS relaxation was similar for the two groups. In conclusion, removal of the urethelium significantly and substantially increased the contractile response to FS, KCl, bethanechol and phenylephrine. Field stimulation relaxation in the bladder base was also enhanced. Thus in the cat, the mucosa has a significant inhibitory effect on the contractile response of the bladder to stimulation. The mechanism of this activity is not clear at the present time but will be the subject of further study.     

The alpha-adrenoceptor subtype mediating the tension of human prostatic smooth muscle

We have characterized the α₁ adrenoceptor subtypes in the human prostate using radioligand receptor binding studies. The objective of the present study was to determine the α₁ subtype mediating the tension of prostatic smooth muscle. Fresh human tissue was obtained from 9 males between 50 and 80 years of age undergoing prostatectomy for BPH. The incubation of prostatic tissue with the irreversible antagonist chlorethyclonidine (CEC) resulted in an 80% reduction of the maximal contractile response produced by phenylephrine. However, the α_1A-selective antagonists WB-4101 and 5-methylurapidil (5-MU) competitively inhibited the contractile response induced by phenylephrine, with K_B = 2.64 and 4.46 nM, respectively, consistent with their affinity at the α_A1 receptor subtype. The pharmacological profile of the α₁-receptor-mediated contractile response of prostate smooth muscle is inconsistent with their classification as either an α_1A or α_1B subtype. Alternatively, when compared with the properties of the cloned α₁ receptors, our results suggest that the α₁ receptors involved in the contraction of prostate smooth muscle have some pharmacological properties similar to those encoded by the gene of the bovine α_1c receptor subtype. The findings of the present study suggest that efforts should be made to confirm the identity of the α₁-receptor subtype expressed by prostate smooth muscle, in order to develop subtype-selective α₁ antagonists, and to evaluate their safety and efficacy in benign prostatic hyperplasia (BPH). © 1993 Wiiey-Liss, inc.     

Experimental diabetes alters connexin43 derived gap junction permeability in short-term cultures of rat corporeal vascular smooth muscle cells

PURPOSE: Intercellular communication through gap junctions was assessed in 8 to 10-week STZ diabetic rats to evaluate diabetes related effects on gap junctional conductance and permeability in short-term cultures of corporeal myocytes. MATERIALS AND METHODS: Rats were made diabetic by a single intraperitoneal injection of STZ. Eight to 10 weeks later erectile function was evaluated in vivo and corporeal tissue was harvested to isolate corporeal myocytes. Dual whole cell patch clamp studies of intercellular communication through connexin43 (Cx43) derived gap junction channels were done in short-term, ie passages 0 to 2, cultured corporeal myocytes excised from STZ diabetic rats with documented erectile impairment as well as in myocytes from age matched control rats. RESULTS: No differences in macroscopic junctional conductance, single channel conductance or open probability were detected between myocytes from age matched control and STZ diabetic rats, confirming the lack of diabetes related alterations in Cx43 gating or conductance. However, fluorescence dye transfer experiments revealed a marked 3-fold increase in Cx43 mediated junctional permeability in the absence of any detectable change in Cx43 protein expression. CONCLUSIONS: These data suggest that an alteration in the selectivity filter of Cx43 in diabetic animals affects the permeability of specifically sized and charged solutes. To our knowledge these studies provide the first evidence of a diabetes related increase in intercellular permselectivity in corporeal myocytes and, thus, they may have important implications for diabetes related erectile dysfunction.     

The effects of melatonin on ischemia-reperfusion induced changes in rat corpus cavernosum

PURPOSES: We determined the change in contractile activity and oxidant damage after ischemia-reperfusion of rat corpus cavernosum and investigated the effects of melatonin (Sigma Chemical Co., St. Louis, Missouri) on these parameters. MATERIALS AND METHODS: The abdominal aorta of male Wistar albino rats was occluded to induce ischemia-reperfusion. Melatonin (10 mg./kg.) or vehicle (1% alcohol in saline per kg.) was administered subcutaneously before ischemia-reperfusion. In the sham operated control group the abdominal aorta was left intact and the rats were treated with melatonin or vehicle. After decapitation corporeal tissues were placed in organ baths or stored for biochemical measurements. RESULTS: In sham operated rats phenylephrine added cumulatively caused a concentration dependent contraction in corpus cavernosum strips precontracted with KCl and acetylcholine added cumulatively to strips precontracted with phenylephrine caused a dose dependent relaxation response. In the ischemia-reperfusion group contraction and relaxation responses decreased significantly compared within controls. Melatonin treatment in the ischemia-reperfusion group reversed these responses. Myeloperoxidase activity and the lipid peroxidation level of the corporeal tissues in the ischemia-reperfusion group were significantly higher than in the sham operated control group. Melatonin treatment in the ischemia-reperfusion group decreased myeloperoxidase activity and the lipid peroxidation level compared with ischemia-reperfusion alone, whereas melatonin treatment alone had no significant effect on these parameters. CONCLUSIONS: In this study the corporeal tissues of rats exposed to ischemia-reperfusion had lower responses to contractile and relaxant agents than those of sham operated rats. Treatment with melatonin before ischemia-reperfusion almost completely reversed smooth muscle responses and prevented the increased myeloperoxidase activity and lipid peroxidation of corporeal tissues.     

Roles of prostaglandin on rabbit vesicourethral smooth muscle contraction]

The effects of prostaglandin (PG) E1, E2 and F2 alpha on isolated smooth muscles of rabbit bladder and urethra were studied by in vitro techniques for recording contractile activities. To examine the mechanism of PGs' effect, intracellular cyclic AMP content was also measured by radioimmunoassay. Spontaneous contractile force of muscle strips isolated from rabbit urinary bladder dome and base was increased dose-dependently by administration of PGE1, E2 or F2 alpha. Isolated muscle strips from bladder dome responded to PG more markedly than those from bladder base. The rank order of potency to induce contractile responses was PGF2 alpha greater than PGE2 greater than PGE1 in both dome and base muscles. Spontaneous contractile force of muscle strips isolated from rabbit urethra was increased dose-dependently by administration of PGF2 alpha, and, in contrast, was decreased dose-dependently by PGE1 or E2. These effects were not affected by pretreatment with atropine, phentolamine, propranolol and tetrodotoxin, but were significantly inhibited by pretreatment with verapamil, a Ca-antagonist. Cyclic AMP accumulation in urethral muscle strips significantly increased after administration of PGE1. These results demonstrated that contractile response of rabbit bladder smooth muscle to PG was mainly induced by Ca2+ influx and that cyclic AMP was related to the relaxation of rabbit urethral smooth muscle by PGE1.     

Vascular smooth muscle mechanics in isolated perfused segments of carotid arteries

BACKGROUND: We hypothesized that smooth muscle contraction and relaxation responses in a muscle bath (isometric tension) would be different than responses of intact vessels (isotonic tension). METHODS: Bovine carotid artery contractile responses to the catecholamine, norepinephrine, and smooth muscle relaxant, 3-isobutyl-1-methylxanthine, were examined in strips of vessels in a muscle bath and in intact whole vessels in an isolated perfused whole-vessel perfusion apparatus. RESULTS: The maximal tension in the muscle bath depended on the length of the strip. The responses of whole vessels to increasing pressure was curvilinear. The maximal decrease in vessel diameter in intact vessels in response to the catecholamine and norepinephrine occurred at low intraluminal pressures. The dose-response curve to norepinephrine was shifted to the left in intact vessels compared with strips of vessels in the muscle bath, which suggests that whole vessels were more sensitive to norepinephrine. The maximal increase in diameter to increasing intraluminal pressure occurred in the presence of the phosphodiesterase inhibitor, 3-isobutyl-1-methylxanthine, which suggests that there was significant intrinsic tone in the vascular smooth muscle. CONCLUSIONS: These results suggest that there are differences in the contractile properties of the vascular smooth muscle that are related to the ex vivo system used to examine smooth muscle responses. Responses obtained in isolated perfused whole vessels may more closely approximate in vivo responses.