STIMULATION OF THE CYCLIC AMP/GMP SIGNALLING ENHANCES THE RELAXATION OF ISOLATED HUMAN DETRUSOR SMOOTH MUSCLE ACHIEVED BY PHOSPHODIESTERASE INHIBITORS.

Phosphodiesterase (PDE) enzymes are considered being key proteins in controlling the function of smooth musculature in the human urinary tract. The use of PDE inhibitors (PDE-Is) to treat erectile dysfunction and lower urinary tract symptomatology (LUTS) secondary to benign prostatic hyperplasia (BPH) is well established. It has been shown that PDE-Is can reverse the tension induced by means of muscarinergic agents of detrusor smooth muscle and enhance the production of cyclic nucleotides. In clinical settings, the PDE1 inhibitor vinpocetine had beneficial effects in patients presenting with voiding dysfunctions. This prompted us to evaluate further the mechanism of action of PDE-Is on bladder smooth musculature. Using the tissue bath technique, relaxant responses of human detrusor smooth muscle, challenged by acetylcholine (1 µM), to vinpocetine (PDE1-I), rolipram (PDE4-I), MY 5445 and sildenafil (PDE5-Is) (0.1 µM, 1 µM, and 10 µM) were investigated with and without pre-exposure of the tissue to threshold concentrations of the NO donor drug sodium nitroprusside (SNP) or adenylyl cyclase activator forskolin (0.02 µM). The non-specific PDE-I papaverine was used as a reference compound. The cumulative addition of forskolin or SNP exerted a pronounced reversion of the tension induced by means of ACh, starting at a concentration of 1 µM (forskolin, -25,6%) and 0.1 µM (SNP, -20%), respectively. There were marginal responses of the detrusor smooth musculature to the PDE-Is, the relaxation measured ranged from -12% (vinpocetine/sildenafil) to -19% (rolipram, MY 5445). Exposure of the tissue to a threshold concentration of SNP increased the reversion of tension induced by vinpocetine (-40%), rolipram (-50%) and MY 5445 (-45%). An enhancement in the potency of the drugs was also registered. A threshold concentration of SNP did not significantly affect the maximum reversion of tension brought about by sildenafil but added positively to the in vitro potency of the PDE5-I. PDE inhibitors may tend to be more effective in systems characterized by an enhanced production of cyclic AMP/GMP (such as urogenital tissues in vivo). Our findings may explain how PDE inhibitors can affect symptoms of the overactive bladder.

[Induratio penis plastica and the capability of vaginal penetration in the context of forensic evaluation]. / Induratio Penis Plastica und Vaginale Penetrationsfähigkeit im Kontext der Forensischen Begutachtung.

The so-called Induratio penis plastica (IPP), also known as Peyronie Disease or Morbus Peyronie, is the most common cause for deviation of the male penis. In most cases, the deviation is directed to the dorsal side. In face of a lawsuit related to a sexual offence, the opponent might argue that, due to an existing IPP, he is generally unable to insert his penis into a female's vagina. The aim of the present study was to examine the clinical files of thirty (30) consecutive patients who presented with IPP. Particular attention was given to the individual degree of penile deviation and the ability of the subjects to conduct vaginal intercourse. Subjects who had a dorsal penile deviation of 800 to 900, or a lateral deviation of 600, were unable to commence vaginal coitus. In contrast, three (3) subjects who presented with a ventral deviation of 30° to 40° had no difficulties in performing vaginal penetration. The medicolegal aspects of these findings are being discussed.

C-kit-positive multipolar cells in human penile erectile tissue: expression of connexin 43 and relation to trabecular smooth muscle cells.

The aim of this study was to evaluate the hypothesis that interstitial cells might play a role in controlling and synchronizing via gap junctions the electrical activity of smooth muscle cells. The expression and distribution of interstitial cells in human penile erectile tissue was evaluated to determine whether or not cavernous interstitial cells express the gap junction protein connexin 43. Specimens of human corpus cavernosum were excised from full preparations of human penises. Cryostat sections (10 microm to 15 microm) of formaldehyde-fixated tissue segments were incubated using a double-labelling technique with antibodies directed against smooth muscle alpha-actin, c-kit, and connexin 43. Then, sections were exposed to secondary antibodies. Visualization was commenced by means of laser fluorescence microscopy. Double-staining techniques revealed immunosignals specific for c-kit (transmembrane receptor protein) and connexin 43 (gap junction protein) in multipolar cells located adjacent to smooth muscle cells. The number of c-kit-positive cells was significantly lower within the smooth musculature than within bundles of connective tissue surrounding smooth muscle cells of corpus cavernosum or cavernous arteries. Our findings demonstrate the distribution of c-kit- and connexin 43-positive interstitial cells in the connective tissue and smooth musculature of the corpus cavernosum. Additional studies are needed in order to evaluate further the ultrastructure of human penile erectile tissue and enable the identification of gap junctions mediating direct cell-to-cell communication.

[In vitro effects of a novel class of nitric oxide donating compounds on isolated human urinary bladder]. / In vitro-Effekte einer neuen Klasse Stickstoffmonoxid (NO) freisetzender Substanzen auf die glatte Muskulatur des humanen Detrusors.

Nitric oxide (NO) has been identified an important neurotransmitter involved in the control of the human urinary tract. It has been suggested that NO is one of the factors keeping the bladder relaxed during the filling phase. This function might be mediated by the NO-induced elevation of intracellular cyclic GMP. Prostaglandins (PG) are known to exert contractile effects on the bladder smooth musculature, especially in pathological conditions. The aim of the present study was to examine the effects of a new class of NO donor drugs, combining both anti-phlogistic and NO-donating activity (NCX 2111 and HCT 1026), on the contraction induced by PG or electrical field stimulation (EFS) of isolated human detrusor. Effects were compared to those of sodium nitroprusside (SNP), forskolin, tolterodine, and oxybutynin. Using the organ bath technique, drug effects on the contraction induced by PG ((F2 alpha)) or EFS of isolated human detrusor smooth muscle were investigated. Detrusor strips were also exposed to increasing concentrations of the compounds (0.1 microM - 10 microM) and the accumulation of cyclic GMP and cyclic AMP was determined by means of radioimmunoassays. The tension induced by PG was dose-dependently reversed by the drugs. The rank order of efficacy was: forskolin > SNP > NCX 2111 > HCT 1026. R(max) values ranged from 57% (forskolin) to 24% (HCT 1026). Compounds also dose-dependently reduced the amplitudes of contraction induced by EFS (tolterodine > oxybutynin > NNP = forskolin > HCT 1026 > 2111). The effects of forskolin, HCT 1026, NCX 2111 and SNP were paralleled by an increase in cyclic AMP or cyclic GMP. Our results provide evidence that the NO-cGMP pathway is not of utmost significance in the control of human detrusor smooth muscle. In vitro, the combination of NO-donating with anti-phlogistic activity does not seem to be of functional advantage with regard to the facilitation of detrusor relaxation.