Molecular and Morphological Characteristics of the De-Obstructed Rat Urinary Bladder-An Update.

Many patients with outlet obstruction secondary to prostatic enlargement have lower urinary tract symptoms (LUTSs) and an increased frequency of micturition. The standard treatment is transurethral resection of the prostate (TURP), which alleviates obstruction and symptoms. However, after TURP, 20-40 percent of patients continue to experience LUTSs. The aim of the present study in rats was to identify the mechanisms that do not normalize after the removal of the obstruction and that could explain the persisting symptoms. We had microarray data from control, obstructed, and de-obstructed female rat bladders, which made it possible to study 14,553 mRNA expressions. We also had a bank of electron micrographs from similar detrusors. Microarrays: There were significant differences between the control and obstructed bladders for 1111 mRNAs. The obstructed and de-obstructed bladders differed significantly for 1059 mRNAs. The controls and the de-obstructed bladders differed significantly for 798 mRNAs. We observed many mRNAs that were increased in the obstructed bladder and then decreased to control levels after de-obstruction, and many mRNAs that were decreased in the obstructed bladder and then increased following de-obstruction. mRNAs that were significantly higher or lower in the de-obstructed bladder than in the control bladder were also found. Ultrastructure: The detrusor cells in the obstructed bladders had cross-sectional areas that were much larger than those in the controls. The control cells had smooth outlines and similar cross-sectional areas. The de-obstructed detrusor cells had larger cross-sectional areas than the controls, as well as corrugated surfaces. The cell areas varied, suggesting that the shrinkage of the de-obstructed cells was not even. We did not find any points of contact of the gap junction plaque type between the detrusor cells. There were abundant finger-like processes between the detrusor cells in the obstructed and in de-obstructed bladders, which were only occasionally found in the control detrusors. They are the only possible localization for gap junction channels. The de-obstructed rat bladder is not an organ with properties intermediate between those of the control and obstructed bladders. Instead, de-obstructed bladders have gene expressions, morphologies, and functional properties of the individual cells and their organization, which make them distinctly different from both control and obstructed bladders.

Emerging drugs for the treatment of bladder storage dysfunction.

INTRODUCTION: Current drug treatment of lower urinary tract disorders, for example, overactive bladder syndrome and lower urinary tract symptoms associated with benign prostatic hyperplasia, is moderately effective, has a low treatment persistence and some short- and long-term adverse events. Even if combination therapy with approved drugs may offer advantages in some patients, there is still a need for new agents. AREAS COVERED: New b3-adrenoceptor agonists, antimuscarinics, the naked Maxi-K channel gene, a novel 5HT/NA reuptake inhibitor and soluble guanylate cyclase activators are discussed. Focus is given to P2X3 receptor antagonists, small molecule blockers of TRP channels, the roles of cannabis on incontinence in patients with multiple sclerosis, and of drugs acting directly on CB1 and CB2 receptor or indirectly via endocannabinoids by inhibition of fatty acid aminohydrolase. EXPERT OPINION: New potential alternatives to currently used drugs/drug principles are emerging, but further clinical testing is required before they can be evaluated as therapeutic alternatives. It seems that for the near future individualized treatment with approved drugs and their combinations will be the prevailing therapeutic approach.

Fibrosis and the bladder, implications for function ICI-RS 2017.

AIMS: Most benign bladder pathologies are associated with an increase of extracellular matrix (ECM-fibrosis) and may progress from formation of stiffer matrix to a more compliant structure. The aims were to summarize current knowledge of the origins of bladder fibrosis and consequences in bladder function. METHODS: A meeting at the International Consultation on Incontinence Research Society 2017 congress discussed the above aims and considered paradigms to reduce the extent of fibrosis. Discussants based their arguments on the basis of their own expertise, supplemented by review of the literature through PubMed. Proposals for future work were derived from the discussion. RESULTS: Altered urodynamic compliance when ECM deposition is increased is mirrored by changes in the elastic modulus of isolated tissue, whether compliance is decreased or increased. No changes to compliance or fibrosis have been reported after botulinum toxin injections. Several paracrine and autocrine agents increase ECM deposition, the role of TGF-ß was particularly emphasized. None of these agents has a net long-term effect on detrusor contractility and the reduction of contractile performance with increased ECM is due solely to a loss of detrusor mass. Several strategies to reduce fibrosis were described, ranging from potential therapeutic roles for vitamin-D or endostatin, manipulation of intracellular pathways that mediate myofibroblast differentiation and the potential role of the anti-fibrotic hormone relaxin. An understanding of epigenetic regulation of ECM deposition was also considered. CONCLUSIONS: The conclusion that reduced bladder contractile function with increased fibrosis is due largely to the replacement of detrusor with ECM offers a way forward for future research to consider approaches that will restore bladder function by reducing ECM deposition.

Current concepts of the acontractile bladder.

The acontractile bladder (AcB) is a urodynamic-based diagnosis wherein the bladder is unable to demonstrate any contraction during a pressure flow study. Although it is often grouped with underactive bladder, it is a unique phenomenon and should be investigated independently. The purpose of the present review was to examine the current literature on AcB regarding its pathology, diagnosis, current management guidelines, and future developments. We performed a review of the PubMed database, classifying the evidence for AcB pathology, diagnosis, treatment, and potential future treatments. Over the 67 years covered in our review period, 42 studies were identified that met our criteria. Studies were largely poor quality and mainly consisted of retrospective review or animal models. The underlying pathology of AcB is variable with both neurological and myogenic aetiologies. Treatment is largely tailored for renal preservation and reduction of infection. Although future developments may allow more functional restorative treatments, current treatments mainly focus on bladder drainage. AcB is a unique and understudied bladder phenomenon. Treatment is largely based on symptoms and presentation. While cellular therapy and neuromodulation may hold promise, further research is needed into the underlying neuro-urological pathophysiology of this disease so that we may better develop future treatments.

Effect of melatonin on chronic bladder-ischaemia-associated changes in rat bladder function.

UNLABELLED: WHAT'S KNOWN ON THE SUBJECT? AND WHAT DOES THE STUDY ADD?: There are many studies showing melatonin's potent endogenous free radical scavenging and antioxidative properties, which protect against oxidative insult, but there is no information about the effect of chronic treatment with melatonin on oxidative-stress-related bladder dysfunction caused by chronic ischaemia. The model used in this study shows that functional and morphological changes caused by chronic bladder ischaemia and oxidative stress were protected by chronic treatment with melatonin, resulting in improvement of bladder hyperactivity. OBJECTIVE: To investigate the potential therapeutic benefit of melatonin for chronic ischaemia-related bladder dysfunction. MATERIALS AND METHODS: Adult male Sprague-Dawley rats were divided into control, arterial injury (AI), AI with low-dose melatonin treatment (AI-ML) and AI with high-dose melatonin treatment (AI-MH) groups. The AI, AI-ML and AI-MH groups underwent a procedure to induce endothelial injury of the iliac arteries and received a 2% cholesterol diet after AI. The rats in the AI-ML and AI-MH groups were treated with melatonin 2.5 or 20 mg/kg/day orally for 8 weeks after AI. The control group received a regular diet. After 8 weeks, urodynamic investigations were performed. Bladder tissues and iliac arteries were processed for pharmacological studies, and for immunohistochemical and histological examination. RESULTS: Iliac arteries from AI, AI-ML and AI-MH rats displayed neo-intimal formation and luminal occlusion. In the AI group, the micturition interval was significantly shorter, and bladder capacity and voided volume were lower than in the controls. Contractile responses of bladder strips to KCl, electrical field stimulation and carbachol were significantly lower after AI than in the controls. The AI bladders were found to have a significantly increased collagen ratio, oxidative stress and inducible nitric oxide synthase (NOS) expression, and decreased constitutive NOS expression compared with the controls. In the AI-ML and AI-MH groups, neo-intimal formation was not prevented, but there were beneficial effects on bladder function and morphology. In the AI-ML group, the beneficial effects failed to reach statistical significance. In the AI-MH group, melatonin significantly improved oxidative stress and NOS expression, and there were significant improvements in all the functional and morphological variables compared with the AI group. CONCLUSIONS: Arterial occlusive disease may lead to chronic bladder ischaemia and bladder hyperactivity associated with oxidative stress. In the model used, chronic treatment with melatonin protected bladder function and morphology, probably through its free radical scavenging and antioxidative properties. Melatonin may prevent oxidative damage and improve ischaemia-related bladder dysfunction.

Multisystem neuroprosthetic training improves bladder function after severe spinal cord injury.

UNLABELLED: Severe spinal cord injury leads to neurogenic bladder dysfunction. We recently developed a multisystem neuroprosthetic training program that promotes plastic changes capable of restoring refined locomotion in rats with severe spinal cord injury. We investigated whether multisystem neuroprosthetic training would influence the development of posttraumatic bladder dysfunction. MATERIALS AND METHODS: Eight and 4 adult rats were randomly assigned to a spinal cord injury and an intact control group, respectively. Spinal cord injury consisted of 2 opposite lateral hemisections (T7 and T11), thus, interrupting all direct supraspinal input. After spinal cord injury 4 rats were subjected to a multisystem neuroprosthetic training program and 4 were not trained. At 8 weeks we performed urodynamics and evaluated kidney function using creatinine and cystatin C. Bladder investigation included morphological, histological and immunohistochemical evaluations. RESULTS: Bladder capacity increased threefold in trained and sevenfold in nontrained rats compared to intact rats. During filling we found a mean ± SEM of 2.7 ± 1.1 vs 12.6 ± 5.2 nonvoiding contractions in trained vs nontrained rats. Bladder morphology was similar in trained and intact rats. Nontrained rats showed detrusor hypertrophy, characterized by increased detrusor thickness and a decreased connective tissue-to-smooth muscle ratio. As labeled with protein gene product 9.5, general nerve density was significantly increased in trained and significantly decreased in nontrained rats. The relative proportion of neurofilament 200 positive afferent nerves was significantly lower in trained than in intact and nontrained rats. Neuropeptide Y positive fibers showed significantly lower density in nontrained rats. CONCLUSIONS: Multisystem neuroprosthetic training effectively counteracts the formation of neurogenic bladder dysfunction after severe spinal cord injury and might contribute to preserving bladder function and preventing long-term complications in patients with severe spinal cord injury.

An extract (THC-002) of Ba-Wei-Die-Huang-Wan inhibits expression of tachykinins, and P2X3 and TRPV1 receptors, and inhibits ATP-induced detrusor overactivity in spontaneously hypertensive rats.

AIMS: To investigate possible mechanisms of action of THC-002 (HARNCARE), a galenical produced from the traditional Chinese herbal mixture Ba-Wei-Die-Huang-Wan, which has been reported to improve lower urinary tract symptoms (LUTS) in patients. METHODS: Forty-five female SHRs were randomly separated into three groups. Two groups were given 20 ml physiological saline solution (PSS) per kg-body weight orally daily for 1 week. An hour after the administration of PSS, one of the groups received 20 mg THC-002 per kg body weight, and the other a similar volume of THC-002-free saline. The third group received no treatments. The bladders were analyzed by real time RT-PCR (n = 6) and immunohistochemistry (n = 3) for the expression of tachykinins and P2X3 and TRPV1 receptors. Cystometric investigation (n = 6) was conducted after intravesical instillation of saline followed by 5 mg/ml ATP solution. RESULTS: Treatment with PSS caused and upregulation of tachykinins and P2X3 and TRPV1 receptors, which was prevented in the group treated with THC-002. In the normal (non-treated) and non-THC-002-treated SHRs, instillation of the ATP solution decreased voiding interval, micturition volume, and bladder capacity compared to the instillation of saline. However, in the THC-002-treated SHRs, ATP instillation had no effect. CONCLUSIONS: In SHRs, THC-002 reduced the bladder expression of tachykinins and P2X3 and TRPV1 receptors, and inhibited ATP-induced detrusor overactivity. These effects may explain part of its beneficial effects on LUTS.

Effects of long-term dietary soy treatment on female urethral morphology and function in ovariectomized nonhuman primates.

PURPOSE: Agonistic effects of estrogen on the female urethra include an increase in contractile function, blood flow and mucosal hyperplasia. Whether such effects can be achieved by soy based phytoestrogen diets is unclear. We studied the effects of chronic phytoestrogen treatment on the structural and functional properties of the urethra in ovariectomized monkeys. MATERIALS AND METHODS: Following ovariectomy 18 monkeys were fed a diet containing soy (9) or casein (9) based protein for 32 months. At necropsy the urethra and bladder were removed and the urethra was separated into 3 segments of equal length, including a proximal, a middle and a distal segment. Each urethral segment and 1 bladder segment was tested in vitro for functional responses to electrical field stimulation and pharmacological stimulation, and the proximal to distal segments were tested for urothelial thickness and mucosal area. RESULTS: Electrical field stimulation produced frequency dependent contractile responses in the bladder, proximal and middle segments but not in the distal segment. Carbachol, phenylephrine and endothelin-1 produced concentration dependent contractions in all urethral segments. The maximum response decreased from the proximal to the distal segment (p

Pharmacological characterization of a novel investigational antimuscarinic drug, fesoterodine, in vitro and in vivo.

OBJECTIVE: To investigate the primary pharmacology of fesoterodine (a novel antimuscarinic drug developed for treating overactive bladder) and SPM 7605 (its active metabolite, considered to be the main pharmacologically active principle of fesoterodine in man) against human muscarinic receptor subtypes, and to investigate in vitro and in vivo functional activity of these agents on the rat bladder compared with existing standard agents. MATERIALS AND METHODS: The displacement of radioligand binding by fesoterodine, SPM 7605 and standard agents in membrane preparations of Chinese hamster ovary (CHO) cells expressing the different human muscarinic receptors (M1-M5) was characterized. Agonistic and antagonistic activities were studied using different CHO cell lines stably expressing the human recombinant muscarinic receptor subtypes. The effects of fesoterodine and SPM 7605 on isolated bladder strips contracted by carbachol or electrical field stimulation (EFS) were investigated. In vivo the effects of fesoterodine and SPM 7605 on micturition variables were assessed using continuous cystometry in conscious female Sprague-Dawley rats, and compared to those of oxybutynin and atropine. RESULTS: In vitro SPM 7605 potently inhibited radioligand binding at all five human muscarinic receptor subtypes with equal affinity across all five. Fesoterodine had a similar balanced selectivity profile but was less potent than SPM 7605. Both substances were competitive antagonists of cholinergic agonist-stimulated responses in human M1-M5 cell lines and had a similar potency and selectivity profile to the radioligand-binding studies. In rat bladder strips, fesoterodine and SPM 7605 caused a rightward shift of the concentration-response curve for carbachol with no depression of the maximum, and concentration-dependently reduced contractions induced by EFS. The potency of both drugs was similar to that of atropine and oxybutynin. In the presence of the esterase inhibitor neostigmine, the concentration-response curve of fesoterodine was shifted to the right, suggesting that part of the activity was caused by metabolism to SPM 7605 by tissue enzymes. In vivo, low doses (0.01 mg/kg) of fesoterodine and SPM 7605 reduced micturition pressure and increased intercontraction intervals and bladder capacity, but did not affect residual volume. CONCLUSIONS: Fesoterodine and its active metabolite, SPM 7605, are nonsubtype selective, competitive antagonists of human muscarinic receptors, but SPM 7605 has greater potency than the parent compound. Pharmacodynamic studies in the rat bladder in vitro confirm the competitive muscarinic antagonist profile of these agents in a native tissue preparation, and in vivo studies in the rat showed effects on bladder function consistent with a muscarinic antagonist profile.

Erectile physiological and pathophysiological pathways involved in erectile dysfunction.

PURPOSE: The importance of signaling pathways in penile smooth muscles involved in normal erection and erectile dysfunction (ED) is discussed based on a review of the literature. MATERIALS AND METHODS: Erection is basically a spinal reflex that can be initiated by recruitment of penile afferents but also by visual, olfactory and imaginary stimuli. The generated nervous signals will influence the balance between the contractant and relaxant factors, which control the degree of contraction of penile smooth muscles and, thus, determine the functional state of the penis. The different steps involved in neurotransmission, impulse propagation and intracellular transduction of neural signals may be changed in different types of erectile dysfunction. RESULTS: Recent findings have suggested an important role for RhoA/Rho kinase in the regulation of cavernosal smooth muscle tone and that changes in this pathway may contribute to ED in various patient subgroups, eg diabetes and vascular disease. Neurogenic nitric oxide is still considered the most important factor for immediate relaxation of penile vessels and corpus cavernosum. However, endothelially generated nitric oxide seems essential for maintaining erection. Endothelial dysfunction can contribute to ED in several patient subgroups. In addition, in conditions associated with reduced function of nerves and endothelium, such as aging, hypertension, smoking, hypercholesterolemia and diabetes, circulatory and structural changes in the penile tissues can result in arterial insufficiency and defect muscle relaxation. CONCLUSIONS: Different types of ED often have overlapping pathophysiologies but may also have common pathways contributing to ED. Such pathways may be potential treatment targets.

Future drugs for the treatment of benign prostatic hyperplasia.

For at least a decade, no new drug principles have been added to the therapeutic armamentarium for the treatment of lower urinary tract symptoms (LUTS) associated with or suggestive of benign prostatic hyperplasia (BPH). Theoretically, there seem to be several possibilities to improve the current treatment, which is based mainly on alpha1-adrenoceptor (AR) antagonists, 5alpha-reductase inhibitors and phytotherapy. It cannot be dismissed that subtype selective alpha1-AR antagonists can further improve treatment, but convincing evidence is still lacking. Muscarinic receptor antagonists are currently evaluated in BPH patients, but their eventual place in therapy, as a single treatment or in combination with alpha1-AR antagonists, has to be established. Endothelin receptor antagonists, alone or together with alpha1-AR antagonists, seem to offer a new attractive approach; however, proof of concept studies are lacking. The L-arginine/NO/cGMP pathway awaits further exploration; nitric oxide (NO) donors or phosphodiesterase (PDE) inhibitors may be clinically useful. Purinoceptors are currently the focus of interest as treatment targets in the lower urinary tract and inhibitors of P2X3 (and P2X1) subtypes may offer new opportunities. If a treatment based on desensitising C-fibres in the bladder and urethra is effective, not only in neurogenic bladders, but also for treating LUTS, it would be a viable option. For new treatments of LUTS, targets within the central nervous system (CNS) may offer exciting opportunities.