Increased detrusor collagen is associated with detrusor overactivity and decreased bladder compliance in men with benign prostatic obstruction

Bellucci, Carlos Henrique Suzuki; Ribeiro, Wesley de Oliveira; Hemerly, Thiago Souto; Bessa, José de; Antunes, Alberto A.; Leite, Kátia R. M.; Bruschini, Homero; Srougi, Miguel; Gomes, Cristiano Mendes

doi:10.1016/j.prnil.2017.01.008

Cited by 30 publications

(28 citation statements)

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“…Detrusor ECM remodeling is characterized by increased accumulation of collagen and elastic fibers in both the interfascicular and intrafascicular compartments. This finding has been confirmed in several studies using both light and electron microscopy techniques [ 10 , 11 , 15 – 21 ]. Interestingly, Gilpin et al found that patients with evidence of interfascicular connective tissue infiltration had the highest levels of SMCs mean profile area thus leading the authors to hypothesize that the deposition of connective tissue occurs at a later stage with respect to onset of SMCs hypertrophy [ 10 ].…”

Section: Resultssupporting

confidence: 72%

“…Although BOO was not a predictor of increased collagen deposition, patients with reduced bladder compliance and those with a PVR ≥ 200 mL showed a significantly higher C/M [ 20 ]. Similarly, Bellucci et al found a significant negative correlation between C/M and bladder compliance [ 21 ]. Moreover, the probability of urinary retention increased significantly with the C/M.…”

Section: Resultsmentioning

confidence: 96%

“… Holm, 2003 [ 22 ] Case control 25 • Significant correlation between intra- and interfascicular elastin and BOO degree Mirone, 2004 [ 15 ] Case control 36 • ↑collagen content in BPO patients with respect to controls • ↑collagen content in patients with severe symptoms Horn, 2004 [ 44 ] Observational 54 • Correlation between abnormal morphology and impaired bladder compliance and decreased capacity Collado, 2006 [ 11 ] Case control 33 • ↑ intrafascicular and interfascicular collagen • ↑ intrafascicular fibrosis in BOO patients with history of AUR • ↑ SMCs diameter in BOO patients with respect to controls • Not significant differences in terms of SMCs diameter between BOO patients with and without AUR history • Positive correlation between SMCs diameter and symptoms duration Rubinstein, 2007 [ 18 ] Case control 10 • ↑ collagen and elastic fibers Blatt, 2012 [ 16 ] Case control 17 • Poor post-TURP voiding outcome in patients with detrusor ultrastructural pattern characterized by variable muscle cell size, muscle cell shape, abnormal fascicle arrangement and collagenosis. Bellucci, 2017 [ 21 ] Case control 19 • ↑ C/M • Significant negative correlation between C/M and bladder compliance • Significant correlation between the probability of urinary retention and C/M Averbeck, 2017 [ 20 ] Observational 38 • ↑ C/M in patients with PVR ≥ 200 mL and in those with reduced bladder compliance AUR acute urinary retention, BOO bladder outlet obstruction, C/M connective tissue-to-smooth muscle ratio, PVR post void residual volume, SMCs smooth muscle cells, TURP trans urethral resection of the prostate …”

Section: Resultsmentioning

confidence: 99%

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Progressive bladder remodeling due to bladder outlet obstruction: a systematic review of morphological and molecular evidences in humans

et al. 2018

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BackgroundBladder outlet obstruction is a common urological condition. We aimed to summarize available evidences about bladder outlet obstruction-induced molecular and morphological alterations occurring in human bladder.MethodsWe performed a literature search up to December 2017 including clinical and preclinical basic research studies on humans. The following search terms were combined: angiogenesis, apoptosis, bladder outlet obstruction, collagen, electron microscopy, extracellular matrix, fibrosis, hypoxia, histology, inflammation, innervation, ischemia, pressure, proliferation, remodeling, suburothelium, smooth muscle cells, stretch, urothelium.ResultsWe identified 36 relevant studies. A three-stages model of bladder wall remodeling can be hypothesized involving an initial hypertrophy phase, a subsequent compensation phase and a later decompensation. Histological and molecular alterations occur in the following compartments: urothelium, suburothelium, detrusor smooth muscle cells, detrusor extracellular matrix, nerves. Cyclic stretch, increased hydrostatic and cyclic hydrodynamic pressure and hypoxia are stimuli capable of modulating multiple signaling pathways involved in this remodeling process.ConclusionsBladder outlet obstruction leads to progressive bladder tissue remodeling in humans. Multiple signaling pathways are involved.

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Section: Resultssupporting

confidence: 72%

Section: Resultsmentioning

confidence: 96%

Section: Resultsmentioning

confidence: 99%

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Progressive bladder remodeling due to bladder outlet obstruction: a systematic review of morphological and molecular evidences in humans

et al. 2018

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“…Bladder remodeling induced by Boo leads to impaired storage and emptying of the bladder, which is characterized by increased collagen accumulation (41,42). increased collagen deposition in the ecM is a key reason for decreased compliance (43,44). Previous studies have reported that pressure promotes an increase in ecM production around BSMcs (45,46).…”

Section: Discussionmentioning

confidence: 99%

Urethral meatus stricture BOO stimulates bladder smooth muscle cell proliferation and pyroptosis via IL‑1β and the SGK1‑NFAT2 signaling pathway

et al. 2020

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Bladder outlet obstruction (Boo), which is primarily caused by benign prostatic hyperplasia, is a common chronic disease. However, previous studies have most commonly investigated Boo using the acute obstruction model. in the present study, a chronic obstruction model was established to investigate the different pathological alterations in the bladder between acute and chronic obstruction. compared with chronic obstruction, acute obstruction led to increased expression of proliferating cell nuclear antigen and interleukin-1β, which are markers of proliferation and inflammation, respectively. Furthermore, increased fibrosis in the bladder at week 2 was observed. Low pressure promoted mice bladder smooth muscle cell (MBSMc) proliferation, and pressure overload inhibited cell proliferation and increased the proportion of dead MBSMCs. Further investigation using serum/glucocorticoid regulated kinase 1 (SGK1) small interfering rnas indicated that low pressure may promote MBSMc proliferation by upregulating SGK1 and nuclear factor of activated T-cell expression levels. Therefore, the present study suggested that acute obstruction led to faster decompensation of bladder function and chronic bladder obstruction displayed an enhanced ability to progress to Boo.

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“…After BOO, the contractile and nonproliferative phenotype of the BSMCs may transform to a state of synthetic phenotype, results in altered BSMC/ECM interactions, which cause a loss of contractility of BSMCs. Altered ECM composition, especially, Collagens I, III, has been reported in the hypertrophic bladder during the fibrotic stage of hypertrophy .…”

Section: Introductionmentioning

confidence: 98%

MicroRNA‐101 protects bladder of BOO from hypoxia‐induced fibrosis by attenuating TGF‐β‐smad2/3 signaling

et al. 2018

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Bladder outlet obstruction is a common disease, which always evokes urinary bladder wall remodeling significantly. It has been suggested that bladder outlet obstruction can make the bladder progression from inflammation to fibrosis, and hypoxia may play a vital role. It has been found the expression of microRNA‐101 varied in bladder after BOO. But what role microRNA‐101 and hypoxia play in bladder is not well known. This study is to investigate the mechanism of microRNA‐101 and hypoxia in fibrosis of bladder after BOO. We found the expression of microRNA‐101 and hif‐1α increased in bladder after BOO. Hypoxia could promote the expression of extracellular matrix subtypes and microRNA‐101 in BSMCs. When microRNA‐101b was translated into BSMCs, the smad2/3 signaling pathway was found to repress. Dual luciferase reporter detected that microRNA‐101b attenuated the TGF‐β signaling pathway by inhibiting the expression of TGFβR1. Then, we conclude microRNA‐101b is induced by hypoxia and represses fibrosis of BSMCs by inhibiting the expression of TGFβR1 through TGF‐β signaling pathway, and it may be an anti‐fibrotic miRNA for therapy. © 2018 IUBMB Life, 71(1):235–243, 2019

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Increased detrusor collagen is associated with detrusor overactivity and decreased bladder compliance in men with benign prostatic obstruction

Cited by 30 publications

References 28 publications

Progressive bladder remodeling due to bladder outlet obstruction: a systematic review of morphological and molecular evidences in humans

Progressive bladder remodeling due to bladder outlet obstruction: a systematic review of morphological and molecular evidences in humans

Urethral meatus stricture BOO stimulates bladder smooth muscle cell proliferation and pyroptosis via IL‑1β and the SGK1‑NFAT2 signaling pathway

MicroRNA‐101 protects bladder of BOO from hypoxia‐induced fibrosis by attenuating TGF‐β‐smad2/3 signaling

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