Molecular Characterization of Non-Neurogenic and Neurogenic Lower Urinary Tract Dysfunction (LUTD) in SCI-Induced and Partial Bladder Outlet Obstruction Mouse Models.

von Siebenthal, Michelle; Akshay, Akshay; Besic, Mustafa; Schneider, Marc P; Hashemi Gheinani, Ali; Burkhard, Fiona C; Monastyrskaya, Katia (2023). Molecular Characterization of Non-Neurogenic and Neurogenic Lower Urinary Tract Dysfunction (LUTD) in SCI-Induced and Partial Bladder Outlet Obstruction Mouse Models. International journal of molecular sciences, 24(3) MDPI 10.3390/ijms24032451

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We examined bladder function following spinal cord injury (SCI) by repeated urodynamic investigation (UDI), including external urethral sphincter (EUS) electromyography (EMG) in awake restrained mice and correlated micturition parameters to gene expression and morphological changes in the bladder. A partial bladder outlet obstruction (pBOO) model was used for comparison to elucidate both the common and specific features of obstructive and neurogenic lower urinary tract dysfunction (LUTD). Thirty female C57Bl/6J mice in each group received an implanted bladder catheter with additional electrodes placed next to the EUS in the SCI group. UDI assessments were performed weekly for 7 weeks (pBOO group) or 8 weeks (SCI group), after which bladders were harvested for histological and transcriptome analysis. SCI mice developed detrusor sphincter dyssynergia (DSD) one week after injury with high-pressure oscillations and a significantly increased maximal bladder pressure Pmax and were unable to void spontaneously during the whole observation period. They showed an increased bladder-to-bodyweight ratio, bladder fibrosis, and transcriptome changes indicative of extracellular matrix remodeling and alterations of neuronal signaling and muscle contraction. In contrast, pBOO led to a significantly increased Pmax after one week, which normalized at later time points. Increased bladder-to-bodyweight ratio and pronounced gene expression changes involving immune and inflammatory pathways were observed 7 weeks after pBOO. Comparative transcriptome analysis of SCI and pBOO bladders revealed the activation of Wnt and TGF-beta signaling in both the neurogenic and obstructive LUTD and highlighted FGF2 as a major upregulated transcription factor during organ remodeling. We conclude that SCI-induced DSD in mice leads to profound changes in neuronal signaling and muscle contractility, leading to bladder fibrosis. In a similar time frame, significant bladder remodeling following pBOO allowed for functional compensation, preserving normal micturition parameters.

Item Type:

Journal Article (Original Article)

Division/Institute:

04 Faculty of Medicine > Pre-clinic Human Medicine > BioMedical Research (DBMR) > DBMR Forschung Mu35 > Forschungsgruppe Urologie
04 Faculty of Medicine > Pre-clinic Human Medicine > BioMedical Research (DBMR) > DBMR Forschung Mu35 > Forschungsgruppe Urologie

04 Faculty of Medicine > Department of Dermatology, Urology, Rheumatology, Nephrology, Osteoporosis (DURN) > Clinic of Urology

Graduate School:

Graduate School for Cellular and Biomedical Sciences (GCB)

UniBE Contributor:

von Siebenthal, Michelle Andrea, Akshay, Akshay, Besic, Mustafa, Schneider, Marc Philipp, Hashemi Gheinani, Ali, Burkhard, Fiona Christine, Monastyrskaya-Stäuber, Katia

Subjects:

600 Technology > 610 Medicine & health

ISSN:

1422-0067

Publisher:

MDPI

Language:

English

Submitter:

Pubmed Import

Date Deposited:

13 Feb 2023 15:54

Last Modified:

14 Feb 2023 09:32

Publisher DOI:

10.3390/ijms24032451

PubMed ID:

36768773

Uncontrolled Keywords:

bladder remodeling dyssynergia electromyography (EMG) external urethral sphincter (EUS) partial bladder outlet obstruction (pBOO) spinal cord injury (SCI) transcriptome urodynamic investigation (UDI)

BORIS DOI:

10.48350/178686

URI:

https://boris.unibe.ch/id/eprint/178686

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