New targets for overactive bladder-ICI-RS 2109

Christopher Henry Fry, Basu Chakrabarty, Hikaru Hashitani, Karl-Erik Andersson, Karen McCloskey, Rita I. Jabr, Marcus J. Drake

Research output: Contribution to journalReview article (Academic Journal)peer-review

1 Citation (Scopus)
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AIM: To review evidence for novel drug targets that can manage overactive bladder (OAB) symptoms.

METHODS: A think tank considered evidence from the literature and their own research experience to propose new drug targets in the urinary bladder to characterize their use to treat OAB.

RESULTS: Five classes of agents or cellular pathways were considered. (a) Cyclic nucleotide-dependent (cyclic adenosine monophosphate and cyclic guanosine monophosphate) pathways that modulate adenosine triphosphate release from motor nerves and urothelium. (b) Novel targets for β3 agonists, including the bladder wall vasculature and muscularis mucosa. (c) Several TRP channels (TRPV1 , TRPV4 , TRPA1 , and TRPM4 ) and their modulators in affecting detrusor overactivity. (d) Small conductance Ca2+ -activated K+ channels and their influence on spontaneous contractions. (e) Antifibrosis agents that act to modulate directly or indirectly the TGF-β pathway-the canonical fibrosis pathway.

CONCLUSIONS: The specificity of action remains a consideration if particular classes of agents can be considered for future development as receptors or pathways that mediate actions of the above mentioned potential agents are distributed among most organ systems. The tasks are to determine more detail of the pathological changes that occur in the OAB and how the specificity of potential drugs may be directed to bladder pathological changes. An important conclusion was that the storage, not the voiding, phase in the micturition cycle should be investigated and potential targets lie in the whole range of tissue in the bladder wall and not just detrusor.

Original languageEnglish
Number of pages9
JournalNeurourology and Urodynamics
Early online date18 Nov 2019
Publication statusE-pub ahead of print - 18 Nov 2019


  • cyclic nucleotides
  • fibrosis
  • small conductance K+ channels
  • TRP channels
  • β3-agonists


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