Uropathic Observations in Mice Expressing a Constitutively Active Point Mutation in the 5-HT_(3A) Receptor Subunit

Abstract

Mutant mice with a hypersensitive serotonin (5-HT)_(3A) receptor were generated through targeted exon replacement. A valine to serine mutation (V13′S) in the channel-lining M2 domain of the 5-HT_(3A) receptor subunit rendered the 5-HT₃ receptor ∼70-fold more sensitive to serotonin and produced constitutive activity when combined with the 5-HT_(3B) subunit. Mice homozygous for the mutant allele (5-HT_(3A)^(vs/vs)) had decreased levels of 5-HT_(3A) mRNA. Measurements on sympathetic ganglion cells in these mice showed that whole-cell serotonin responses were reduced, and that the remaining 5-HT₃ receptors were hypersensitive. Male 5-HT_(3A)^(vs/vs) mice died at 2-3 months of age, and heterozygous (5-HT_(3A)^(vs/+)) males and homozygous mutant females died at 4-6 months of age from an obstructive uropathy. Both male and female 5-HT_(3A) mutant mice had urinary bladder mucosal and smooth muscle hyperplasia and hypertrophy, whereas male mutant mice had additional prostatic smooth muscle and urethral hyperplasia. 5-HT_(3A) mutant mice had marked voiding dysfunction characterized by a loss of micturition contractions with overflow incontinence. Detrusor strips from 5-HT_(3A)^(vs/vs) mice failed to contract to neurogenic stimulation, despite overall normal responses to a cholinergic agonist, suggestive of altered neuronal signaling in mutant mouse bladders. Consistent with this hypothesis, decreased nerve fiber immunoreactivity was observed in the urinary bladders of 5-HT_(3A)^(vs/vs) compared with 5-HT_(3A) wild-type (5-HT_(3A)^(+/+)) mice. These data suggest that persistent activation of the hypersensitive and constitutively active 5-HT_(3A) receptor in vivo may lead to excitotoxic neuronal cell death and functional changes in the urinary bladder, resulting in bladder hyperdistension, urinary retention, and overflow incontinence.

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