Increased connexin43-mediated intercellular communication in a rat model of bladder overactivity in vivo

doi:10.1152/ajpregu.00030.2002

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Increased connexin43-mediated intercellular communication in a rat model of bladder overactivity in vivo

George J. Christ¹^,², Nancy S. Day¹, Michele Day¹, Weixin Zhao¹, Katarina Persson³, Raj K. Pandita³, and Karl-Erik Andersson³

Departments of ¹ Urology and ² Physiology and Biophysics, Institute for Smooth Muscle Biology, Albert Einstein College of Medicine, Bronx, New York 10461; and ³ Department of Clinical Pharmacology, Lund University Hospital, S-221 85 Lund, Sweden

Bladder overactivity associated with outflow obstruction is a common human condition recapitulated in the female rat by narrowingthe diameter of the urethra. The goal of these studies was toevaluate the role of intercellular communication through connexin43(Cx43)-derived gap junction channels to bladder overactivity followingpartial urethral outflow obstruction of 3-day to 6-wk duration.Cx43 mRNA and protein expression were barely detectable by Northernor Western blots, respectively, in the detrusor layer of normalbladders, but bands were found with both techniques after 6 wkof obstruction. Linear regression analysis of the RT-PCR datarevealed a statistically significant positive correlation betweenthe duration of obstruction (again, ranging from 3-day to 6-wkduration) and Cx43 mRNA transcript levels, such that after 6 wkof obstruction, Cx43 transcript levels were $approx$ 15-fold greater thaninitial control values. When taking into account the approximatelyfivefold increase in bladder weight over this same time frame,the absolute amount of Cx43 mRNA in the bladder apparently increasedby $approx$ 75-fold. In that regard, as anticipated, and consistent withprevious observations, 6 wk of obstruction was also associatedwith a significant increase in spontaneous bladder contractionsbetween micturitions. The amplitude of these contractions wassignificantly reduced by heptanol given intravesically. Furthermore,carbachol-precontracted bladder strips from obstructed animalswere more sensitive to heptanol-induced relaxation (100 µM) thantheir unobstructed counterparts (n = 6; P < 0.01). When bladderstrips were equivalently precontracted via electrical field stimulation(EFS; 20 Hz), similar heptanol-induced relaxation responses wereobserved. However, the tetrodotoxin-resistant portion of the EFS-inducedcontraction was greater in the obstructed than in the unobstructedanimals, and this portion of the contractile response was moresensitive to heptanol-induced relaxation in obstructed than unobstructedbladders (n = 7; P < 0.01). Taken together, these observationsindicate that partial outlet obstruction produces an overactivebladder that may be more dependent on intercellular communicationthrough gap junctions for modulation of contractile responsesthan its normalcounterpart.

tissue and cellular physiology; gap junction; smooth muscle; electrical field stimulation; cystometry

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