Expression of myosin isoforms in smooth muscle cells in the corpus cavernosum penis

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Expression of myosin isoforms in smooth muscle cells in the corpus cavernosum penis

Michael E. DiSanto¹, Ze Wang², Chandrakala Menon¹, Yongmu Zheng¹, Thomas Chacko¹, Joseph Hypolite¹, Gregory Broderick¹, Alan J. Wein¹, and Samuel Chacko¹^,²

¹ Division of Urology and ² Department of Pathobiology, University of Pennsylvania, Philadelphia, Pennsylvania 19104

Corpus cavernosum smooth muscle (CCSM) in the penis is unique in that it exhibits a high resting tone and, on stimulation,the muscle cells relax, allowing cavernous spaces to fill withblood, which results in an erection (tumescence). During detumescence,the muscle cells contract and return to the state of high restingtone. This study was undertaken to determine whether CCSM withthese unique properties contains myosin isoforms typical of aortaor bladder smooth muscles, muscles that exhibit tonic and phasiccharacteristics, respectively. RT-PCR revealed that normal CCSMcontains an SM2/SM1 mRNA ratio of 1.2:1 (similar to the rabbitaorta). Approximately 31% of the myosin heavy chain transcriptspossess a 21-nt insert (predominant in bladder smooth muscle butnot expressed in aorta) that encodes the seven-amino acid insertnear the NH₂-terminal ATP binding region in the head portion ofthe myosin molecule found in SMB, with the remaining mRNA beingnoninserted (SMA). Quantitative competitive RT-PCR revealed thatthe CCSM possesses ~4.5-fold less SMB than the bladder smoothmuscle. Western blot analysis using an antibody specific for theseven-amino acid insert reveals that both SM1 and SM2 in the CCSMcontain the seven-amino acid insert. Furthermore, SMB containingthe seven-amino acid insert was localized in the CCSM by immunofluorescencemicroscopy using this highly specific antibody. The analysis ofthe expression of LC₁₇ isoforms a and b in the CCSM revealed thatit is similar to that of bladder smooth muscle. Thus the CCSMpossesses an overall myosin isoform composition intermediate betweenaorta and bladder smooth muscles, which generally express tonic-and phasiclike characteristics, respectively. Two-dimensionalgel electrophoresis showed a relatively low level (~10%) of Ca²⁺-dependent light-chain (LC₂₀) phosphorylation at the basal tone,which reaches ~23% in response to maximal stimulation. The presenceof noninserted and inserted myosin isoforms with low and highlevels of actin-activated ATPase activities, respectively, inthe CCSM may contribute to the ability of the CCSM to remain ina state of high resting tone and to relax rapidly for normal penilefunction.

erectile function; light chain phosphorylation; quantitative reverse transcription polymerase chain reaction

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