Shortening velocity and myosin heavy- and light-chain isoform mRNA in rabbit arterial smooth muscle cells

In smooth muscle cells (SMCs)isolated from rabbit carotid, femoral, and saphenous arteries, relativemyosin isoform mRNA levels were measured in RT-PCR to test forcorrelations between myosin isoform expression and unloaded shorteningvelocity. Unloaded shortening velocity and percent smooth muscle myosinheavy chain 2 (SM2) and myosin light chain 17b(MLC_17b) mRNA levels were not significantly different insingle SMCs isolated from the luminal and adluminal regions of thecarotid media. Saphenous artery SMCs shortened significantly faster(P < 0.05) than femoral SMCs and had more SM2 mRNA(P < 0.05) than carotid SMCs and lessMLC_17b mRNA (P < 0.001) and higher tissuelevels of SMB mRNA (P < 0.05) than carotid and femoralSMCs. No correlations were found between percent SM2 and percentMLC_17b mRNA levels and unloaded shortening velocity in SMCsfrom these arteries. We have previously shown that myosin heavy chain(MHC) SM1/SM2 and SMA/SMB and MLC_17a/MLC_17b isoform mRNA levels correlate with protein expression for these isoforms in rabbit smooth muscle tissues. Thus we interpret these results to suggest that 1) SMC myosin isoform expression andunloaded shortening velocity do not vary with distance from the lumenof the carotid artery but do vary in arteries located longitudinally within the arterial tree, 2) MHC SM1/SM2 and/orMLC_17a/MLC_17b isoform expression does notcorrelate with unloaded shortening velocity, and 3)intracellular expression of the MHC SM1/SM2 and MLC_17a/MLC_17b isoforms is not coregulated.