Expression of smooth muscle myosin light chain 17 and unloaded shortening in single smooth muscle cells. Am J Physiol Cell Physiol 2000 Jun;278(6):C1133-42
Date
06/06/2000Pubmed ID
10837341DOI
10.1152/ajpcell.2000.278.6.C1133Scopus ID
2-s2.0-0033916693 (requires institutional sign-in at Scopus site) 20 CitationsAbstract
These experiments were performed to test the hypotheses that myosin light chain 17 (MLC(17)) a and b isoform expression varies between individual vascular smooth muscle (SM) cells and that their expression correlates with cell unloaded shortening velocity. Single SM cells isolated from rabbit aorta and carotid arteries were used to measure unloaded shortening velocity and subsequently were analyzed via RT-PCR for MLC(17) a and b mRNA ratio. The MLC(17b/a) mRNA and protein ratios from adjacent tissue sections correlate very well (R(2) = 0.68), allowing use of the mRNA ratio to predict the protein ratio. The rabbit MLC(17) isoform protein sequence was found to be similar to, but unique from, the swine, mouse, and chicken sequences. Isolated single SM cells from the aorta and carotid have resting lengths of 70-280 microm and shorten to 33-88 microm after contraction. Isolated cell maximum unloaded shortening velocity is highly variable (0.5-7.5 microm/s) but becomes more uniform when normalized to initial cell length (0.01-0.05 cell lengths/s). Carotid cells activated in the presence of okadaic acid (1 microm) have mean maximal unloaded shortening velocities not significantly different from carotid cells activated without okadaic acid (0.016 vs. 0.019 cell lengths/s). Resting cell length before activation is significantly correlated with final cell length after unloaded shortening. Neither initial cell length, final cell length, total cell length change, nor maximum unloaded shortening velocity (absolute or normalized) was significantly correlated with single-cell MLC(17b/a) mRNA ratio. These studies were performed in isolated single SM cells where unloaded shortening velocity and MLC(17b/a) mRNA ratios were measured in the same cell. In this preparation, the three-dimensional organization and milieu of the cell is kept intact, but without the intercellular heterogeneity concerns of multicellular preparations. These results suggest the MLC(17b/a) ratio is variable between individual SM cells from the same tissue, but it is not a determinant of unloaded shortening velocity in single SM cells.
Author List
Eddinger TJ, Korwek AA, Meer DP, Sherwood JJAuthor
Thomas Eddinger PhD Bioological Sciences in the Biology department at Marquette UniversityMESH terms used to index this publication - Major topics in bold
AnimalsCarotid Arteries
Chickens
Gene Expression Regulation
Mice
Muscle Contraction
Muscle, Smooth
Muscle, Smooth, Vascular
Myosin Light Chains
Okadaic Acid
Organ Specificity
Protein Isoforms
RNA, Messenger
Rabbits
Regression Analysis
Reverse Transcriptase Polymerase Chain Reaction
Swine
Transcription, Genetic
