Changes in Ca2+ Signaling and Contractile Protein Isoforms in Smooth Muscle Cells from Guinea Pig Ileum during Culture

Changes in Ca2+ Signaling and Contractile Protein Isoforms in Smooth Muscle Cells from Guinea Pig Ileum during Culture

Single smooth muscle cells (SMCs) isolated from guinea pig ileum using collagenase and papain were cultured on laminin-coated dishes in MEM containing fetal calf serum. Temporal changes in intracellular calcium ion concentration in response to carbachol and to ATP were investigated using fluo-3/AM a...

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Bibliographic Details
Published in:Journal of Smooth Muscle Research Vol. 37; no. 2; pp. 53 - 66
Main Authors: Iijima, Michiko, Yamamoto, Junko, Takada, Noriko, Ohata, Hisayuki, Momose, Kazutaka
Format: Journal Article
Language:English
Published: Japan Japan Society of Smooth Muscle Research 2001
Subjects:
actin
Actins - metabolism
Adenosine Triphosphate - pharmacology
Animals
Calcium - metabolism
Calcium Signaling
caldesmon
Calmodulin-Binding Proteins - metabolism
Carbachol - pharmacology
Cell Division
Cells, Cultured
Guinea Pigs
Ileum
intracellular Ca2
Intracellular Fluid - metabolism
Male
Muscle Proteins - metabolism
Muscle, Smooth - cytology
Muscle, Smooth - metabolism
myosin heavy chain
Myosin Heavy Chains - metabolism
Protein Isoforms - metabolism
tropomyosin
Tropomyosin - metabolism
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Summary:Single smooth muscle cells (SMCs) isolated from guinea pig ileum using collagenase and papain were cultured on laminin-coated dishes in MEM containing fetal calf serum. Temporal changes in intracellular calcium ion concentration in response to carbachol and to ATP were investigated using fluo-3/AM and fluorescence microscopy. It was observed that carbachol caused an increased intracellular calcium ion in freshly isolated single SMCs but a reduced or negative response of cultured SMCs before confluence. On the other hand, ATP was observed to cause an increase in the calcium ion content of SMCs throughout the culture. SDS-PAGE and Western blot analyses revealed changes in the expression of contractile proteins as follows. l-Caldesmon and non-muscle type myosin heavy chain (NMHC) (considered to be marker molecules for dedifferentiation in smooth muscle cells) and non-muscle type tropomyosin were not observed in freshly isolated single SMCs. l-Caldesmon and NMHC appeared in the cultured SMCs within 2 days and the tropomyosin isoform was observed 6 days following seeding. Simultaneously, smooth muscle type myosin heavy chain (SMHC) decreased strikingly and the 41 kDa tropomyosin monomer was lost. The content of α-actin decreased gradually to a minimum on day 6 when non-muscle type tropomyosin appeared, and the cells began to proliferate rapidly. These results suggest that the loss of contractility in cultured smooth muscle cells is more closely related to changes in contractile protein profiles than to receptor-mediated signal transduction and that in addition to NMHC and l-caldesmon, non-muscle type tropomyosin may be useful as a marker molecule for de-differentiation of smooth muscle cells.
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ISSN:0916-8737
1884-8796
DOI:10.1540/jsmr.37.53