Divergent differentiation paths in airway smooth muscle culture: induction of functionally contractile myocytes

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Divergent differentiation paths in airway smooth muscle culture: induction of functionally contractile myocytes

Andrew J. Halayko, Blanca Camoretti-Mercado, Sean M. Forsythe, Joaquim E. Vieira, Richard W. Mitchell, Mark E. Wylam, Marc B. Hershenson, and Julian Solway

Section of Pulmonary and Critical Care Medicine, Department of Medicine, University of Chicago, Chicago, Illinois 60637

We tested the hypothesis that prolonged serum deprivation would allow a subset of cultured airway myocytes to reacquire theabundant contractile protein content, marked shortening capacity,and elongated morphology characteristic of contractile cells withinintact tissue. Passage 1 or 2 canine tracheal smooth muscle (SM)cells were grown to confluence, then serum deprived for up to19 days. During serum deprivation, two differentiation pathwaysemerged. One-sixth of the cells developed an elongated morphologyand aligned into bundles. Elongated myocytes contained cablesof contractile myofilaments, dense bodies, gap junctions, andmembrane caveoli, ultrastructural features of contractile SM intissue. These cells immunostained intensely for SM $alpha$ -actin, SMmyosin heavy chain (MHC), and SM22 (an SM-specific actin-bindingprotein), and Western analysis of culture lysates disclosed 1.8(SM $alpha$ -actin)-, 7.7 (SM MHC)-, and 5.8 (SM22)-fold protein increasesduring serum deprivation. Immunoreactive M₃ muscarinic receptorswere present in dense foci distributed throughout elongated, SMMHC-positive myocytes. ACh (10³ M) induced a marked shortening (59.7 ± 14.4% of original length)in 62% of elongated myocytes made semiadherent by gentle proteolyticdigestion, and membrane bleb formation (a consequence of contraction)occurred in all stimulated cells that remained adherent and sodid not shorten. Cultured airway myocytes that did not elongateduring serum deprivation instead became short and flattened, lostimmunoreactivity for contractile proteins, lacked the M₃ muscarinic-receptorexpression pattern seen in elongated cells, and exhibited no contractileresponse to ACh. Thus we demonstrate that prolonged serum deprivationinduces distinct differentiation pathways in confluent culturedtracheal myocytes and that one subpopulation acquires an unequivocallyfunctional contractile phenotype in which structure and functionresemble contractile myocytes from intacttissue.

phenotypic modulation; serum deprivation; contraction; ultrastructure; heterogeneity; muscarinic receptors; contractile proteins

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