Inhibition of fibroblast proliferation in cardiac myocyte cultures by surface microtopography

doi:10.1152/ajpcell.00013.2003

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Am J Physiol Cell Physiol 285: C171-C182, 2003. First published April 2, 2003; doi:10.1152/ajpcell.00013.2003
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MUSCLE CELL BIOLOGY AND CELL MOTILITY

Inhibition of fibroblast proliferation in cardiac myocyte cultures by surface microtopography

Samuel Y. Boateng,¹ Thomas J. Hartman,¹ Neil Ahluwalia,¹ Himabindu Vidula,¹ Tejal A. Desai,² and Brenda Russell¹

¹Department of Physiology and Biophysics, University of Illinois at Chicago, Chicago, Illinois 60612-7342; and ²Department of Biomedical Engineering, Boston University, Boston, Massachusetts 02215

Submitted 13 January 2003 ; accepted in final form 11 March 2003

Cardiac myocyte cultures usually require pharmacological interventionto prevent overproliferation of contaminating nonmyocytes.Our aim is to prevent excessive fibroblast cell proliferationwithout the use of cytostatins. We have produced a siliconesurface with 10-µm vertical projections that we term"pegs," to which over 80% of rat neonatal cardiac fibroblasts attach within 48 h after plating. There was a 50% decrease incell proliferation by 5 days of culture compared with flatmembranes (P < 0.001) and a concomitant 60% decrease (P< 0.01) in cyclin D1 protein levels, suggesting a G₁/S₁cell cycle arrest due to microtopography. Inhibition of Rhokinase with 5 or 20 µM Y-27632 reduced attachment offibroblasts to the pegs by over 50% (P < 0.001), suggestingthat this signaling pathway plays an important role in the process. Using mobile and immobile 10-µm polystyrene spheres,we show that reactive forces are important for inhibiting fibroblastcell proliferation, because mobile spheres failed to reducecell proliferation. In primary myocyte cultures, pegs alsoinhibit fibroblast proliferation in the absence of cytostatins.The ratio of aminopropeptide of collagen protein from fibroblasts to myosin from myocytes was significantly reduced in culturesfrom pegged surfaces (P < 0.01), suggesting an increasein the proportion of myocytes on the pegged surfaces. Connexin43protein expression was also increased, suggesting improvedmyocyte-myocyte interaction in the presence of pegs. We concludethat this microtextured culture system is useful for preventingproliferation of fibroblasts in myocyte cultures and may ultimately be useful for tissue engineering applications in vivo.

tissue engineering; cell culture; cell cycle

Address for reprint requests and other correspondence: B. Russell, Dept. of Physiology and Biophysics (M/C 901), Univ. of Illinois at Chicago, 835 S. Wolcott Ave., Chicago, IL 60612-7342 (E-mail: Russell{at}uic.edu).

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