Background: Different experimental observations suggest the expansion of a distinct medial smooth muscle cell (SMC) subset during atheromatous plaque establishment and restenosis. Objectives: We investigated the presence and features of such SMC subset in cell cultures derived from human carotid endarterectomy (CEA) specimens; moreover, we aimed at finding markers that could play a role in SMC behavior. Methods and Results: CEA specimens comprised a grossly undiseased (UP) and a diseased portion (DP). The UP contained a thin intimal thickening with the underlying media and the DP an atherosclerotic plaque with the underlying media. Cell cultures were initiated by tissue explantation. From plaque tissues only macrophage-derived foam cells were retrieved. From medial tissues 2 distinct SMC phenotypes were identified: 1) large SMCs, flat with a monolayered growth pattern, isolated from the UP media; 2) small SMCs, fusiform and growing in multilayers, isolated from both the UP and DP media only when cocultured with plaque-derived macrophages. Small SMCs displayed higher proliferative and migratory activities and a poor level of differentiation compared with large SMCs. Two-dimensional polyacrylamide gel electrophoresis followed by tandem mass spectrometry showed that calmodulin (CaM), a calcium-binding protein involved in cell-cycle regulation, was mainly expressed in small SMCs. This result was confirmed using a specific CaM antibody. Coculture of large SMCs with plaque-derived macrophages induced a switch to the small phenotype and was associated with increased CaM expression. Consistently, the specific CaM inhibitor W-7 hampered the large-to-small switch and predominantly inhibited the proliferation of small SMCs. In vivo, CaM was markedly expressed in atherosclerotic plaques whereas it was barely detectable in the media. Conclusions: Plaque-derived macrophages promote the selective migration of a distinct SMC subpopulation exhibiting features of an "atheroma-prone" phenotype. CaM is a marker of small SMCs in vitro and of plaque SMCs in vivo, and plays a role in SMC phenotypic modulation. Further studies on these SMC populations can be instrumental in understanding and influencing the evolution of atherosclerosis.

Calmodulin Is a Marker of a Distinct Smooth Muscle Cell Population Recruited by Plaque-Derived Macrophages from the Human Carotid Artery Media

COEN, Matteo;MARCHETTI, Giovanna;ZERBINATI, Carlotta;GUASTELLA, Giuseppe;GAGLIANO, Teresa;BERNARDI, Francesco;MASCOLI, Francesco;
2012

Abstract

Background: Different experimental observations suggest the expansion of a distinct medial smooth muscle cell (SMC) subset during atheromatous plaque establishment and restenosis. Objectives: We investigated the presence and features of such SMC subset in cell cultures derived from human carotid endarterectomy (CEA) specimens; moreover, we aimed at finding markers that could play a role in SMC behavior. Methods and Results: CEA specimens comprised a grossly undiseased (UP) and a diseased portion (DP). The UP contained a thin intimal thickening with the underlying media and the DP an atherosclerotic plaque with the underlying media. Cell cultures were initiated by tissue explantation. From plaque tissues only macrophage-derived foam cells were retrieved. From medial tissues 2 distinct SMC phenotypes were identified: 1) large SMCs, flat with a monolayered growth pattern, isolated from the UP media; 2) small SMCs, fusiform and growing in multilayers, isolated from both the UP and DP media only when cocultured with plaque-derived macrophages. Small SMCs displayed higher proliferative and migratory activities and a poor level of differentiation compared with large SMCs. Two-dimensional polyacrylamide gel electrophoresis followed by tandem mass spectrometry showed that calmodulin (CaM), a calcium-binding protein involved in cell-cycle regulation, was mainly expressed in small SMCs. This result was confirmed using a specific CaM antibody. Coculture of large SMCs with plaque-derived macrophages induced a switch to the small phenotype and was associated with increased CaM expression. Consistently, the specific CaM inhibitor W-7 hampered the large-to-small switch and predominantly inhibited the proliferation of small SMCs. In vivo, CaM was markedly expressed in atherosclerotic plaques whereas it was barely detectable in the media. Conclusions: Plaque-derived macrophages promote the selective migration of a distinct SMC subpopulation exhibiting features of an "atheroma-prone" phenotype. CaM is a marker of small SMCs in vitro and of plaque SMCs in vivo, and plays a role in SMC phenotypic modulation. Further studies on these SMC populations can be instrumental in understanding and influencing the evolution of atherosclerosis.
File in questo prodotto:
Non ci sono file associati a questo prodotto.

I documenti in SFERA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/1684886
 Attenzione

Attenzione! I dati visualizzati non sono stati sottoposti a validazione da parte dell'ateneo

Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus ND
  • ???jsp.display-item.citation.isi??? ND
social impact