Endothelial expression of guidance cues in vessel wall homeostasis: dysregulation under proatherosclerotic conditions
Autor/a
Balcells Camps, Mercedes
Gils, Janine M. van
Ramkhelawon, Bhama
Fernandes, Luciana
Stewart, Merran C.
Guo, Liang
Seibert, Tara
Menezes, Gustavo B.
Cara, Denise C.
Chow, Camille
Kinane, T. Bernard
Fisher, Edward A.
Alvarez-Leite, Jacqueline
Lacy-Hulbert, Adam
Moore, Kathryn J.
Otros/as autores/as
Universitat Ramon Llull. IQS
Fecha de publicación
2013-05Resumen
Background— Local modulation of vascular mammalian target of rapamycin (mTOR) signaling reduces smooth muscle cell (SMC) proliferation after endovascular interventions but may be associated with endothelial cell (EC) toxicity. The trilaminate vascular architecture juxtaposes ECs and SMCs to enable complex paracrine coregulation but shields SMCs from flow. We hypothesized that flow differentially affects mTOR signaling in ECs and SMCs and that SMCs regulate mTOR in ECs.
Methods and Results— SMCs and/or ECs were exposed to coronary artery flow in a perfusion bioreactor. We demonstrated by flow cytometry, immunofluorescence, and immunoblotting that EC expression of phospho-S6 ribosomal protein (p-S6RP), a downstream target of mTOR, was doubled by flow. Conversely, S6RP in SMCs was growth factor but not flow responsive, and SMCs eliminated the flow sensitivity of ECs. Temsirolimus, a sirolimus analog, eliminated the effect of growth factor on SMCs and of flow on ECs, reducing p-S6RP below basal levels and inhibiting endothelial recovery. EC p-S6RP expression in stented porcine arteries confirmed our in vitro findings: Phosphorylation was greatest in ECs farthest from intact SMCs in metal stented arteries and altogether absent after sirolimus stent elution.
Conclusions— The mTOR pathway is activated in ECs in response to luminal flow. SMCs inhibit this flow-induced stimulation of endothelial mTOR pathway. Thus, we now define a novel external stimulus regulating phosphorylation of S6RP and another level of EC-SMC crosstalk. These interactions may explain the impact of local antiproliferative delivery that targets SMC proliferation and suggest that future stents integrate design influences on flow and drug effects on their molecular targets.
Tipo de documento
Artículo
Versión publicada
Lengua
English
Materias (CDU)
616.1 - Patología del sistema circulatorio, de los vasos sanguíneos. Transtornos cardiovasculares
Palabras clave
Aterosclerosi
Endoteli
Leucòcits
Axons
Atherosclerosis
Axonal guidance
Endothelial–leukocyte interaction
Migration
Páginas
9 p.
Publicado por
American Heart Association
Publicado en
Circulation. Vol.3, n.5 (2013), p.911–919
Número del acuerdo de la subvención
info:eu-repo/grantAgreement/MCI/PN I+D/BFU2009-09804
Este ítem aparece en la(s) siguiente(s) colección(ones)
Derechos
© American Heart Association, Inc. Tots els drets reservats