Atherosclerosis is a complex inflammatory pathology underpinning cardiovascular diseases (CVD), which are the leading cause of death worldwide. The interplay between vascular stromal cells and immune cells is fundamental to the progression and outcome of atherosclerotic disease, however, the majority of in vitro studies do not consider the implications of these interactions and predominantly use mono-culture approaches. Here we present a simple and robust methodology involving the co-culture of vascular endothelial (ECs) and smooth muscle cells (SMCs) alongside an inflammatory compartment, in our study containing THP-1 macrophages, for studying these complex interactions. Using this approach, we demonstrate that the interaction between vascular stromal and immune cells produces unique cellular phenotypes and soluble mediator profiles not observed in double-cell 2D cultures. Our results highlight the importance of cellular communication and support the growing idea that in vitro research must evolve from mono-culture systems to provide data more representative of the multi-cellular environment found in vivo. The methodology presented, in comparison with established approaches, has the advantage of being technically simple whilst enabling the isolation of pure populations of ECs, SMCs and immune cells directly from the co-culture without cell sorting. The approach described within would be applicable to those studying mechanisms of vascular inflammation, particularly in relation to understanding the impact cellular interaction has on the cumulative immune-vascular response to atherogenic or inflammatory stimuli.

A novel triple-cell two-dimensional model to study immune vascular interplay in atherosclerosis / Noonan, A. J.; Grassia, G.; Macritchie, N.; Garside, P.; Guzik, T. J.; Bradshaw, A. C.; Maffia, P.. - In: FRONTIERS IN IMMUNOLOGY. - ISSN 1664-3224. - 10:APR(2019), p. 849. [10.3389/fimmu.2019.00849]

A novel triple-cell two-dimensional model to study immune vascular interplay in atherosclerosis

Grassia G.
Secondo
Investigation
;
Garside P.;Maffia P.
Ultimo
Project Administration
2019

Abstract

Atherosclerosis is a complex inflammatory pathology underpinning cardiovascular diseases (CVD), which are the leading cause of death worldwide. The interplay between vascular stromal cells and immune cells is fundamental to the progression and outcome of atherosclerotic disease, however, the majority of in vitro studies do not consider the implications of these interactions and predominantly use mono-culture approaches. Here we present a simple and robust methodology involving the co-culture of vascular endothelial (ECs) and smooth muscle cells (SMCs) alongside an inflammatory compartment, in our study containing THP-1 macrophages, for studying these complex interactions. Using this approach, we demonstrate that the interaction between vascular stromal and immune cells produces unique cellular phenotypes and soluble mediator profiles not observed in double-cell 2D cultures. Our results highlight the importance of cellular communication and support the growing idea that in vitro research must evolve from mono-culture systems to provide data more representative of the multi-cellular environment found in vivo. The methodology presented, in comparison with established approaches, has the advantage of being technically simple whilst enabling the isolation of pure populations of ECs, SMCs and immune cells directly from the co-culture without cell sorting. The approach described within would be applicable to those studying mechanisms of vascular inflammation, particularly in relation to understanding the impact cellular interaction has on the cumulative immune-vascular response to atherogenic or inflammatory stimuli.
2019
A novel triple-cell two-dimensional model to study immune vascular interplay in atherosclerosis / Noonan, A. J.; Grassia, G.; Macritchie, N.; Garside, P.; Guzik, T. J.; Bradshaw, A. C.; Maffia, P.. - In: FRONTIERS IN IMMUNOLOGY. - ISSN 1664-3224. - 10:APR(2019), p. 849. [10.3389/fimmu.2019.00849]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/759057
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