Endothelial‐Smooth Muscle Cell Interactions in a Shear‐Exposed Intimal Hyperplasia on‐a‐Dish Model to Evaluate Therapeutic Strategies

Andreia Fernandes; Arnaud Miéville; Franziska Grob; Tadahiro Yamashita; Julia Mehl; Vahid Hosseini; Maximilian Y. Emmert; Volkmar Falk; Viola Vogel

doi:10.1002/advs.202202317

Advanced Science (Oct 2022)

Endothelial‐Smooth Muscle Cell Interactions in a Shear‐Exposed Intimal Hyperplasia on‐a‐Dish Model to Evaluate Therapeutic Strategies

Andreia Fernandes,
Arnaud Miéville,
Franziska Grob,
Tadahiro Yamashita,
Julia Mehl,
Vahid Hosseini,
Maximilian Y. Emmert,
Volkmar Falk,
Viola Vogel

Affiliations

Andreia Fernandes: Laboratory of Applied Mechanobiology Institute of Translational Medicine Department of Health Sciences and Technology ETH Zurich 8093 Zurich Switzerland
Arnaud Miéville: Laboratory of Applied Mechanobiology Institute of Translational Medicine Department of Health Sciences and Technology ETH Zurich 8093 Zurich Switzerland
Franziska Grob: Laboratory of Applied Mechanobiology Institute of Translational Medicine Department of Health Sciences and Technology ETH Zurich 8093 Zurich Switzerland
Tadahiro Yamashita: Laboratory of Applied Mechanobiology Institute of Translational Medicine Department of Health Sciences and Technology ETH Zurich 8093 Zurich Switzerland
Julia Mehl: Laboratory of Applied Mechanobiology Institute of Translational Medicine Department of Health Sciences and Technology ETH Zurich 8093 Zurich Switzerland
Vahid Hosseini: Laboratory of Applied Mechanobiology Institute of Translational Medicine Department of Health Sciences and Technology ETH Zurich 8093 Zurich Switzerland
Maximilian Y. Emmert: Department of Cardiovascular Surgery Charité Universitätsmedizin Berlin 10117 Berlin Germany
Volkmar Falk: Department of Cardiovascular Surgery Charité Universitätsmedizin Berlin 10117 Berlin Germany
Viola Vogel: Laboratory of Applied Mechanobiology Institute of Translational Medicine Department of Health Sciences and Technology ETH Zurich 8093 Zurich Switzerland

DOI: https://doi.org/10.1002/advs.202202317
Journal volume & issue: Vol. 9, no. 28
pp. n/a – n/a

Abstract

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Abstract Intimal hyperplasia (IH) represents a major challenge following cardiovascular interventions. While mechanisms are poorly understood, the inefficient preventive methods incentivize the search for novel therapies. A vessel‐on‐a‐dish platform is presented, consisting of direct‐contact cocultures with human primary endothelial cells (ECs) and smooth muscle cells (SMCs) exposed to both laminar pulsatile and disturbed flow on an orbital shaker. With contractile SMCs sitting below a confluent EC layer, a model that successfully replicates the architecture of a quiescent vessel wall is created. In the novel IH model, ECs are seeded on synthetic SMCs at low density, mimicking reendothelization after vascular injury. Over 3 days of coculture, ECs transition from a network conformation to confluent 2D islands, as promoted by pulsatile flow, resulting in a “defected” EC monolayer. In defected regions, SMCs incorporated plasma fibronectin into fibers, increased proliferation, and formed multilayers, similarly to IH in vivo. These phenomena are inhibited under confluent EC layers, supporting therapeutic approaches that focus on endothelial regeneration rather than inhibiting proliferation, as illustrated in a proof‐of‐concept experiment with Paclitaxel. Thus, this in vitro system offers a new tool to study EC‐SMC communication in IH pathophysiology, while providing an easy‐to‐use translational disease model platform for low‐cost and high‐content therapeutic development.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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