Structural maturation of myofilaments in engineered 3D cardiac microtissues characterized using small angle x-ray scattering

Author:

van Dover GeoffreyORCID,Javor JoshORCID,Ewoldt Jourdan KORCID,Zhernenkov MikhailORCID,Wąsik PatrykORCID,Freychet GuillaumeORCID,Lee JoshORCID,Brown DanaORCID,Chen Christopher SORCID,Bishop David J

Abstract

Abstract Understanding the structural and functional development of human-induced pluripotent stem-cell-derived cardiomyocytes (hiPSC-CMs) is essential to engineering cardiac tissue that enables pharmaceutical testing, modeling diseases, and designing therapies. Here we use a method not commonly applied to biological materials, small angle x-ray scattering, to characterize the structural development of hiPSC-CMs within three-dimensional engineered tissues during their preliminary stages of maturation. An x-ray scattering experimental method enables the reliable characterization of the cardiomyocyte myofilament spacing with maturation time. The myofilament lattice spacing monotonically decreases as the tissue matures from its initial post-seeding state over the span of 10 days. Visualization of the spacing at a grid of positions in the tissue provides an approach to characterizing the maturation and organization of cardiomyocyte myofilaments and has the potential to help elucidate mechanisms of pathophysiology, and disease progression, thereby stimulating new biological hypotheses in stem cell engineering.

Funder

CELL-MET Engineering Research Center

Brookhaven National Laboratory

CELL-MET

NSF

Boston University

Publisher

IOP Publishing

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