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Interdisciplinary team integrates crucial immune cells into heart-on-a-chip platform

by Medical Xpress
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Credit: Cell Stem Cell (2024). DOI: 10.1016/j.stem.2024.05.011

Researchers at the University of Toronto have discovered a novel method for incorporating primitive microphages—crucial immune cells—into heart-on-a-chip technology, in a potentially transformative step forward in drug testing and heart disease modeling.

In a study published in Cell Stem Cell, an interdisciplinary team of scientists describe how they integrated the microphages—which were derived from and resemble those found in the early stages of heart development—onto the platforms. These macrophages are known to have remarkable abilities in promoting vascularization and enhancing tissue stability.

Corresponding author Milica Radisic, a senior scientist in the University Health Network’s Toronto General Hospital Research Institute and professor in the Institute of Biomedical Engineering at U of T’s Faculty of Applied Science & Engineering, says the approach promises to enhance the functionality and stability of engineered heart tissues.

“We demonstrated here that stable vascularization of a heart tissue in vitro requires contributions from , specifically macrophages. We followed a biomimetic approach, re-establishing the key constituents of a cardiac niche,” says Radisic, who holds a Canada Research Chair in Functional Cardiovascular Tissue Engineering

“By combining cardiomyocytes, , and macrophages, we enabled appropriate cell-to-cell crosstalk such as in the native heart muscle.”

A major challenge in creating bioengineered heart tissue is achieving a stable and functional network of blood vessels. Traditional methods have struggled to maintain these vascular networks over extended periods, limiting their effectiveness for and applications.

In their study, researchers demonstrated that the primitive microphages could create stable, perfusable microvascular networks within the cardiac tissue, a feat that had previously been difficult to achieve.

Furthermore, the macrophages helped reduce by mitigating cytotoxic effects, thereby improving the overall health and functionality of the engineered tissues.

“The inclusion of primitive macrophages significantly improved the function of cardiac tissues, making them more stable and effective for longer periods,” says Shira Landau, a post-doctoral fellow in Radisic’s lab and one of the study’s lead authors.

The breakthrough has far-reaching implications for the field of cardiac research. By enabling the creation of more stable and functional heart tissues, researchers can better study heart diseases and test new drugs in a controlled environment.

Researchers say this technology could lead to more accurate disease models and more effective treatments for heart conditions.

More information:
Shira Landau et al, Primitive macrophages enable long-term vascularization of human heart-on-a-chip platforms, Cell Stem Cell (2024). DOI: 10.1016/j.stem.2024.05.011

Citation:
Interdisciplinary team integrates crucial immune cells into heart-on-a-chip platform (2024, August 26)
retrieved 26 August 2024
from https://medicalxpress.com/news/2024-08-interdisciplinary-team-crucial-immune-cells.html

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