Belangrijkste concepten
A novel high-throughput assay enables the generation of 3D cardiac tissues for drug testing and disease modeling.
Samenvatting
Abstract:
- Developed a 96-well plate assay for generating 3D cardiac rings.
- Human iPSC-derived cardiomyocytes self-organized into ring-shaped constructs.
- Showed expected inotropic responses to calcium and drugs.
Introduction:
- Cardiac tissue engineering aims to mimic native myocardium properties.
- Biomaterials and microfabrication techniques enable miniature heart tissues.
- Various geometries of engineered heart tissues have been generated.
Design and Characterization:
- Steel molds designed for directing cells into ring-shaped cavities.
- PEG gel structures obtained with known stiffness suitable for cardiac tissue.
- Young's modulus measurements confirmed physiological range compatibility.
Generation of Cardiac Tissues:
- Efficient differentiation of iPSCs into cardiomyocytes observed.
- Fibroblasts essential for tissue structure, optimal ratio determined as 3:1.
- Ring-shaped tissues compacted around central pillar, started beating within 24 hours.
Structure and Organization:
- Immunofluorescence imaging showed fibroblasts at the base, cardiomyocytes forming compact ring above.
- Striated elongated fibers typical of cardiac tissue observed in immunostaining.
- Tissues exhibited toric shape with organized structure at day 14.
Contractility Analysis:
- Tissues started contracting less than 24 hours after seeding, contraction stress increased until day 7 then stabilized.
- Long-term culture possible but not yet optimized, contractile parameters improved at day 28 compared to day 14.
Arrhythmia Analysis:
-Tissues beat regularly without spontaneous extra beats, no reentrant waves detected in live imaging studies.
Physiological Testing:
-Increased extracellular calcium concentration led to positive inotropic response as expected.
-Dose-response to verapamil, isoproterenol, and dofetilide demonstrated expected effects on contractility parameters.
Pharmacological Testing:
-Negative inotropic effect observed with verapamil, positive response with isoproterenol, arrhythmic events induced by dofetilide at higher concentrations.
Discussion:
-Novel platform allows fast generation of multiple cardiac tissues suitable for drug testing and disease modeling applications.
-Limitations include small size compared to native tissue and challenges regarding external pacing methods.
Statistieken
The average stress during contractions was calculated as 1.4±0.4 mN/mm2.
The efficiency of differentiation into cardiomyocytes was approximately 96.9 ± 0.8%.
Citaten
"Our EHTs are easy to use, image, manipulate and obtain readouts from."
"The circular geometry induces homogeneous distribution of cardiomyocytes around the pillar."