Patient-derived induced pluripotent stem cells (iPSCs) provide a versatile platform for modeling thoracic aortic diseases, enabling the study of early disease mechanisms and facilitating drug discovery.
iPSC-derived aortic disease models provide a critical translational platform to study early disease mechanisms and screen drugs for thoracic aortopathies, potentially overcoming the limitations of current mouse models.
Thoracic aortic diseases, whether sporadic or due to a genetic disorder such as Marfan syndrome, lack effective medical therapies, with limited translation of treatments that are highly successful in mouse models into the clinic. Patient-derived induced pluripotent stem cells (iPSCs) offer the opportunity to establish new human models of aortic diseases. Here we review the power and potential of these systems to identify cellular and molecular mechanisms underlying disease and discuss recent advances, such as gene editing, and smooth muscle cell embryonic lineage. In particular, we discuss the practical aspects of vascular smooth muscle cell derivation and characterization, and provide our personal insights into the challenges and limitations of this approach. Future applications, such as genotype-phenotype association, drug screening, and precision medicine are discussed. We propose that iPSC-derived aortic disease models could guide future clinical trials via "clinical-trials-in-a-dish", thus paving the way for new and improved therapies for patients.
Davaapil et al. (Wed,) conducted a review in Thoracic aortic aneurysm and dissection (TAAD). iPSC-based disease modeling was evaluated. Patient-derived induced pluripotent stem cells (iPSCs) provide a versatile platform for modeling thoracic aortic diseases, enabling the study of early disease mechanisms and facilitating drug discovery.
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