The Analysis of Embryoid Body Formation and Its Role in Retinal Organoid Development

Heredero Berzal, Andrea; Wagstaff, Ellie L.; ten Asbroek, Anneloor L. M. A.; ten Brink, Jacoline B.; Bergen, Arthur A.; Boon, Camiel J. F.

doi:10.3390/ijms25031444

IJMS

2024

DOI: 10.3390/ijms25031444

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The Analysis of Embryoid Body Formation and Its Role in Retinal Organoid Development

Andrea Heredero Berzal,

Ellie L. Wagstaff,

Anneloor L. M. A. ten Asbroek

et al.

Abstract: Within the last decade, a wide variety of protocols have emerged for the generation of retinal organoids. A subset of studies have compared protocols based on stem cell source, the physical features of the microenvironment, and both internal and external signals, all features that influence embryoid body and retinal organoid formation. Most of these comparisons have focused on the effect of signaling pathways on retinal organoid development. In this study, our aim is to understand whether starting cell conditi… Show more

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A Comparative Analysis of Models for AAV-Mediated Gene Therapy for Inherited Retinal Diseases

Alsalloum,

Gornostal,

Mingaleva

et al. 2024

Cells

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Inherited retinal diseases (IRDs) represent a diverse group of genetic disorders leading to progressive degeneration of the retina due to mutations in over 280 genes. This review focuses on the various methodologies for the preclinical characterization and evaluation of adeno-associated virus (AAV)-mediated gene therapy as a potential treatment option for IRDs, particularly focusing on gene therapies targeting mutations, such as those in the RPE65 and FAM161A genes. AAV vectors, such as AAV2 and AAV5, have been utilized to deliver therapeutic genes, showing promise in preserving vision and enhancing photoreceptor function in animal models. Despite their advantages—including high production efficiency, low pathogenicity, and minimal immunogenicity—AAV-mediated therapies face limitations such as immune responses beyond the retina, vector size constraints, and challenges in large-scale manufacturing. This review systematically compares different experimental models used to investigate AAV-mediated therapies, such as mouse models, human retinal explants (HREs), and induced pluripotent stem cell (iPSC)-derived retinal organoids. Mouse models are advantageous for genetic manipulation and detailed investigations of disease mechanisms; however, anatomical differences between mice and humans may limit the translational applicability of results. HREs offer valuable insights into human retinal pathophysiology but face challenges such as tissue degradation and lack of systemic physiological effects. Retinal organoids, on the other hand, provide a robust platform that closely mimics human retinal development, thereby enabling more comprehensive studies on disease mechanisms and therapeutic strategies, including AAV-based interventions. Specific outcomes targeted in these studies include vision preservation and functional improvements of retinas damaged by genetic mutations. This review highlights the strengths and weaknesses of each experimental model and advocates for their combined use in developing targeted gene therapies for IRDs. As research advances, optimizing AAV vector design and delivery methods will be critical for enhancing therapeutic efficacy and improving clinical outcomes for patients with IRDs.

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A Comparative Analysis of Models for AAV-Mediated Gene Therapy for Inherited Retinal Diseases

Alsalloum,

Gornostal,

Mingaleva

et al. 2024

Cells

View full text Add to dashboard Cite

show abstract

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The Analysis of Embryoid Body Formation and Its Role in Retinal Organoid Development

Cited by 1 publication

References 35 publications

A Comparative Analysis of Models for AAV-Mediated Gene Therapy for Inherited Retinal Diseases

A Comparative Analysis of Models for AAV-Mediated Gene Therapy for Inherited Retinal Diseases

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