CRISPR and iPSCs: Recent Developments and Future Perspectives in Neurodegenerative Disease Modelling, Research, and Therapeutics

Abstract: Neurodegenerative diseases are prominent causes of pain, suffering, and death worldwide. Traditional approaches modelling neurodegenerative diseases are deficient, and therefore, improved strategies that effectively recapitulate the pathophysiological conditions of neurodegenerative diseases are the need of the hour. The generation of human-induced pluripotent stem cells (iPSCs) has transformed our ability to model neurodegenerative diseases in vitro and provide an unlimited source of cells (including desired … Show more

“…hiPSCs have revolutionized basic research on human diseases and have generated interest as a potential cellular resource for treating pathologies. 24 , 47 The combination of CRISPR and hiPSCs is an important tool for disease study, modeling, and therapeutic applications. 24 Nonetheless, precise genome-editing in hiPSCs remains inefficient.…”

“… 24 , 47 The combination of CRISPR and hiPSCs is an important tool for disease study, modeling, and therapeutic applications. 24 Nonetheless, precise genome-editing in hiPSCs remains inefficient. 48 …”

“… 9 In addition, human induced pluripotent stem cells (hiPSCs) constitute a readily available source of patient-derived cells that could potentially be used for curative strategies, which is crucial because of the lack of cell resources and cell transplant rejection. 23 , 24 …”

“… 25 Nonetheless, low gene editing efficiency, potential adverse effects, and off-target effects must be considered and evaluated. 24 …”

Efficient correction of ABCA4 variants by CRISPR-Cas9 in hiPSCs derived from Stargardt disease patients

“…hiPSCs have revolutionized basic research on human diseases and have generated interest as a potential cellular resource for treating pathologies. 24 , 47 The combination of CRISPR and hiPSCs is an important tool for disease study, modeling, and therapeutic applications. 24 Nonetheless, precise genome-editing in hiPSCs remains inefficient.…”

“… 24 , 47 The combination of CRISPR and hiPSCs is an important tool for disease study, modeling, and therapeutic applications. 24 Nonetheless, precise genome-editing in hiPSCs remains inefficient. 48 …”

“… 9 In addition, human induced pluripotent stem cells (hiPSCs) constitute a readily available source of patient-derived cells that could potentially be used for curative strategies, which is crucial because of the lack of cell resources and cell transplant rejection. 23 , 24 …”

“… 25 Nonetheless, low gene editing efficiency, potential adverse effects, and off-target effects must be considered and evaluated. 24 …”

Efficient correction of ABCA4 variants by CRISPR-Cas9 in hiPSCs derived from Stargardt disease patients

“…Obligatory access to patient cell lines is a limitation of these approaches, since NDDs modeling needs the generation of iPSCs or iNs from large cohorts of patients, to comprise the genetic heterogeneity with respect to the disease-causing mutations. This limitation has been expunged by CRISPR/Cas9-edited disease models, which allow to introduce or correct any desired mutation, and to obtain isogenic cell lines carrying one or multiple disease-relevant mutations from a single iPSC background ( Sen and Thummer, 2022 ). In this review, we describe in more detail the differences in the aging status of iN- and iPSC-derived neurons and discuss the impact of these features in the disease modeling of NDDs.…”

Induced pluripotent stem cell-derived and directly reprogrammed neurons to study neurodegenerative diseases: The impact of aging signatures

Research progress of PROTACs for neurodegenerative diseases therapy