In vitro modeling of neuronal ceroid lipofuscinosis (NCL): Patient fibroblasts and their reprogrammed derivatives as human models of NCL

Autor: Lojewski, Xenia
Přispěvatelé: van Pée, Karl-Heinz, Storch, Alexander, Technische Universität Dresden
Jazyk: angličtina
Rok vydání: 2012
Předmět:
Popis: The discovery of resetting human somatic cells via introduction of four transcription factors into an embryonic stem cell-like state that enables the generation of any cell type of the human body has revolutionized the field of medical science. The generation of patient-derived iPSCs and the subsequent differentiation into the cells of interest has been, nowadays, widely used as model system for various inherited diseases. The aim of this thesis was to generate iPSCs and to subsequently derive NPCs which can be differentiated into neurons in order to model the two most common forms of the NCLs: LINCL which is caused by mutations within the TPP1 gene, encoding a lysosomal enzyme, and JNCL which is caused by mutations within the CLN3 gene, affecting a lysosomal transmembrane protein. It was shown that patient-derived fibroblasts can be successfully reprogrammed into iPSCs by using retroviral vectors that introduced the four transcription factors POU5F1, SOX2, KLF4 and MYC. The generated iPSCs were subsequently differentiated into expandable NPCs and finally into mature neurons. Phenotype analysis during the different stages, namely pluripotent iPSCs, multipotent NPCs and finally differentiated neurons, revealed a genotype-specific progression of the disease. The earliest events were observed in organelle disruption such as mitochondria, Golgi and ER which preceded the accumulation of subunit c of the mitochondrial ATPase complex that was only apparent in neurons. However, none of these events led to neurodegeneration in vitro. The established disease models recapitulate phenotypes reported in other NCL disease models such as mouse, dog and sheep model systems. More importantly, the hallmark of the NCLs, accumulation of subunit c in neurons, could be reproduced during the course of disease modeling which demonstrates the suitability of the established system. Moreover, the derived expandable NPC populations can be used for further applications in drug screenings. Their robust phenotypes such as low levels of TPP1 activity in LINCL patient-derived NPCs or cytoplasmic vacuoles, containing storage material, observed in CLN3 mutant NPCs, should serve as possible phenotypic read-outs.
Databáze: OpenAIRE