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Merck
  • Single-cell transcriptomics of human iPSC differentiation dynamics reveal a core molecular network of Parkinson's disease.

Single-cell transcriptomics of human iPSC differentiation dynamics reveal a core molecular network of Parkinson's disease.

Communications biology (2022-01-15)
Gabriela Novak, Dimitrios Kyriakis, Kamil Grzyb, Michela Bernini, Sophie Rodius, Gunnar Dittmar, Steven Finkbeiner, Alexander Skupin
摘要

Parkinson's disease (PD) is the second-most prevalent neurodegenerative disorder, characterized by the loss of dopaminergic neurons (mDA) in the midbrain. The underlying mechanisms are only partly understood and there is no treatment to reverse PD progression. Here, we investigated the disease mechanism using mDA neurons differentiated from human induced pluripotent stem cells (hiPSCs) carrying the ILE368ASN mutation within the PINK1 gene, which is strongly associated with PD. Single-cell RNA sequencing (RNAseq) and gene expression analysis of a PINK1-ILE368ASN and a control cell line identified genes differentially expressed during mDA neuron differentiation. Network analysis revealed that these genes form a core network, members of which interact with all known 19 protein-coding Parkinson's disease-associated genes. This core network encompasses key PD-associated pathways, including ubiquitination, mitochondrial function, protein processing, RNA metabolism, and vesicular transport. Proteomics analysis showed a consistent alteration in proteins of dopamine metabolism, indicating a defect of dopaminergic metabolism in PINK1-ILE368ASN neurons. Our findings suggest the existence of a network onto which pathways associated with PD pathology converge, and offers an inclusive interpretation of the phenotypic heterogeneity of PD.

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Sigma-Aldrich
抗MAP2抗体,克隆AP20, clone AP20, Chemicon®, from mouse
Sigma-Aldrich
抗-TRA-1-60抗体,克隆TRA-1-60, clone TRA-1-60, Chemicon®, from mouse