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A model of human neural networks reveals NPTX2 pathology in ALS and FTLD

Nature. 2024-02; 
Marian Hruska-Plochan, Vera I Wiersma, Katharina M Betz, Izaskun Mallona, Silvia Ronchi, Zuzanna Maniecka, Eva-Maria Hock, Elena Tantardini, Florent Laferriere, Sonu Sahadevan, Vanessa Hoop, Igor Delvendahl, Manuela Pérez-Berlanga, Beatrice Gatta, Martina Panatta, Alexander van der Bourg, Dasa Bohaciakova, Puneet Sharma , Laura De Vos, Karl Frontzek , Adriano Aguzzi, Tammaryn Lashley , Mark D Robinson, Theofanis Karayannis, Martin Mueller, Andreas Hierlemann 4, Magdalini Polymenidou 13
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Gene Synthesis To generate lentivirus transfer vectors for constitutive EF‐1α-driven expression of TDP-43–HA (with or without 3′ UTR), NPTX2–HA and HA–FUS; using HiFi Kit, first the EF‐1α promoter from custom synthetic sequence from GenScript was cloned into mTREAuto-TDP-43–HA vector substituting TRE promoter, generating pLVX-EF‐1α-TDP-43–HA vector Get A Quote

摘要

Human cellular models of neurodegeneration require reproducibility and longevity, which is necessary for simulating age-dependent diseases. Such systems are particularly needed for TDP-43 proteinopathies1, which involve human-specific mechanisms2,3,4,5 that cannot be directly studied in animal models. Here, to explore the emergence and consequences of TDP-43 pathologies, we generated induced pluripotent stem cell-derived, colony morphology neural stem cells (iCoMoNSCs) via manual selection of neural precursors6. Single-cell transcriptomics and comparison to independent neural stem cells7 showed that iCoMoNSCs are uniquely homogenous and self-renewing. Differentiated iCoMoNSCs formed a self-organized multicell... More

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