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PTBP2 attenuation facilitates fibroblast to neuron conversion by promoting alternative splicing of neuronal genes

Binglin Zhu, Emily Fisher, Li Li, Ping Zhong, Zhen Yan, Jian Feng

2023Stem Cell Reports12 citationsDOIOpen Access PDF

Abstract

The direct conversion of human skin fibroblasts to neurons has a low efficiency and unclear mechanism. Here, we show that the knockdown of PTBP2 significantly enhanced the transdifferentiation induced by ASCL1 , MIR9/9 ∗ -124, and p53 shRNA (AMp) to generate mostly GABAergic neurons. Longitudinal RNA sequencing analyses identified the continuous induction of many RNA splicing regulators. Among these, the knockdown of RBFOX3 (NeuN), significantly abrogated the transdifferentiation. Overexpression of RBFOX3 significantly enhanced the conversion induced by AMp; the enhancement was occluded by PTBP2 knockdown. We found that PTBP2 attenuation significantly favored neuron-specific alternative splicing (AS) of many genes involved in synaptic transmission, signal transduction, and axon formation. RBFOX3 knockdown significantly reversed the effect, while RBFOX3 overexpression occluded the enhancement. The study reveals the critical role of neuron-specific AS in the direct conversion of human skin fibroblasts to neurons by showing that PTBP2 attenuation enhances this mechanism in concert with RBFOX3.

Topics & Concepts

Gene knockdownTransdifferentiationBiologySmall hairpin RNACell biologyAlternative splicingNeuronMolecular biologyGeneNeuroscienceGeneticsExonStem cellRNA Research and SplicingRNA Interference and Gene DeliveryPluripotent Stem Cells Research
PTBP2 attenuation facilitates fibroblast to neuron conversion by promoting alternative splicing of neuronal genes | Litcius