2023
FUS Alters circRNA Metabolism in Human Motor Neurons Carrying the ALS-Linked P525L Mutation
Colantoni A, Capauto D, Alfano V, D’Ambra E, D’Uva S, Tartaglia G, Morlando M. FUS Alters circRNA Metabolism in Human Motor Neurons Carrying the ALS-Linked P525L Mutation. International Journal Of Molecular Sciences 2023, 24: 3181. PMID: 36834591, PMCID: PMC9968238, DOI: 10.3390/ijms24043181.Peer-Reviewed Original ResearchMeSH KeywordsAmyotrophic Lateral SclerosisHumansMicroRNAsMotor NeuronsMutationRNA, CircularRNA-Binding Protein FUSConceptsRNA metabolismHuman motor neuronsNuclear/cytoplasmic partitioningNon-canonical splicing eventsAspects of RNASubset of circRNAsCytoplasmic partitioningCytoplasmic circRNAsSplicing eventsMutant proteinsCircular RNAsMotor neuronsAlu repeatsExon compositionCircRNAsProteinRNAMutationsFUS mutationsKey eventsFUSPreferential bindingP525L mutationMetabolismPivotal role
2018
A Regulatory Circuitry Between Gria2, miR-409, and miR-495 Is Affected by ALS FUS Mutation in ESC-Derived Motor Neurons
Capauto D, Colantoni A, Lu L, Santini T, Peruzzi G, Biscarini S, Morlando M, Shneider NA, Caffarelli E, Laneve P, Bozzoni I. A Regulatory Circuitry Between Gria2, miR-409, and miR-495 Is Affected by ALS FUS Mutation in ESC-Derived Motor Neurons. Molecular Neurobiology 2018, 55: 7635-7651. PMID: 29430619, PMCID: PMC6132778, DOI: 10.1007/s12035-018-0884-4.Peer-Reviewed Original ResearchConceptsAmyotrophic lateral sclerosisMotor neuronsFUS mutationsMouse embryonic stem cellsPathogenesis of ALSMiRNA-dependent regulationCorresponding mRNA targetsNeuron-specific RNATypes of RNAEmbryonic stem cellsCross talkGlutamate α-aminoIsoxazole propionic acidDisease-associated mutationsMolecular cross talkDisturbance of Ca2Juvenile-onset formMiRNA repressionRegulatory circuitryTranscriptome profilingMRNA targetsMultifunctional proteinLong RNAsMN degenerationExcitatory neurotransmissionCharacterization of the lncRNA transcriptome in mESC-derived motor neurons: Implications for FUS-ALS
Biscarini S, Capauto D, Peruzzi G, Lu L, Colantoni A, Santini T, Shneider NA, Caffarelli E, Laneve P, Bozzoni I. Characterization of the lncRNA transcriptome in mESC-derived motor neurons: Implications for FUS-ALS. Stem Cell Research 2018, 27: 172-179. PMID: 29449089, DOI: 10.1016/j.scr.2018.01.037.Peer-Reviewed Original ResearchMeSH KeywordsAmyotrophic Lateral SclerosisAnimalsCell DifferentiationHumansMiceMotor NeuronsRNA, Long NoncodingTranscriptomeConceptsLong non-coding transcriptomeMouse motor neuronsAmyotrophic lateral sclerosisNon-coding transcriptomeMotor neuronsSevere amyotrophic lateral sclerosisAberrant RNA metabolismLong non-coding RNAsStem cellsEmbryonic stem cellsNon-coding RNAsInduced pluripotent stem cellsNervous system developmentPluripotent stem cellsRNA metabolismLncRNA transcriptomeDifferentiation systemLateral sclerosisTDP-43TranscriptomeFUS-ALSCandidate lncRNAsCrucial playersCausative mutationsEssential role