riboflavin transporter deficiency (RTD) is a rare genetic, childhood-onset disease. this pathology has a relevant neurological involvement, being characterized by motor symptoms, ponto-bulbar paralysis and sensorineural deafness. such clinical presentation is associated with muscle weakness and motor neuron (MN) degeneration, so that RTD is considered part of the MN disease spectrum. based on previous findings demonstrating energy dysmetabolism and mitochondrial impairment in RTD induced pluripotent stem cells (iPSCs) and iPSC-derived MNs, here we address the involvement of intrinsic apoptotic pathways in disease pathogenesis using these patient-specific in vitro models by combined ultrastructural and confocal analyses. we show impaired neuronal survival of RTD iPSCs and MNs. focused Ion beam/scanning electron microscopy (FIB/SEM) documents severe alterations in patients' cells, including deranged mitochondrial ultrastructure, and altered plasma membrane and nuclear organization. occurrence of aberrantly activated apoptosis is confirmed by immunofluorescence and TUNEL assays. overall, our work provides evidence of a role played by mitochondrial dysfunction in RTD, and identifies neuronal apoptosis as a contributing event in disease pathogenesis, indicating intrinsic apoptosis pathways as possible relevant targets for more effective therapeutical approaches.

Marioli, C., Muzzi, M., Colasuonno, F., Fiorucci, C., Cicolani, N., Petrini, S., et al. (2024). Caspase-dependent apoptosis in Riboflavin Transporter Deficiency iPSCs and derived motor neurons. CELL DEATH DISCOVERY, 10(1) [10.1038/s41420-024-01812-y].

Caspase-dependent apoptosis in Riboflavin Transporter Deficiency iPSCs and derived motor neurons

Fiorella Colasuonno
Investigation
;
2024-01-26

Abstract

riboflavin transporter deficiency (RTD) is a rare genetic, childhood-onset disease. this pathology has a relevant neurological involvement, being characterized by motor symptoms, ponto-bulbar paralysis and sensorineural deafness. such clinical presentation is associated with muscle weakness and motor neuron (MN) degeneration, so that RTD is considered part of the MN disease spectrum. based on previous findings demonstrating energy dysmetabolism and mitochondrial impairment in RTD induced pluripotent stem cells (iPSCs) and iPSC-derived MNs, here we address the involvement of intrinsic apoptotic pathways in disease pathogenesis using these patient-specific in vitro models by combined ultrastructural and confocal analyses. we show impaired neuronal survival of RTD iPSCs and MNs. focused Ion beam/scanning electron microscopy (FIB/SEM) documents severe alterations in patients' cells, including deranged mitochondrial ultrastructure, and altered plasma membrane and nuclear organization. occurrence of aberrantly activated apoptosis is confirmed by immunofluorescence and TUNEL assays. overall, our work provides evidence of a role played by mitochondrial dysfunction in RTD, and identifies neuronal apoptosis as a contributing event in disease pathogenesis, indicating intrinsic apoptosis pathways as possible relevant targets for more effective therapeutical approaches.
26-gen-2024
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore BIO/06
English
Marioli, C., Muzzi, M., Colasuonno, F., Fiorucci, C., Cicolani, N., Petrini, S., et al. (2024). Caspase-dependent apoptosis in Riboflavin Transporter Deficiency iPSCs and derived motor neurons. CELL DEATH DISCOVERY, 10(1) [10.1038/s41420-024-01812-y].
Marioli, C; Muzzi, M; Colasuonno, F; Fiorucci, C; Cicolani, N; Petrini, S; Bertini, E; Tartaglia, M; Compagnucci, C; Moreno, S
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/377823
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