PURPOSE: We studied microRNAs as potential biomarkers for Pompe disease. METHODS: We analyzed microRNA expression by small RNA-seq in tissues from the disease murine model at two different ages (3 and 9 months), and in plasma from Pompe patients. RESULTS: In the mouse model we found 211 microRNAs that were differentially expressed in gastrocnemii and 66 in heart, with a different pattern of expression at different ages. In a preliminary analysis in plasma from six patients 55 microRNAs were differentially expressed. Sixteen of these microRNAs were common to those dysregulated in mouse tissues. These microRNAs are known to modulate the expression of genes involved in relevant pathways for Pompe disease pathophysiology (autophagy, muscle regeneration, muscle atrophy). One of these microRNAs, miR-133a, was selected for further quantitative real-time polymerase chain reaction analysis in plasma samples from 52 patients, obtained from seven Italian and Dutch biobanks. miR-133a levels were significantly higher in Pompe disease patients than in controls and correlated with phenotype severity, with higher levels in infantile compared with late-onset patients. In three infantile patients miR-133a decreased after start of enzyme replacement therapy and evidence of clinical improvement. CONCLUSION: Circulating microRNAs may represent additional biomarkers of Pompe disease severity and of response to therapy.
PURPOSE: We studied microRNAs as potential biomarkers for Pompe disease. METHODS: We analyzed microRNA expression by small RNA-seq in tissues from the disease murine model at two different ages (3 and 9 months), and in plasma from Pompe patients. RESULTS: In the mouse model we found 211 microRNAs that were differentially expressed in gastrocnemii and 66 in heart, with a different pattern of expression at different ages. In a preliminary analysis in plasma from six patients 55 microRNAs were differentially expressed. Sixteen of these microRNAs were common to those dysregulated in mouse tissues. These microRNAs are known to modulate the expression of genes involved in relevant pathways for Pompe disease pathophysiology (autophagy, muscle regeneration, muscle atrophy). One of these microRNAs, miR-133a, was selected for further quantitative real-time polymerase chain reaction analysis in plasma samples from 52 patients, obtained from seven Italian and Dutch biobanks. miR-133a levels were significantly higher in Pompe disease patients than in controls and correlated with phenotype severity, with higher levels in infantile compared with late-onset patients. In three infantile patients miR-133a decreased after start of enzyme replacement therapy and evidence of clinical improvement. CONCLUSION: Circulating microRNAs may represent additional biomarkers of Pompe disease severity and of response to therapy.
Authors: Barry J Byrne; David D Fuller; Barbara K Smith; Nathalie Clement; Kirsten Coleman; Brian Cleaver; Lauren Vaught; Darin J Falk; Angela McCall; Manuela Corti Journal: Ann Transl Med Date: 2019-07
Authors: Maria Paola Belfiore; Francesca Iacobellis; Emma Acampora; Martina Caiazza; Marta Rubino; Emanuele Monda; Maria Rosaria Magaldi; Antonietta Tarallo; Marcella Sasso; Valeria De Pasquale; Roberto Grassi; Salvatore Cappabianca; Paolo Calabrò; Simona Fecarotta; Salvatore Esposito; Giovanni Esposito; Antonio Pisani; Luigi Michele Pavone; Giancarlo Parenti; Giuseppe Limongelli Journal: PLoS One Date: 2020-05-19 Impact factor: 3.240
Authors: Edward A Mead; Nadia Boulghassoul-Pietrzykowska; Yongping Wang; Onaiza Anees; Noah S Kinstlinger; Maximillian Lee; Shireen Hamza; Yaping Feng; Andrzej Z Pietrzykowski Journal: Front Genet Date: 2022-01-20 Impact factor: 4.599