<p>Frontotemporal dementia (FTD) is a neurodegenerative disease characterized by significant clinical and genetic heterogeneity, with approximately 40% of cases linked to hereditary genetic mutations, including <i>MAPT</i>, <i>GRN</i>, and <i>C9ORF72</i>. Recently, microRNAs (miRNAs) have emerged as key regulators of cellular processes related to neurodegeneration and as potential biomarkers for FTD. However, their relevance in presymptomatic stages remains poorly understood. We conducted a miRNA expression analysis using TaqMan OpenArray® panels on blood samples collected from 171 individuals, including symptomatic mutation carriers (SMC), presymptomatic carriers (PMC), and healthy non-carriers (NC). Dysregulated miRNAs were validated and bioinformatic tools were used to identify potential associated molecular pathways. In <i>C9ORF72</i>, miR-20b-5p and miR-223-5p were significantly upregulated in SMC (fold regulation over NC: 2.418 <i>p</i> = 0.0336 and 7.829 <i>p</i> &lt; 0.0264 respectively) and PMC (5.518, <i>p</i> &lt; 0.0001 and 3.941, <i>p</i> &lt; 0.0001 respectively). In <i>GRN</i> mutation carriers, miR-28-3p was altered in both SMC and PMC (fold regulation over NC: 1.484 <i>p</i> &lt; 0.050 and 3.287, <i>p</i> &lt; 0.050). In <i>MAPT</i> mutation carriers, miR-28-5p, miR-192-3p, miR-25-3p, and miR-532-3p were altered only in SMC (fold regulation over NC: 1.496 <i>p</i> &lt; 0.050, 1.911 <i>p</i> = 0.006, 1.468 <i>p</i> &lt; 0.05, and 0.728 <i>p</i> &lt; 0.05). Bioinformatic analysis revealed enrichment of pathways related to neurodegeneration and synapse impairment. These results suggest that miRNA expression levels are deregulated in mutated SMC, in <i>C9ORF72</i> and <i>GRN</i> PMC. Notably, miR-20b-5p, miR-223-5p, and miR-28-3p were increased in preclinical stages of the disease, supporting their role as early biomarkers for <i>C9ORF72</i>-FTD and <i>GRN</i>-FTD. Conversely, alterations in <i>MAPT</i> carriers appeared only in symptomatic stages, suggesting a different involvement in disease progression.</p>

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Peripheral microRNA signature in genetic frontotemporal dementia—findings from the GENFI initiative

  • Chiara Fenoglio,
  • Maria Serpente,
  • Marina Arcaro,
  • Tiziana Carandini,
  • Luca Sacchi,
  • Manuela Pintus,
  • Vittoria Borracci,
  • Giulia Giudici,
  • Marta Rigoni,
  • Paola Muti,
  • Laura Ghezzi,
  • Arabella Bouzigues,
  • Lucy L. Rusell,
  • Phoebe H. Foster,
  • Eve Ferry-Bolder,
  • John C. van Swieten,
  • Lize C. Jiskoot,
  • Harro Seelaar,
  • Raquel Sánchez Valle,
  • Robert Laforce,
  • Caroline Graff,
  • Rik Vandenberghe,
  • Alexandre de Mendonça,
  • Pietro Tiraboschi,
  • Isabel Santana,
  • Alexander Gerhard,
  • Johannes Levin,
  • Florence Pasquier,
  • Simon Ducharme,
  • Isabelle Le Ber,
  • Elizabeth Finger,
  • Maria Carmela Tartaglia,
  • Mario Masellis,
  • James B. Rowe,
  • Matthis Synofzik,
  • Fermin Moreno,
  • Barbara Borroni,
  • Andrea Sacconi,
  • Jonathan D. Rohrer,
  • Andrea Arighi,
  • Daniela Galimberti,
  • Antonella Alberici,
  • Sónia Afonso,
  • Patricia Alves,
  • Sarah Anderl-Straub,
  • Anna Antonelli,
  • Mircea Balasa,
  • Myriam Barandiaran,
  • Nuria Bargalló,
  • Robert Bartha,
  • Benjamin Bender,
  • Alexander Maximilian Bernhardt,
  • Maxime Bertoux,
  • Anne Bertrand,
  • Valentina Bessi,
  • Sandra Black,
  • Giorgio Bocca,
  • Martina Bocchetta,
  • Sergi Borrego-Ecija,
  • Alexis Brice,
  • Rose Bruffaerts,
  • Valentina Cantoni,
  • Paola Caroppo,
  • David Cash,
  • Miguel Castelo-Branco,
  • Olivier Colliot,
  • Rhian Convery,
  • Thomas Cope,
  • Tiago Costa-Coelho,
  • Ioana Croitoru,
  • Agnès Camuzat,
  • Liset de Boer,
  • Julie de Houwer,
  • Vincent Deramecourt,
  • João Durães,
  • Giuseppe Di Fede,
  • Camilla Ferrari,
  • Graziana Florio,
  • Marta Frascotti,
  • Morris Freedman,
  • Aurélie Funkiewiez,
  • Alazne Gabilondo,
  • Roberto Gasparotti,
  • Giorgio Giaccone,
  • Lucia Giannini,
  • Sophie Goldsmith,
  • Lisa Graf,
  • Vesna Jelic,
  • Ron Keren,
  • Johanna Krüger,
  • Gregory Kuchcinski,
  • Tobias Langheinrich,
  • Thibaud Lebouvier,
  • Maria João Leitão,
  • João Lemos,
  • Marisa Lima,
  • Albert Lladó,
  • Gemma Lombardi,
  • Jolina Lombardi,
  • Maura Malpetti,
  • Carolina Maruta,
  • David Mengel,
  • Gabriel Miltenberger,
  • Sara Mitchell,
  • Maxime Montembault,
  • Benedetta Nacmias,
  • Mattias Nilsson,
  • Linn Öijerstedt,
  • Jaume Olives,
  • Janne Papma,
  • Yolande Pijnenburg,
  • Koen Poesen,
  • Cristina Polito,
  • Jackie Poos,
  • Enrico Premi,
  • Sara Prioni,
  • Catharina Prix,
  • Veronica Redaelli,
  • Timothy Rittman,
  • Rosa Rademakers,
  • Daisy Rinaldi,
  • Ekaterina Rogaeva,
  • Adeline Rollin,
  • Pedro Rosa-Neto,
  • Maria Rosario Almeida,
  • Giacomina Rossi,
  • Kiran Samra,
  • Dario Saracino,
  • Sabrina Sayah,
  • Sonja Schönecker,
  • Christen Shoesmith,
  • Frederico Simões do Couto,
  • Anna Stockbauer,
  • Miguel Tábuas-Pereira,
  • David Tang-Wai,
  • Melissa Taheri Rydell,
  • Mikel Tainta,
  • David L Thomas,
  • Mathieu Vandenbulcke,
  • Philip Van Damme,
  • Rick van Minkelen,
  • Ana Verdelho,
  • Henrik Viklund,
  • Roberto Vimercati,
  • Annick Vogels,
  • Olivia Wagemann,
  • Elisabeth Wlasich

摘要

Frontotemporal dementia (FTD) is a neurodegenerative disease characterized by significant clinical and genetic heterogeneity, with approximately 40% of cases linked to hereditary genetic mutations, including MAPT, GRN, and C9ORF72. Recently, microRNAs (miRNAs) have emerged as key regulators of cellular processes related to neurodegeneration and as potential biomarkers for FTD. However, their relevance in presymptomatic stages remains poorly understood. We conducted a miRNA expression analysis using TaqMan OpenArray® panels on blood samples collected from 171 individuals, including symptomatic mutation carriers (SMC), presymptomatic carriers (PMC), and healthy non-carriers (NC). Dysregulated miRNAs were validated and bioinformatic tools were used to identify potential associated molecular pathways. In C9ORF72, miR-20b-5p and miR-223-5p were significantly upregulated in SMC (fold regulation over NC: 2.418 p = 0.0336 and 7.829 p < 0.0264 respectively) and PMC (5.518, p < 0.0001 and 3.941, p < 0.0001 respectively). In GRN mutation carriers, miR-28-3p was altered in both SMC and PMC (fold regulation over NC: 1.484 p < 0.050 and 3.287, p < 0.050). In MAPT mutation carriers, miR-28-5p, miR-192-3p, miR-25-3p, and miR-532-3p were altered only in SMC (fold regulation over NC: 1.496 p < 0.050, 1.911 p = 0.006, 1.468 p < 0.05, and 0.728 p < 0.05). Bioinformatic analysis revealed enrichment of pathways related to neurodegeneration and synapse impairment. These results suggest that miRNA expression levels are deregulated in mutated SMC, in C9ORF72 and GRN PMC. Notably, miR-20b-5p, miR-223-5p, and miR-28-3p were increased in preclinical stages of the disease, supporting their role as early biomarkers for C9ORF72-FTD and GRN-FTD. Conversely, alterations in MAPT carriers appeared only in symptomatic stages, suggesting a different involvement in disease progression.