Your search keyword '"Ciosi, Marc"' showing total 4 results

1. DNA methylation study of Huntington’s disease and motor progression in patients and in animal models

Author

Lu, Ake T, Narayan, Pritika, Grant, Matthew J, Langfelder, Peter, Wang, Nan, Kwak, Seung, Wilkinson, Hilary, Chen, Richard Z, Chen, Jian, Simon Bawden, C, Rudiger, Skye R, Ciosi, Marc, Chatzi, Afroditi, Maxwell, Alastair, Hore, Timothy A, Aaronson, Jeff, Rosinski, Jim, Preiss, Alicia, Vogt, Thomas F, Coppola, Giovanni, Monckton, Darren, Snell, Russell G, William Yang, X, and Horvath, Steve

Subjects

Brain Disorders, Neurosciences, Rare Diseases, Orphan Drug, Human Genome, Huntington's Disease, Neurodegenerative, Genetics, 2.1 Biological and endogenous factors, Aetiology, Neurological, Adolescent, Adult, Aged, Aged, 80 and over, Animals, Animals, Genetically Modified, Behavior, Animal, CpG Islands, Cross-Sectional Studies, DNA Methylation, Disease Models, Animal, Disease Progression, Epigenesis, Genetic, Female, Follow-Up Studies, Gene Knock-In Techniques, Genetic Loci, Genome-Wide Association Study, Global Burden of Disease, Humans, Huntingtin Protein, Huntington Disease, Longitudinal Studies, Male, Mice, Middle Aged, Mutation, Prospective Studies, Recombinant Proteins, Registries, Severity of Illness Index, Sheep, Young Adult

Abstract

Although Huntington's disease (HD) is a well studied Mendelian genetic disorder, less is known about its associated epigenetic changes. Here, we characterize DNA methylation levels in six different tissues from 3 species: a mouse huntingtin (Htt) gene knock-in model, a transgenic HTT sheep model, and humans. Our epigenome-wide association study (EWAS) of human blood reveals that HD mutation status is significantly (p

Published

2020

2. Posttranscriptional regulation of FAN1 by miR-124-3p at rs3512 underlies onset-delaying genetic modification in Huntington's disease.

Author

Kyung-Hee Kim, Eun Pyo Hong, Yukyeong Lee, McLean, Zachariah L., Elezi, Emanuela, Lee, Ramee, Seung Kwak, McAllister, Branduff, Massey, Thomas H., Lobanov, Sergey, Holmans, Peter, Orth, Michael, Ciosi, Marc, Monckton, Darren G., Long, Jeffrey D., Lucente, Diane, Wheeler, Vanessa C., MacDonald, Marcy E., Gusella, James F., and Jong-Min Lee

Subjects

HUNTINGTON disease, LOCUS (Genetics), GENE expression, GENETIC variation, MESSENGER RNA

Abstract

Many Mendelian disorders, such as Huntington's disease (HD) and spinocerebellar ataxias, arise from expansions of CAG trinucleotide repeats. Despite the clear genetic causes, additional genetic factors may influence the rate of those monogenic disorders. Notably, genome-wide association studies discovered somewhat expected modifiers, particularly mismatch repair genes involved in the CAG repeat instability, impacting age at onset of HD. Strikingly, FAN1, previously unrelated to repeat instability, produced the strongest HD modification signals. Diverse FAN1 haplotypes independently modify HD, with rare genetic variants diminishing DNA binding or nuclease activity of the FAN1 protein, hastening HD onset. However, the mechanism behind the frequent and the most significant onset-delaying FAN1 haplotype lacking missense variations has remained elusive. Here, we illustrated that a microRNA acting on 3'-UTR (untranslated region) SNP rs3512, rather than transcriptional regulation, is responsible for the significant FAN1 expression quantitative trait loci signal and allelic imbalance in FAN1 messenger ribonucleic acid (mRNA), accounting for the most significant and frequent onset-delaying modifier haplotype in HD. Specifically, miR-124-3p selectively targets the reference allele at rs3512, diminishing the stability of FAN1 mRNA harboring that allele and consequently reducing its levels. Subsequent validation analyses, including the use of antagomir and 3'-UTR reporter vectors with swapped alleles, confirmed the specificity of miR-124-3p at rs3512. Together, these findings indicate that the alternative allele at rs3512 renders the FAN1 mRNA less susceptible to miR-124-3p-mediated posttranscriptional regulation, resulting in increased FAN1 levels and a subsequent delay in HD onset by mitigating CAG repeat instability. [ABSTRACT FROM AUTHOR]

Published

2024

3. MSH3 modifies somatic instability and disease severity in Huntington’s and myotonic dystrophy type 1

Author

Flower, Michael, Lomeilkaite, Vilila, Ciosi, Marc, Cumming, Sarah, Morales, Fernando, Lo, Kitty, Hensman Moss, Davina, Jones, Lesley, Holmans, Peter, Monckton, Darren G., Tabrizi, Sarah J., Kraus, Peter, Hoffman, Rainer, Tobin, Alan, Borowsky, Beth, Keenan, S., Whitlock, Kathryn B., Queller, Sarah, Campbell, Colin, Wang, Chiachi, Langbehn, Doug, Axelson, Eric, Johnson, Hans, Acharya, Tanka, Cash, Dave M., Frost, Chris, Jones, Rebecca, Jurgens, Caroline, ‘t Hart, Ellen P., van der Grond, Jeroen, Witjes- Ane, Marie-Noelle N., Roos, Raymund A. C., Dumas, Eve M., van den Bogaard, Simon J. A., Stopford, Cheryl, Craufurd, David, Callaghan, Jenny, Arran, Natalie, Rosas, Diana D., Lee, S., Monaco, W., O’Regan, Alison, Milchman, Cassie, Frajman, E., Labuschagne, Izelle, Stout, Julie, Campbell, Melissa, Andrews, Sophie C., Bechtel, Natalie, Reilmann, Ralf, Bohlen, Stefan, Kennard, Chris, Berna, Claire, Hicks, Stephen, Durr, Alexandra, Pourchot, C., Bardinet, Eric, Nigaud, Kevin, Valabre`gue, Romain, Lehericy, Stephane, Marelli, Cecilia, Jauffret, Celine, Justo, Damian, Leavitt, Blair, Decolongon, Joji, Sturrock, Aaron, Coleman, Alison, Dar Santos, Rachelle, Patel, A., Gibbard, Claire, Whitehead, Daisy, Wild, Ed, Owen, Gail, Crawford, Helen, Malone, Ian, Lahiri, Nayana, Fox, Nick C., Hobbs, Nicola Z., Scahill, Rachael I., Ordidge, Roger, Pepple, Tracey, Read, Joy, Say, Miranda J., Landwehrmeyer, Bernhard, Daidj, Ferroudja, Bassez, Guillaume, Lignier, Baptiste, Couppey, Florence, Delmas, Stéphanie, Deux, Jean-François, Hankiewicz, Karolina, Dogan, Celine, Minier, Lisa, Chevalier, Pascale, Hamadouche, Amira, Catt, Michael, van Hees, Vincent, Catt, Sharon, Schwalber, Ameli, Dittrich, Juliane, Kierkegaard, Marie, Wenninger, Stephan, Schoser, Benedikt, Schüller, Angela, Stahl, Kristina, Künzel, Heike, Wolff, Martin, Jellinek, Anna, Moreno, Cecilia Jimenez, Gorman, Grainne, Lochmüller, Hanns, Trenell, Michael, van Laar, Sandra, Wood, Libby, Cassidy, Sophie, Newman, Jane, Charman, Sarah, Steffaneti, Renae, Taylor, Louise, Brownrigg, Allan, Day, Sharon, Atalaia, Antonio, Raaphorst, Joost, Okkersen, Kees, Engelen, Baziel van, Nikolaus, Stephanie, Cornelissen, Yvonne, van Nimwegen, Marlies, Maas, Daphne, Klerks, Ellen, Bouman, Sacha, Knoop, Hans, Heskamp, Linda, Heerschap, Arend, Rahmadi, Ridho, Groot, Perry, Heskes, Tom, Kapusta, Katarzyna, Glennon, Jeffrey, Abghari, Shaghayegh, Aschrafi, Armaz, Poelmans, Geert, Treweek, Shaun, Hogarth, Fiona, Littleford, Roberta, Donnan, Peter, Hapca, Adrian, Hannah, Michael, McKenzie, Emma, Rauchhaus, Petra, Cumming, Sarah A., Adam, Berit, Faber, Catharina, Merkies, Ingemar, TRACK-HD Investigators, OPTIMISTIC Consortium, Neurology, ANS - Neurodegeneration, APH - Mental Health, and Medical Psychology

Subjects

0301 basic medicine, congenital, hereditary, and neonatal diseases and abnormalities, Single-nucleotide polymorphism, Biology, association study, Myotonic dystrophy, transcriptomics, 03 medical and health sciences, Exon, 0302 clinical medicine, Huntington's disease, mental disorders, medicine, Allele, Genetics, myotonic dystrophy, medicine.disease, nervous system diseases, Minor allele frequency, 030104 developmental biology, MSH3, movement disorders, Neurology (clinical), Trinucleotide repeat expansion, 030217 neurology & neurosurgery, Reports, Huntington’s disease

Abstract

A genome-wide association study recently identified an MSH3/DHFR locus associated with Huntington’s disease progression. Flower, Lomeikaite et al. identify tandem repeat variants at this locus, and show that a three-repeat allele is associated with reduced somatic expansion, delayed onset and slower progression in Huntington’s disease and myotonic dystrophy type 1., The mismatch repair gene MSH3 has been implicated as a genetic modifier of the CAG·CTG repeat expansion disorders Huntington’s disease and myotonic dystrophy type 1. A recent Huntington’s disease genome-wide association study found rs557874766, an imputed single nucleotide polymorphism located within a polymorphic 9 bp tandem repeat in MSH3/DHFR, as the variant most significantly associated with progression in Huntington’s disease. Using Illumina sequencing in Huntington’s disease and myotonic dystrophy type 1 subjects, we show that rs557874766 is an alignment artefact, the minor allele for which corresponds to a three-repeat allele in MSH3 exon 1 that is associated with a reduced rate of somatic CAG·CTG expansion (P = 0.004) and delayed disease onset (P = 0.003) in both Huntington’s disease and myotonic dystrophy type 1, and slower progression (P = 3.86 × 10−7) in Huntington’s disease. RNA-Seq of whole blood in the Huntington’s disease subjects found that repeat variants are associated with MSH3 and DHFR expression. A transcriptome-wide association study in the Huntington’s disease cohort found increased MSH3 and DHFR expression are associated with disease progression. These results suggest that variation in the MSH3 exon 1 repeat region influences somatic expansion and disease phenotype in Huntington’s disease and myotonic dystrophy type 1, and suggests a common DNA repair mechanism operates in both repeat expansion diseases.

Published

2019

4. Association Analysis of Chromosome X to Identify Genetic Modifiers of Huntington's Disease.

Author

Hong, Eun Pyo, Chao, Michael J., Massey, Thomas, McAllister, Branduff, Lobanov, Sergey, Jones, Lesley, Holmans, Peter, Kwak, Seung, Orth, Michael, Ciosi, Marc, Monckton, Darren G., Long, Jeffrey D., Lucente, Diane, Wheeler, Vanessa C., MacDonald, Marcy E., Gusella, James F., and Lee, Jong-Min

Subjects

HUNTINGTON disease, CHROMOSOME analysis, GENETIC variation, LOCUS (Genetics), TRINUCLEOTIDE repeats, Y chromosome, DNA mismatch repair

Abstract

Background: Huntington's disease (HD) is caused by an expanded (>35) CAG trinucleotide repeat in huntingtin (HTT). Age-at-onset of motor symptoms is inversely correlated with the size of the inherited CAG repeat, which expands further in brain regions due to somatic repeat instability. Our recent genetic investigation focusing on autosomal SNPs revealed that age-at-onset is also influenced by genetic variation at many loci, the majority of which encode genes involved in DNA maintenance/repair processes and repeat instability. Objective: We performed a complementary association analysis to determine whether variants in the X chromosome modify HD. Methods: We imputed SNPs on chromosome X for ∼9,000 HD subjects of European ancestry and performed an X chromosome-wide association study (XWAS) to test for association with age-at-onset corrected for inherited CAG repeat length. Results: In a mixed effects model XWAS analysis of all subjects (males and females), assuming random X-inactivation in females, no genome-wide significant onset modification signal was found. However, suggestive significant association signals were detected at Xq12 (top SNP, rs59098970; p-value, 1.4E-6), near moesin (MSN), in a region devoid of DNA maintenance genes. Additional suggestive signals not involving DNA repair genes were observed in male- and female-only analyses at other locations. Conclusion: Although not genome-wide significant, potentially due to small effect size compared to the power of the current study, our data leave open the possibility of modification of HD by a non-DNA repair process. Our XWAS results are publicly available at the updated GEM EURO 9K website hosted at for browsing, pathway analysis, and data download. [ABSTRACT FROM AUTHOR]

Published

2021