Publications by authors named "Judit Nunez-Manchon"

Article Synopsis
  • * DM1 happens because of a problem with a gene that leads to muscle issues by decreasing a protein called MBNL1. AntimiRs can help increase this protein but need to be made better for human use.
  • * The treatment helped improve muscle cell problems and reduced harmful molecules in the cells, showing promise for helping different types of DM1 patients with varying genetic backgrounds.
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Article Synopsis
  • Researchers created three immortalized muscle cell lines from DM1 patients with different subtypes to study the disease more accurately.
  • These cell lines exhibited key characteristics of DM1, including RNA foci accumulation, altered splicing, and changes in myogenic markers.
  • The new models displayed significant genetic diversity among the samples and successfully responded to existing therapies, making them valuable for studying DM1 and testing future treatments.
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Myotonic dystrophy type 1 (DM1) is a progressive, non-treatable, multi-systemic disorder. To investigate the contribution of epigenetics to the complexity of DM1, we compared DNA methylation profiles of four annotated CpG islands (CpGis) in the locus and neighbouring genes, in distinct DM1 tissues and derived cells, representing six DM1 subtypes, by bisulphite sequencing. In blood, we found no differences in CpGi 74, 43 and 36 in DNA methylation profile.

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Article Synopsis
  • Myotonic Dystrophy type 1 (DM1) is a multi-systemic muscular dystrophy linked to repeat-associated non-ATG (RAN) translation, first described in 2011 but not deeply explored since then.
  • A study analyzed DM1 antisense transcripts and RAN translation in various primary cell cultures from ten DM1 patients, with techniques like RT-PCR, FISH, immunoblotting, and immunofluorescence.
  • Findings showed DM1-AS transcripts in all DM1 cells, but at lower levels than controls, while no detectable RAN translation was found in patient cells; however, a protein possibly linked to the TATA-box-binding protein was identified.
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Myotonic Dystrophy type 1 (DM1) is characterized by a high genetic and clinical variability. Determination of the genetic variability in DM1 might help to determine whether there is an association between CTG (Cytosine-Thymine-Guanine) expansion and the clinical manifestations of this condition. We studied the variability of the CTG expansion (progenitor, mode, and longest allele, respectively, and genetic instability) in three tissues (blood, muscle, and tissue) from eight patients with DM1.

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Objective: We aimed to determine whether 3D imaging reconstruction allows identifying molecular:clinical associations in myotonic dystrophy type 1 (DM1).

Methods: We obtained myoblasts from 6 patients with DM1 and 6 controls. We measured cytosine-thymine-guanine (CTG) expansion and detected RNA foci and muscleblind like 1 (MBNL1) through 3D reconstruction.

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The number of cytosine-thymine-guanine (CTG) repeats ('CTG expansion size') in the 3'untranslated region (UTR) region of the -protein kinase () gene is a hallmark of myotonic dystrophy type 1 (DM1), which has been related to age of disease onset and clinical severity. However, accurate determination of CTG expansion size is challenging due to its characteristic instability. We compared five different approaches (heat pulse extension polymerase chain reaction [PCR], long PCR-Southern blot [with three different primers sets-1, 2 and 3] and small pool [SP]-PCR) to estimate CTG expansion size in the progenitor allele as well as the most abundant CTG expansion size, in 15 patients with DM1.

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Carriage of interruptions in CTG repeats of the myotonic dystrophy protein kinase gene has been associated with a broad spectrum of myotonic dystrophy type 1 (DM1) phenotypes, mostly mild. However, the data available on interrupted DM1 patients and their phenotype are scarce. We studied 49 Spanish DM1 patients, whose clinical phenotype was evaluated in depth.

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Unfortunately the name of one of the authors was spelled incorrectly in the published original article. The correct name is Alejandro Santos-Lozano. The original article got updated.

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McArdle disease is an autosomal recessive condition caused by deficiency of the PYGM gene-encoded muscle isoform of glycogen phosphorylase. Some cases of "manifesting" heterozygotes or carriers (i.e.

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