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Query: UMLS:C0016719 (
Friedreich's ataxia
)
2,098
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
More than 40 diseases, most of which primarily affect the nervous system, are caused by expansions of simple sequence repeats dispersed throughout the human genome. Expanded trinucleotide repeat diseases were discovered first and remain the most frequent. More recently tetra-, penta-, hexa-, and even dodeca-nucleotide repeat expansions have been identified as the cause of human disease, including some of the most common genetic disorders seen by neurologists. Repeat expansion diseases include both causes of
myotonic dystrophy
(
DM1
and DM2), the most common genetic cause of amyotrophic lateral sclerosis/frontotemporal dementia (C9ORF72), Huntington disease, and eight other polyglutamine disorders, including the most common forms of dominantly inherited ataxia, the most common recessive ataxia (
Friedreich ataxia
), and the most common heritable mental retardation (fragile X syndrome). Here I review distinctive features of this group of diseases that stem from the unusual, dynamic nature of the underlying mutations. These features include marked clinical heterogeneity and the phenomenon of clinical anticipation. I then discuss the diverse molecular mechanisms driving disease pathogenesis, which vary depending on the repeat sequence, size, and location within the disease gene, and whether the repeat is translated into protein. I conclude with a brief clinical and genetic description of individual repeat expansion diseases that are most relevant to neurologists.
...
PMID:Repeat expansion diseases. 2932 6
Adult-onset neurological disorders are caused and influenced by a multitude of different factors, including epigenetic modifications. Here, using an ELISA kit selected upon careful testing, we investigated global 5-methylcytosine (5-mC) levels in sporadic and familial amyotrophic lateral sclerosis (sALS and fALS), spinocerebellar ataxia types 1 and 2 (SCA1 and SCA2), Huntington's disease,
Friedreich's ataxia
, and
myotonic dystrophy
type 1. We report a significant elevation in global 5-mC levels of about 2-7% on average for sALS (p < 0.01 [F(1, 243) = 9.159, p = 0.0027]) and various forms of fALS along with SCA1 (p < 0.01 [F(1, 83) = 11.285], p = 0.0012) and SCA2 (p < 0.001 [F(1, 122) = 29.996, p = 0.0001]) when compared to age- and sex-matched healthy controls. C9orf72 expansion carrier ALS patients exhibit the highest global 5-mC levels along with C9orf72 promoter hypermethylation. We failed to measure global 5-hydroxymethylcytosine (5-hmC) levels in blood, probably due to the very low levels of 5-hmC and the limitations of the commercially available ELISA kits. Our results point towards a role for epigenetics modification in ALS, SCA1, and SCA2, and help conclude a dispute on the global 5-mC levels in sALS blood.
...
PMID:Elevated Global DNA Methylation Is Not Exclusive to Amyotrophic Lateral Sclerosis and Is Also Observed in Spinocerebellar Ataxia Types 1 and 2. 2942 49
Expansions of simple trinucleotide repeats, such as (CGG)
n
, (CAG)
n
or (GAA)
n
, are responsible for more than 40 hereditary disorders in humans including fragile X syndrome, Huntington's disease,
myotonic dystrophy
, and
Friedreich's ataxia
. While the mechanisms of repeat expansions were intensively studied for over two decades, the final picture has yet to emerge. It was important, therefore, to develop a mammalian experimental system for studying repeat instability, which would recapitulate repeat instability observed in human pedigrees. Here, we describe a genetically tractable experimental system to study the instability of (CGG)
n
repeats in cultured mammalian cells (Kononenko et al., Nat Struct Mol Biol 25:669-676, 2018). It is based on a selectable cassette carrying the HyTK gene under the control of the FMR1 promoter with carrier-size (CGG)
n
repeats in its 5' UTR, which was integrated into the unique RL5 site in murine erythroid leukemia cells. Expansions of these repeats and/or repeat-induced mutagenesis shut down the reporter, which results in the accumulation of ganciclovir-resistance cells. This system is useful for understanding the genetic controls of repeat instability in mammalian cells. In the long run, it can be adjusted to screen for drugs that either alleviate repeat expansions or reactivate the FMR1 promoter.
...
PMID:Experimental System to Study Instability of (CGG)
n
Repeats in Cultured Mammalian Cells. 3158 46
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