Montserrat Milá scite author profile

Within the past few years, there has been a significant change in identifying and characterizing the FMR1 premutation associated phenotypes. The premutation has been associated with elevated FMR1 mRNA levels and slight to moderate reductions in FMRP levels. Furthermore, it has been established that B20% of female premutation carriers present primary ovarian insufficiency (POI) and that fragile X-associated tremor/ataxia syndrome (FXTAS) occurs in one-third of all male premutation carriers older than 50 years. Besides POI and FXTAS, new disorders have recently been described among individuals (especially females) with the FMR1 premutation. Those pathologies include thyroid disease, hypertension, seizures, peripheral neuropathy, and fibromyalgia. However there are few reports related to FXTAS penetrance among female premutation carriers or regarding these disorders recently associated to the FMR1 premutation. Therefore, we have evaluated 398 fragile X syndrome (FXS) families in an attempt to provide an estimation of the premutation associated phenotypes penetrance. Our results show that signs of FXTAS are detected in 16.5% of female premutation carriers and in 45.5% of premutated males older than 50 years. Furthermore, among females with the FMR1 premutation, penetrance of POI, thyroid disease and chronic muscle pain is 18.6, 15.9 and 24.4%, respectively. The knowledge of this data might be useful for accurate genetic counselling as well as for a better characterization of the clinical phenotypes of FMR1 premutation carriers.

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Role of the CDKN2A Locus in Patients With Multiple Primary Melanomas

Puig

Malvehy

Badenas

et al. 2005

JCO

130

109

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Associated features in females with an FMR1 premutation

Wheeler

Bailey

Berry‐Kravis

et al. 2014

J Neurodevelop Disord

112

106

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Changes in the fragile X mental retardation 1 gene (FMR1) have been associated with specific phenotypes, most specifically those of fragile X syndrome (FXS), fragile X tremor/ataxia syndrome (FXTAS), and fragile X primary ovarian insufficiency (FXPOI). Evidence of increased risk for additional medical, psychiatric, and cognitive features and conditions is now known to exist for individuals with a premutation, although some features have been more thoroughly studied than others. This review highlights the literature on medical, reproductive, cognitive, and psychiatric features, primarily in females, that have been suggested to be associated with changes in the FMR1 gene. Based on this review, each feature is evaluated with regard to the strength of evidence of association with the premutation. Areas of need for additional focused research and possible intervention strategies are suggested.

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A melanoma-associated germline mutation in exon 1β inactivates p14ARF

et al. 2001

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The INK4a/ARF locus encodes the cyclin dependent kinase inhibitor, p16INK4a and the p53 activator, p14ARF. These two proteins have an independent ®rst exon (exon 1a and exon 1b, respectively) but share exons 2 and 3 and are translated in dierent reading frames. Germline mutations in this locus are associated with melanoma susceptibility in 20 ± 40% of multiple case melanoma families. Although most of these mutations speci®cally inactivate p16 INK4a, more than 40% of the INK4a/ARF alterations located in exon 2, aect both p16INK4a and p14ARF. We now report a 16 base pair exon 1b germline insertion speci®cally altering p14ARF, but not p16 INK4a, in an individual with multiple primary melanomas. This mutant p14ARF, 60ins16, was restricted to the cytoplasm, did not stabilize p53 and was unable to arrest the growth of a p53 expressing melanoma cell line. This is the ®rst example of an exon 1b mutation that inactivates p14ARF, and thus implicates a role for this tumour suppressor in melanoma predisposition. Oncogene (2001) 20, 5543 ± 5547.

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Fragile X syndrome: An overview and update of the FMR1 gene

et al. 2017

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Fragile X syndrome (FXS) is the most common cause of inherited intellectual disability and the leading form of the monogenic cause of autism. Fragile X mental retardation type 1 (FMR1) gene premutation is the first single-gene cause of primary ovarian failure (Fragile X-associated primary ovarian insufficiency [FXPOI]) and one of the most common causes of ataxia (fragile X-associated tremor/ataxia syndrome [FXTAS]), multiple additional phenotypes such as fibromyalgia, hypothyroidism, migraine headaches, sleep disturbances, sleep apnea, restless legs syndrome, central pain syndrome, neuropathy and neuropsychiatric alterations has been described. Clinical involvement in men and women carrying the FMR1 premutation currently constitutes a real health problem in the society that should be taken into account. It is important to highlight that while in FXS there is a loss-of-function of the FMR1 gene, in premutation associated disorders there is a gain of FMR1 mRNA function. To date, the tremendous progress achieved in the understanding of the pathophysiology of FXS, has led to the development of several targeted therapies aimed at preventing or improving the neurological manifestations of the disease. This review is an update of the diseases associated with the FMR1 gene. tions. In 1999, the study of fragile X pedigrees revealed a higher incidence of primary ovarian insufficiency related to the FMR1 gene, and this condition was named premature ovarian failure (POF) and then later fragile X premature ovarian insufficiency (FXPOI). 6 This term encompasses a continuum of severity in ovarian dysfunction ranging from normal menses and normal hormonal levels, although reduced fertility, to the most severe form of this condition in which folliclestimulating hormone is elevated, menses are abnormal or absent, and fertility is drastically reduced. 7 After further studies, Hagerman et al described a neurological disease related to the FMR1 premutation that was named fragile X-associated tremor/ataxia syndrome (FXTAS). 8 Finally, since 2007 the spectrum of the clinical phenotype associated with the FMR1 premutation has continuously widened. This review is an update of the diseases associated with the FMR1 gene.2 | FRAGILE X SYNDROME FXS (#MIM300624; ORPHA 908) is the most common cause of inherited ID (1%-2% of all ID) and the leading form of the monogenic cause of autism and autism spectrum disorders (ASD) (Figure 1). The

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Dosage-Dependent Severity of the Phenotype in Patients with Mental Retardation Due to a Recurrent Copy-Number Gain at Xq28 Mediated by an Unusual Recombination

Vandewalle

Esch

Govaerts

et al. 2009

The American Journal of Human Genetics

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We report on the identification of a 0.3 Mb inherited recurrent but variable copy-number gain at Xq28 in affected males of four unrelated families with X-linked mental retardation (MR). All aberrations segregate with the disease in the families, and the carrier mothers show nonrandom X chromosome inactivation. Tiling Xq28-region-specific oligo array revealed that all aberrations start at the beginning of the low copy repeat LCR-K1, at position 153.20 Mb, and end just distal to LCR-L2, at 153.54 Mb. The copy-number gain always includes 18 annotated genes, of which RPL10, ATP6AP1 and GDI1 are highly expressed in brain. From these, GDI1 is the most likely candidate gene. Its copy number correlates with the severity of clinical features, because it is duplicated in one family with nonsyndromic moderate MR, is triplicated in males from two families with mild MR and additional features, and is present in five copies in a fourth family with a severe syndromic form of MR. Moreover, expression analysis revealed copy-number-dependent increased mRNA levels in affected patients compared to control individuals. Interestingly, analysis of the breakpoint regions suggests a recombination mechanism that involves two adjacent but different sets of low copy repeats. Taken together, our data strongly suggest that an increased expression of GDI1 results in impaired cognition in a dosage-dependent manner. Moreover, these data also imply that a copy-number gain of an individual gene present in the larger genomic aberration that leads to the severe MECP2 duplication syndrome can of itself result in a clinical phenotype as well.

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Brain-derived neurotrophic factor modulates the severity of cognitive alterations induced by mutant huntingtin: Involvement of phospholipaseCγ activity and glutamate receptor expression

et al. 2009

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