These preliminary data suggest that AMH levels indicate early ovarian decline among women with longer FMR1 repeat alleles; moreover, AMH appears to be a better marker than FSH in identifying this early decline.
Fragile X-associated disorders are caused by a CGG trinucleotide repeat expansion in the 5′-untranslated region of the FMR1 gene. Expansion of the CGG trinucleotide repeats to >200 copies (that is, a full mutation) induces methylation of the FMR1 gene, with transcriptional silencing being the eventual outcome. Previous data have shown that FMR1 premutation carriers (individuals with 55–199 repeats) have increased FMR1 mRNA levels with decreased protein (fragile X mental retardation protein (FMRP)) levels. However, the point at which this translational inefficiency occurs, given the increased transcription mechanism, has not yet been explored and remains to be elucidated. We examined the repeat length group, FMR1 transcript and FMRP levels in 74 males with a wide range of repeat lengths using analysis of covariance to better characterize this association. Results showed that the mean FMRP level among carriers with 80–89 repeats was significantly higher than the mean levels among lower (54–79) and higher (90–120) premutation carriers, in spite of the increasing transcript level with repeat length. Taken together, these results suggest that the 80–89-repeat group may lead to different properties that increase the efficiency of translation compared with other premutation repeat size groups.
Purpose
Emerging evidence indicates that women who carry an FMR1 premutation can experience complex health profiles beyond the two well-established premutation-associated disorders: fragile X–associated primary ovarian insufficiency (FXPOI, affects ~20–30% carriers) and fragile X–associated tremor–ataxia syndrome (FXTAS, affects ~6–15% carriers).
Methods
To better understand premutation-associated health profiles, we collected self-reported medical histories on 355 carrier women.
Results
Twenty-two health conditions were reported by at least 10% of women. Anxiety, depression, and headaches were reported by more than 30%. The number of comorbid conditions was significantly associated with body mass index (BMI) and history of smoking, but not age. Survival analysis indicated that women with FXPOI had an earlier age at onset for anxiety and osteoporosis than women without FXPOI. Cluster analysis identified eight clusters of women who reported similar patterns of comorbid conditions. The majority of carriers (63%) fell into three categories primarily defined by the presence of only a few conditions. Interestingly, a single cluster defined women with symptoms of FXTAS, and none of these women had FXPOI.
Conclusion
Although some women with a premutation experience complex health outcomes, most carriers report only minimal comorbid conditions. Further, women with symptoms of FXTAS appear to be distinct from women with symptoms of FXPOI.
Fragile X syndrome, the most common form of inherited mental retardation, is caused by hyperexpansion and hypermethylation of a CGG repeat tract in the 5' untranslated region of the FMR1 gene. This methylation causes the gene to be transcriptionally silenced. In addition to the common allele form with less than 41 repeats, there are two other allelic forms of the FMR1 gene that are unmethylated: premutation (61-200 CGG repeats) and intermediate (41-60 CGG repeats). Recently, premutation-specific phenotypes not related to fragile X syndrome have been reported: a 20-fold increased risk for premature ovarian failure (POF) among female carriers and an increased risk for a tremor ataxia syndrome (TAS) primarily among older male carriers. At the molecular level, increased levels of FMR1 transcript have been observed among premutation carriers. Increased levels of transcript may be causally related to the POF or TAS phenotypes or may be a surrogate of some other allelic property. In this report, we have examined the distributional properties of transcript levels by repeat size and gender among 238 individuals. We have confirmed a significant linear relationship between transcript level and repeat size in males and females. The evidence for the linear effect is primarily within the premutation size alleles.
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