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脆性 X 原发性卵巢功能不全小鼠模型中的卵巢异常。

Ovarian abnormalities in a mouse model of fragile X primary ovarian insufficiency.

机构信息

Department of Biology, Morgan State University, Baltimore, MD 21251, USA.

出版信息

J Histochem Cytochem. 2012 Jun;60(6):439-56. doi: 10.1369/0022155412441002. Epub 2012 Apr 2.

DOI:10.1369/0022155412441002
PMID:22470123
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3393073/
Abstract

FMR1 premutation (PM) alleles have 55-200 CGG·CCG-repeats in their 5' UTR. PM carriers are at risk of fragile X-associated tremor and ataxia syndrome (FXTAS). Females are also at risk for FX primary ovarian insufficiency (FXPOI). PM pathology is generally attributed to deleterious properties of transcripts with long CGG-tracts. For FXPOI, hormone changes suggest a reduced residual follicle pool. Whether this is due to a smaller than normal original follicle pool or an increased rate of follicle depletion is unclear. A FX-PM mouse the authors generated with 130 CGG·CCG-repeats in the endogenous Fmr1 gene recapitulates features of FXTAS. Here the authors demonstrate that the gross development of the ovary and the establishment of the primordial follicle pool is normal in these mice. However, these animals show a faster loss of follicles of all follicle classes, suggesting that the problem is intrinsic to the ovary. In addition, many oocytes show aberrant nuclear accumulation of FMRP and elevated levels of ubiquitination. Furthermore, PM follicles are smaller and have fewer granulosa cells (GCs) than normal. Thus, these animals have ovarian abnormalities involving both the oocytes and GCs that may shed light on the molecular basis of FXPOI in humans.

摘要

FMR1 前突变 (PM) 等位基因在其 5'UTR 中有 55-200 个 CGG·CCG 重复。PM 携带者易患脆性 X 相关震颤共济失调综合征 (FXTAS)。女性也有脆性 X 原发性卵巢功能不全 (FXPOI) 的风险。PM 病理学通常归因于具有长 CGG 片段的转录本的有害特性。对于 FXPOI,激素变化表明卵泡池减少。这是由于原始卵泡池小于正常还是卵泡耗竭率增加尚不清楚。作者通过在内源性 Fmr1 基因中产生具有 130 个 CGG·CCG 重复的 FX-PM 小鼠,重现了 FXTAS 的特征。在这里,作者证明这些小鼠的卵巢大体发育和原始卵泡池的建立正常。然而,这些动物表现出所有卵泡类型的卵泡更快丢失,表明该问题是卵巢内在的。此外,许多卵母细胞显示出 FMRP 的核内异常积累和泛素化水平升高。此外,PM 卵泡比正常卵泡小,且颗粒细胞 (GCs) 较少。因此,这些动物的卵巢异常涉及卵母细胞和 GCs,这可能为人类 FXPOI 的分子基础提供线索。

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