Epigenetic age acceleration in Turner and Klinefelter syndrome: Correlations with clinical aging markers.

IF 4.4 2区医学 Q1 GENETICS & HEREDITY

Clinical Epigenetics Pub Date : 2025-09-01 DOI:10.1186/s13148-025-01963-4

Emma B Hasselholm, Jesper Just, Simon Chang, Anne Skakkebæk, Claus Højbjerg Gravholt

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Abstract

Background: The sex chromosome aneuploidies Turner syndrome (45,X; TS) and Klinefelter syndrome (47,XXY; KS) are associated with aging-related comorbidities, reduced life expectancy and genome-wide DNA methylation changes. This indicates that biological aging, reflecting physiological function rather than chronological age, is increased in both syndromes. To investigate whether DNA methylation patterns linked to physiological decline could contribute to the comorbidity patterns and reduced lifespan in TS and KS, we applied so-called epigenetic clocks to DNA methylation data from cohorts of TS (n = 57) compared to female controls (n = 33) and KS (n = 65) compared to male controls (n = 63). Additionally, we evaluated correlations between epigenetic age and clinical variables, aiming to identify clinical aging markers in TS and KS.

Results: Comparing TS to female controls, all epigenetic clocks indicated advanced biological aging. Comparing KS to male controls, less evidence was observed although some epigenetic clocks indicated accelerated biological aging. Considering estrogen replacement therapy in TS, some epigenetic clocks found that treatment reduced biological age in TS. Correlating epigenetic clocks to clinical variables, several unfavorable outcomes-mainly related to body composition-correlated with age in controls. In TS, and in some cases KS, these correlations were diminished. In TS and KS, we instead found correlations between body composition and the rate of aging.

Conclusion: We demonstrated that biological aging was clearly increased in sex chromosome aneuploidies, especially TS, potentially contributing to the severely reduced lifespan. Additionally, unfavorable changes in body composition, common in both TS and KS, and in particular in the presence of hypogonadism, could result in accelerated aging-or be the result thereof.

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Turner和Klinefelter综合征的表观遗传年龄加速：与临床衰老标志物的相关性。

背景：性染色体非整倍体Turner综合征（45，X； TS）和Klinefelter综合征（47，XXY； KS）与衰老相关的合共病、预期寿命缩短和全基因组DNA甲基化变化有关。这表明，反映生理功能而非实足年龄的生物衰老在两种综合征中都有所增加。为了研究与生理衰退相关的DNA甲基化模式是否会导致TS和KS的共病模式和寿命缩短，我们将所谓的表观遗传时钟应用于TS （n = 57）与女性对照（n = 33）和KS （n = 65）与男性对照（n = 63）的DNA甲基化数据。此外，我们评估了表观遗传年龄与临床变量之间的相关性，旨在确定TS和KS的临床衰老标志物。结果：与女性对照组相比，所有表观遗传时钟均显示生物衰老提前。与男性对照组相比，尽管一些表观遗传时钟表明生物衰老加速，但观察到的证据较少。考虑到TS患者的雌激素替代治疗，一些表观遗传时钟发现治疗降低了TS患者的生物年龄。将表观遗传时钟与临床变量相关联，在对照组中，一些不利结果（主要与身体组成有关）与年龄相关。在TS和某些KS病例中，这些相关性减弱。在TS和KS中，我们发现了身体成分和衰老速度之间的相关性。结论：我们证明了性染色体非整倍体的生物老化明显增加，特别是TS，可能导致严重缩短的寿命。此外，身体组成的不利变化，在TS和KS中都很常见，特别是性腺功能减退，可能导致加速衰老——或者是其结果。

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来源期刊

Clinical Epigenetics ONCOLOGY-

自引率

5.30%

发文量

150

期刊介绍： Clinical Epigenetics, the official journal of the Clinical Epigenetics Society, is an open access, peer-reviewed journal that encompasses all aspects of epigenetic principles and mechanisms in relation to human disease, diagnosis and therapy. Clinical trials and research in disease model organisms are particularly welcome.