新生儿的表观遗传特征与青春期肺功能和青春期哮喘的发生有关。

IF 2.5 Q3 GENETICS & HEREDITY Epigenomes Pub Date : 2024-03-22 DOI:10.3390/epigenomes8020012
Mohammad Nahian Ferdous Abrar, Yu Jiang, Hongmei Zhang, Liang Li, Hasan Arshad
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引用次数: 0

摘要

新生儿 DNA 甲基化(DNAm)与青春期哮喘(AA)之间存在关联。肺功能(LF)已被证明与哮喘风险及其严重程度有关。然而,LF 在 DNAm 与 AA 关联中的作用尚不清楚,DNAm 与 AA 的关联是否与 DNAm 和 LF 的关联一致也不得而知。我们通过评估青春期前 LF 和青春期 AA 的新生儿表观遗传特征及其生物学途径和过程来解决这一问题。我们研究的主要医学意义在于推进对哮喘早期起源的了解。通过研究新生儿的表观遗传标记及其与青春期前肺功能的关系,我们旨在发现哮喘风险的潜在早期生物标记。这将有助于早期检测和干预策略的制定。此外,探索将早期肺功能与日后哮喘发展联系起来的生物通路,可以深入了解该疾病的发病机理,从而有可能找到新的治疗目标:研究以怀特岛出生队列(IOWBC)为基础。研究以怀特岛出生队列(IOWBC)为基础,纳入了出生时有 DNAm 数据且 10 岁时无哮喘的女性受试者(n = 249)。应用 R 软件包 ttScreening 分别鉴定与 10 至 18 岁 AA 和 10 岁 LF(FEV1、FVC 和 FEV1/FVC)可能相关的 CpGs。我们通过 R 函数 gometh 检验了 AA 和 LF 之间已识别 CpGs 的一致性及其生物学途径和过程。我们在一个独立的队列--雅芳父母与子女纵向研究(ALSPAC)--中对研究结果进行了测试,以检验整体的可复制性:在 IOWBC 中,检测到与 AA 相关的 DNAm CpGs 有 292 个,与 LF 相关的 CpGs 有 1517 个(FEV1 有 514 个,FVC 有 436 个,FEV1/FVC 有 408 个),AA 和 LF 之间有一个重叠的 CpG,即 cg23642632(NCKAP1)。在 IOWBC 确定的 CpGs 中,我们进一步在 ALSPAC 中进行了检测,观察到两个队列在 FVC 的关联方向和统计学意义方面的一致性最高。表观遗传富集分析表明,AA 和 LF 之间的生物通路和过程存在非特异性联系:本研究表明,FEV1、FVC 和 FEV1/FVC(作为 LF 的客观测量指标)和 AA(哮喘发病率)在出生时可能有各自特定的表观遗传学特征和生物学途径。为了充分了解DNAm、肺功能和哮喘发生之间的复杂性,我们需要进行更多的重复研究。
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Epigenetic Features in Newborns Associated with Preadolescence Lung Function and Asthma Acquisition during Adolescence.

The association between newborn DNA methylation (DNAm) and asthma acquisition (AA) during adolescence has been suggested. Lung function (LF) has been shown to be associated with asthma risk and its severity. However, the role of LF in the associations between DNAm and AA is unclear, and it is also unknown whether the association between DNAm and AA is consistent with that between DNAm and LF. We address this question through assessing newborn epigenetic features of preadolescence LF and of AA during adolescence, along with their biological pathways and processes. Our study's primary medical significance lies in advancing the understanding of asthma's early life origins. By investigating epigenetic markers in newborns and their association with lung function in preadolescence, we aim to uncover potential early biomarkers of asthma risk. This could facilitate earlier detection and intervention strategies. Additionally, exploring biological pathways linking early lung function to later asthma development can offer insights into the disease's pathogenesis, potentially leading to novel therapeutic targets.

Methods: The study was based on the Isle of Wight Birth cohort (IOWBC). Female subjects with DNAm data at birth and with no asthma at age 10 years were included (n = 249). The R package ttScreening was applied to identify CpGs potentially associated with AA from 10 to 18 years and with LF at age 10 (FEV1, FVC, and FEV1/FVC), respectively. Agreement in identified CpGs between AA and LF was examined, along with their biological pathways and processes via the R function gometh. We tested the findings in an independent cohort, the Avon Longitudinal Study of Parents and Children (ALSPAC), to examine overall replicability.

Results: In IOWBC, 292 CpGs were detected with DNAm associated with AA and 1517 unique CpGs for LF (514 for FEV1, 436 for FVC, 408 for FEV1/FVC), with one overlapping CpG, cg23642632 (NCKAP1) between AA and LF. Among the IOWBC-identified CpGs, we further tested in ALSPAC and observed the highest agreement between the two cohorts in FVC with respect to the direction of association and statistical significance. Epigenetic enrichment analyses indicated non-specific connections in the biological pathways and processes between AA and LF.

Conclusions: The present study suggests that FEV1, FVC, and FEV1/FVC (as objective measures of LF) and AA (incidence of asthma) are likely to have their own specific epigenetic features and biological pathways at birth. More replications are desirable to fully understand the complexity between DNAm, lung function, and asthma acquisition.

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来源期刊
Epigenomes
Epigenomes GENETICS & HEREDITY-
CiteScore
3.80
自引率
0.00%
发文量
38
审稿时长
11 weeks
期刊最新文献
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