Sullivan Jack, Nicholson Thomas, Hazeldine Jon, Moiemen Naiem, Lord Janet M
Inflammation and Ageing, University of Birmingham, Birmingham, UK.
Scar Free Foundation Centre for Conflict Wound Research, University Hospital Birmingham, Birmingham, UK.
Geroscience. 2025 Jan 16. doi: 10.1007/s11357-024-01433-4.
Individuals who suffer a major burn injury are at higher risk of developing a range of age-associated diseases prematurely leading to an increase in mortality in adult and juvenile burn injury survivors. One possible explanation is that injury is accelerating the biological ageing process. To test this hypothesis, we analysed DNA methylation in peripheral blood mononuclear cells from adult burn-injured patients (> 5%TBSA) upon admission to hospital and 6 months later, to calculate an epigenetic clock value which can be used to determine biological age. Fifty-three burn-injured participants (mean age 45.43 years, 49 male, mean TBSA 37.65%) were recruited at admission and 34 again 6 months post injury (mean age 40.4 years, 34 male, mean TBSA 30.91%). Twenty-nine healthy controls (mean age 43.69 years, 24 male) were also recruited. Epigenetic age acceleration at admission by PhenoAge was + 7.2 years (P = 8.31e-5) but by month 6 was not significantly different from healthy controls. PCGrimAge acceleration was + 9.23 years at admission (P = 5.79e-11) and remained 4.18 years higher than in controls by month 6 (P = 2.64e-6). At admission, the burn-injured participants had a Dunedin PACE of ageing score 31.65% higher than the control group (P = 2.14e-12), the equivalent of + 115 days per year of biological ageing. Six months post injury the Dunedin PACE of ageing remained significantly higher (+ 11.36%, 41 days/year) than in the control group (P = 3.99e-5). No differences were seen using the Horvath and Hannum clocks. Enrichment analysis revealed that key pathways enriched with burn injury related to immune function, activation, and inflammation. The results reveal that epigenetic age, specifically the PACE of ageing and PCGrimAge, was accelerated in burn-injured adults at admission, with some return towards control values by 6 months. That these two clocks are built upon morbidity outcomes suggests that the injury is invoking a biological response that increases the risk of disease. Burn injury in adults induces epigenetic changes suggestive of an acceleration of the ageing process, which may contribute to the increased morbidity and mortality in these patients.
遭受严重烧伤的个体过早患上一系列与年龄相关疾病的风险更高,这导致成年和青少年烧伤幸存者的死亡率增加。一种可能的解释是,损伤正在加速生物衰老过程。为了验证这一假设,我们分析了成年烧伤患者(>5%体表面积)入院时和6个月后的外周血单个核细胞中的DNA甲基化情况,以计算可用于确定生物年龄的表观遗传时钟值。入院时招募了53名烧伤参与者(平均年龄45.43岁,49名男性,平均体表面积37.65%),受伤6个月后再次招募了34名(平均年龄40.4岁,34名男性,平均体表面积30.91%)。还招募了29名健康对照者(平均年龄43.69岁,24名男性)。入院时PhenoAge表观遗传年龄加速为+7.2岁(P = 8.31e-5),但到第6个月时与健康对照者无显著差异。PCGrimAge加速在入院时为+9.23岁(P = 5.79e-11),到第6个月时仍比对照组高4.18岁(P = 2.64e-6)。入院时,烧伤参与者的达尼丁衰老PACE评分比对照组高31.65%(P = 2.14e-12),相当于每年生物衰老+115天。受伤6个月后,达尼丁衰老PACE仍显著高于对照组(+11.36%,每年41天)(P = 3.99e-5)。使用Horvath和Hannum时钟未发现差异。富集分析显示,与烧伤损伤相关的关键通路与免疫功能、激活和炎症有关。结果表明,表观遗传年龄,特别是衰老PACE和PCGrimAge,在成年烧伤患者入院时加速,到6个月时部分恢复到对照值。这两个时钟基于发病结果构建,表明损伤引发了一种增加疾病风险的生物反应。成人烧伤会诱导表观遗传变化,提示衰老过程加速,这可能导致这些患者发病率和死亡率增加。
