What Doesn't Kill You Makes You Stronger? Examining Relationships Between Early-Life Stress, Later-Life Inflammation and Mortality Risk in Skeletal Remains

IF 1.7 2区生物学 Q1 ANTHROPOLOGY

American Journal of Biological Anthropology Pub Date : 2025-02-05 DOI:10.1002/ajpa.70005

B. R. Wigley, E. C. Stillman, E. Craig-Atkins

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Abstract

Objectives

This paper explores conflicting perspectives on the adaptive significance of phenotypic plasticity during fetal and early postnatal development and the impact that stressors experienced during this critical early-life period have on later-life morbidity and mortality risk.

Methods

The sample (n = 216) comprised archeologically-recovered human skeletons. A geometric morphometric (GM) method was employed to evaluate first permanent molar (M1) fluctuating asymmetry (FA) and provide a proxy for early-life stress. Shifts in later-life physiology were inferred through two inflammatory lesions: periosteal new bone formation (PNBF) and periodontal disease (PD). To explore mortality risk, age-at-death was estimated through dental development for skeletally immature individuals (n = 104) and through senescent skeletal changes for mature skeletons (n = 112).

Results

Significant differences were found in M1 FA between groups, with the immature cohort associated with elevated FA. Within-group analysis revealed age-at-death in the immature group had a significant positive relationship with M1 FA and PD presence. In the mature group, alongside sex and the co-occurrence of PD and PNBF, FA was a significant predictor of a shorter life. Higher FA was also associated with active and bilaterally expressed PNBF.

Conclusions

It is theorized that early-life stress, if survived, programmed a hyperinflammatory response to environmentally-mediated physiological perturbations which increased the chances of survival during subsequent development but also elevated later-life mortality risk. Findings demonstrate a complicated relationship between developmental stress and physiological shifts that helps to illustrate the adaptive significance of early-life programming and support the Thrifty Phenotype hypothesis.

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什么杀不死你，让你更强大？研究早期生活压力、晚年炎症和骨骼遗骸死亡风险之间的关系

目的探讨胎儿和出生后早期发育过程中表型可塑性的适应性意义，以及在生命早期这一关键时期所经历的应激源对后期发病率和死亡率风险的影响。方法216具考古发现的人骨标本。采用几何形态测量（GM）方法评估第一恒磨牙（M1）波动不对称性（FA），并提供早期应激的替代指标。通过两种炎性病变：骨膜新骨形成（PNBF）和牙周病（PD）来推断晚年生理学的变化。为了探索死亡风险，通过骨骼未成熟个体（n = 104）的牙齿发育和成熟骨骼（n = 112）的衰老骨骼变化来估计死亡年龄。结果两组间M1 FA存在显著差异，未成熟队列与FA升高相关。组内分析显示，未成熟组死亡年龄与M1 FA和PD存在显著正相关。在成熟组中，FA与性别以及PD和PNBF的共同发生一起是寿命较短的重要预测因子。高FA也与活性和双侧表达的PNBF相关。从理论上讲，早期生活压力，如果存活下来，编程对环境介导的生理扰动的高炎症反应，这增加了在随后的发育中生存的机会，但也增加了晚年死亡的风险。研究结果表明，发育压力和生理变化之间存在复杂的关系，这有助于阐明生命早期编程的适应性意义，并支持节俭表型假说。

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来源期刊

American Journal of Biological Anthropology

CiteScore

4.80

自引率

0.00%

发文量