人类功能性外分泌腺密度的变化及其对人类出汗进化的意义。
Variation in human functional eccrine gland density and its implications for the evolution of human sweating.
机构信息
Department of Biology, Massachusetts College of Liberal Arts, North Adams, Massachusetts, USA.
Department of Anthropology, University of Massachusetts, Amherst, Massachusetts, USA.
出版信息
Am J Biol Anthropol. 2023 Jul;181(3):379-391. doi: 10.1002/ajpa.24723. Epub 2023 Mar 10.
OBJECTIVES
We aim to test three questions regarding human eccrine sweat gland density, which is highly derived yet poorly understood. First, is variation in functional eccrine gland density ("FED") explained by childhood climate, suggesting phenotypic plasticity? Second, is variation in FED explained by genetic similarity (a proxy for "geographic ancestry"), implying divergent evolutionary pathways in this trait of ancestral populations? Third, what is the relationship between FED and sweat production?
MATERIALS AND METHODS
To test questions one and two, we measured FED in 68 volunteers aged 18-39 with varied childhood climate regimes and geographic ancestries. To test question three, we compared sweat production to FED in our n = 68 sample. In addition, we examined the relationship between FED and whole-body sweat loss during cycling in warm conditions using a sample of eight heat-acclimated endurance athletes.
RESULTS
Interindividual variation in six-site FED was more than twofold, ranging from 60.9 to 132.7 glands/cm . Variation in FED was best explained by body surface area and limb circumferences (negative associations) and poorly explained by childhood climatic conditions and genetic similarity. Pilocarpine-induced sweat production was unrelated to FED while whole-body sweat loss during cycling was significantly, though modestly, associated with FED.
DISCUSSION
We hypothesize that gland-level phenotypic plasticity, rather than changes in eccrine gland density, was sufficient to permit thermal adaptation to novel environments as humans colonized the globe. Future research should measure effects of FED in dehydrated states and the relationship between FED and salt loss, and control for effects of microclimate to rule out phenotypic plasticity effects.
目的
我们旨在检验三个关于人类外分泌汗腺密度的问题,尽管该密度高度特化但仍知之甚少。首先,功能性外分泌腺密度(“FED”)的变化是否由儿童时期的气候决定,这是否表明存在表型可塑性?其次,FED 的变化是否可以用遗传相似性(“地理祖先”的代理)来解释,这是否意味着该性状在祖先群体中存在不同的进化途径?第三,FED 与汗液分泌之间存在什么关系?
材料和方法
为了检验问题一和问题二,我们测量了 68 名年龄在 18 至 39 岁之间、具有不同儿童时期气候和地理起源的志愿者的 FED。为了检验问题三,我们在 68 名样本中比较了 FED 与汗液分泌之间的关系。此外,我们使用八名热适应耐力运动员的样本,研究了在温暖条件下进行自行车运动时 FED 与全身汗液流失之间的关系。
结果
六个部位 FED 的个体间差异超过两倍,范围从 60.9 到 132.7 个腺体/cm²。FED 的变化主要由体表面积和四肢周长(负相关)决定,而与儿童时期的气候条件和遗传相似性关系不大。毛果芸香碱诱导的汗液分泌与 FED 无关,而在自行车运动期间的全身汗液流失与 FED 呈显著但适度的相关。
讨论
我们假设,在人类殖民全球时,腺体水平的表型可塑性而不是外分泌腺密度的变化足以适应新环境的热适应。未来的研究应测量 FED 在脱水状态下的影响以及 FED 与盐丢失之间的关系,并控制小气候的影响以排除表型可塑性的影响。
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