饮用水质量影响卵母细胞活力和胚胎发育。

IF 2.3 Q2 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH Frontiers in reproductive health Pub Date : 2024-08-06 eCollection Date: 2024-01-01 DOI:10.3389/frph.2024.1394099
Yasmyn E Winstanley, Macarena B Gonzalez, Eryk Andreas, Haley Connaughton, Jean Bergen, Miranda Ween, Darryl L Russell, Cameron J Shearer, Sarah A Robertson, Rebecca L Robker
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引用次数: 0

摘要

正常的生殖功能和生育能力被认为是 "第六生命体征",因为这一敏感的生理系统一旦受到破坏,就会预示其他健康问题,包括暴露于环境有毒物质。我们发现,在胚胎植入前和胎儿发育期间,雌性小鼠的胚胎会随着饮用水源的改变而大量减少。当向雌性小鼠提供的自来水来自它们居住的大楼(水源 2),而不是来自邻近大楼的自来水(水源 1)时,排卵的卵母细胞退化或减数分裂成熟受损,无法形成胚胎。即使经过一段恢复期,接触 2 号水的有害影响也无法逆转;不过,对 2 号水进行碳过滤后,有毒污染物被去除。对水的成分进行分析以确定有毒物质,结果发现微量元素的含量达到了预期水平,而邻苯二甲酸盐则检测不到。全氟和多氟烷基物质 (PFAS) 是一种持久性有机污染物,检测到的浓度为 4 ng/L。为了进一步研究,我们给雌性小鼠饮用了按 PFAS 污染水平(0.6 纳克/升、2.8 纳克/升或 4.4 纳克/升)分类的饮用水,为期 9 周。与饮用纯净 MilliQ 水的小鼠相比,饮用受 PFAS 污染的水的小鼠卵母细胞质量下降,胚胎发育受损,囊胚细胞数量减少。饮用水中的 PFAS 浓度与卵母细胞活力呈负相关。重要的是,在自来水中检测到的 PFAS 含量在目前的 "安全水平 "准则范围内,因此需要进一步研究来确定 PFAS 是否是造成所观察到的生殖毒性的原因。不过,这项研究表明,适合人类饮用的水会对哺乳动物胚胎发育产生有害影响,这对公共卫生和水质政策具有重要意义。
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Drinking water quality impacts oocyte viability and embryo development.

Normal reproductive function and fertility is considered a "sixth vital sign" because disruptions to this sensitive physiological system can forewarn other health issues, including exposure to environmental toxicants. We found that female mice exhibited profound loss of embryos during pre-implantation and fetal development coincident with a change to the source of their drinking water. When female mice were provided with tap water from the building in which they were housed (Water 2), instead of tap water from a neighboring building which was their previous supply (Water 1), ovulated oocytes were degenerated or had impaired meiotic maturation, and failed to form embryos. The harmful effects of Water 2 exposure were not reversible even following a recovery period; however, carbon-filtration of Water 2 removed the toxic contaminant. Water composition analysis to identify the responsible toxicant(s) found that trace elements were present at expected levels and phthalates were undetectable. Per- and Poly-fluoroalkyl Substances (PFAS), a family of persistent organic pollutants were detected at ∼4 ng/L. To investigate further, female mice were given drinking water categorized by level of PFAS contamination (0.6 ng/L, 2.8 ng/L, or 4.4 ng/L) for 9 weeks. Compared to mice consuming purified MilliQ water, mice consuming PFAS-contaminated water had decreased oocyte quality, impaired embryogenesis and reduced cell numbers in blastocysts. PFAS concentration in the drinking water was negatively correlated with oocyte viability. Importantly, the levels of PFAS detected in the tap water are within current "safe level" guidelines, and further research is needed to determine whether PFAS are responsible for the observed reproductive toxicity. However, this research demonstrating that water deemed suitable for human consumption has detrimental effects on mammalian embryo development has important implications for public health and water quality policies.

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