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Multi- and Transgenerational Effects of Environmental Toxicants on Mammalian Reproduction

Journal

CELLS
Volume 11, Issue 19, Pages -

Publisher

MDPI
DOI: 10.3390/cells11193163

Keywords

environmental toxicants; endocrine-disrupting compounds; fertility; reproduction; multigenerational effect; transgenerational effect; folliculogenesis; spermatogenesis; oocyte; sperm; epigenetic inheritance

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Funding

  1. Italian Ministry of University and Research (MUR): Dipartimenti di Eccellenza Program (2018-2022)-Department of Biology and Biotechnology L. Spallanzani, University of Pavia

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Environmental toxicants can have multigenerational effects on reproductive systems, impacting both exposed and unexposed individuals. Epigenetic mechanisms may play a crucial role in the non-genetic transmission of environmental information.
Environmental toxicants (ETs) are an exogenous chemical group diffused in the environment that contaminate food, water, air and soil, and through the food chain, they bioaccumulate into the organisms. In mammals, the exposure to ETs can affect both male and female fertility and their reproductive health through complex alterations that impact both gametogeneses, among other processes. In humans, direct exposure to ETs concurs to the declining of fertility, and its transmission across generations has been recently proposed. However, multi- and transgenerational inheritances of ET reprotoxicity have only been demonstrated in animals. Here, we review recent studies performed on laboratory model animals investigating the effects of ETs, such as BPA, phthalates, pesticides and persistent contaminants, on the reproductive system transmitted through generations. This includes multigenerational effects, where exposure to the compounds cannot be excluded, and transgenerational effects in unexposed animals. Additionally, we report on epigenetic mechanisms, such as DNA methylation, histone tails and noncoding RNAs, which may play a mechanistic role in a nongenetic transmission of environmental information exposure through the germline across generations.

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