Andrew Byers scite author profile

Adverse temporal trends in human semen quality and cryptorchidism in infants have been associated with exposure to environmental chemicals (ECs) during development. Here we report that a population of breeding dogs exhibit a 26 year (1988–2014) decline in sperm quality and a concurrent increased incidence of cryptorchidism in male offspring (1995–2014). A decline in the number of males born relative to the number of females was also observed. ECs, including diethylhexyl phthalate (DEHP) and polychlorinated bisphenol 153 (PCB153), were detected in adult dog testes and commercial dog foods at concentrations reported to perturb reproductive function in other species. Testicular concentrations of DEHP and PCB153 perturbed sperm viability, motility and DNA integrity in vitro but did not affect LH stimulated testosterone secretion from adult testis explants. The direct effects of chemicals on sperm may therefore contribute to the decline in canine semen quality that parallels that reported in the human.

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The dog as a sentinel species for environmental effects on human fertility

Sumner

Harris

Mescht

et al. 2020

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Despite the vast body of evidence that environmental toxicants adversely affect reproductive development and function across species, demonstrating true cause and effect in the human remains a challenge. Human meta-analytical data, showing a temporal decline in male sperm quality, are paralleled by a single laboratory study showing a similar 26-year decline in the dog, which shares the same environment. These data are indicative of a common cause. Environmental chemicals (ECs) detected in reproductive tissues and fluids induce similar, short term, adverse effects on human and dog sperm. Both pre- and post-natal stages of early life development are sensitive to chemical exposures and such changes could potentially cause long term effects in the adult. The environmental ‘pollutome’ (mixtures of ECs) is determined by industrialisation, atmospheric deposition and bioaccumulation and characterises real-life exposure. In Arctic ecosystems, dietary and non-dietary chemical contaminants are detectable in biological tissues and linked with adverse health effects in both dogs and their handlers. In the female, such exposure could contribute to disorders such as ovarian insufficiency, dysregulated follicle development, ovarian cancer, and polycystic ovarian syndrome. In the dog, ovarian chemical concentrations are greater in the testis. In addition, preliminary studies indicate that dietary exposures may influence the sex ratio in the offspring in favour of females. Within this article, we review current knowledge on chemical effects on human reproduction and suggest that the dog, as a sentinel species for such effects, is an essential tool for addressing critical data gaps in this field.

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Effects of Exposure to Environmental Chemicals During Pregnancy on the Development of the Male and Female Reproductive Axes

Bellingham

Fiandanese²,

Byers³

et al. 2012

Reprod Domestic Animals

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Contents There is a large body of literature describing effects of environmental chemicals (ECs), many of them anthropogenic with endocrine‐disrupting properties, on development in rodent laboratory species, some of which lead to impaired reproduction and adverse health. This literature joins extensive human epidemiological data and opportunistic wildlife findings on health effects of ECs. In contrast, the effect of endocrine disruption on foetal development and reproductive performance in domestic species is less extensively documented. This applies both to domestic farm and to companion species even though the former is critical to food production and the latter share our homes and many aspects of the modern developed human lifestyle. In domestic species, the nature of chemicals exposure in utero and their consequences for animal health and production are poorly understood. A complication in our understanding is that the pace of development, ontogeny and efficiency of foetal and maternal hepatic and placental activity differs between domestic species. In many ways, this reflects the difficulties in understanding human exposure and consequences of that exposure for the foetus and subsequent adult from epidemiological and largely rodent‐based data. It is important that domestic species are included in research into endocrine disruption because of their (i) wide variety of exposure to such chemicals, (ii) greater similarity of many developmental processes to the human, (iii) economic importance and (iv) close similarities to developed world human lifestyle in companion species.

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Environmental chemicals in dog testes reflect their geographical source and may be associated with altered pathology

Sumner

Byers

Zhang

et al. 2021

Sci Rep

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In humans and dogs, a temporal decline in semen quality and increased incidence of testicular cancer is hypothesised to be associated with exposure to anthropogenic chemicals, particularly during fetal development. Human studies suggest that differential exposures to environmental chemicals may be associated with geographical differences in male reproductive health. Here we investigate testicular chemical profiles and pathologies in dogs residing in the UK [West Midlands (WM), East Midlands (EM), South East (SE)], Denmark (Copenhagen) and Finland (Vantaa). Testes, surplus from routine castrations, contained region specific differences in relative concentrations of diethylhexyl phthalate (DEHP), polybrominated diphenyl ethers (PBDE) and polychlorinated biphenyls (PCB). Relative to UK regions, testes from dogs living in Finland and Denmark had higher concentrations of PBDE and lower concentrations of DEHP and PCBs. Regional differences in the UK in PCB concentrations were also observed. Dog testes from Finland had fewer pathologies, reduced testicular area stained for Sertoli and germ cells and evidence of reduced cellular proliferation. Since the geographical differences in testis pathologies in dogs parallel reports of regional differences in human testicular cancer, we postulate that this may reflect chemical effects within the testis and that this may be related to environmental influences on male reproductive function.

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Endocrine disruptors and ovine reproductive development

Lea¹,

Byers²,

Bellingham³

et al. 2019

Proc

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Declining fertility and perturbations in reproductive development in a variety of species have been linked to exposure to endocrine disrupting chemicals (EDCs), which are ubiquitous in the environment. Ruminants are largely exposed to such chemicals in sewage sludge fertiliser widely used in animal production systems. This has been investigated experimentally through the deliberate exposure of pregnant ewes to sewage sludge fertilised pastures or control pastures treated with inorganic fertiliser containing no detectable EDCs. Perturbations in the developing fetal hypothalamic-pituitary-gonadal axis have been observed in both male and female fetuses. A sub-population of rams exposed both pre-and post-natally exhibited adversely altered testis development. Periods of developmental sensitivity to EDCs have also been identified. An in vitro culture system for ovine fetal ovaries has shown that mixtures have a greater effect than individual chemicals. The dog provides a sentinel model of human dietary exposure to chemicals in ruminant-derived food products. Evidence of altered fertility and testicular cancer, along with EDC detection in dog testes and pet foods, support this concept. Established rodent models of EDC exposure provide a means to investigate mechanisms and transgenerational effects. Overall, monitoring and in vitro studies carried out in sentinel species and on human tissues, combined with in vivo mechanistic studies carried out in ruminants and rodents, provides a clear picture of the global impact of EDCs on reproductive development. In particular, the ovine model of sewage sludge exposure provides the only currently available "real life" model of exposure to a cocktail of EDCs.

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Andrew Byers

Environmental chemicals impact dog semen quality in vitro and may be associated with a temporal decline in sperm motility and increased cryptorchidism

The dog as a sentinel species for environmental effects on human fertility

Effects of Exposure to Environmental Chemicals During Pregnancy on the Development of the Male and Female Reproductive Axes

Environmental chemicals in dog testes reflect their geographical source and may be associated with altered pathology

Endocrine disruptors and ovine reproductive development

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