Abstract
The potential for man-made chemicals to mimic or antagonise natural hormones is a controversial issue, but one for which increasing amounts of evidence are being gathered worldwide. The controversy surrounds not so much the matter of whether these chemicals can mimic hormones in vitro — this phenomenon has been widely accepted in the scientific world — but more whether, as a result, they can disrupt reproduction in a wildlife situation. It has, nevertheless, been acknowledged that many wildlife populations are exhibiting reproductive and/or developmental abnormalities such as intersex gonads in wild roach populations in the U.K.[1] and various reproductive disorders in alligators in Lake Apopka, Florida[2]. However, the causative agents for many of these effects are difficult to specify, due to the extensive mixtures of chemicals — each of which may act via different pathways — to which wild populations are exposed, together with the wide variability observed even in natural (uncontaminated) habitats. As a result, any information detailing fundamental mechanism of action of the so-called endocrine disrupting chemicals (EDCs) is of use in determining whether or not these chemicals, as they are present in the environment, may in fact be capable of causing some of the effects observed in wildlife over recent years.
Highlights
The potential for man-made chemicals to mimic or antagonise natural hormones is a controversial issue, but one for which increasing amounts of evidence are being gathered worldwide
A paper was recently published in Environmental Science and Technology providing evidence that an acknowledged xenoestrogen — 4-nonylphenol (NP) — can affect reproductive parameters in the brain of fish[3]
One of the most widely accepted biomarkers of oestrogen exposure in fish is the synthesis of vitellogenin, a yolk precursor which is normally only found in maturing/adult females, but can be induced in males and juvenile females in response to an estrogenic stimulus
Summary
The potential for man-made chemicals to mimic or antagonise natural hormones is a controversial issue, but one for which increasing amounts of evidence are being gathered worldwide. A paper was recently published in Environmental Science and Technology providing evidence that an acknowledged (and widespread) xenoestrogen — 4-nonylphenol (NP) — can affect reproductive parameters in the brain of fish[3].
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