Many anthropogenic chemicals, most notably xeno-oestrogens, are known to
have the potential to disrupt vertebrate endocrine systems. Induction of the female-specific
protein vitellogenin (Vtg) in male fish, for example, is a well-known effect of
exposure to xeno-oestrogens and serves as a biomarker of such exposure. There have
been few comparable studies of putative biomarkers of endocrine disruption in
decapods. The current study aimed to establish if reproduction and development of two
decapods, the prawn, Palaemon elegans and the crab, Carcinus maenas, were affected
following exposure to known oestrogenic chemicals and whether a biomarker approach,
analogous to that for vertebrates, could be adopted. The xeno-oestrogen 4-n-nonylphenol
(4-NP) was acutely toxic to P. elegans (48h-LC5o, 34.3-96.1 µg Lˉ¹) and C.
maenas larvae (48h-LC50, 116-507.3 µg Lˉ¹
), with P. elegans among the most sensitive
species reported. Other than a small, but significant, increase in the mortality of P.
elegans larvae exposed to 4-NP at 2 µg Lˉ¹
, neither 4-NP nor the natural oestrogen, 17β-oestradiol
(E2) significantly affected growth, development or survival of P. elegans at
environmentally realistic concentrations (<0.2-20 µg Lˉ¹
). Similar results were obtained
with C. maenas larvae, but they must be viewed with caution as survival, including that
of the controls, was poor. Vitellin-like proteins were identified in the adults and larval
stages of both P. elegans and C. maenas using polyclonal antisera to lipovitellin and
apolipovitellin. Vtg was female-specific in both species and expression was restricted to
females undergoing vitellogenesis. No induction of Vtg was observed in males, from
either species, following laboratory exposure to E2, and 4-NP. Likewise, no Vtg was
detected in the haemolymph of male C. maenas which had been collected from sites
known to be contaminated with oestrogenic chemicals. The titres of the vitellin-like
proteins in P. elegans larvae, determined using an indirect ELISA, were significantly
affected, in a concentration-independent manner, following exposure to both E2 and 4-
NP. Exposure to 4-NP, at 0.2-20 µg Lˉ¹
, resulted in a 5-18% increase in the levels of
vitellin-like proteins. Exposure to E2, at 0.2 and 20 µg Lˉ¹ however, reduced levels by
up to 11%. Further development of the ELISA is required to assess comparable effects
in C. maenas larvae. Overall, while it remains questionable whether these effects result
from endocrine disruption, an oestrogen receptor-mediated effect is unlikely. Increased
mortality may have been due to toxic effects and no causal link has been established
between the parent/exposure compounds and the induced alterations in protein profiles.
This study emphasised the necessity for long term multi-faceted studies to determine the
real impacts of pollutants at distinct organisational levels.
Date of Award | 2004 |
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Original language | English |
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Awarding Institution | |
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BIOMARKERS OF XENO-OESTROGEN EXPOSURE IN DECAPOD CRUSTACEANS
SANDERS, M. B. (Author). 2004
Student thesis: PhD