Sublethal doses of copper sulphate initiate deregulation of glial cytoskeleton, NF-kappa B and PARP expression in Capoeta umbla brain tissue
Date
2019Author
Kirici, M. and Nedzvetsky, V. S. and Agca, C. A. and Gasso, V. Y.
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Copper sulphate pentahydrate (CuSO4 center dot 5H(2)O) is widely used as
a pesticide not only in agricultural but in aquaculture farming as well.
Copper sulphate is a cheap chemical and able to contaminate the
environment, especially water sources, which is crucial for fish
harvesting and farming. The copper contamination in some areas is caused
over decades because this pesticide has long been used everywhere.
Copper ions inhibit invasive aquatic plants and many microorganisms but
contaminate soil and natural water resources. The family of
copper-containing chemicals is frequently used as algaecides in swimming
pools. Despite the high toxicity of copper ions for fish in freshwater
ponds, copper sulphate remains one of the prevalent pesticides in fish
farming everywhere. High cytotoxicity and accumulation of the copper
ions in sediments require study and calculation of the optimal dosage
for its use as an antiseptic agent which will not have a detrimental
effect on various tissue types of aquatic organisms. The main recognized
mechanism which accompanies the toxic effect of copper ions is the
generation of oxidative stress. Neural tissue cells are extremely
susceptible to oxidative damage and the functions of the CNS are
critical to the vitality of organisms. Glial cells maintain the
structure and many vital functions of neurons. The cytoskeleton glial
fibrillary acidic protein (GFAP), transcriptional nuclear factor
kappa-light-chain-enhancer of activated B cells (NF-kappa B) and
Poly(ADP-ribose) polymerase (PARP) are critical participants in a
cellular response to a toxic agent impact. As this takes place, it could
be applied in biomarking of heavy metal toxicity. In the presented
study, we investigated the effects of copper ions on PARP, NF-kappa B,
and GFAP expression in the Tigris scraper Capoeta umbla brain tissue.
For 96 hours the fish were exposed to copper sulphate at sublethal
concentrations, namely 1/2, 1/4 and 1/8 of the LD50 value. Western blot
analysis of GFAP and PARP was used to assess further effects in the
brain tissue. Every studied dose of copper significantly downregulated
the expression of GFAP after 72 hours of treatment. In spite of the
common increment in the GFAP content, 48 hours exposure to copper
initiated the upregulation of that cytoskeleton marker. Moreover,
treatment with copper sulphate induced several changes in the beta-actin
level, especially in the fish group treated for 72 hours. The observed
effect of copper in the fish brain evidences the unspecific toxic effect
of the copper ions in the brain tissue cells. The obtained results
demonstrated meaningful disturbance in the expression of transcriptional
factor NF-kappa B in the brain of the fish group exposed to copper. The
changes found in the fish brain indicate the dose-dependent effect in a
concentration range 185-740 mu g/L of copper sulphate during 72 hours.
However, the exposure to low dose of copper ions showed no effect in the
fish group treated for 24 hours. Comparative analyses of the PARP
content in the brain of fish exposed to copper for 72 hours was
significantly less than in the groups treated with copper for both 24
and 48 hours. Thus, the copper ions in the dose range 185-740 mu g/L can
suppress PARP expression in a time-dependent manner. The results showed
that copper ions could induce astroglial response accompanied by
modulations of NF-kappa B and PARP-1 expression.
The data obtained in this study suggest that copper sulphate has a
significant effect on astrogliosis and DNA damage in the fish brain.
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