Data di Pubblicazione:
2016
Abstract:
Mancozeb (MCZ) is a dithiocarbamate, widely used in agriculture
as a fungicide. MCZ could determine immunotoxic and
hepatotoxic effects through the increase of reactive oxygen species
(ROS), which can induce peroxidation of biological molecules in the
liver, blood and bone marrow. Peroxidation of carbohydrates, proteins
and lipids determines the formation of new molecules that
can be used as oxidative stress biomarkers: respectively, advanced
glycation endproducts (AGE), advanced oxidation protein products
(AOPP), malondialdehyde (MDA).
Aim of the study is to determine the level of oxidative stress in
a population of workers professionally exposed to MCZ, measuring
the hematic concentration of ROS and using AGE, AOPP and MDA
as biomarkers of effect.
A cohort of 40 male subjects has been recruited. Quantitative
exposure was assessed by measuring the metabolite ethylenthiourea
(ETU) in LC/MS in a sample of urines collected at the end
of the work shift. Circulating levels of ROS, AGE, AOPP and MDA
were determined on serum samples through spectrophotometry
and fluorometry, using a multifunctional micro plate reader.
Levels of ETU (p < 0.5), ROS (p < 0.01), AOPP (p < 0.01) and MDA
(p < 0.05) resulted significantly increased in exposed subjects vs the
control group. On the other hand, MCZ exposure does not seem to
alter the concentration of AGE in the serum.
AOPP and ROS emerged as early markers of oxidative stress that
can be considered adequately sensitive in subjects exposed to MCZ.
Even if not very specific, these biomarkers confirm the hypothesis
that oxidative stress may be the main mechanism of toxicity of
MCZ.
as a fungicide. MCZ could determine immunotoxic and
hepatotoxic effects through the increase of reactive oxygen species
(ROS), which can induce peroxidation of biological molecules in the
liver, blood and bone marrow. Peroxidation of carbohydrates, proteins
and lipids determines the formation of new molecules that
can be used as oxidative stress biomarkers: respectively, advanced
glycation endproducts (AGE), advanced oxidation protein products
(AOPP), malondialdehyde (MDA).
Aim of the study is to determine the level of oxidative stress in
a population of workers professionally exposed to MCZ, measuring
the hematic concentration of ROS and using AGE, AOPP and MDA
as biomarkers of effect.
A cohort of 40 male subjects has been recruited. Quantitative
exposure was assessed by measuring the metabolite ethylenthiourea
(ETU) in LC/MS in a sample of urines collected at the end
of the work shift. Circulating levels of ROS, AGE, AOPP and MDA
were determined on serum samples through spectrophotometry
and fluorometry, using a multifunctional micro plate reader.
Levels of ETU (p < 0.5), ROS (p < 0.01), AOPP (p < 0.01) and MDA
(p < 0.05) resulted significantly increased in exposed subjects vs the
control group. On the other hand, MCZ exposure does not seem to
alter the concentration of AGE in the serum.
AOPP and ROS emerged as early markers of oxidative stress that
can be considered adequately sensitive in subjects exposed to MCZ.
Even if not very specific, these biomarkers confirm the hypothesis
that oxidative stress may be the main mechanism of toxicity of
MCZ.
Tipologia CRIS:
14.a.6 Abstract in rivista
Elenco autori:
Fenga, Concettina; Miozzi, Edoardo; Pace, Manuela; Gangemi, Silvia; Ravalli, Paolo; Miceli, Giuseppe; Catania, Stefania; Costa, Chiara
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