The possible protective role of quercetin on induced cardiac Oxidative DNA Damage by repeated exposure to diesel exhaust nanoparticles in rats (a histological and immunohistochemical study)
• 2017
Publication Information
Authors
Eman Mohammed Faruk1*, Aisha El Mansy1, Wardah Abdullah Mohammed Alasmari2 and Amal Mahmoud Elsafy Elshazly3
Keywords
Diesels exhaust particles, DNAdamage, quercetin, air pollution
Journal
Not Available
Publisher
Not Available
Volume
Not Available
Issue
Not Available
Pages
Not Available
publication.type
International
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
Diesel exhaust nanoparticles (DENPs) are gaseous exhaust and one component of particulate matter (PM)
air pollution which is found to cause health hazards in humans. Quercetin is widely known for its antioxidant
and antitoxic potential. We aimed todetect the protective effect of quercetin in DENP-induced cardio toxicity.
Fifty Malealbino rats were divided into two groups,first group (ten rats) divided into two equal subgroups
(one receive saline act as control and other receive quercetin,the second group (forty rats)divided equally
into two subgroups (one was treated with repeated doses of DENPs [90μg/ rat and 180μg/ rat for 6 days
intratracheally every two days] and other treated orally with quercetin (60 mg/kg B.Wt.) 1h prior to DENP
exposure,DNA damagewas examined by measureserum8-hydroxydeoguanosine (8-OHdG) levels followed by
histological and immunohistochemical studies for nuclear factor-kappa B(NF-κB) expression in heart tissues.
Tumor necrosis factor- alpha (TNFα), interleukin-6 (IL-6) and serum level 8-Ohd Gare significantly higher
in repeated doses of DENPs than the control group. Pretreatment with quercetin reduced significantly serum
level 8-OhdGwhen compared to DENPs group.Cardiac myocytes disruption, vacuolation, inflammation and
wide separation of its fibers in contrast to control group. Myocyteinflammations were significantly decreased
with quercetin group compared with control group (decrease NF-κBimmunostaining). The present work
yields experimentalevidence that quercetin can reduce oxidative DNA damage and inflammation induced by
DENPs, so suggested that quercetin possible cardioprotective effect against DENPs.
air pollution which is found to cause health hazards in humans. Quercetin is widely known for its antioxidant
and antitoxic potential. We aimed todetect the protective effect of quercetin in DENP-induced cardio toxicity.
Fifty Malealbino rats were divided into two groups,first group (ten rats) divided into two equal subgroups
(one receive saline act as control and other receive quercetin,the second group (forty rats)divided equally
into two subgroups (one was treated with repeated doses of DENPs [90μg/ rat and 180μg/ rat for 6 days
intratracheally every two days] and other treated orally with quercetin (60 mg/kg B.Wt.) 1h prior to DENP
exposure,DNA damagewas examined by measureserum8-hydroxydeoguanosine (8-OHdG) levels followed by
histological and immunohistochemical studies for nuclear factor-kappa B(NF-κB) expression in heart tissues.
Tumor necrosis factor- alpha (TNFα), interleukin-6 (IL-6) and serum level 8-Ohd Gare significantly higher
in repeated doses of DENPs than the control group. Pretreatment with quercetin reduced significantly serum
level 8-OhdGwhen compared to DENPs group.Cardiac myocytes disruption, vacuolation, inflammation and
wide separation of its fibers in contrast to control group. Myocyteinflammations were significantly decreased
with quercetin group compared with control group (decrease NF-κBimmunostaining). The present work
yields experimentalevidence that quercetin can reduce oxidative DNA damage and inflammation induced by
DENPs, so suggested that quercetin possible cardioprotective effect against DENPs.
Staff Members - Benha University