TY - JOUR
T1 - Tricyclic hydrocarbon fluorene attenuates ventricular ionic currents and pressure development in the navaga cod
AU - Abramochkin, Denis V.
AU - Filatovab, Tatiana S.
AU - Kuzmin, Vladislav S.
AU - Voronkov, Yurij I.
AU - Kamkin, Andre
AU - Shiels, Holly A.
PY - 2023/9/1
Y1 - 2023/9/1
N2 - The release of polycyclic aromatic hydrocarbons (PAHs) into environment due to oil and diesel fuel spills is a serious threat to arctic fish populations. PAHs produce multiple toxic effects in fish, but disturbance of electrical and contractile activity of the heart seems to be the most negative effect. Our study was focused on the effects of fluorene, a tricyclic PAH partially resembling the well-investigated phenanthrene, on major ionic currents and action potential (AP) waveform in isolated ventricular myocytes and on contractile activity in isolated whole hearts of polar navaga cod (Eleginus nawaga). Among the studied currents, the repolarizing rapid delayed rectifier K+ current IKr demonstrated the highest sensitivity to fluorene with IC50 of 0.54 μM. The depolarizing inward currents, INa and ICaL, were inhibited with 10 μM fluorene by 20.2 ± 2.8 % and 27.9 ± 8.4 %, respectively, thereby being much less sensitive to fluorene than IKr. Inward rectifier IK1 current appeared to be insensitive to fluorene. While 3 μM fluorene strongly prolonged APs, 10 μM also slowed the AP upstroke. Resting membrane potential was not affected by any tested concentrations. In isolated heart experiments 10 μM fluorene caused modest depression of ventricular contractile activity. Thus, we have demonstrated that fluorene, a tricyclic PAH present in high quantities in crude oil, strongly impacts electrical activity with only slight effects on contractile activity in the heart of the polar fish, the navaga cod.
AB - The release of polycyclic aromatic hydrocarbons (PAHs) into environment due to oil and diesel fuel spills is a serious threat to arctic fish populations. PAHs produce multiple toxic effects in fish, but disturbance of electrical and contractile activity of the heart seems to be the most negative effect. Our study was focused on the effects of fluorene, a tricyclic PAH partially resembling the well-investigated phenanthrene, on major ionic currents and action potential (AP) waveform in isolated ventricular myocytes and on contractile activity in isolated whole hearts of polar navaga cod (Eleginus nawaga). Among the studied currents, the repolarizing rapid delayed rectifier K+ current IKr demonstrated the highest sensitivity to fluorene with IC50 of 0.54 μM. The depolarizing inward currents, INa and ICaL, were inhibited with 10 μM fluorene by 20.2 ± 2.8 % and 27.9 ± 8.4 %, respectively, thereby being much less sensitive to fluorene than IKr. Inward rectifier IK1 current appeared to be insensitive to fluorene. While 3 μM fluorene strongly prolonged APs, 10 μM also slowed the AP upstroke. Resting membrane potential was not affected by any tested concentrations. In isolated heart experiments 10 μM fluorene caused modest depression of ventricular contractile activity. Thus, we have demonstrated that fluorene, a tricyclic PAH present in high quantities in crude oil, strongly impacts electrical activity with only slight effects on contractile activity in the heart of the polar fish, the navaga cod.
KW - Arctic
KW - Pollution
KW - Fish
KW - Heart
KW - Action potential
KW - Calcium (Ca2+) current
KW - Sodium (Na+) current
KW - Potassium (K+) current
KW - Contractility
U2 - 10.1016/j.cbpc.2023.109736
DO - 10.1016/j.cbpc.2023.109736
M3 - Article
SN - 1532-0456
JO - Comparative Biochemistry and Physiology C
JF - Comparative Biochemistry and Physiology C
ER -