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النطاق السنوي
1.
Yao Xue Xue Bao ; (12): 1859-1864, 2017.
مقالة ي صينى | WPRIM | ID: wpr-779798

الملخص

This study was conducted to establish an in vitro 3D liver model and apply it to the drug liver toxicity evaluation. The 3D multicellular sphere model of HepaRG cells was established by hanging-drop technique for evaluation of liver function. The 3D liver model was used to test the hepatotoxicity of isoniazid and amiodarone hydrochloride compared to the 2D cell culture model. Our results showed that HepaRG cells formed a compact spheriod, and the level of cell albumin, urea and the CYP3A4 activity were significantly higher than that of 2D model. With the treatment of amiodarone hydrochloride in 2D and 3D model, the IC50 were 50 and 100 μmol·L-1, respectively. When the dose was less than 1 000 μmol·L-1, isoniazid had no hepatocyte toxicity in 2D model, while the IC50 in 3D model was 700 μmol·L-1. The LDH activities of both drugs in 3D model showed time-and dose-dependent correlation. The results suggest that this in vitro 3D hanging-drop liver model is good for testing liver functions with a high hepatic drug-metabolizing enzyme activity. Compared with the 2D model, the 3D liver model can accurately evaluate the liver toxicity of drugs. Our results demonstrated the importance of in vitro cell culture models for detection of in vivo-relevant adverse effects of drugs.

2.
Sheng Li Xue Bao ; (6): 407-414, 2010.
مقالة ي الانجليزية | WPRIM | ID: wpr-337733

الملخص

Considering that α-1 repeat region may be involved in the ion binding and translocation of Na(+)-Ca(2+) exchanger (NCX), it is possible that the antibodies against NCX α-1 repeat may have a crucial action on NCX activity. The aim of the present study is to investigate the effect of antibody against α-1 repeat (117-137), designated as α-1(117-137), on NCX activity. The antibody against the synthesized α-1(117-137) was prepared and affinity-purified. Whole-cell patch clamp technique was used to study the change of Na(+)-Ca(2+) exchange current (I(Na/Ca)) in adult rat cardiomyocytes. To evaluate the functional specificity of this antibody, its effects on L-type Ca(2+) current (I(Ca,L)), voltage-gated Na(+) current (I(Na)) and delayed rectifier K(+) current (I(K)) were also observed. The amino acid sequences of α-1(117-137) in NCX and residues 1 076-1 096 within L-type Ca(2+) channel were compared using EMBOSS Pairwise Alignment Algorithms. The results showed that outward and inward I(Na/Ca) were decreased by the antibody against α-1(117-137) dose-dependently in the concentration range from 10 to 160 nmol/L, with IC(50) values of 18.9 nmol/L and 22.4 nmol/L, respectively. Meanwhile, the antibody also decreased I(Ca,L) in a concentration-dependent manner with IC(50) of 22.7 nmol/L. No obvious effects of the antibody on I(Na) and I(K) were observed. Moreover, comparison of the amino acid sequences showed there was 23.8% sequence similarity between NCX α-1(117-137) and residues 1 076-1 096 within L-type Ca(2+) channel. These results suggest that antibody against α-1(117-137) is a blocking antibody to NCX and can also decrease I(Ca,L) in a concentration-dependent manner, while it does not have obvious effects on I(Na) and I(K).


الموضوعات
Animals , Rats , Amino Acid Sequence , Antibodies, Blocking , Metabolism , Pharmacology , Calcium Channel Blockers , Pharmacology , Calcium Channels, L-Type , Genetics , Allergy and Immunology , Metabolism , Guinea Pigs , Membrane Potentials , Molecular Sequence Data , Myocytes, Cardiac , Metabolism , Physiology , Patch-Clamp Techniques , Rats, Wistar , Sodium-Calcium Exchanger , Genetics , Allergy and Immunology
3.
Sheng Li Xue Bao ; (6): 225-231, 2006.
مقالة ي صينى | WPRIM | ID: wpr-265461

الملخص

Neuropeptide Y (NPY) co-exists with norepinephrine (NE) in sympathetic terminals, and is the most abundant neuropeptide in myocardium. Many studies have focused on the effects of NE on ion channels in cardiac myocytes and its physiological significance has been elucidated relatively profoundly. There have been few investigations, however, on the physiological significance of NPY in myocardium. The effects of NPY on L-type Ca2+ channel currents (I(Ca-L)) were evaluated in some studies and different results were presented, which might be attributed to the different species of animal tested and different methods used. It is necessary, therefore, to study the effects of NPY on ion channels in cardiac myocytes systematically and further to discuss the biological significance of their coexistence with NE in sympathetic terminals. The single ventricular myocytes from adult rat or guinea pig (only for measuring I(K)) were prepared using enzymatic dispersion. I(Ca-L), I(to), I(Na/Ca), I(Na) and I(K) in the cellular membrane were observed using whole cell voltage-clamp recording. In the present study, NPY from 1.0 to 100 nmol/L dose-dependently inhibited I(Ca-L) (P<0.01, n=5). The maximal rate of inhibition in this study reached 39% and IC(50) was 1.86 nmol/L. NPY had no effect on the voltage-dependence of calcium current amplitude and on the voltage-dependence of the steady-state gating variables. I(Ca-L) was activated at -30 mV, reaching the maximum at 0 mV. When both NE and NPY were applied with a concentration ratio of 500:1, 10 nmol/L NPY inhibited I(Ca-L) that had been increased by 5 mumol/L NE, which was consistent with the effect of NPY only on I(Ca-L). NPY also inhibited I(Na/Ca). At a concentration of 10 nmol/L, NPY inhibited inward and outward I(Na/Ca) from (0.27+/-0.11) pA/pF and (0.45+/-0.12) pA/pF to (0.06+/-0.01) pA/pF and (0.27+/-0.09) pA/pF, respectively (P<0.05, n=4). NPY at 10 nmol/L increased I(to) from (12.5+/-0.70) pA/pF to (14.7+/-0.59) pA/pF(P<0.05, n=4). NPY at 10 nmol/L did not affect I(Na) in rat myocytes and I(K) in guinea pig myocytes. NPY increased the speed of action potential depolarization and reduced action potential duration of I(Ca-L), I(Na/Ca) and I(to), which contributed to the reduction of contraction. These results indicate that the effects of NPY are opposite to the effects of NE on ion channels of cardiac myocytes.


الموضوعات
Animals , Female , Male , Rats , Calcium Channel Blockers , Pharmacology , Calcium Channels, L-Type , Guinea Pigs , Heart Ventricles , Cell Biology , Ion Channels , Myocytes, Cardiac , Metabolism , Neuropeptide Y , Pharmacology , Norepinephrine , Patch-Clamp Techniques , Rats, Wistar , Sodium-Calcium Exchanger
4.
Sheng Li Xue Bao ; (6): 476-480, 2004.
مقالة ي الانجليزية | WPRIM | ID: wpr-352748

الملخص

To study the inotropic effect of enhanced Na(+)-Ca(2+) exchange in the rat papillary muscles and isolated heart, the developed tension in the rat papillary muscles was measured and the left ventricular functions were assessed in the isolated rat heart. E-4031, a selective activator for Na(+)-Ca(2+) exchange in rats, concentration-dependently increased the developed contractile tension in the rat papillary muscles (P<0.05, n=6) and the left ventricular functions in the isolated heart; KB-R7943, a selective Na(+)-Ca(2+) exchange inhibitor, exhibited opposite effect. A combination of 0.5 micromol/L ouabain and 3.0 micromol/L E-4031 resulted in a potentiation of the developed contractile tension of the rat papillary muscles from 0.25+/-0.03 g to 0.29+/-0.04 g. The combination also enhanced the augmentation of the left ventricular functions induced by ouabain. These results indicate that E-4031 exerts a positive inotropic effect on the rat papillary muscles and isolated heart via increasing the activity of Na(+)-Ca(2+) exchange, and potentiates the positive inotropic effects of ouabain.


الموضوعات
Animals , Female , Male , Rats , Cardiotonic Agents , Pharmacology , Heart Ventricles , Cell Biology , In Vitro Techniques , Membrane Potentials , Myocardial Contraction , Physiology , Myocytes, Cardiac , Metabolism , Ouabain , Pharmacology , Papillary Muscles , Physiology , Patch-Clamp Techniques , Rats, Wistar , Sodium Channels , Metabolism , Sodium-Calcium Exchanger , Physiology
5.
Sheng Li Xue Bao ; (6): 301-305, 2004.
مقالة ي الانجليزية | WPRIM | ID: wpr-352777

الملخص

Calcium sensitizers exert positive inotropic effects without increasing intracellular Ca(2+). Thus, they avoid the undesired effects of Ca(2+) overload such as arrhythmias and cell injury, but most of them may impair myocyte relaxation. However, MCI-154, also a calcium sensitizer, has no impairment to cardiomyocyte relaxation. To clarify the underlying mechanisms, we examined the effects of MCI-154 on Ca(2+) transient and cell contraction using ion imaging system, and its influence on L-type Ca(2+) current and Na(+)/ Ca(2+) exchange current with patch clamp technique in rat ventricular myocytes as well. The results showed that: (1) MCI-154 (1-100 micromol/L) had no effect on L-type Ca(2+) current; (2) MCI-154 concentration-dependently increased cell shortening from 5.00+/-1.6 microm of control to 6.2+/-1.6 microm at 1 micromol/L, 8.7+/-1.6 microm at 10 micromol/L and 14.0+/-1.4 microm at 100 micromol/L, respectively, with a slight increase in Ca(2+) transient amplitude and an abbreviation of Ca(2+) transient restore kinetics assessed by time to 50% restore (TR(50)) and time to 90% restore (TR(90)); (3) MCI-154 dose-dependently increased the electrogenic Na(+)/ Ca(2+) exchange current both in the inward and the outward directions in rat ventricular myocytes. These results indicate that MCI-154 exerted a positive inotropic action without impairing myocyte relaxation. The stimulation of inward Na(+)/ Ca(2+) exchange current may accelerate the Ca(2+) efflux, leading to abbreviations of TR(50) and TR(90) in rat myocytes. The findings suggest that the improvement by MCI-154 of myocyte relaxation is attributed to the forward mode of Na(+)/ Ca(2+) exchange.


الموضوعات
Animals , Rats , Calcium , Physiology , Calcium Channels, L-Type , Calcium Signaling , Cardiotonic Agents , Pharmacology , Cell Separation , Cells, Cultured , Dose-Response Relationship, Drug , Heart Ventricles , Cell Biology , Myocardial Contraction , Myocytes, Cardiac , Cell Biology , Metabolism , Patch-Clamp Techniques , Pyridazines , Pharmacology , Rats, Wistar , Sodium-Calcium Exchanger , Physiology
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