T002 Source: Uniprot

enzymeSuccinate dehydrogenase (Complex II)
Chaperone Oxidoreductase
Full Name Succinate dehydrogenase
Subcellular Location Matrix side Mitochondrion inner membrane Mitochondrion matrix Multi-pass membrane protein Peripheral membrane protein
EC numbers 1.3.5.1

Compound Dose Time Species Model Method Result Positive criterion Reference
Thenoyltrifluoroacetone 25 μM rat liver mitochondria The reduction of ferricyanide by succinate cata-lyzed by SDH was monitored spectrophotometrically Positive 303
Ketoconazole 40-100 μM rat liver mitochondria The reduction of ferricyanide by succinate cata-lyzed by SDH was monitored spectrophotometrically Positive 303
Gentamicin 300 μg/ml 1hr postnatal day 6 (P6±1d) FVB mice apical turn ( low-frequency processing) outer hair cells (OHCs) from intact cochlear (organ of Corti) explants Succinate dehydrogenase (SDH) histochemistry (tetranitro-blue accumulation) Positive 312
Gentamicin 300 μg/ml 1hr postnatal day 6 (P6±1d) FVB mice apical turn ( low-frequency processing) outer hair cells (OHCs) from intact cochlear (organ of Corti) explants Succinate dehydrogenase (SDH) histochemistry (tetranitro-blue accumulation) Negative 312
Gentamicin 300 μg/ml 1hr postnatal day 6 (P6±1d) FVB mice basal turn(high-frequency regions of the cochlea) outer hair cells from intact cochlear (organ of Corti) explants Succinate dehydrogenase (SDH) histochemistry (tetranitro-blue accumulation) Positive 312
Gentamicin 300 μg/ml 1hr postnatal day 6 (P6±1d) FVB mice basal turn(high-frequency regions of the cochlea) outer hair cells from intact cochlear (organ of Corti) explants Succinate dehydrogenase (SDH) histochemistry (tetranitro-blue accumulation) Negative 312
Ciprofloxacin Positive 307
Gentamicin 17 mM rat isolated rat liver mitochondria Complex II activity was determined by following the reduction of DCPIP at 600 nm in the presence of 2 μM Antimycin A and 50 μM ubiquinone-2 Positive IC50 316
Thenoyltrifluoroacetone Positive 33
Acetaminophen Positive 35
paroxetine Positive 35
Tamoxifen Positive 35
Thenoyltrifluoroacetone Positive 35
atpenin a5 bovine heart mitochondria Positive 192
Carboxin bovine heart mitochondria Positive 192
Thenoyltrifluoroacetone bovine heart mitochondria Positive 192
HQNO bovine heart mitochondria Positive 192
atpenin a5 1.2 LUHMES (Lund human mesencephalic) cells Glc–Gal–NeuriTox assay Negative EC25(NA) [Glc/Gal] 326
citalopram pig brain mitochondria Positive 62
Carboxin 3.1 LUHMES (Lund human mesencephalic) cells Glc–Gal–NeuriTox assay Positive EC25(NA) [Glc/Gal] 326
Thifluzamide 2 LUHMES (Lund human mesencephalic) cells Glc–Gal–NeuriTox assay Negative EC25(NA) [Glc/Gal] 326
ethoxyformic anhydride Positive 70
flutolanil Positive 71
atpenin a5 Positive 71
Carboxin Positive 71
penthiopyrad Positive 71
boscalid Positive 71
fluopyram Positive 71
dinitrophenol-17 Positive 71
atpenin a5 Positive 72
thiophene carboxamides Positive 73
HQNO Positive 74
siccanin P. aeruginosa PAO1 cells Positive 76
cyenopyrafen Positive 77
pyflubumide Positive 77
3-Nitropropionate Positive 78
Malonate Positive 79
oxaloacetate Positive 79
malate Positive 79
citrate Positive 79
fumarate Positive 79
Amiodarone 50 μM bovine heart mitochondria Measurement of complex II + III activity Positive p < 0.001 3
Acetaminophen > 400 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Acetylsalicylic acid 149.8 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Benoxaprofen 50 μM bovine heart mitochondria Measurement of complex II + III activity Negative p < 0.05 3
alpidem 29.6 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Amantadine > 400 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Ambroxol > 200 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Amiodarone ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Bezafibrate 50 μM bovine heart mitochondria Measurement of complex II + III activity Negative p < 0.05 3
Antipyrine > 400 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Arsenic trioxide 0.9 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Biotin ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
lumiracoxib > 400 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Chlorpromazine 50 μM bovine heart mitochondria Measurement of complex II + III activity Positive p < 0.001 3
bisacodyl 52.5 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
estradiol acetate > 200 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Bupivacaine > 800 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Busulfan ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Dantrolene 50 μM bovine heart mitochondria Measurement of complex II + III activity Negative p < 0.05 3
Butein ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Caffeine > 400 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Capsaicin 15.7 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Cefixime 216.8 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Diclofenac 50 μM bovine heart mitochondria Measurement of complex II + III activity Negative p < 0.05 3
Chlorambucil 140.9 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Ciprofloxacin ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Clodronate 227.2 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Clotrimazole ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Fluconazole 50 μM bovine heart mitochondria Measurement of complex II + III activity Negative p < 0.05 3
curcumin > 200 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Daunorubicin 10.9 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Diflunisal ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Doxorubicin ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
gefitinib 50 μM bovine heart mitochondria Measurement of complex II + III activity Negative p < 0.05 3
Fluconazole 186.6 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Flufenamic Acid ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Flutamide ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
gefitinib ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Linezolid 50 μM bovine heart mitochondria Measurement of complex II + III activity Negative p < 0.05 3
genistein ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Glimepiride ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Gossypol ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Imatinib ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Metformin 50 μM bovine heart mitochondria Measurement of complex II + III activity Negative p < 0.05 3
Indomethacin ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Isoniazid ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Ibuprofen 132.1 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Lamivudine 317.4 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Nefazodone 50 μM bovine heart mitochondria Measurement of complex II + III activity Positive p < 0.01 3
Lonidamine ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Ketoconazole 2.9 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
lumiracoxib 12 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Manganese > 400 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
paroxetine 50 μM bovine heart mitochondria Measurement of complex II + III activity Positive p < 0.001 3
Mefenamic acid ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Metformin 351.8 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
lovastatin 6.2 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Mitomycin ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
pravastatin 50 μM bovine heart mitochondria Measurement of complex II + III activity Negative p < 0.05 3
Mitoxantrone ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Nicotine 312 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
nifuroxazide 3.7 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Nimesulide ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Primaquine 50 μM bovine heart mitochondria Measurement of complex II + III activity Negative p < 0.05 3
Nitrofurantoin 8.7 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Perhexiline 87.7 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Piroxicam 6.6 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
pravastatin ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
radicicol 50 μM bovine heart mitochondria Measurement of complex II + III activity Negative p < 0.05 3
propylparaben 28.4 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Pyrazinamide 190.9 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
resveratrol ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
riboflavin 182.8 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Rosiglitazone 50 μM bovine heart mitochondria Measurement of complex II + III activity Negative p < 0.05 3
rifampicin ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
ritonavir ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Salicylic acid 120.9 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Simvastatin ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Simvastatin 50 μM bovine heart mitochondria Measurement of complex II + III activity Positive p < 0.001 3
sorafenib ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Sulindac 35.6 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Tamoxifen ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Tolcapone ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Tamoxifen 50 μM bovine heart mitochondria Measurement of complex II + III activity Positive p < 0.001 3
Troglitazone 6 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Valproic Acid 44.9 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
trazodone 50 μM bovine heart mitochondria Measurement of complex II + III activity Negative p < 0.05 3
Trovafloxacin 50 μM bovine heart mitochondria Measurement of complex II + III activity Negative p < 0.05 3
Peroxynitrite 2mM, IC50=0.9mM rat heart mitochondria spectrophotometrically with DCPIP at 600nm Positive IC50 298
Tamoxifen 15 μM bovine heart mitochondria Measurement of complex II + III activity Positive IC50 3
Tamoxifen 30 μM bovine heart mitochondria Measurement of complex II + III activity Positive IC50 3
dexamethasone valerate > 200 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36
Diazoxide ND 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Negative EC20 36
Diclofenac 29.8 µM 60 mins mouse liver mitochondria Oxygen consumption was monitored with 50nM MitoXpress ( an oxygen-sensitive phosphorescent dye) using a spectrofluorimeter (Tecan Infinite 200; λExcitation 380nm; λEmission 650nm). Oligomycin A (1µM) was used as 100% baseline for complex II inhibition. Positive EC20 36