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Difference between revisions of "Opalka 2002 Biochem Pharmacol"

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{{Publication
{{Publication
|title=Opalka JR, Gellerich FN, Kling L, Müller-Beckmann B, Zierz S (2002) Effect of the new matrix metalloproteinase inhibitor RO-28-2653 on mitochondrial function. Biochem. Pharmacol. 63: 725-732.
|title=Opalka JR, Gellerich FN, Kling L, Müller-Beckmann B, Zierz S (2002) Effect of the new matrix metalloproteinase inhibitor RO-28-2653 on mitochondrial function. Biochem Pharmacol 63:725-32.
|authors=Opalka JR, Gellerich FN, Kling L, Müller-Beckmann B, Zierz S
|info=[http://www.ncbi.nlm.nih.gov/pubmed/11992641 PMID: 11992641]
|authors=Opalka JR, Gellerich FN, Kling L, Mueller-Beckmann B, Zierz S
|year=2002
|year=2002
|journal=Biochem. Pharmacol.
|journal=Biochem Pharmacol
|abstract=Matrix metalloproteinases (MMPs) have recently become interesting as potential anticancer drugs. RO-28-2653 is a promising compound because of its antimetastatic and antiangiogenic activities. Due to the structural similarity of RO-28-2653 to mitochondriotoxic agents, speculation has arisen that this substance might impair mitochondrial function. We, therefore, investigated the effects of RO-28-2653 on mitochondrial enzymes and on the functional properties of isolated mitochondria and skinned muscle fibers from rat hearts. Results were compared to the action of amytal and 2,4-dinitrophenol (2,4-DNP), both of which are well documented mitochondriotoxic compounds. In contrast to 2,4-DNP, RO-28-2653 did not uncouple oxidative phosphorylation, although higher concentrations of the compound did impair mitochondrial function. Using malate/pyruvate as substrate, 50 μM of RO-28-2653 inhibited mitochondrial respiration in isolated mitochondria and skinned fibers by 23 and 11%, respectively while 2 mM of amytal elicited almost complete inhibition of the mitochondrial respiration. RO-28-2653 (50 μM) inhibited succinate-dependent respiration in both systems by 43 and 24%, respectively while 2 mM of amytal caused 41 and 23% inhibition, respectively. There was no change in the ADP/O ratios. RO-28-2653 (50 μM) did not significantly alter the activity of the respiratory chain complexes or succinate dehydrogenase, although citrate synthase (CS) was inhibited by upto 71%. This inhibition was non-competitive at a Ki of 25±5 μM. Inhibitory effects in the presence of hydrophobic substances, such as BSA and Triton X-100, were significantly lower in both test systems. In conclusion, high concentrations of RO-28-2653 impair mitochondrial function, although compared to amytal and 2,4-DNP, this is rather low. The resultant impairment is less pronounced in the more complex skinned muscle fiber system, and is dependent on hydrophobic interactions.
|abstract=Matrix metalloproteinases (MMPs) have recently become interesting as potential anticancer drugs. RO-28-2653 is a promising compound because of its antimetastatic and antiangiogenic activities. Due to the structural similarity of RO-28-2653 to mitochondriotoxic agents, speculation has arisen that this substance might impair mitochondrial function. We, therefore, investigated the effects of RO-28-2653 on mitochondrial enzymes and on the functional properties of isolated mitochondria and skinned muscle fibers from rat hearts. Results were compared to the action of amytal and 2,4-dinitrophenol (2,4-DNP), both of which are well documented mitochondriotoxic compounds. In contrast to 2,4-DNP, RO-28-2653 did not uncouple oxidative phosphorylation, although higher concentrations of the compound did impair mitochondrial function. Using malate/pyruvate as substrate, 50 μM of RO-28-2653 inhibited mitochondrial respiration in isolated mitochondria and skinned fibers by 23 and 11%, respectively while 2 mM of amytal elicited almost complete inhibition of the mitochondrial respiration. RO-28-2653 (50 μM) inhibited succinate-dependent respiration in both systems by 43 and 24%, respectively while 2 mM of amytal caused 41 and 23% inhibition, respectively. There was no change in the ADP/O ratios. RO-28-2653 (50 μM) did not significantly alter the activity of the respiratory chain complexes or succinate dehydrogenase, although citrate synthase (CS) was inhibited by upto 71%. This inhibition was non-competitive at a Ki of 25±5 μM. Inhibitory effects in the presence of hydrophobic substances, such as BSA and Triton X-100, were significantly lower in both test systems. In conclusion, high concentrations of RO-28-2653 impair mitochondrial function, although compared to amytal and 2,4-DNP, this is rather low. The resultant impairment is less pronounced in the more complex skinned muscle fiber system, and is dependent on hydrophobic interactions.
|keywords=2,4-Dinitrophenol, Amytal,  Matrix metalloproteinases, Rat heart mitochondria, RO-28-2653
|keywords=2,4-Dinitrophenol, Amytal,  Matrix metalloproteinases, Rat heart mitochondria, RO-28-2653
|mipnetlab=DE Magdeburg Gellerich FN
|mipnetlab=DE Magdeburg Gellerich FN, AT Innsbruck Oroboros
|discipline=Pharmacology; Biotechnology
|discipline=Pharmacology; Biotechnology
}}
}}
{{Labeling
{{Labeling
|organism=Rat
|tissues=Heart
|preparations=Permeabilized tissue, Isolated mitochondria
|diseases=Cancer
|instruments=Oxygraph-2k
|instruments=Oxygraph-2k
|injuries=Cancer; Apoptosis; Cytochrome c
|additional=Pharmacology; Biotechnology
|organism=Rat
|tissues=Cardiac Muscle
|preparations=Isolated Mitochondria, Permeabilized Cell or Tissue; Homogenate
|discipline=Pharmacology; Biotechnology
|discipline=Pharmacology; Biotechnology
}}
}}

Latest revision as of 09:54, 23 January 2019

Publications in the MiPMap
Opalka JR, Gellerich FN, Kling L, Müller-Beckmann B, Zierz S (2002) Effect of the new matrix metalloproteinase inhibitor RO-28-2653 on mitochondrial function. Biochem Pharmacol 63:725-32.

» PMID: 11992641

Opalka JR, Gellerich FN, Kling L, Mueller-Beckmann B, Zierz S (2002) Biochem Pharmacol

Abstract: Matrix metalloproteinases (MMPs) have recently become interesting as potential anticancer drugs. RO-28-2653 is a promising compound because of its antimetastatic and antiangiogenic activities. Due to the structural similarity of RO-28-2653 to mitochondriotoxic agents, speculation has arisen that this substance might impair mitochondrial function. We, therefore, investigated the effects of RO-28-2653 on mitochondrial enzymes and on the functional properties of isolated mitochondria and skinned muscle fibers from rat hearts. Results were compared to the action of amytal and 2,4-dinitrophenol (2,4-DNP), both of which are well documented mitochondriotoxic compounds. In contrast to 2,4-DNP, RO-28-2653 did not uncouple oxidative phosphorylation, although higher concentrations of the compound did impair mitochondrial function. Using malate/pyruvate as substrate, 50 μM of RO-28-2653 inhibited mitochondrial respiration in isolated mitochondria and skinned fibers by 23 and 11%, respectively while 2 mM of amytal elicited almost complete inhibition of the mitochondrial respiration. RO-28-2653 (50 μM) inhibited succinate-dependent respiration in both systems by 43 and 24%, respectively while 2 mM of amytal caused 41 and 23% inhibition, respectively. There was no change in the ADP/O ratios. RO-28-2653 (50 μM) did not significantly alter the activity of the respiratory chain complexes or succinate dehydrogenase, although citrate synthase (CS) was inhibited by upto 71%. This inhibition was non-competitive at a Ki of 25±5 μM. Inhibitory effects in the presence of hydrophobic substances, such as BSA and Triton X-100, were significantly lower in both test systems. In conclusion, high concentrations of RO-28-2653 impair mitochondrial function, although compared to amytal and 2,4-DNP, this is rather low. The resultant impairment is less pronounced in the more complex skinned muscle fiber system, and is dependent on hydrophobic interactions. Keywords: 2, 4-Dinitrophenol, Amytal, Matrix metalloproteinases, Rat heart mitochondria, RO-28-2653

O2k-Network Lab: DE Magdeburg Gellerich FN, AT Innsbruck Oroboros


Labels: Pathology: Cancer 

Organism: Rat  Tissue;cell: Heart  Preparation: Permeabilized tissue, Isolated mitochondria 



HRR: Oxygraph-2k 

Pharmacology; Biotechnology