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Excited oxygen species, pyridine nucleotides and calcium transport
PROSTAGLANDINS
EXCITED CADENAS,
OXYGEN
SPECIES,
E., SIES,
PYRIOINE
H., GRAF,
NUCLEOTIOES
P. and #EFERS,
Institut fiir Physiologische Chemie bfloorenstra9e,5, D-4000 Dijsseldorf.
AND CALCIUM
TRANSPORT
H.
I, Universitzt West Germany.
Dtisseldorf,
The formation of excited oxygen snecies such as sinqlet molecular oxygen can be followed by low-level chemiluminescence in intact cells and organs. During reduction of prostaglandin G2 to H there is a burst of photoemission consistent with the dismutation reac z.ion 2 PGG2 2 PGH2 + IO2 (1). Low-level chemiluminescence can further be detected during redox cycling (2,3). The alpha-agonist, phenylephrine , was recently found to modulate the level of photoemission (4). The oxidation of pyridine nucleotides, notably NADPH, by hydroperoxides and 2+ during cytochrome P-450-dependent oxidations was shown to lead to Ca release from the hepatocyte (5) in a fashion similar to that of alphaagonists. The potential relationships between excited oxygen species, pyridine nucleotide oxidation and ion transport will be discussecl.
(1) E. Cadenas, H. Sies, !J. Nastainczyk & V. Ullrich Seyler's , Z. Physiol. Chem. 364, 519-528. (2) H. b!efers & H. SIES (3) E. Cadenas, 147-150.
(1983),
R. Brigelius
(4) H. b+!efers & H. Sies, (5) H. Sies, P. Graf 78, 3358-3362.
Arch.
& H. Sies
(1983),
Hoppe-
Biochem.
Biophys.
224,
in press.
(19X3),
Biochem.
Pharmacol.
32,
unpublished.
.!IJ.M.
SUPPLEMENT TO VOL. 27
Estrela
(1981)
Proc.
Natl.
Acad.
Sci.
USA,
EXCITED CADENAS,
OXYGEN
SPECIES,
E., SIES,
PYRIOINE
H., GRAF,
NUCLEOTIOES
P. and #EFERS,
Institut fiir Physiologische Chemie bfloorenstra9e,5, D-4000 Dijsseldorf.
AND CALCIUM
TRANSPORT
H.
I, Universitzt West Germany.
Dtisseldorf,
The formation of excited oxygen snecies such as sinqlet molecular oxygen can be followed by low-level chemiluminescence in intact cells and organs. During reduction of prostaglandin G2 to H there is a burst of photoemission consistent with the dismutation reac z.ion 2 PGG2 2 PGH2 + IO2 (1). Low-level chemiluminescence can further be detected during redox cycling (2,3). The alpha-agonist, phenylephrine , was recently found to modulate the level of photoemission (4). The oxidation of pyridine nucleotides, notably NADPH, by hydroperoxides and 2+ during cytochrome P-450-dependent oxidations was shown to lead to Ca release from the hepatocyte (5) in a fashion similar to that of alphaagonists. The potential relationships between excited oxygen species, pyridine nucleotide oxidation and ion transport will be discussecl.
(1) E. Cadenas, H. Sies, !J. Nastainczyk & V. Ullrich Seyler's , Z. Physiol. Chem. 364, 519-528. (2) H. b!efers & H. SIES (3) E. Cadenas, 147-150.
(1983),
R. Brigelius
(4) H. b+!efers & H. Sies, (5) H. Sies, P. Graf 78, 3358-3362.
Arch.
& H. Sies
(1983),
Hoppe-
Biochem.
Biophys.
224,
in press.
(19X3),
Biochem.
Pharmacol.
32,
unpublished.
.!IJ.M.
SUPPLEMENT TO VOL. 27
Estrela
(1981)
Proc.
Natl.
Acad.
Sci.
USA,