Access the full text.
Sign up today, get DeepDyve free for 14 days.
J. Braszko, A. Kułakowska, K. Wišniewski (1995)
Angiotensin II and its 3–7 fragment improve recognition but not spatial memory in ratsBrain Research Bulletin, 37
S. Höhle, A. Blume, C. Lebrun, J. Culman, T. Unger (1995)
Angiotensin receptors in the brain.Pharmacology & toxicology, 77 5
S. Senoh, C. Creveling, S. Udenfriend, B. Witkop (1959)
Chemical, Enzymatic and Metabolic Studies on the Mechanism of Oxidation of Dopamine1Journal of the American Chemical Society, 81
M. LaVoie, T. Hastings (1999)
Dopamine Quinone Formation and Protein Modification Associated with the Striatal Neurotoxicity of Methamphetamine: Evidence against a Role for Extracellular DopamineThe Journal of Neuroscience, 19
J. Braszko, G. Kupryszewski, B. Witczuk, K. Wišniewski (1988)
Angiotensin ii-(3–8)-hexapeptide affects motor activity, performance of passive avoidance and a conditioned avoidance response in ratsNeuroscience, 27
W. Harrison, W. Whisler, B. Hill (1968)
Catecholamine oxidation and ionization properties indicated from the H+ release, tritium exchange, and spectral changes which occur during ferricyanide oxidation.Biochemistry, 7 9
J Segura-Aguilar (1996)
Peroxidase activity of liver microsomal vitamin D 25 hydroxylase catalyzes 25-hydroxylation of vitamin D3 and oxidation of dopamine to aminochromeBiochem Mol Med, 58
M. Winnicka, J. Braszko, Konstanty Wiśniewski (1998)
6-OHDA lesions to amygdala and hippocampus attenuate memory-enhancing effect of the 3-7 fragment of angiotensin II.General pharmacology, 30 5
J. Wright, J. Harding (1994)
Brain angiotensin receptor subtypes in the control of physiological and behavioral responsesNeuroscience & Biobehavioral Reviews, 18
J. Wright, J. Harding (1995)
Brain angiotensin receptor subtypes AT1, AT2, and AT4 and their functionsRegulatory Peptides, 59
C. Fischer-Ferraro, V. Nahmod, D. Goldstein, S. Finkielman (1971)
ANGIOTENSIN AND RENIN IN RAT AND DOG BRAINThe Journal of Experimental Medicine, 133
J. Braszko, J. Własienko, W. Koziołkiewicz, A. Janecka, K. Wišniewski (1991)
The 3–7 fragment of angiotensin II is probably responsible for its psychoactive propertiesBrain Research, 542
J. Braszko, K. Wišniewski, G. Kupryszewski, B. Witczuk (1987)
Psychotropic effects of angiotensin II and III in rats: Locomotor and exploratory vs cognitive behaviourBehavioural Brain Research, 25
J. Segura-Aguilar, D. Metodiewa, C. Welch (1998)
Metabolic activation of dopamine o-quinones to o-semiquinones by NADPH cytochrome P450 reductase may play an important role in oxidative stress and apoptotic effects.Biochimica et biophysica acta, 1381 1
(1998)
Establishment and characterization of a neuronal cell line derived from the substantia nigra of the adult rat
M. Hawley, S. Tatawawadi, S. Piekarski, R. Adams (1967)
Electrochemical studies of the oxidation pathways of catecholamines.Journal of the American Chemical Society, 89 2
T. Hastings (1995)
Enzymatic Oxidation of Dopamine: The Role of Prostaglandin H SynthaseJournal of Neurochemistry, 64
S. Senoh, B. Witkop (1959)
Formation and Rearrangements of Aminochromes from a New Metabolite of Dopamine and Some of its Derivatives1Journal of the American Chemical Society, 81
C. Foppoli, R. Coccia, C. Cini, M. Rosei (1997)
Catecholamines oxidation by xanthine oxidase.Biochimica et biophysica acta, 1334 2-3
Teresag Hastings (1996)
Role of oxidation in the neurotoxic effects of intrastriatal dopamine injections.Proceedings of the National Academy of Sciences of the United States of America, 93 5
S. Kakar, J. Sellers, D. Devor, L. Musgrove, J. Neill (1992)
Angiotensin II type-1 receptor subtype cDNAs: differential tissue expression and hormonal regulation.Biochemical and biophysical research communications, 183 3
J. Braszko, K. Wišniewski (1988)
Effect of angiotensin II and saralasin on motor activity and the passive avoidance behavior of ratsPeptides, 9
J. Segura-Aguilar (1996)
Peroxidase activity of liver microsomal vitamin D 25-hydroxylase and cytochrome P450 1A2 catalyzes 25-hydroxylation of vitamin D3 and oxidation of dopamine to aminochrome.Biochemical and molecular medicine, 58 1
C. Daveu, C. Servy, M. Dendane, P. Marin, C. Ducrocq (1997)
Oxidation and nitration of catecholamines by nitrogen oxides derived from nitric oxide.Nitric oxide : biology and chemistry, 1 3
S. Baez, Y. Linderson, J. Segura-Aguilar (1995)
Superoxide dismutase and catalase enhance autoxidation during one-electron reduction of aminochrome by NADPH-cytochrome P-450 reductase.Biochemical and molecular medicine, 54 1
D. Ganten, J. Minnich, Pierre Grenger, K. Hayduk, H. Brecht, A. Barbeau, R. Boucher, J. Genest (1971)
Angiotensin-Forming Enzyme in Brain TissueScience, 173
J. Segura-Aguilar, C. Lind (1989)
On the mechanism of the Mn3(+)-induced neurotoxicity of dopamine:prevention of quinone-derived oxygen toxicity by DT diaphorase and superoxide dismutase.Chemico-biological interactions, 72 3
J. Wiśniewski, J. Braszko (1984)
The significance of central monoamine systems in the angiotensin II (AII) improvement of learning.Clinical and experimental hypertension. Part A, Theory and practice, 6 10-11
P. Caviedes, Enrique Olivares, K. Salas, R. Caviedes, E. Jaimovich (1993)
Calcium fluxes, ion currents and dihydropyridine receptors in a new immortal cell line from rat heart muscle.Journal of molecular and cellular cardiology, 25 7
M. Winnicka, J. Boguszewicz, J. Braszko (1988)
Lesions of central amygdala abolish angiotensin II improvement of recall in passive avoidance situation.Polish journal of pharmacology and pharmacy, 40 2
J. Wright, A. Miller-Wing, M. Shaffer, C. Higginson, D. Wright, J. Hanesworth, J. Harding (1993)
Angiotensin II(3–8) (ANG IV) hippocampal binding: Potential role in the facilitation of memoryBrain Research Bulletin, 32
A. Md, B. Fornstedt (1991)
Catechol metabolites in the cerebrospinal fluid as possible markers in the early diagnosis of Parkinson's diseaseNeurology, 41
M. Winnicka, J. Braszko (1997)
6-OHDA lesions to the central amygdala abolish angiotensins facilitation of object recognition in rats.General pharmacology, 29 2
D. Ganten, K. Hermann, C. Bayer, T. Unger, R. Lang (1983)
Angiotensin synthesis in the brain and increased turnover in hypertensive rats.Science, 221 4613
C. Arriagada, A. Dagnino-Subiabre, P. Caviedes, J. Armero, R. Caviedes, J. Segura-Aguilar (2000)
Studies of aminochrome toxicity in a mouse derived neuronal cell line: is this toxicity mediated via glutamate transmission?Amino Acids, 18
Angiotensin receptor II mRNA was found to be expressed in dopaminergic neuronal cell line RCSN3 of rat substantia nigra using RT-PCR reaction. Aminochrome (150 μM), a metabolite of the dopamine oxidative pathway, was found to down regulate the expression of angiotensin receptor mRNA in RCSN3 cells by 83% (p < 0.05).
Molecular and Cellular Biochemistry – Springer Journals
Published: Oct 9, 2004
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.