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01.03.2012 | Original Paper

Pyruvate and creatine prevent oxidative stress and behavioral alterations caused by phenylalanine administration into hippocampus of rats

verfasst von: Simone Luisa Berti, Guilherme Marmontel Nasi, Cristina Garcia, Fernanda Luz de Castro, Michely Lopes Nunes, Denise Bertin Rojas, Tarsila Barros Moraes, Carlos Severo Dutra-Filho, Clóvis Milton Duval Wannmacher

Erschienen in: Metabolic Brain Disease | Ausgabe 1/2012

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Abstract

Phenylketonuria is characterized by a variable degree of mental retardation and other neurological features whose mechanisms are not fully understood. In the present study we investigated the effect of intrahippocampal administration of phenylalanine, isolated or associated with pyruvate or creatine, on rat behavior and on oxidative stress. Sixty-day-old male Wistar rats were randomly divided into 6 groups: saline; phenylalanine; pyruvate; creatine; phenylalanine + pyruvate; phenylalanine + creatine. Phenylalanine was administered bilaterally in the hippocampus one hour before training; pyruvate, at the same doses, was administered in the hippocampus one hour before phenylalanine; creatine was administered intraperitoneally twice a day for 5 days before training; controls received saline solution at same volumes than the other substances. Parameters of exploratory behavior and of emotionality were assessed in both training and test sessions in the open field task. Rats receiving phenylalanine did not habituate to the open field along the sessions, indicating deficit of learning/memory, but parameters of emotionality were normal, not interfering in the habituation process. Pyruvate or creatine administration prevented the lack of habituation caused by phenylalanine. Pyruvate and creatine also prevented alterations provoked by phenylalanine on lipid peroxidation, total content of sulfhydryls, total radical-trapping antioxidant potential and total antioxidant reactivity. The results suggest that the behavioral alterations provoked by intra-hippocampal administration of phenylalanine may be caused, at least in part, by oxidative stress and/or energy deficit. If this also occurs in PKU, it is possible that pyruvate and creatine supplementation to the phenylalanine-restricted diet might be beneficial to phenylketonuric patients.

Aksenov MY, Markesbery WR (2001) Changes in thiol content and expression of glutathione redox system genes in the hippocampus and cerebellum in Alzheimer’s disease. Neurosci Lett 302:141–145PubMedCrossRef

Archer J (1973) Tests for emotionality in rats and mice: a review. Ann Behav 21:205–235CrossRef

Artuch R, Colomé C, Sierra C, Brandi N, Lambruschini N, Campistol J, Ugarte D, Vilaseca MA (2004) A longitudinal study of antioxidant status in phenylketonuric patients. Clin Biochem 37:198–203PubMedCrossRef

Beal MF (2011) Neuroprotective effects of creatine. Amino Acids 40:1305–1313PubMedCrossRef

Bender A, Beckers J, Schneider I, Hölter SM, Haack T, Ruthsatz T, Vogt-Weisenhorn DM, Becker L, Genius J, Rujescu D, Irmler M, Mijalski T, Mader M, Quintanilla-Martinez L, Fuchs H, Gailus-Durner V, Hrabé de Angelis M, Wurst W, Schmidte J, Klopstock T (2008) Creatine improves health and survival of mice. Neurobiol Aging 29:1404–1411PubMedCrossRef

Berry H, O’Grady D, Perlmutter L, Bofinger M (1979) Intellectual development and academic achievement of children treated early for phenylketonuria. Dev Med Child Neurol 21:311–320PubMedCrossRef

Blau N, Burgard P (2006) Disorders of phenylalanine and tetrahydrobiopterin metabolism. In: Blau N, Leonard J, Hoffmann G, Clarke J (eds) Physician’s guide to the treatment and follow-up of metabolic diseases. Springer, Heidelberg, pp 25–34CrossRef

Burgard P, Schmidt E, Rupp A, Schneider W, Bremer HJ (1996) Intellectual development of the patients of the German Collaborative Study of children treated for phenylketonuria. Eur J Pediatr 155(supplement 1):S33–S38PubMedCrossRef

Cleary MA, Walter JH, Wraith JE, White F, Tyler K, Jenkins JP (1995) Magnetic resonance imaging in phenylketonuria: reversal of cerebral white matter change. J Pediatr 127:251–255PubMedCrossRef

Costabeber E, Kessler A, Severo Dutra-Filho C, de Souza Wyse AT, Wajner M, Wannmacher CM (2003) Hyperphenylalaninemia reduces creatine kinase activity in the cerebral cortex of rats. Int J Dev Neurosci 21:111–116PubMedCrossRef

DeLeve LD, Kaplowitz N (1991) Glutathione metabolism and its role in hepatotoxicity. Pharmacol Ther 52:287–305PubMedCrossRef

Denenberg VH (1969) Open-field behavior in the rat: what does it mean? Ann N Y Acad Sci 159:852–859PubMedCrossRef

Dobson J, Kushida E, Williamson M, Friedman E (1976) Intellectual performance of 36 phenylketonuria patients and their nonaffected siblings. Pediatrics 58:53–58PubMed

Elias PK, Elias MF, Eleftheriou BE (1975) Emotionality, exploratory behavior and locomotion in aging inbred strains of mice. Gerontologia 21:46–55PubMedCrossRef

Ercal N, Aykin-Burns N, Gurer-Orphan H, McDonald JD (2002) Oxidative stress in a phenylketonia animal model. Free Radic Biol Med 32:906–911PubMedCrossRef

Evelson P, Travacio M, Repetto M, Escobar J, Llesuy S, Lissi EA (2001) Evaluation of total reactive antioxidant potential (TRAP) of tissue homogenates and their cytosols. Arch Biochem Biophys 388:261–266PubMedCrossRef

Feillet F, Agostoni C (2010) Nutritional issues in treating phenylketonuria. J Inherit Metab Dis 33:659–664PubMedCrossRef

Feksa LR, Cornelio AR, Rech VC, Dutra-Filho CS, Wyse AT, Wajner M, Wannmacher CMD (2002) Alanine prevents the reduction of pyruvate kinase activity in brain cortex of rats subjected to chemically induced hyperphenylalaninemia. Neurochem Res 27:947–952PubMedCrossRef

Feksa LR, Cornelio AR, Dutra-Filho CS, Wyse ATS, Waijner M, Wannmacher CMD (2003) Characterization of the inhibition of pyruvate kinase caused by phenylalanine and phenylpyruvate in rat brain cortex. Brain Res 968:199–205PubMedCrossRef

Fernandes CG, Leipnitz G, Seminotti B, Amaral AU, Zanatta A, Vargas CR, Dutra Filho CS, Wajner M (2010) Experimental evidence that phenylalanine provokes oxidative stress in hippocampus and cerebral cortex of developing rats. Cell Mol Neurobiol 30:317–326PubMedCrossRef

Fishler K, Azen C, Henderson R, Friedman EG, Koch R (1987) Psychoeducational findings among children treated for phenylketonuria. Am J Ment Defic 92:65–73PubMed

Fishler K, Azen C, Friedman EG, Koch R (1989) School achievement in treated PKU children. J Ment Defic Res 33:493–498PubMed

Floyd RA (1999) Antioxidants, oxidative stress, and degenerative neurological disorders. Proc Soc Exp Biol Med 222:236–245PubMedCrossRef

Frenzel J, Richter J, Eschrich K (2005) Pyruvate protects glucose-deprived muller cells from nitric oxide-induced oxidative stress by radical scavenging. Glia 52:276–288PubMedCrossRef

Gonzalvez-Flecha B, Lleusy S, Boveris A (1991) Hydroperoxide-initiated chemiluminescence: an assay for oxidative stress in biopsies of heart, liver and muscle. Free Radic Biol Med 10:93–100CrossRef

Hagen MEK, Pederzolli CD, Sgaravatti AM, Bridi R, Wajner M, Wannmacher CMD, Wyse ATS, Dutra-Filho CS (2002) Experimental hyperphenylalaninemia provokes oxidative stress in rat brain. Biochim Biophys Acta 1586:344–352

Hahn KA, Salomons GS, Tackels-Horne D, Wood TC, Taylor HA, Schroer RJ, Lubs HA, Jakobs C, Olson RL, Holden KR, Stevenson RE, Schwartz CE (2002) X-linked mental retardation with seizures and carrier manifestations is caused by a mutation in the creatine-transporter gene (SLC6A8) located in Xq28. Am J Hum Genet 70:1349–1356PubMedCrossRef

Halliwell B, Gutteridge JMC (2007) Free radicals in biology and medicine. Oxford University Press, New York

Hanley WB (2004) Adult phenylketonuria. Am J Med 117:590–595PubMedCrossRef

Hasselbach S, Knudsen GM, Toft PB, Hogh P, Tedeschi E, Holm S, Videbaek C, Henriksen O, Lou HC, Paulson OB (1996) Cerebral glucose metabolism is decreased in white matter changes in patients with phenylketonuria. Pediatr Res 40:21–24CrossRef

Hegde KR, Kovtun S, Varma SD (2010) Inhibition of glycolysis in the retina by oxidative stress: prevention by pyruvate. Mol Cell Biochem 343:101–105PubMedCrossRef

Izquierdo I, Medina JH (1997) Memory formation: the sequence of biochemical events in the hippocampus and its connection to activity in other brain structures. Neurobiol Learn Mem 68:285–316PubMedCrossRef

Izquierdo LA, Barros DM, Ardenghi PG, Pereira P, Rodrigues C, Choi H et al (2000) Different hippocampal molecular requeriments for short-and-long-term retrieval o fone-trial avoidance learning. Behav Brain Res 111:93–98PubMedCrossRef

Jagtap JC, Chandele A, Chopde BA, Shastry P (2003) Sodium pyruvate protects against H₂O₂ mediated apoptosis in human neuroblastoma cell line-SK-N-MC. J Chem Neuroanat 26:109–118PubMedCrossRef

Khuchua ZA, Qin W, Boero J, Cheng J, Payne RM, Saks VA et al (1998) Octamer formation and coupling of cardiac sarcomeric mitochondrial creatine kinase are mediated by charged N-terminal residues. J Biol Chem 273:22990–22996PubMedCrossRef

Koch R, Azen C, Friedman EG, Williamson ML (1984) Paired comparisons between early treated PKU children and their matched sibling controls on intelligence and school achievement test results at eight years of age. J Inherit Metab Dis 7:86–90PubMedCrossRef

Kugelman A, Choy HA, Liu R, Shi MM, Gozal E, Forman HJ (1994) gamma-Glutamyl transpeptidase is increased by oxidative stress in rat alveolar L2 epithelial cells. Am J Respir Cell Mol Biol 11:586–592PubMed

Lawler JM, Barnes WS, Wu G, Song W, Demaree S (2002) Direct antioxidant properties of creatine. Biochem Biophys Res Commun 290:47–52PubMedCrossRef

Leuzzi V, Pansini M, Sechi E, Chiarotti F, Carducci C, Levi G, Antonozzi I (2004) Executive function impairment in early-treated PKU subjects with normal mental development. J Inherit Metab Dis 27:115–125PubMedCrossRef

Lissi E, Pascual C, Del Castillo MD (1992) Luminol luminescence induced by 2,2’-azo-bis-(2-amidinopropane) thermolysis. Free Radic Res Commun 17:299–311PubMedCrossRef

Liu R, Gao L, Choi J, Forman HJ (1998) γ-Glutamylcysteine synthetase: mRNA stabilization and independent subunit transcription by 4-hydroxy-2-nonenal. Am J Physiol 275(Lung Cell Mol Physiol):L861–L869PubMed

Lowry OH, Rosebrough NJ, Lewis-Farr A, Randall RJ (1951) Protein measurement with the Folin phenol reagent. J Biol Chem 193:265–275PubMed

Lu SC (2009) Regulation of glutathione synthesis. Mol Asp Med 30:42–59CrossRef

Lütz MG, Feksa LR, Wyse ATS, Dutra-Filho CS, Wajner M, Wannmacher CMD (2003) Alanine prevents the in vitro inhibition of glycolysis caused by phenylalanine in brain cortex of rats. Metab Brain Dis 18:81–94

Martinez-Cruz F, Pozo D, Osuna C, Espinar A, Marchante C, Guerrero JM (2002) Oxidative stress induced by phenylketonuria in the rat: prevention by melatonin, vitamin E and vitamin C. J Neurosci Res 69:550–558PubMedCrossRef

Maus M, Marin P, Israel M, Glowinski J, Prémont J (1999) Pyruvate and lactate protect striatal neurons against N-methyl-D-aspartate-induced neurotoxicity. Eur J Neurosci 11:3215–3224PubMedCrossRef

Mazzio E, Soliman KFA (2003) Pyruvic acid cytoprotection against 1-methyl-4-phenylpyridinium, 6-hydroxydopamine and hydrogen peroxide toxicities in vitro. Neurosci Lett 337:77–80PubMedCrossRef

Moyle JJ, Fox AM, Arthur M, Bynevelt M, Burnett JR (2007) Meta-analysis of neuropsychological symptoms of adolescents and adults with PKU. Neuropsychol Rev 17:91–101PubMedCrossRef

Nasrallah F, Feki M, Kaabachi N (2010) Creatine and creatine deficiency syndromes: biochemical and clinical aspects. Pediatr Neurol 42:163–171PubMedCrossRef

O’Gorman E, Beutner G, Dolder M, Koretsky AP, Brdiczka D, Wallimann T (1997) The role of creatine kinase in inhibition of mitochondrial permeability transition. FEBS Lett 14:253–257CrossRef

Ohkawa H, Ohishi N, Yagi K (1979) Assay for lipid peroxides in animal tissues by thiobarbituric acid reaction. Anal Biochem 95:351–358PubMedCrossRef

Paxinos G, Watson C (1986) The rat brain in stereotaxic coordinates, 2nd edn. Academic, San Diego, p F35

Rae C, Digney AL, McEwan SR, Bates TC (2003) Oral creatine monohydrate supplementation improves brain performance: a double-blind, placebo-controlled, cross-over trial. Proc R Soc Lond B Biol Sci 270:2147–2150CrossRef

Rech VC, Feksa LR, Dutra-Filho CS, Wyse ATS, Wajner M, Wannmacher CMD (2002) Inhibition of the mitochondrial respiratory chain by phenylalanine in rat cerebral cortex. Neurochem Res 27:353–357PubMedCrossRef

Ribas GS, Sitta A, Wajner M, Vargas CR (2011) Oxidative stress in phenylketonuria: what is the evidence? Cell Mol Neurobiol 31:653–662PubMedCrossRef

Rodrigues NR, Wannmacher CMD, Dutra-Filho CS, Pires RF, Fagan PR, Wajner M (1990) Effect of phenylalanine, p-chloro-phenylalanine and α-methylphenylalanine on glucose uptake in vitro by the brain of young rats. Biochem Soc Trans 18:419PubMed

Schulpis KH, Tsakiris S, Traeger-Synodinos J, Papassotiriou I (2005) Low total antioxidant status is implicated with high 8-hydroxy-2-deoxyguanosine serum concentrations in phenylketonuria. Clin Biochem 38:239–242PubMedCrossRef

Scriver CR, Kaufman S (2001) Hyperphenylalaninemia: phenylalanine hydroxylase deficiency. In: Scriver CR, Beaudet AL, Sly WS, Valle D (eds) The metabolic & molecular bases of inherited diseases, 8th edn. McGraw-Hill, New York, pp 1667–1724

Sestili P, Martinelli C, Bravi G, Piccoli G, Curci R, Battistelli M, Falcieri E, Agostini D, Gioacchini AM, Stocchi V (2006) Creatine supplementation affords cytoprotection in oxidatively injured cultured mammalian cells via direct antioxidant activity. Free Radic Biol Med 40:837–849PubMedCrossRef

Shi MM, Kugelman A, Iwamoto T, Tian L, Forman HJ (1994) Quinone-induced oxidative stress elevates glutathione and induces y-glutamylcysteine synthetase activity in rat lung epithelial L2 cells. J Biol Chem 269(42):26512–26517PubMed

Sirtori LR, Dutra-Filho CS, Fitarelli D, Sitta A, Haeser A, Barschak AG, Wajner M, Coelho DM, Llesuy S, Belló-Klein A, Giugliani R, Deon M, Vargas CR (2005) Oxidative stress in pacients with phenylketonuria. Biochim Biophys Acta 1740:68–73PubMed

Sitta A, Barschak AG, Deon M, Barden AT, Biancini GB, Vargas PR et al (2009) Effect of short and long-term exposition to high phenylalanine blood levels on oxidative damage in phenylketonuric patients. Int J Dev Neurosci 27:243–247PubMedCrossRef

Streijger F, Jost CR, Oerlemans F, Ellenbroek BA, Cools AR, Wieringa B, Van der Zee CE (2004) Mice lacking the UbCKmit isoform of creatine kinase reveal slower spatial learning acquisition, diminished exploration and habituation, and reduced acoustic startle reflex responses. Mol Cell Biochem 256–257:305–318PubMedCrossRef

Takada A, Bannai S (1984) Transport of cystine in isolated rat hepatocytes in primary culture. J Biol Chem 259:2441–2445PubMed

Thompson AJ, Tillotson S, Smith I, Kendall B, Moore SG, Brenton DP (1993) Brain MRI changes in phenylketonuria. Association with dietary status. Brain 116:811–821PubMedCrossRef

Vasques V, Brinco F, Viegas CM, Wajner M (2006) Creatine prevents behavioral alterations caused by methylmalonic acid administration into the hippocampus of rats in the open field task. J Neurol Sci 244:23–29PubMedCrossRef

Walsh RN, Cummins RA (1976) The open-field test: a critical review. Psychol Bull 83:482–504PubMedCrossRef

Williams RA, Mamotte CDS, Burnett JR (2008) Phenylketonuria: an inborn error of phenylalanine metabolism. Clin Biochem Rev 29:31–41PubMed

Wyss M, Schulze A (2002) Health implications of creatine: can oral creatine supplementation protect against neurological and atherosclerotic disease? Neuroscience 112:243–260PubMedCrossRef

Xu CJ, Klunk WE, Kanfer JN, Xiong Q, Miller G, Pettegrew JW (1996) Phosphocreatine-dependent glutamate uptake by synaptic vesicles. A comparison with ATP-dependent glutamate uptake. J Biol Chem 271:13435–13440PubMedCrossRef

Yang H, Magilnick N, Xia M, Lu SC (2008) Effects of hepatocyte growth factor on glutathione synthesis, growth, and apoptosis is cell density-dependent. Exp Cell Res 314:398–412PubMedCrossRef

Titel: Pyruvate and creatine prevent oxidative stress and behavioral alterations caused by phenylalanine administration into hippocampus of rats
verfasst von: Simone Luisa Berti
Guilherme Marmontel Nasi
Cristina Garcia
Fernanda Luz de Castro
Michely Lopes Nunes
Denise Bertin Rojas
Tarsila Barros Moraes
Carlos Severo Dutra-Filho
Clóvis Milton Duval Wannmacher
Publikationsdatum: 01.03.2012
Verlag: Springer US
Erschienen in: Metabolic Brain Disease / Ausgabe 1/2012
Print ISSN: 0885-7490
Elektronische ISSN: 1573-7365
DOI: https://doi.org/10.1007/s11011-011-9271-9

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Pyruvate and creatine prevent oxidative stress and behavioral alterations caused by phenylalanine administration into hippocampus of rats

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