Literature DB >> 9546613

Melatonin reduces the increase in 8-hydroxy-deoxyguanosine levels in the brain and liver of kainic acid-treated rats.

L Tang1, R J Reiter, Z R Li, G G Ortiz, B P Yu, J J Garcia.   

Abstract

In the present study, the effect of melatonin on oxidative DNA damage induced by kainic acid (KA) treatment was investigated. 8-hydroxy-deoxyguanosine (8-OH-dG) is a main product of oxidatively damaged DNA and was used as the endpoint in these studies. The levels of 8-OH-dG were found to be elevated in the hippocampus and frontal cortex of rats treated with KA. These elevated levels were significantly reduced in animals that were co-treated with melatonin. Thus, there was no difference in 8-OH-dG levels in the brain of control rats compared to those treated with KA (10 mg/kg) plus melatonin (10 mg/kg). The levels of 8-OH-dG also increased in the liver of rats treated with KA. This rise in oxidatively damaged DNA was also prevented by melatonin administration. Melatonin's ability to reduce KA-induced increases in neural and hepatic 8-OH-dG levels presumably relates to its direct free radical scavenging ability and possibly to other antioxidative actions of melatonin.

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Year:  1998        PMID: 9546613     DOI: 10.1023/a:1006815530519

Source DB:  PubMed          Journal:  Mol Cell Biochem        ISSN: 0300-8177            Impact factor:   3.396


  43 in total

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Journal:  Adv Pharmacol       Date:  1997

2.  Mechanistic studies of ionizing radiation and oxidative mutagenesis: genetic effects of a single 8-hydroxyguanine (7-hydro-8-oxoguanine) residue inserted at a unique site in a viral genome.

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Journal:  Biochemistry       Date:  1990-07-31       Impact factor: 3.162

3.  DNA fragmentation in rat brain after intraperitoneal administration of kainate.

Authors:  R K Filipkowski; M Hetman; B Kaminska; L Kaczmarek
Journal:  Neuroreport       Date:  1994-07-21       Impact factor: 1.837

4.  Permeability of pure lipid bilayers to melatonin.

Authors:  E J Costa; R H Lopes; M T Lamy-Freund
Journal:  J Pineal Res       Date:  1995-10       Impact factor: 13.007

5.  Neuroprotection by melatonin from kainate-induced excitotoxicity in rats.

Authors:  P Giusti; M Lipartiti; D Franceschini; N Schiavo; M Floreani; H Manev
Journal:  FASEB J       Date:  1996-06       Impact factor: 5.191

Review 6.  Endogenous antioxidant changes in the myocardium in response to acute and chronic stress conditions.

Authors:  P K Singal; A K Dhalla; M Hill; T P Thomas
Journal:  Mol Cell Biochem       Date:  1993-12-22       Impact factor: 3.396

7.  Kainic acid and 4-aminopyridine seizure models in mice: evaluation of efficacy of anti-epileptic agents and calcium antagonists.

Authors:  C L Cramer; M L Stagnitto; M A Knowles; G C Palmer
Journal:  Life Sci       Date:  1994       Impact factor: 5.037

Review 8.  Functional pleiotropy of the neurohormone melatonin: antioxidant protection and neuroendocrine regulation.

Authors:  R J Reiter
Journal:  Front Neuroendocrinol       Date:  1995-10       Impact factor: 8.606

9.  Tissue changes in glutathione metabolism and lipid peroxidation induced by swimming are partially prevented by melatonin.

Authors:  M Hara; M Abe; T Suzuki; R J Reiter
Journal:  Pharmacol Toxicol       Date:  1996-05

10.  Melatonin stimulates brain glutathione peroxidase activity.

Authors:  L R Barlow-Walden; R J Reiter; M Abe; M Pablos; A Menendez-Pelaez; L D Chen; B Poeggeler
Journal:  Neurochem Int       Date:  1995-05       Impact factor: 3.921
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  12 in total

1.  Protective effects of melatonin against oxidation of guanine bases in DNA and decreased microsomal membrane fluidity in rat liver induced by whole body ionizing radiation.

Authors:  M Karbownik; R J Reiter; W Qi; J J Garcia; D X Tan; L C Manchester
Journal:  Mol Cell Biochem       Date:  2000-08       Impact factor: 3.396

Review 2.  Hepatoprotective actions of melatonin: possible mediation by melatonin receptors.

Authors:  Alexander M Mathes
Journal:  World J Gastroenterol       Date:  2010-12-28       Impact factor: 5.742

Review 3.  Role of oxidative stress in epileptic seizures.

Authors:  Eun-Joo Shin; Ji Hoon Jeong; Yoon Hee Chung; Won-Ki Kim; Kwang-Ho Ko; Jae-Hyung Bach; Jau-Shyong Hong; Yukio Yoneda; Hyoung-Chun Kim
Journal:  Neurochem Int       Date:  2011-06-13       Impact factor: 3.921

Review 4.  Mitochondrial DNA and inflammatory diseases.

Authors:  Germaine Escames; Luis Carlos López; José Antonio García; Laura García-Corzo; Francisco Ortiz; Darío Acuña-Castroviejo
Journal:  Hum Genet       Date:  2011-07-07       Impact factor: 4.132

Review 5.  Mitochondrial dysfunction and oxidative stress: a contributing link to acquired epilepsy?

Authors:  Simon Waldbaum; Manisha Patel
Journal:  J Bioenerg Biomembr       Date:  2010-12       Impact factor: 2.945

6.  Melatonin prevents delta-aminolevulinic acid-induced oxidative DNA damage in the presence of Fe2+.

Authors:  W Qi; R J Reiter; D X Tan; L C Manchester; J R Calvo
Journal:  Mol Cell Biochem       Date:  2001-02       Impact factor: 3.396

Review 7.  Mitochondria, oxidative stress, and temporal lobe epilepsy.

Authors:  Simon Waldbaum; Manisha Patel
Journal:  Epilepsy Res       Date:  2009-10-21       Impact factor: 3.045

8.  Chromium(III)-induced 8-hydroxydeoxyguanosine in DNA and its reduction by antioxidants: comparative effects of melatonin, ascorbate, and vitamin E.

Authors:  W Qi; R J Reiter; D X Tan; J J Garcia; L C Manchester; M Karbownik; J R Calvo
Journal:  Environ Health Perspect       Date:  2000-05       Impact factor: 9.031

Review 9.  Seizure-induced oxidative stress in temporal lobe epilepsy.

Authors:  Sreekanth Puttachary; Shaunik Sharma; Sara Stark; Thimmasettappa Thippeswamy
Journal:  Biomed Res Int       Date:  2015-01-20       Impact factor: 3.411

10.  The Anticonvulsant and Antioxidant Effects of Berberine in Kainate-induced Temporal Lobe Epilepsy in Rats.

Authors:  Tourandokht Baluchnejad Mojarad; Mehrdad Roghani
Journal:  Basic Clin Neurosci       Date:  2014
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