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1

Modulation of some nuclear matrix enzymatic activities by free fatty acids

100%
Lubocka J., Szopa J., Kozubek A.
Acta Biochimica Polonica
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1995
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tom 42
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nr 2
It was shown that two of main enzymatic activities of plant nucleus and nuclear matrix, namely RNA-polymerasic and DNA-nucleolytic are susceptible to modulation with free fatty acids. The effects observed were dependent to both fatty acid length and degree of unsaturation. In nuclei a stimulation of nuclease activity was observed whereas in matrices short chain fatty acids inhibited the studied activity. The effect of fatty acids on RNA-poIymerase was also different in nuclei and matrices. In nuclei all fatty acids studied inhibited polymerasic activity whereas in matrices short chain fatty acids stimulated this activity by up to 80% and the long chain fatty acids inhibited by up over 70%. The overall alteration of studied activities in nuclei and matrices by unsaturated fatty acids was similar. Nucleolytic activity was stronger inhibited and polymerasic activity was stimulated when the effects of linoleic and linolenic acids were studied. The results suggest possible importance of lipid component in nuclear matrix biological function.
2

Amyloid beta protein affects poly[ADP-ribose] polymerase activity in PC-12 cells in culture

100%
Strosznajder R. P., Banasik M.
Acta Neurobiologiae Experimentalis
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2000
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tom 60
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nr 2
3
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Poly(ADP-ribose) polymerase activity in the cat carotid body in hypoxia and hyperoxia

100%
Strosznajder R. P., Jesko H., Pokorski M.
Journal of Physiology and Pharmacology
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2002
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tom 53
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nr 3
Reactive oxygen species (ROS) induce DNA damage with the ensuing activation of the chromosomal repair enzyme poly(ADP-ribose) polymerase (PARP). ROS also interact with the function of carotid body chemoreceptor cells. The possibility arises that PARP is part of the carotid chemosensing process. This study seeks to determine the presence of PARP and its changes in response to contrasting chemical stimuli, hypoxia and hyperoxia, both capable of generating ROS, in cat carotid bodies. The organs were dissected from anesthetized cats exposed in vivo to acute normoxic (PaO290 mmHg), hypoxic (PaO225 mmHg), and hyperoxic (PaO2> 400 mmHg) conditions. Carotid body homogenate was the source of PARP and [adenine 14C] NAD was the substrate in the assay. Specimens of the superior cervical ganglion and brainstem were used as reference tissues. We found that PARP activity amounted to 27 pmol/mg protein/min in the normoxic carotid body. The activity level more than doubled in both hypoxic and hyperoxic carotid bodies. Changes of PARP in the reference tissues were qualitatively similar. We conclude that PARP is present in the carotid body but the augmentation of the enzyme activity in both hypoxia and hyperoxia reflects DNA damage, induced likely by ROS and being universal for neural tissues, rather than a specific involvement of PARP in the chemosensing process.
4

Age-related alteration of poly[ADP-ribose] polymerase activity in different parts of the brain

80%
Strosznajder J. B., Jesko H., Strosznajder R. P.
Acta Biochimica Polonica
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2000
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tom 47
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nr 2
Poly(ADP-ribose) polymerase (PARP) is a conserved enzyme involved in the regulation of DNA repair and genome stability. The role of PARP during aging is not well known. In this study PARP activity was investigated in nuclear fractions from hippocampus, cerebellum, and cerebral cortex of adult (4 months), old adult (14 months) and aged (24-27 months) rats. Concomitantly, the free radical evoked lipid peroxidation was estimated as thiobarbituric acid reactive substances (TBARS). The specific activity of PARP in adult brain was about 25, 21 and 16 pmol/mg protein per min in hippocampus, cerebellum and cerebral cortex, respectively. The enzyme activity was higher in all investigated parts of the brain of old adults. In aged animals PARP activity was lower in hippocampus by about 50%, and was unchanged in cerebral cortex and in cerebellum comparing to adult rats. The concentration of TBARS was the same in all parts of the brain and remained unchanged during aging. There is no direct correlation between PARP activity and free radical evoked lipid peroxidation during brain aging. The lowered enzyme activity in aged hippocampus may decrease DNA repair capacity which subsequently may be responsible for the higher vulnerability of hippocampal neurons to different toxic insults.
5

Effect of amyloid beta peptide on poly[ADP-ribose] polymerase activity in adult and aged rat hippocampus

80%
Strosznajder J. B., Jesko H., Strosznajder R. P.
Acta Biochimica Polonica
|
2000
|
tom 47
|
nr 3
It is suggested that the fibrillar amyloid beta peptide (Abeta) in brain plays a direct role in neurodegeneration in Alzheimer's disease, probably through activation of reactive oxygen species formation. Free radicals and numerous neurotoxins elicit DNA damage that subsequently activates poly(ADP-ribose) polymerase (PARP, EC 2.4.2.30). In this study the effect of neurotoxic fragment (25-35) of full length Abeta peptide on PARP activity in adult and aged rat hippocampus was investigated. In adult (4 month old) rat hippocampus the Abeta 25-35 peptide significantly enhanced PARP activity by about 80% but had no effect on PARP activity in cerebral cortex and in hippocampus from aged (24-27 month old) rats. The effect of Abeta peptide was reduced by half by the nitric oxide synthase inhibitor N-nitro-L-arginine. Stimulation of glutamate receptor(s) itself enhanced PARP activity by about 80% in adult hippocampus. However, Abeta 25-35 did not exert any additional stimulatory effect. These results indicate that Abeta, through NO and probably other free radicals, induces activation of DNA bound PARP activity exclusively in adult but not in aged hippocampus.
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