Erschienen in:
01.07.2012
Further Studies on the Hypothesis of PARP-1 Inhibition as a Strategy for Lessening the Long-Term Effects Produced by Perinatal Asphyxia: Effects of Nicotinamide and Theophylline on PARP-1 Activity in Brain and Peripheral Tissue
Nicotinamide and Theophylline on PARP-1 Activity
verfasst von:
C. Allende-Castro, P. Espina-Marchant, D. Bustamante, E. Rojas-Mancilla, T. Neira, M. A. Gutierrez-Hernandez, D. Esmar, J. L. Valdes, P. Morales, P. J. Gebicke-Haerter, M. Herrera-Marschitz
Erschienen in:
Neurotoxicity Research
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Ausgabe 1/2012
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Abstract
Oxygen interruption leads to death when re-oxygenation is not promptly re-established. Re-oxygenation triggers a cascade of biochemical events for restoring function at the cost of improper homeostasis. The effects observed long after perinatal asphyxia (PA) have been explained by over-expression of sentinel proteins, such as poly(ADP-ribose) polymerase-1 (PARP-1), competing for NAD+ during re-oxygenation, leading to the idea that sentinel protein inhibition constitutes a therapeutic strategy. We studied the effects of nicotinamide and theophylline on PARP-1 activity assayed in brain and peripheral (heart) rat tissue 1–24 h after birth, as well as on changes in behaviour and monoamine neurotransmission in adult rats. PA was induced by immersing rat foetuses into a water bath for 0 or 21 min. After resuscitation, the pups were treated with nicotinamide (0.8 mmol/kg, i.p.), theophylline (0.14 mmol/kg, i.p.) or saline (0.9% NaCl) and nurtured by surrogate dams, pending behavioural and microdialysis experiments, or euthanised after birth for assaying PARP-1 activity. To estimate the in vivo distribution of a single dose of nicotinamide or theophylline into brain and peripheral compartment, a series of animals were implanted with microdialysis probes, one into the brain and other subcutaneously, 1 h after birth, assaying the drugs with a HPLC–UV system. Nicotinamide, but not theophylline prevented the long-term effects induced by PA. Only nicotinamide produced a consistent decrease in PARP-1 activity in brain and heart, whether assayed in control or asphyxia-exposed pups. The present results support the idea that the long-term effects induced by PA imply PARP-1 over-activation.