Abstract
Introduction: Adenosine has been considered as a fine-tuner of the neurotransmitters in the nerve system. Adaptive changes in the brain adenosine system occur in some patho-physiological situations such as chronic exposure to morphine. In this study, the adaptive changes in the adenosine deaminase activity as a key enzyme in the adenosine metabolism that converts adenosine to inosine and ammonia, irreversibly, due to morphine dependence and tolerance to anti-nociceptive effects of sodium-salicylate were investigated. Materials and Methods: Morphine dependence was induced by morphine administration in tap water (0.4mg/ml for 24 days). Tolerance to sodium-salicylate was induced by 6 i.p. injection (1 injection/day) of sodium-salicylate. Tolerance to antinociceptive effects of sodium-salicylate was measured by tail flick (TF) and hot plate (HP) tests. Right hippocampus was dissected, homogenized at phosphate buffer, centrifuged and then the supernatant fraction was isolated. Protein content of the samples was measured by the Bradford method. Hippocampus adenosine deaminase activity was measured by a calorimetric method of enzyme assay which is based on the direct measurement of the produced ammonia from excessive adenosine degradation by adenosine deaminase. Results: Daily injection of Sodium-salicylate produced antinociception in early days by latency increase rather than saline injection (P0.05). Injection of morphine (5mg/Kg) at the day 7 showed more increase in the latency of saline injected rather than sadium-salicylate injected (P
Keywords
Adenosine deaminase, Hippocampus, Tolerance, Dependency, Morphine, Sodium-Salicylate آدنوزین دآمیناز، هیپوکمپ، تحمل، وابستگی، مرفین، سدیم سالسیلات
Copyright
© 2024, Author(s). This open-access article is available under the Creative Commons Attribution 4.0 (CC BY 4.0) International License (https://creativecommons.org/licenses/by/4.0/), which allows for unrestricted use, distribution, and reproduction in any medium, provided that the original work is properly cited.