Ontogeny of P2‐purinoceptors in the longitudinal muscle and muscularis mucosae of the rat isolated duodenum

1 The ontogeny of P2‐purinoceptors in the longitudinal muscle and the muscularis mucosae of the rat isolated duodenum was investigated by use of functional assays in tissues from neonatal animals. The degradation of purinoceptor agonists by the rat duodenum muscularis mucosae was also investigated....

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Bibliographic Details
Published in:British journal of pharmacology 1997-09, Vol.122 (2), p.225-232
Main Authors: Brownhill, V. R., Hourani, S. M. O., Kitchen, I.
Format: Article
Language:English
Subjects:
Adenosine Triphosphate - metabolism
Adenosine Triphosphate - pharmacology
Adenosinic and purinergic receptors
Animals
Animals, Newborn
Animals, Suckling
ATP
Biological and medical sciences
Cell receptors
Cell structures and functions
development
Duodenum - drug effects
Duodenum - growth & development
Duodenum - metabolism
ectonucleotidases
Fundamental and applied biological sciences. Psychology
Male
Molecular and cellular biology
Muscle Development
Muscle, Smooth - drug effects
Muscle, Smooth - growth & development
Muscle, Smooth - metabolism
ontogeny
P2‐purinoceptors
Purinergic P2 Receptor Agonists
Rat duodenum longitudinal muscle
rat duodenum muscularis mucosae
Rats
Rats, Wistar
Receptors, Purinergic P2 - metabolism
Uridine Triphosphate - metabolism
Uridine Triphosphate - pharmacology
UTP
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Summary:1 The ontogeny of P2‐purinoceptors in the longitudinal muscle and the muscularis mucosae of the rat isolated duodenum was investigated by use of functional assays in tissues from neonatal animals. The degradation of purinoceptor agonists by the rat duodenum muscularis mucosae was also investigated. 2 In the rat duodenum muscularis mucosae adenosine 5′‐(α,β‐methylene)triphosphonate (AMPCPP), adenosine 5′‐triphosphate (ATP), uridine 5′‐triphosphate (UTP) and 2‐methylthioadenosine 5′‐triphosphate (2‐Me‐S‐ATP) all caused a contraction from day 10 to day 40, day 10 being the earliest age it could be tested. The potency order of agonists above day 25 was AMPCPP>ATP=UTP>2‐Me‐S‐ATP and this is similar to the potency order previously obtained for the adult tissue. However, in the neonatal tissues below day 20, 2‐Me‐S‐ATP was the most potent agonist and at days 10 and 15 the order was 2‐Me‐S‐ATP>AMPCPP>ATP=UTP. 3 In the rat duodenum muscularis mucosae desensitization was observed with AMPCPP at day 30 but not at day 15. At day 30, cross‐desensitization was also observed between AMPCPP and 2‐Me‐S‐ATP but not between AMPCPP and ATP or UTP, whereas no cross‐desensitization was observed at day 15 with AMPCPP and any of the agonists. At day 15 and below AMPCPP and 2‐Me‐S‐ATP may therefore both activate P2Y‐receptors (2‐Me‐S‐ATP>AMPCPP, no desensitization with AMPCPP) whereas above day 20 the agonists activate P2X‐receptors (AMPCPP>2‐Me‐S‐ATP, desensitization with AMPCPP) which is similar to the adult tissue. Since ATP and UTP were equipotent in the muscularis mucosae and as no cross‐desensitization was observed with AMPCPP and UTP or ATP at days 15 or 30, it is likely that ATP and UTP both activate P2U‐receptors throughout the ages, as in the adult. 4 The potency of all the agonists in causing contraction in the rat duodenum muscularis mucosae decreased with age. The potency of AMPCPP and 2‐Me‐S‐ATP in causing contractions was highest in the neonates before day 25, and reached values not significantly different from adult by day 30, and the potency of ATP and UTP causing contractions in this tissue was also highest in the neonates at days 10 and 15, and reached values not significantly different from adult by day 20. This suggests either that the receptor populations mediating contraction are highest in the neonates below day 20 or that the agonists are degraded by the muscularis mucosae to a greater extent after day 20. 5 In the rat duodenum muscularis mucosae the degra
ISSN:0007-1188
1476-5381
DOI:10.1038/sj.bjp.0701375