小鼠肾脏细胞外 cAMP-腺苷途径。
Extracellular cAMP-adenosine pathways in the mouse kidney.
机构信息
Dept. of Pharmacology and Chemical Biology, Univ. of Pittsburgh School of Medicine, PA 15219, USA.
出版信息
Am J Physiol Renal Physiol. 2011 Sep;301(3):F565-73. doi: 10.1152/ajprenal.00094.2011. Epub 2011 Jun 8.
The renal extracellular 2',3'-cAMP-adenosine and 3',5'-cAMP-adenosine pathways (extracellular cAMPs→AMPs→adenosine) may contribute to renal adenosine production. Because mouse kidneys provide opportunities to investigate renal adenosine production in genetically modified kidneys, it is important to determine whether mouse kidneys express these cAMP-adenosine pathways. We administered (renal artery) 2',3'-cAMP and 3',5'-cAMP to isolated, perfused mouse kidneys and measured renal venous secretion rates of 2',3'-cAMP, 3',5'-cAMP, 2'-AMP, 3'-AMP, 5'-AMP, adenosine, and inosine. Arterial infusions of 2',3'-cAMP increased (P < 0.0001) the mean venous secretion of 2'-AMP (390-fold), 3'-AMP (497-fold), adenosine (18-fold), and inosine (adenosine metabolite; 7-fold), but they did not alter 5'-AMP secretion. Infusions of 3',5'-cAMP did not affect venous secretion of 2'-AMP or 3'-AMP, but they increased (P < 0.0001) secretion of 5'-AMP (5-fold), adenosine (17-fold), and inosine (6-fold). Energy depletion (metabolic inhibitors) increased the secretion of 2',3'-cAMP (8-fold, P = 0.0081), 2'-AMP (4-fold, P = 0.0028), 3'-AMP (4-fold, P = 0.0270), 5'-AMP (3-fold, P = 0.0662), adenosine (2-fold, P = 0.0317), and inosine (7-fold, P = 0.0071), but it did not increase 3',5'-cAMP secretion. The 2',3'-cAMP-adenosine pathway was quantitatively similar in CD73 -/- vs. +/+ kidneys. However, 3',5'-cAMP induced a 6.7-fold greater increase in 5'-AMP, an attenuated increase (61% reduction) in inosine and a similar increase in adenosine in CD73 -/- vs. CD73 +/+ kidneys. In mouse kidneys, 1) 2',3'-cAMP and 3',5'-cAMP are metabolized to their corresponding AMPs, which are subsequently metabolized to adenosine; 2) energy depletion activates the 2',3'-cAMP-adenosine, but not the 3',5'-cAMP-adenosine, pathway; and 3) although CD73 is involved in the 3',5'-AMP-adenosine pathway, alternative pathways of 5'-AMP metabolism and reduced metabolism of adenosine to inosine compensate for life-long deficiency of CD73.
肾脏细胞外 2',3'-cAMP-腺苷和 3',5'-cAMP-腺苷途径(细胞外 cAMPs→AMPs→腺苷)可能有助于肾脏腺苷的产生。由于小鼠肾脏为研究基因修饰肾脏中的腺苷产生提供了机会,因此确定小鼠肾脏是否表达这些 cAMP-腺苷途径非常重要。我们给分离灌注的小鼠肾脏输注(肾动脉)2',3'-cAMP 和 3',5'-cAMP,并测量肾静脉 2',3'-cAMP、3',5'-cAMP、2'-AMP、3'-AMP、5'-AMP、腺苷和肌苷的分泌率。2',3'-cAMP 的动脉输注(P < 0.0001)增加了 2'-AMP(390 倍)、3'-AMP(497 倍)、腺苷(18 倍)和肌苷(腺苷代谢物;7 倍)的平均静脉分泌,但不改变 5'-AMP 的分泌。3',5'-cAMP 的输注不影响 2'-AMP 或 3'-AMP 的静脉分泌,但增加了 5'-AMP(5 倍,P < 0.0001)、腺苷(17 倍,P < 0.0001)和肌苷(6 倍,P < 0.0001)的分泌。能量耗竭(代谢抑制剂)增加了 2',3'-cAMP(8 倍,P = 0.0081)、2'-AMP(4 倍,P = 0.0028)、3'-AMP(4 倍,P = 0.0270)、5'-AMP(3 倍,P = 0.0662)、腺苷(2 倍,P = 0.0317)和肌苷(7 倍,P = 0.0071)的分泌,但不增加 3',5'-cAMP 的分泌。CD73 -/-与 +/+ 肾脏中的 2',3'-cAMP-腺苷途径在数量上相似。然而,3',5'-cAMP 诱导 5'-AMP 增加 6.7 倍,肌苷增加减少(61%减少),腺苷增加相似,在 CD73 -/-与 CD73 +/+ 肾脏中。在小鼠肾脏中,1)2',3'-cAMP 和 3',5'-cAMP 被代谢为相应的 AMPs,随后被代谢为腺苷;2)能量耗竭激活 2',3'-cAMP-腺苷途径,但不激活 3',5'-cAMP-腺苷途径;3)尽管 CD73 参与了 3',5'-AMP-腺苷途径,但 5'-AMP 代谢的替代途径和腺苷向肌苷的代谢减少补偿了 CD73 的终生缺乏。
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