Adenosine and Kidney Function

doi:10.1152/physrev.00031.2005

Adenosine and Kidney Function

Volker Vallon, Bernd Mühlbauer and Hartmut Osswald

Departments of Medicine and Pharmacology, University of California San Diego and Veterans Affairs San Diego Health Care System, San Diego, California; and Institute of Pharmacology and Toxicology, Medical Faculty, University of Tuebingen, Tuebingen, Germany

In this review we outline the unique effects of the autacoidadenosine in the kidney. Adenosine is present in the cytosolof renal cells and in the extracellular space of normoxic kidneys.Extracellular adenosine can derive from cellular adenosine releaseor extracellular breakdown of ATP, AMP, or cAMP. It is generatedat enhanced rates when tubular NaCl reabsorption and thus transportwork increase or when hypoxia is induced. Extracellular adenosineacts on adenosine receptor subtypes in the cell membranes toaffect vascular and tubular functions. Adenosine lowers glomerularfiltration rate (GFR) by constricting afferent arterioles, especiallyin superficial nephrons, and acts as a mediator of the tubuloglomerularfeedback, i.e., a mechanism that coordinates GFR and tubulartransport. In contrast, it leads to vasodilation in deep cortexand medulla. Moreover, adenosine tonically inhibits the renalrelease of renin and stimulates NaCl transport in the corticalproximal tubule but inhibits it in medullary segments includingthe medullary thick ascending limb. These differential effectsof adenosine are subsequently analyzed in a more integrativeway in the context of intrarenal metabolic regulation of kidneyfunction, and potential pathophysiological consequences areoutlined.

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				M. Carlstrom, E. Y. Lai, A. Steege, M. Sendeski, Z. Ma, S. Zabihi, U. J. Eriksson, A. Patzak, and A. E. G. Persson Nitric Oxide Deficiency and Increased Adenosine Response of Afferent Arterioles in Hydronephrotic Mice With Hypertension Hypertension, May 1, 2008; 51(5): 1386 - 1392. [Abstract] [Full Text] [PDF]

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				V. Vallon P2 receptors in the regulation of renal transport mechanisms Am J Physiol Renal Physiol, January 1, 2008; 294(1): F10 - F27. [Abstract] [Full Text] [PDF]

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