Changes in Renal Cyclic Nucleotides as a Trigger to the Onset of Compensatory Renal Hypertrophy

In adult male Wistar rats contralateral nephrectomy was followed, within 10 minutes, by a nearly twofold rise of the content of cGMP in renal tissue. 20 and 40 minutes after contralateral nephrectomy cGMP fell to one half its control level to rise again to its normal level within 90 minutes. The initial rise of the concentration of cGMP was accompanied by a simultaneous fall of the concentration of cAMP by about 30 percent: the cAMP concentration remained 10-20 percent below control level for approximately two hours and rose again to its initial level after three hours. Cross-circulation of a nephrectomized rat with an intact animal led to a sharp increase of cGMP in the kidneys of the latter with a peak at 10 minutes after initiating cross-circulation and also to a fall of the cAMP concentration. When the same nephrectomized donor rat was subsequently cross-circulated with one, or even two, intact receiver animals, similar short-lasting changes of cyclic nucleotide concentrations were recorded in the kidneys of all the receivers. When a normal kidney was transplanted to the neck of a rat, subsequent removal of one of its own kidneys did not result in any change in cyclic nucleotide content in either the remaining or the transplanted kidney. The data are interpreted to indicate that renal tissue produces a factor inhibiting renal growth which counteracts a circulating humoral kidney growth stimulating factor of unknown origin. An initial rise of cGMP and a fall of cAMP may trigger the subsequent stimulation of protein synthesis responsible for hypertrophy.