A B S T R A C T The development of immune deposits on the subepithelial surface of the glomerular capillary wall was studied in isolated rat kidneys perfused at controlled perfusion pressure, pH, temperature, and flow rates with recirculating oxygenated perfusate containing bovine serum albumin (BSA)
A B S T R A C T Membrane metabolism was studied during the initiation of compensatory growth after acute reduction in renal mass. The rate of [14C]choline incorporation into phospholipid in renal cortical slices was increased by 37% at 5 min of compensatory growth in mice. The rate increased to the maximal value of 68% by 20 min and remained there for 3 h. The rate then remained increased at 28-34% above normal for 2 days and returned to normal by the 6th day.The increase in rate of choline incorporation into renal phospholipid was independent of choline uptake. r"C]Choline was found to be a specific precursor of the three renal phospholipids, phosphatidylcholine, lysophosphatidylcholine, and sphingomyelin, which comprise over half the amount of the phospholipids. The relative distribution of the label in each of the three phospholipid classes did not change with compensatory growth. An increased rate of choline incorporation was also observed in kidneys of rats during compensatory growth and in the compensating kidneys of mice treated with indomethacin before uninephrectomy. The rate was increased 24% at 3 h after uninephrectomy in vivo. The increase appeared to be specific for the kidney, since it did not occur in the livers of these mice.The results indicate that the onset of renal compensatory growth is associated with a specific enhancement of the synthesis of renal choline-containing phospholipids. Since the phospholipids largely occur in the cell membrane, early alterations in cell membrane metabolism may thus play a role in the initiation of cell growth.A preliminary report of this work has been published in abstract form: 1973. American Society of Nephrology. 6: 105.
Serum from uninephrectomized rats was injected into normal recipient rats. This led to an increased incorporation of tritiated thymidine in the kidney cells, but not in the liver cells of the recipients. The results suggest that there is a humoral substance acting specifically on the kidney that promotes renal compensatory hyperplasia.
The effect of anti-GBM antibody on protein excretion was studied in isolated rat kidneys perfused with 20 mg of sheep anti-rat GBM (experimental) or nonantibody sheep IgG (control). Six control kidneys excreted 176 +/- 31 micrograms/min of BSA initially, rising to 296 +/- 111 micrograms/min at 2 h. Fractional clearance of BSA rose from 0.51 to 1.70%. Eight experimental kidneys excreted 211 +/- 56 micrograms/min of BSA, increasing to 1,924 +/- 804 micrograms/min at 2 h. Fractional BSA clearance increased from 0.56 to 11.49%. After 60 min, BSA excretion in anti-GBM-perfused kidneys exceeded controls by a factor of 6.5-7.9 (P less than 0.05) and fractional BSA clearance exceeded controls by a factor of 5.8-7.1 (P less than 0.05). Studies with fluorescent markers indicated proteinuria to be of glomerular origin in antibody-perfused kidneys. There were no significant differences between anti-GBM-perfused and control kidneys in perfusion pressures, perfusate flow rates, urine flow rates, inulin clearance, or sodium reabsorption. Antibody to GBM can induce a marked increase in glomerular permeability to BSA and IgG without participation of other systemic humoral or cellular mediation systems.
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