AJP - Renal Physiology, Vol 253, Issue 3 500-F512, Copyright © 1987 by American Physiological Society
Postglomerular capillary solute flux restricted by shape and charge in the dog
C. Whiteside and M. Silverman
The permselectivity characteristics of the postglomerular (PG)
microcirculation in dog kidney were investigated employing 3H-labeled
cationic (DEAE) and anionic sulfated dextrans (dextran-SO4) ranging from 19
to 29 A Stokes-Einstein Radius. With the use of the multiple-indicator
dilution (MID) technique, a bolus injection was made into the left renal
artery and timed serial samples were obtained from renal venous and urine
outflows. The injection solution contained 125I-labeled albumin (plasma
reference), [14C]inulin and/or creatinine (glomerular and interstitial
references), and a test [3H]dextran probe. A control run was carried out
with tracer, then charge interaction was analyzed by repeating the MID run
with excess unlabeled compound or after protamine sulfate infusion. After
loading, renal vein recovery and mean transit time (t) were unchanged
relative to [14C]inulin for [3H]dextran-SO4. But excess DEAE resulted in
reduced recovery and decreased t for [3H]DEAE. After protamine sulfate, the
renal vein and urine recoveries of [3H]dextran-SO4 decreased and the renal
vein t increased. These findings demonstrate saturable anionic binding
sites in the PG microcirculation. Under conditions where charge interaction
was eliminated, the ratio of renal vein t for 125I-albumin to cationic or
anionic dextran was always less than its ratio to neutral dextran, implying
a larger apparent volume of distribution. We concluded that PG capillaries
also limit solute flux on the basis of shape.
