A quantitative analysis of the glomerular charge barrier in the rat

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A quantitative analysis of the glomerular charge barrier in the rat

Jenny Sörensson¹, Maria Ohlson¹, and Börje Haraldsson¹^,²

Departments of ¹ Physiology and ² Nephrology, Göteborg University, SE-405 30 Gothenburg, Sweden

Modifying the ionic strength (I) is a gentle way to alter charge interactions, but it cannot be done for studies of the glomerularsieving of proteins in vivo. We therefore perfused 18 isolatedrat kidneys with albumin solutions of different ionic strengthsat a low temperature (cIPK) to inhibit tubular uptake and proteaseactivity. Four anionic proteins were studied, namely albumin (Alb),orosomucoid (Oro), ovalbumin (Ova), and anionic horseradish peroxidase(aHRP), together with the neutral polymer Ficoll. With normalionic strength of the perfusate (152 mM), the fractional clearance( $theta$ ) was 0.0018 ± 0.0003 for Alb, 0.0033 ± 0.0003 for Oro, 0.090± 0.008 for Ova, and 0.062 ± 0.002 for aHRP. These $theta$ values wereall lower than for Ficoll of similar hydrodynamic size; e.g., $theta$ _{Ficoll 36 Å} was >20 times higher than $theta$ foralbumin. Low ionic strength (34 mM) increased size selectivityas $theta$ for anionic proteins and Ficoll fell, suggesting a reductionin small-pore radius from 44 ± 0.4 to 41 ± 0.5 Å, P < 0.01. Incontrast, low I reduced the charge density of the membrane, $omega$ ,to one-quarter of the 20-50 meq/l estimated at normal I. Thesedynamic changes in $omega$ seem to be due to volume alterations of thecharged gel, fluid shifts that easily are accounted for by thechanges in electroosmotic pressures. The finding that low ionicstrength induces inverse effects on size selectivity and chargedensity strongly suggests that separate structures of the glomerularwall are responsible for the twoproperties.

capillary permeability; kidney glomerulus physiology; charge; endothelium

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				B. Haraldsson and J. Sorensson Why Do We Not All Have Proteinuria? An Update of Our Current Understanding of the Glomerular Barrier Physiology, February 1, 2004; 19(1): 7 - 10. [Abstract] [Full Text] [PDF]

				M. A. M. Guimaraes, J. Nikolovski, L. M. Pratt, K. Greive, and W. D. Comper Anomalous fractional clearance of negatively charged Ficoll relative to uncharged Ficoll Am J Physiol Renal Physiol, December 1, 2003; 285(6): F1118 - F1124. [Abstract] [Full Text]

				G. Ciarimboli, C. Hjalmarsson, A. Bokenkamp, H.-J. Schurek, and B. Haraldsson Dynamic alterations of glomerular charge density in fixed rat kidneys suggest involvement of endothelial cell coat Am J Physiol Renal Physiol, October 1, 2003; 285(4): F722 - F730. [Abstract] [Full Text] [PDF]

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				C. K. Fujihara, M. Arcos-Fajardo, E. B. D. A. Prado, M. J. B. D. A. Prado, A. Sesso, and R. Zatz Enhanced glomerular permeability to macromolecules in the Nagase analbuminemic rat Am J Physiol Renal Physiol, January 1, 2002; 282(1): F45 - F50. [Abstract] [Full Text] [PDF]

				W. D. Comper ;, B. Haraldsson, M. Ohlson, and J. Sorensson Charge Selectivity is a Concept That Has Yet to be Demonstrated Am J Physiol Renal Physiol, November 1, 2001; 281(5): F992 - F993. [Full Text] [PDF]

				C. Hjalmarsson, M. Ohlson, and B. Haraldsson Puromycin aminonucleoside damages the glomerular size barrier with minimal effects on charge density Am J Physiol Renal Physiol, September 1, 2001; 281(3): F503 - F512. [Abstract] [Full Text] [PDF]