Background: Severe long-standing hypertension is associated with an increased urinary protein excretion.
Methods: To investigate the mechanisms of this proteinuria, we measured the glomerular clearances and calculated the glomerular sieving coefficients (theta) for neutral albumin (theta(o-alb)) and for native albumin (theta(alb)) in spontaneously hypertensive rats (SHR) at the ages of 3, 9 and 14 months, in comparison with age-matched normal control Wistar rats (NCR). The hypothesis was that increases in the glomerular permeability of both negatively charged and neutral albumin would indicate a preferential size-selective dysfunction of the glomerular capillary wall (GCW), while an increased permeability to negatively charged albumin, as compared with neutral albumin, predominantly would indicate a charge-selectivity dysfunction of the GCW. A tissue (renal) uptake technique together with urinary sampling was used to assess theta. The glomerular filtration rate was assessed using the plasma to urine clearance of (51)Cr-EDTA.
Results: The theta(alb) in SHR increased 2.6 times at 14 months of age as compared with at 3 months, while there was no significant change of theta(alb) in NCR with age. Furthermore, the increased theta(alb) in old SHR correlated significantly with an increase in theta(o-alb) (r = 0.86, P<0.001), suggesting that albuminuria in old SHR primarily results from an increased number of rather unselective ('large') pores in the glomerular filter.
Conclusions: In old age, but not at a young age, hypertensive rats develop proteinuria as a result of dysfunction of the glomerular capillary filter, affecting primarily its size-selectivity. The changes are functionally compatible with the appearance in the glomerular barrier of an increased number of more unselective pores.