Pepsinogen A (PGA) isozymogens are low molecular weight proteins that
are present in serum and urine. The differences in the molecular struc
ture of PGA-isozymogens involve only 2-4 amino acid substitutions. In
a previous study, performed in 13 subjects only, a remarkable differen
ce between the fractional renal clearances of the main PGA-isozymogens
(PGA-3, PGA-4 and PGA-5) has been demonstrated. The aim of the presen
t study was to further investigate these differences in fractional cle
arance between PGA-isozymogens and to determine whether these differen
ces are caused by differences in glomerular sieving. For this purpose
the fractional clearances of PGA-isozymogens were measured in 57 subje
cts. In accordance with the previous study, the median fractional clea
rance of PGA-5 (13%) was lower than the median fractional clearance of
PGA-4 (17%; p <0.02) and the median fractional clearance of PGA-4 was
lower than the median fractional clearance of PGA-3 (26%; p <0.001).
The glomerular sieving coefficients of PGA-isozymogens were measured i
n 11 subjects during an elective heart catheterization by means of the
fractional renal extraction method. No significant difference between
the glomerular sieving coefficients of PGA-isozymogens could be demon
strated, being 0.81 for PGA-3, 0.96 for PGA-4 and 0.84 for PGA-5. It i
s concluded that the differences in renal handling between PGA-isozymo
gens must be explained by differences in tubular reabsorption. These d
ifferences in tubular reabsorption between PGA-isozymogens support the
hypothesis that positively charged amino acid residues of proteins ar
e involved in the tubular protein reabsorption.