Changes in pathways of pentose phosphate formation in relation to phosphoribosyl pyrophosphate synthesis in the developing rat kidney. Effects of glucose concentration and electron acceptors.

Phosphoribosyl pyrophosphate (PPRibP), required in nucleotide synthesis, increases 2-fold in rat kidney from 1 day post partum to adult stage; there is no accompanying increase in PPRibP synthetase activity measured in vitro. Ribose 5-phosphate is a key factor in the regulation of PPRibP synthesis. The activity and regulation of 3 routes of ribose 5-phosphate formation have been measured in renal growth: (i) the flux through the oxidative pentose phosphate pathway was high in the neonatal period but increased only +50% thereafter; (ii) the non-oxidative pentose phosphate pathway, including transketolase, increased by +145%; (iii) the rate-limiting enzymes of the glucuronate-xylulose route increased +200% from 1 day to the adult stage. The importance of systems reoxidizing NADPH was shown by: (i) the stimulation of renal PPRibP formation from glucose by phenazine methosulphate; (ii) the early involvement of the oxidative pentose phosphate pathway at the stage where NADPH is used for biosynthetic routes; (iii) the increasing involvement of the glucuronate-xylulose route, which acts as a transhydrogenase producing NADP+ in addition to pentose phosphate formation and (iv) the correlation between renal PPRibP content and the activity of aldose reductase, which, by utilization of NADPH, stimulates ribose 5-phosphate formation via the oxidative pentose phosphate pathway. Evidence is adduced that the contribution of the 3 routes of ribose 5-phosphate formation in the kidney varies at different stages of development.