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Target Concepts:
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Query: EC:3.1.3.5 (
5'-nucleotidase
)
3,167
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Few studies have examined tubular function after subtotal nephrectomy (Nx) and conservative treatments. The effects of 70% and 80% Nx (associated with dietary phosphate restriction in the latter case) on the apical brush border membrane (BBM) enzymes
5'-nucleotidase
, gamma glutamyl-transferase and alkaline-phosphatase, and one BBM Na-phosphate cotransporter (NaPi-2) were studied in rats after a six week period. Changes in activity and mRNA abundance of the BBM enzymes and in NaPi-2 protein and mRNA abundance were compared with changes in the distal markers of Na,K-ATPase activity and epidermal growth factor (EGF) production. The activity, but not the mRNA of BBM enzymes, was moderately reduced by the 70% Nx. Both the mRNA and activity of gamma glutamyl-transferase and alkaline-phosphatase were decreased in the 80% Nx, and the NaPi-2 mRNA, protein and Na,K-ATPase activities were also reduced. These effects (except for 5'nucleotidase and Na,K-ATPase) were partly reversed by phosphate restriction. Overproduction of EGF occurred after the 70% Nx, was blunted in the 80% Nx, and then partially restored by phosphate restriction. Aggravation of tubular alteration was associated with enhanced renal hyperplasia (increased DNA mass), reduced
GFR
and hyperphosphatemia, and high PTH levels, but reduced cAMP excretion. Improvement following phosphate restriction was associated with reduced hyperplasia and lowering of phosphatemia and PTH levels. These data demonstrate that Nx selectively affected BBM function through transcriptional changes that were partially reversed by phosphate restriction. Regulatory factors involved in these changes may include intracellular phosphate content and growth factors, but not the PTH effects that are impaired in chronic renal failure.
...
PMID:Subtotal nephrectomy alters tubular function: effect of phosphorus restriction. 940
Nephron function is stabilized by tubuloglomerular feedback (TGF). TGF operates within the juxtaglomerular apparatus, sensing changes in tubular flow and eliciting compensatory changes in single nephron
GFR
(SNGFR). The mediator(s) of TGF remains unconfirmed. One theory is that ATP consumed in active transport by the macula densa leads to formation of adenosine, which causes glomerular vasoconstriction. We performed micropuncture in rats to test this hypothesis. Adenosine activity was manipulated by microperfusing nephrons with adenosine A1 receptor blocker, A1-agonist, or
5'-nucleotidase
inhibitor. Effects on TGF were characterized by changes in TGF efficiency (the compensation for small perturbations in tubular flow) and by changes in the maximum range over which TGF can cause SNGFR to change. These data were further applied to generate TGF profiles [SNGFR versus late proximal flow (V(LP))]. TGF efficiency was significantly reduced by blocking A1-receptors. TGF efficiency, TGF range, and the slope of the TGF profile (DeltaSNGFR/DeltaV(LP)) were all significantly reduced by blocking
5'-nucleotidase
. When adenosine activity was clamped by combining
5'-nucleotidase
inhibitor with A1-agonist to determine whether TGF requires adenosine to be present or to fluctuate, the TGF slope was reduced by 83%, indicating that adenosine activity must fluctuate for normal TGF to occur and that adenosine is a mediator of TGF.
...
PMID:Adenosine formed by 5'-nucleotidase mediates tubuloglomerular feedback. 1090 45
