Background and purpose:Various complications consequent on disordered calcium and phosphate homeostasis occur frequently in chronic kidney disease (CKD) patients. Particularly, vascular calcification has high morbidity and mortality rates. There is a clear need for a better CKD model to examine various aspects of this disordered homeostasis. Experimental approach: Oral dosing with adenine induced CKD in rats in only 10 days. Serum calcium, phosphate and parathyroid hormone were measured and calcification in aorta was assessed histologically. The effects of varying phosphorus content of diet or treatment with phosphate binders or active vitamin D3 on these parameters were examined. Key results: After adenine dosing, significant hyperphosphatemia, hypocalcemia and secondary hyperparathyroidism (2HPT) were observed during the experimental period of 15 weeks. Aortic calcification was detected in only some of the animals even at 15 weeks (~40%). Treatment with vitamin D3 for 18 days, even at a low dose (100 ng·kg -1 , 3-4 times week -1 , p.o), caused aortic calcification in all animals and increases in serum calcium levels up to the normal range. The vitamin D3-induced calcification was significantly inhibited by phosphate binders which lowered serum phosphate levels and the calcium ¥ phosphate product, although serum calcium levels were elevated. Conclusions: These data suggest that rats dosed orally with adenine provide a more useful model for analysing calcium/ phosphate homeostasis in severe CKD. Controlling serum calcium/phosphate levels with phosphate binders may be better than vitamin D3 treatment in hyperphosphatemia and 2HPT, to avoid vascular calcification.
Oral dosing with adenine made the model preparation period definitely shorter, and its usefulness as a hyperphosphataemia model was revealed using Sev.
Background: Renal urinary concentration is associated with enhanced expression of sodium cotransporter (rBSC1) in thick ascending limb of Henle. Overexpression of rBSC1 was reported recently in hypertrophied nephrons after unilateral nephrectomy (UNX) and in kidney isografts. Since urinary concentration defect and hypertrophy of residual nephrons are major manifestations of chronic renal failure (CRF), we investigated the rBSC1 signals for RNA and protein in a rat model of CRF. Methods: Rats underwent 5/6 nephrectomy and examined 8 weeks after operation. rBSC1 mRNA was examined by competitive PCR and in situ hybridization, and rBSC1 protein signals by western blotting and immunohistochemistry. Rats that underwent sham-operation, UNX, or 5/6 nephrectomy followed by a 3-week recovery period (acute renal failure), were used as control. Water intake was restricted for 24 h in subgroups of control and CRF rats. Results: Microscopic examination showed hypertrophy of residual nephrons in both UNX and CRF rats. Signals for rBSC1 mRNA and protein were enhanced at basal condition only in rats with UNX. Under basal conditions, CRF rats demonstrated low urinary osmolality in spite of high plasma arginine vasopressin levels. Water restriction resulted in increased signals for rBSC1 mRNA and protein and concentration of urine in sham-operated rats, but such increases were absent and urinary concentration was incomplete in CRF rats. Conclusions: Compensatory overexpression and upregulation of rBSC1 expression in response to dehydration are both absent in CRF rats. These limitations are thought to be the underlying mechanisms of urinary concentrating defect seen in CRF.
Dehydration increased rBSC1 expression and enhanced countercurrent multiplication even in AVP deficiency. These results supply strong evidence for the association between rBSC1 expression and urinary concentration, and indicate the presence of an AVP-independent mechanism for urine concentration.
We elucidated the contribution of endogenous pituitary adenylate cyclase-activating polypeptide (PACAP) to neurally evoked catecholamine secretion from the isolated perfused rat adrenal gland. Infusion of PACAP (100 nM) increased adrenal epinephrine and norepinephrine output. The PACAP-induced catecholamine output responses were inhibited by the PACAP type I receptor antagonist PACAP- (6-38) (30-3,000 nM) but were resistant to the PACAP type II receptor antagonist [Lys1,Pro2,5,Ara3,4,Tyr6]-vasoactive intestinal peptide (LPAT-VIP; 30-3,000 nM). Transmural electrical stimulation (ES; 1-10 Hz) or infusion of ACh (6-200 nM) increased adrenal epinephrine and norepinephrine output. PACAP-(6-38) (3,000 nM), but not LPAT-VIP, also inhibited the ES-induced catecholamine output responses. However, PACAP-(6-38) did not affect the ACh-induced catecholamine output responses. PACAP at low concentrations (0.3-3 nM), which had no influence on catecholamine output, enhanced the ACh-induced catecholamine output responses, but not the ES-induced catecholamine output responses. These results suggest that PACAP is released from the nerve endings to facilitate the neurally evoked catecholamine secretion through PACAP type I receptors in the rat adrenal gland.
Glomeruli and renal tubule injury in chronic kidney disease (CKD) is reported to involve induction of macrophage activation through the CCL2/CCR2 axis. The effects of inhibitors of the CCL2/CCR2 axis, such as anti-CCL2 antibody and CCR2 antagonist, on kidney function in animal models or humans with kidney dysfunction have been demonstrated. The N-terminal glutamine on immature CCL2 is replaced with pyroglutamate (pE) by glutaminyl cyclase (QC) and isoQC. pE-CCL2 is stable and resistant to peptidases. We hypothesized that inhibiting QC/isoQC activity would lead to the degradation of CCL2, thereby ameliorating CKD and reducing kidney inflammation. To test this hypothesis, we investigated the renoprotective properties of the QC/isoQC inhibitor PQ529 in anti-glomerular basement membrane (GBM) antibody–induced glomerulonephritis Wistar Kyoto (WKY) rats. Three-week repeated administration of PQ529 (30 and 100 mg/kg, twice daily) significantly reduced the serum and urine CCL2 and urinary protein excretion in a dose-dependent manner. Correlations between the urinary protein level and serum or urinary CCL2 levels were confirmed in tested animals. Repeated administration of PQ529 significantly reduced the expression of CD68, a macrophage marker, in the kidney cortex and mononuclear infiltration into the tubulointerstitium. In addition, decreased levels of urinary KIM-1, β2 microglobulin, and clusterin were detected, suggesting the inhibition of inflammation in both the proximal and distal tubules. These results suggest that PQ529 suppresses the progression of inflammation-induced renal dysfunction by inhibiting the CCL2/CCR2 axis. Inhibition of QC/isoQC may thus be a viable alternative therapeutic approach for treating glomerulonephritis and CKD patients.
Our results suggest that dehydration or high plasma AVP results in an enhanced rBSC1 expression in Li nephropathy, and that rBSC1 expression is closely associated with the adverse effects of Li ions on collecting duct function.
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