Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.26.9 (ribonuclease)
 6,589 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

X-linked hypophosphatemia (XLH), a renal phosphate (Pi) wasting disorder with defective bone mineralization, is caused by mutations in the PHEX gene (a Pi-regulating gene with homology to endopeptidases on the X chromosome). Parathyroid hormone (PTH) status in XLH has been controversial, with the prevailing belief that hyperparathyroidism develops in response to Pi therapy. We report a 5-year-old girl with XLH (patient 1) who had significant hyperparathyroidism at presentation, prior to initiation of therapy. We examined her response to a single oral Pi dose, in combination with calcitriol, and demonstrated a rise in serum concentration of intact PTH, which peaked at 4 h and paralleled the rise in serum Pi concentration. We also present two other patients whose parathyroid glands were analyzed for PHEX mRNA expression following parathyroidectomy. Patient 2 had autonomous hyperparathyroidism associated with chronic renal insufficiency, and patient 3, with XLH, developed autonomous hyperparathyroidism after 8 years of therapy with Pi and calcitriol. Following parathyroidectomy, patient 3 exhibited an increase in both serum Pi concentration and renal Pi reabsorption. The abundance of PHEX mRNA, relative to beta-actin mRNA, in parathyroid glands from patients 2 and 3 was several-fold greater than that in human fetal calvaria, as estimated by ribonuclease protection assay. In summary, we have shown that hyperparathyroidism can be a primary manifestation of XLH and that PHEX is abundantly expressed in the parathyroid gland. Given that PHEX has homology to endopeptidases, we propose that PHEX may have a role in the normal regulation of PTH.
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PMID:PHEX expression in parathyroid gland and parathyroid hormone dysregulation in X-linked hypophosphatemia. 1046 May 13

Removal of low molecular weight proteins from plasma by kidneys depends on glomerular filtration rate (GFR), protein-glomerular membrane electric charge, steric interactions and a number of functionally active nephrons present in the kidneys. There is a well documented relationship between the concentration of low molecular weight proteins in plasma and GFR value in patients with impaired renal function. Accumulation of low molecular weight proteins in plasma along with a decrease in GFR value may in the long run enhance formation of protein tissue deposits known as various forms of amyloidosis. In this paper we present studies on plasma concentrations of acid leukocyte-type ribonuclease (RNase) and alkaline pancreatic-type RNase and GFR value in 54 patients with renal failure. RNase isoenzymes' activities were assayed by measuring their enzyme activities manifested as ability to decompose yeast RNA and assay of digestion products' concentration by spectrophotometry. The studies show that decreasing filtration rate produces an increase in serum activities of both acid and alkaline RNases, which is proportional to the logarithm of GFR value. However, the increase rate vs. GFR value is by four times higher for acid RNase than for alkaline RNase. Acid RNase in human plasma is mostly of leukocytic origin and differs from pancreatic-type alkaline RNase, which is of pancreatic origin. The obtained results may suggest that leukocyte originating proteins essentially contribute to low molecular weight protein accumulation in plasma of patients with chronic renal insufficiency.
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PMID:Acid ribonuclease and alkaline ribonuclease isoenzymes in plasma of patients with decreased glomerular filtration rate. 1508 May 60