Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P02774 (
Gc-globulin
)
196
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Serum-25-hydroxy-vitamin-D (25-OHD) nephrotic syndrome (N.S.) without renal insufficiency (urinary protein excretion greater than 3-5 g/24 h/1-73 m2; glomerular filtration-rate greater than 80 ml/min/1-73 m2). Serum-25-OHD levels were low in patients with N.S. (mean 19 nmol/1, range 4-41 nmol/1), compared with a normal range of 25-200 nmol/1. Serum-concentrations of
Gc-globulin
--the binding protein for vitamin D and its metabolites (D.B.P.)--were significantly (P less than 0-001) lower in patients with N.S. (mean 340 mg/1, range 190-480 mg/1) than in non-proteinuric controls (mean 440 mg/1, range 376-510 mg/1, measured by radial immunodiffusion). In contrast to non-proteinuric urine, urine of all N.S. patients contained a large amount of 25-OHD-binding capacity; D.B.P. could be detected in all N.S. urines after concentration. Scatchard analysis of the urine demonstrated the presence of a low-affinity and a high-affinity binding protein (tentatively identified as albumin and D.B.P.). These results suggest an acquired deficiency of circulating 25-OHD in N.S. secondary to urinary loss of protein-bound 25-OHD. The biological relevance of the low 25-OHD levels is unknown. There was no clinical evidence of
osteomalacia
(X-ray, serum-alkaline-phosphatase); however, slightly elevated serum-parathyroid-hormone (P.T.H.) levels would be compatible with borderline vitamin-D depletion.
...
PMID:25-hydroxy-vitamin-D in nephrotic syndrome. 6 93
Environmental cadmium (Cd) pollution and its effects on human health are still important issues. The most severe and representative manifestation of chronic Cd intoxication is Itai-itai disease, which is a syndrome that includes renal tubular dysfunction,
osteomalacia
, and generalized pain due to multiple bone fractures. The whole mechanism of how renal dysfunction relates to the development of bone lesions is unresolved.
Vitamin D-binding protein
(DBP) binds, transports and activates vitamin D, which plays a major role in calcium homeostasis and bone turnover. In this study, we measured urinary DBP levels and investigated their relationship to the markers of renal tubular dysfunction in the inhabitants of a Cd-polluted Jinzu River basin in Toyama Prefecture, Japan (Cd group). We also investigated age-matched subjects from an area known to have lower levels of Cd pollution (reference group). Urinary DBP was measured by a fluorometric enzyme-linked immunosorbent assay (ELISA), which was established in our laboratory. Significantly higher levels of urinary DBP were observed in the Cd group compared to the reference group. We observed significant positive correlations between urinary levels of DBP and renal tubular dysfunction markers in both groups. In the Cd group, urinary levels of DBP had a negative correlation with serum phosphate value. These results indicate that excretion of urinary DBP is increased after long-term Cd exposure and that the loss of DBP in urine may be linked to renal tubular dysfunction and possibly bone lesions in the inhabitants of Cd-polluted areas.
...
PMID:Elevated urinary levels of vitamin D-binding protein in the inhabitants of a cadmium polluted area, Jinzu River basin, Japan. 1734 52
