Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P02794 (ferritin)
 17,525 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The main Fe storage organ in the body is the liver. In patients with chronic liver disease, secondary Fe overload is common. Phlebotomy, often used in the West to reduce Fe overload to improve the efficacy of interferon therapy, is not socially acceptable in India. We assessed the efficacy of a low-Fe diet in reducing serum Fe levels. Nineteen patients with hepatitis B- and C-related chronic liver disease, ten with normal (< 25 mumol/l) baseline serum Fe levels (group A) and nine with high (> 25 mumol/l) serum Fe levels (group B) were included. All the subjects were advised to eat a low-Fe diet. The daily Fe intake was reduced approximately 50% by consumption of the rice-based diet. Haemoglobin, serum Fe, transferrin saturation index (TSI), ferritin and alanine transaminase (EC 2.6.1.2) levels were studied at 1 and 4 months. Dietary Fe intake and body weight were closely monitored. All patients complied with the dietary regimen and at 4 months significant (P < 0.001) reductions from baseline were seen in serum Fe (20 (SD 3) v. 12 (SD 4) mumol/l group A; 30 (SD 3) v. 19 (SD 7) mumol/l group B) and TSI (38 (SD 8) v. 23 (SD 9)% group A; 53 (SD 15) v. 34 (SD 13)%, group B) in both the groups, albeit earlier in group B subjects. Serum ferritin levels, however, reduced only in group A (112 (SD 62) v. 43 (SD 25) ng/ml, P < 0.05) and not in group B. Non-significant reductions in haemoglobin levels were seen in both groups. Alanine transaminase levels reduced significantly (P < 0.05) in both the groups (95 (SD 49) v. 44 (SD 25) IU/l, group A; 82 (SD 16) v. 51 (SD 14) IU/l group B). Thus, a low-Fe diet results in significant reductions in serum Fe and TSI levels, irrespective of baseline Fe levels. This diet should be evaluated to improve the efficacy of interferon therapy in patients with hepatitis B- and C-related chronic liver disease.
 ...
PMID:Beneficial influence of an indigenous low-iron diet on serum indicators of iron status in patients with chronic liver disease. 1088 11

Several authors have suggested a positive association between diabetes type 2 (DM2) and the C282Y and H63D mutations of the hereditary hemochromatosis gene but others have disputed it. There are also papers reporting an increased iron load in diabetes type 2 and a possible association with the pathogenesis of the disease. We therefore performed a study in 100 type 2 diabetics and 100 age and sex matched controls to assess the possibility that C282Y and H63D mutations constitute a risk factor for DM2 in Greece. We also evaluated the iron load in 500 diabetes type 2 patients and 423 age and sex matched controls. We did not find any differences in the allele frequencies of the above mutations between patients with diabetes type 2 and controls. The allele frequencies were estimated to be 0.0075 for the C282Y and 0.115 for the H63D mutation. Subjects with even one mutation (C282Y or H63D) had higher transferrin saturation compared to those with no such mutations. This seems to apply to both diabetics (49+/- 8,6 vs 44,5+/- 5,4, p<0,01) and controls (49,3+/- 7,3 vs 42,6+/- 3,3 p<0,01). Patients with DM2 had higher transferrin saturation compared to the general population. These differences were found among men (n=250, mean+/- SD 31,8+11 vs n=73, mean+/- SD 29,5+8, p=0,05) as well as among women (n=250, mean+/- SD 28.5+10 vs n=350, mean+/- SD 25.5+9.6, p=0.001). The DM2 patients had higher ferritin levels compared to controls. In conclusion, DM2 patients have increased iron load. The C282Y and H63D mutations contribute to increased iron load in both DM2 and controls. There was no difference in the frequency of C282Y and H63D alleles between DM2 and controls in the Hellenic population.
 ...
PMID:The role of Hemochromatosis C282Y and H63D mutations in the development of type 2 diabetes mellitus in Greece. 1700 3