A number of genes are involved in iron metabolism, including the transferrin receptor (TFR) and haemochromatosis (HFE) genes. In previous investigations an increased risk for neoplastic disease has been observed in individuals homo- and heterozygous for hereditary haemochromatosis. The HFE wild-type gene product complexes with the transferrin receptor (TF) and two different HFE mutations (Cys282Tyr and His63Asp) have been found to increase the affinity of TFR for TF and increase cellular iron uptake. In a recent study we found no associations for HFE and TFR separately, but an interaction between HFE and TFR genotypes in multiple myeloma. Individuals carrying the HFE Tyr282 allele (homo- and heterozygotes) in combination with homozygosity for the TFR Ser142 allele had an increased risk. In the present study the same association was found in breast and colorectal cancer. The odds ratio for all three neoplasms combined was 2.0 (95% CI 1.0-3.8). The risk for neoplastic disease was further increased (OR 7.7, 95% CI = 1.0-59.9) when the analysis was restricted to HFE Tyr homozygotes and compound heterozygotes in combination with TFR Ser homozygosity. Thus, an interaction between HFE and TFR alleles may increase the risk for different neoplastic disorders.
Congenital dyserythropoietic anemia, type III (CDA III) is a rare autosomal dominant disorder characterized by macrocytic anemia, bone marrow erythroid hyperplasia and giant multinucleate erythroblasts. We have genetically characterized a large Swedish family in which the concurrence of CDA III and myeloma or benign monoclonal gammopathy is significantly higher than expected and have found that the causative genetic defect for CDA III maps to an 11 cM interval within 15q21-q25.
Significant associations between the transferrin (TF) variant C2 and a number of disorders suspected to be caused by oxygen free radicals have been reported. Thus an increased frequency of the TFC2 variant has been found in patients with Alzheimer's disease (AD), and it has been hypothesized that AD is caused by free radical damage due to defective binding of iron and aluminium by TFC2. In a study of 64 patients with AD from northern Sweden we were able to confirm the association between TFC2 and AD, but there were no significant differences between TFC2 and other TF variants with respect to the binding of iron and aluminium.
The distribution of α1-antitrypsin (PI) alleles was studied in an attempt to elucidate migrations and admixture between populations in the Baltic Sea region. The frequency of the PI Z allele, a typically Northwesteuropean marker gene, showed a highly significant regional variation in the Baltic Sea region. The highest frequency (4.5%) was found in the western part of Latvia (Courland). The PI S allele, another marker of Westeuropean influence, also showed an increased frequency in the Courland population. These results indicate that among the populations east of the Baltic Sea the Curonian population has the most pronounced Westeuropean influence. Archaeological data have shown that from the 7th century and for several hundreds of years Courland received immigrations from mainland Sweden and the island of Gotland. We speculate that the increased frequencies of the PI Z alleles and S alleles in Courland may have been caused by these migrations.
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