Comparative analysis of RBC membrane fatty acids, proteins and glycophorin in patients with heterozygous beta thalassemia and iron deficiency anemia.

Membrane lipid and protein composition was compared in erythrocytes from iron deficiency anemia (IDA) and heterozygous beta thalassemia patients. The study was planned to correlate the influence of iron deficiency with the intrinsic defect of the heterozygous condition on the membrane structural integrity as well as to investigate whether there are differences in membrane changes between the two conditions. Results indicate high levels of saturated fatty acids and low unsaturated fatty acids in both disorders although arachidonic acid and the unsaturation index were lower in heterozygous thalassemia than IDA. Nevertheless, neither of the conditions provoked any alterations in membrane protein or glycophorin suggesting alterations in the lipid moiety only. Present findings indicate that irrespective to the etiology, both, iron deficiency and the heterozygous condition show a common pattern of lipid derangement, which may in turn result in increased membrane rigidity and decreased cellular deformability.

Comparative analysis of RBC membrane lipids in thalassemia, and iron deficiency anemia in relation to hypochromia and oxidant injury.

The effect of an intrinsic defect in the red cell and pronounced hypochromia on oxidative damage to RBC membrane lipids was compared in beta-thalassemia and iron deficiency anemia (IDA), which have a varied etiology but equivalent low hemogiobin content. The study was planned to correlate the etiology of the disorders to the severity of lipid imbalance and RBC hemolysis in membranes of both the conditions. Results indicated a fall of lysophosphatidylcholine(LPC), phosphatidylethanolamine(PE) and the unsaturated to saturated fatty acid ratio in both conditions, while phosphatidylcholine(PC) increased only in thalassemia. However, irrespective of the disease, sphingomyelin(SM), total cholesterol and phospholipid levels elevated and the hydrogen peroxide stress test indicated increased susceptibility of both pathologic RBCs to peroxidation. Present findings indicate that IDA and thalassemla, allow for considerable amounts of oxidative damage to membrane lipids, irrespective of their etiologles, and thus point hypochromia as an important contributor for inducing lipid imbalance and RBC hemolysis.

Transient expression of high molecular weight, heat sensitive, trypsin-resistant form of tyrosinase in B-16 melanoma cells.

High molecular weight forms of tyrosinase have been found to be expressed during spontaneous remelanization of the amelanotic B-16 melanoma cells in culture as well as in melanotic tumors formed from amelanotic melanoma cells grown in C57BL/6J mice. Overnight extraction of the crude melanosomal fractions from such tumors and cultured melanoma cells reveal the presence of an additional DOPA-MBTH positive band well below the stacking gel. This band has been found to be alpha-PEP7 (antibody specific for tyrosinase) positive and alpha-PEP1 (antibody specific for TRP-1) negative on Western blot analysis. Heat treatment at 60 degrees C for 60 min results in the loss of this band and considerable loss of activity of the melanosomal extract. Trypsin treatment of these melanosomal extracts resulted in a minor change in the mobility of the high molecular weight band. SDS-PAGE under reduced conditions followed by Western blotting revealed that the high molecular weight band was lost and not detected by alpha-PEP7 or alpha-PEP1. These findings indicate that high molecular weight, heat sensitive and trypsin resistant forms of tyrosinase are transiently expressed in B-16 melanoma cells and tumors that are initiating remelanization following phenotypic drift towards the amelanotic state.