Alterations in plasma and erythrocyte membrane fatty acid composition following exposure to toxic copper level affect membrane deformability and fluidity in female wistar rats.

BACKGROUND: Deformability and fluidity function of the red blood cell membrane are properties defined by the lipid composition. Toxic copper level induces membrane lipid peroxidation which could cause membrane instability. This study therefore investigated the effect of exposure to toxic copper level for 30 days on red blood cell membrane deformability and fluidity in female Wistar rats. METHODS: Twelve (12) female Wistar rats (160 ± 10 g) were randomly grouped (n = 6) into control (given 0.1 ml distilled water p.o.) and copper-toxic (100 mg/kg Copper Sulphate, p.o.), and treated for 30 days. Plasma obtained and RBC membrane prepared from blood collected over EDTA post-treatment were assayed for total cholesterol (TC), phospholipids and fatty acid profile using spectrophotometry and Gas chromatography while heparinized blood was subjected to fragility test. Data were analyzed using student T-test for statistical significance at p < 0.05. RESULTS AND CONCLUSION: Plasma TC increased by 4.33% while RBC membrane TC decreased by 20.32% in copper-toxic group compared to control. Compared to control, excess copper significantly increased membrane phospholipids level (0.72 ± 0.01 vs 0.59 ± 0.04 mg/dL) but reduced membrane cholesterol/phospholipid ratio (46.61 ± 4.72 vs 72.66 ± 6.47) and stability (by 23.53%). Number of cis- and saturated fatty acids increased in copper-treated plasma and RBC membrane compared to control. Exposure to toxic copper level alters erythrocyte membrane fluidity and deformability by disrupting membrane lipid composition, saturation, bond configuration in phospholipids and permeability.

Oral iron supplementation ameliorated alterations in iron uptake and utilization in copper-toxic female Wistar rats.

OBJECTIVE: Women are more susceptible to both iron deficiency and copper toxicity due to monthly flow and estrogen action, respectively. Oral iron is beneficial for menstruating women and enhances erythropoiesis, but both deficiency and excess of copper impact iron absorption and mobilization. The aim of this study was to investigate the possibility of mitigating copper toxicity in female Wistar rats while supplementing with iron. METHODS: 20 female rats (160-180g) were grouped into four: Groups 1 (Control) received 0.3mls normal saline, 2- copper-toxic (100m mg/kg Copper sulphate), 3- Copper-toxic+Iron (100 mg/kg Copper sulphate + 1 mg/kg Ferrous sulphate) and 4- Iron (1 mg/kg Ferrous sulphate). All treatment was administered orally for 5 weeks. Blood was collected retro-orbitally after light anesthesia into EDTA and plain bottles for hematological, serum copper, iron, ferritin and total iron binding capacity (TIBC) analysis. Liver was excised for copper and iron levels while bone marrow was harvested for myeloid/erythroid ratio. The data were analyzed by one-Way ANOVA and statistical significance was considered at p<0.05. RESULTS: Iron supplementation significantly increased packed cell volume, hemoglobin concentration, red blood cell count and myeloid/erythroid ratio, compared to the copper-toxic group. Serum iron and TIBC were significantly increased while liver copper and iron levels reduced significantly in iron supplemented group compared to the copper-toxic group. CONCLUSIONS: Oral iron supplementation mitigated alterations in iron absorption and mobilization following copper toxicity.