Abstract
Iron deficiency during pregnancy has many effects on both the mother and her developing foetus. These can be both short and long term. One effect is an alteration in fatty acid metabolism and we hypothesised that these changes may result in alterations in membrane function and structure. In order to test this hypothesis, we measured osmotic sensitivity in red blood cells isolated from neonates and their mothers at different times following birth. We fed female rats control or iron-deficient diets for 4 weeks prior to mating and kept them on the same diet until term. At that time, we returned one group of deficient dams to the control diet. The others were kept on the same diet. We showed that iron deficiency results in a decrease in osmotic sensitivity in the mothers but not in their neonates. Returning the dams to the control diet resulted in a return of their red cell osmotic sensitivity to control levels. In the neonates, there was no recovery in haematocrit or in any other parameter, though they did not get any worse, in contrast to the pups being suckled by deficient mothers. The data show two things. The first is that following birth, the mother restores her own iron stores at the expense of the pups, and secondly, there are differences in properties and sensitivities between red cells from mothers and their neonates. This latter observation cannot be explained by differences in the membrane fatty acid profiles, which were not significantly different.
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Abbreviations
- BSS:
-
Balanced salt solution
- FAME:
-
Fatty acid methyl esters
- Hct:
-
Haematocrit
- Hb:
-
Haemoglobin
- Hb/cell:
-
Haemoglobin concentration per cell
- LC50 :
-
50 % lysis concentration
- MCV:
-
Mean cell volume
- OD:
-
Optical density
- RBC:
-
Red blood cell
References
Alwan NA, Greenwood DC, Simpson NAB, McArdle HJ, Cade JE (2010) The relationship between dietary supplement use in late pregnancy and birth outcomes: a cohort study in British women. Br J Obstet Gynecol 117:821–829
Alwan NA, Greenwood DC, Simpson NAB, McArdle HJ, Godfrey KM, Cade JE (2011) Dietary iron intake during early pregnancy and birth outcomes in a cohort of British women. Hum Reprod 26:911–919
An X, Mohandas N (2008) Disorders of red cell membrane. Br J Haematol 141:367–375. doi:10.1111/j.1365-2141.2008.07091.x
Anderson C, Aronson I, Jacobs P (2000) Erythropoiesis: erythrocyte deformability is reduced and fragility increased by iron deficiency. Hematology 4:457–460
Ariyama H, Kono N, Matsuda S, Inoue T, Arai H (2010) Decrease in membrane phospholipid unsaturation induces unfolded protein response. J Biol Chem 285:22027–22035. doi:10.1074/jbc.M110.126870
Barker DJP (ed) (1992) Fetal and infant origins of adult disease. BMJ Press, London
Brandao MM, Castro MLRB, Fontes A, Cesar CL, Costa FF, Saad STO (2009) Impaired red cell deformability in iron deficient subjects. Clin Hemorheol Microcirc 43:217–221
Clandinin MT, Cheema S, Field CJ, Garg ML, Venkatraman J, Clandinin TR (1991) Dietary fat: exogenous determination of membrane structure and cell function. FASEB J 5:2761–2769
Cogswell ME, Parvanta I, Ickes L, Yip R, Brittenham GM (2003) Iron supplementation during pregnancy, anemia, and birth weight: a randomized controlled trial. Am J Clin Nutr 78:773–781
Cunnane SC, McAdoo KR (1987) Iron intake influences essential fatty acid and lipid composition of rat plasma and erythrocytes. J Nutr 117:1514–1519
Gambling L, Dunford S, Wallace DI, Zuur G, Solanky N, Srai SKS, McArdle HJ (2003) Iron deficiency during pregnancy affects post-natal blood pressure in the rat. J Physiol 552:603–610
Gambling L, Czopek A, Andersen HS, Holtrop G, Srai SK, Krejpcio Z, McArdle HJ (2009) Fetal iron status regulates maternal iron metabolism during pregnancy in the rat. Am J Physiol 296:R1063–R1070
Garcia JJ, Martinez-Ballarin E, Millan-Plano S, Allue JL, Albendea C, Fuentes L, Escanero JF (2005) Effects of trace elements on membrane fluidity. JTEM 19:19–22
Jain SK (1989) The neonatal erythrocyte and its oxidative susceptibility. Semin Hematol 26:286–300
Kelleher SL, Lonnerdal B (2005) Low vitamin A intake affects milk iron level and iron transporters in rat mammary gland and liver. J Nutr 135:27–32
Killip S, Bennett JM, Chambers MD (2007) Iron deficiency anemia. Am Fam Physician 75:671–678
Lewis RM, Petry CJ, Ozanne SE, Hales CN (2001) Effects of maternal iron restriction in the rat on blood pressure, glucose tolerance, and serum lipids in the 3-month-old offspring. Metabolism 50:562–567
Lewis RM, Forhead AJ, Petry CJ, Ozanne SE, Hales CN (2002) Long-term programming of blood pressure by maternal dietary iron restriction in the rat. Br J Nutr 88:283–290
McArdle HJ, Ashworth CJ (1999) Micronutrients in fetal growth and development. Br Med Bull 55:499–510
McMullin MF (1999) The molecular basis of disorders of the red cell membrane. J Clin Pathol 52:245–248
Orcutt RH, Thurmond TS, Ferslew KE (1995) Mathematical modeling of the osmotic fragility of rabbit red blood cells. J Pharmacol Toxicol Methods 34:169–174. doi:10.1016/1056-8719(95)00081-5
Sanghani SP, Haldankar VA (2006) Comparitive analysis of RBC membrane fatty acids, proteins and glycophorin in patients with heterozygous beta thalassemia and iron deficiency anemia. Indian J Clin Biochem 21:28–33
Steiner LA, Gallagher PG (2007) Erythrocyte disorders in the perinatal period. Semin Perinatol 31:254–261. doi:10.1053/j.semperi.2007.05.003
Tichelaar HY, Smuts CM, Gross R, Jooste PL, Faber M, Benade AJ (1997) The effect of dietary iron deficiency on the fatty acid composition of plasma and erythrocyte membrane phospholipids in the rat. Prostaglandins Leukot Essent Fatty Acids 56:229–233
Yip R, Mohandas N, Clark MR, Jain S, Shohet SB, Dallman PR (1983) Red cell membrane stiffness in iron deficiency. Blood 62:99–106
Zhang J, Lewis RM, Wang C, Hales N, Byrne CD (2005) Maternal dietary iron restriction modulates hepatic lipid metabolism in the fetuses. Am J Physiol 288:R104–R111
Acknowledgments
We are grateful to the staff of the BSU for their untiring assistance and care for the animals used in this study. We are also grateful to Donna Henderson, who performed much of the fatty acid analysis. Dr. Helen Hayes and Ms. Val Stevens provided invaluable technical support. This work was supported by Scottish Government Rural and Environmental Scientific and Analytical Services, the European Union (EARNEST and NuGO). LMA is grateful for the award of a Ph.D. studentship from the Rowett Institute of Nutrition and Health.
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Al-Hashimi, L.M., Gambling, L. & McArdle, H.J. The Effect of Iron Deficiency on Osmotic Sensitivity of Red Blood Cells from Neonatal Rats and Their Mothers. J Membrane Biol 248, 1199–1206 (2015). https://doi.org/10.1007/s00232-015-9841-6
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DOI: https://doi.org/10.1007/s00232-015-9841-6