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The Journal of Maternal-Fetal & Neonatal Medicine Volume 35, 2022 - Issue 25
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Original Articles

Placental cadmium, placental genetic variations, and birth size

Michael R. Husseya Department of Epidemiology, University of Washington, Seattle, WA, USACorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-4234-0030View further author information
ORCID Icon,
Megan K. Sutera Department of Epidemiology, University of Washington, Seattle, WA, USAView further author information
,
April F. Mohantyb Informatics, Decision Enhancement, and Analytic Sciences Center (IDEAS), VA Salt Lake City Health Care System, Salt Lake City, UT, USA;c Department of Internal Medicine, University of Utah, Salt Lake City, UT, USAView further author information
&
Daniel A. Enquobahriea Department of Epidemiology, University of Washington, Seattle, WA, USAView further author information
Pages 8594-8602 | Received 15 Jun 2021, Accepted 01 Oct 2021, Published online: 19 Oct 2021

References

  • Johnston JE, Valentiner E, Maxson P, et al. Maternal cadmium levels during pregnancy associated with lower birth weight in infants in a North Carolina cohort. PLOS One. 2014;9(10):e109661.
  • Gardner RM, Kippler M, Tofail F, et al. Environmental exposure to metals and children’s growth to age 5 years: a prospective cohort study. Am J Epidemiol. 2013;177(12):1356–1367.
  • Romano ME, Enquobahrie DA, Simpson C, et al. Maternal body burden of cadmium and offspring size at birth. Environ Res. 2016;147:461–468.
  • Nishijo M, Nakagawa H, Honda R, et al. Effects of maternal exposure to cadmium on pregnancy outcome and breast milk. Occup Environ Med. 2002;59(6):394–396.
  • Wang F, Fan F, Wang L, et al. Maternal cadmium levels during pregnancy and the relationship with preeclampsia and fetal biometric parameters. Biol Trace Elem Res. 2018;186(2):322–329.
  • Mohanty AF, Farin FM, Bammler TK, et al. Infant sex-specific placental cadmium and DNA methylation associations. Environ. Res. 2015;138:74–81.
  • Kippler M, Tofail F, Gardner R, et al. Maternal cadmium exposure during pregnancy and size at birth: a prospective cohort study. Environ Health Perspect. 2012;120(2):284–289.
  • Kippler M, Wagatsuma Y, Rahman A, et al. Environmental exposure to arsenic and cadmium during pregnancy and fetal size: a longitudinal study in rural Bangladesh. Reprod Toxicol. 2012;34(4):504–511.
  • Tekin D, Kayaalti Z, Aliyev V, et al. The effects of metallothionein 2A polymorphism on placental cadmium accumulation: is metallothionein a modifiying factor in transfer of micronutrients to the fetus? J Appl Toxicol. 2012;32(4):270–275.
  • Brooks SA, Martin E, Smeester L, et al. MiRNAs as common regulators of the transforming growth factor (TGF)-β pathway in the preeclamptic placenta and cadmium-treated trophoblasts: links between the environment, the epigenome and preeclampsia . Food Chem Toxicol. 2016;98(Pt A):50–57.
  • Deyssenroth MA, Gennings C, Liu SH, et al. Intrauterine Multi-Metal exposure is associated with reduced fetal growth through modulation of the placental gene network. Environ Int. 2018;120:373–381.
  • Kawai M, Swan KF, Green AE, et al. Placental endocrine disruption induced by cadmium: effects on P450 cholesterol side-chain cleavage and 3 beta-hydroxysteroid dehydrogenase enzymes in cultured human trophoblasts. Biol. Reprod. 2002;67(1):178–183.
  • Kippler M, Hoque AMW, Raqib R, et al. Accumulation of cadmium in human placenta interacts with the transport of micronutrients to the fetus. Toxicol Lett. 2010;192(2):162–168.
  • Xu P, Guo H, Wang H, et al. Downregulations of placental fatty acid transporters during cadmium-induced fetal growth restriction. Toxicology. 2019;423:112–122.
  • Boadi W, Yannai S, Urbach J, et al. Transfer and accumulation of cadmium, and the level of metallothionein in perfused human placentae. Arch Toxicol. 1991;65(4):318–323.
  • Wang J, Wang J, Song W, et al. Molecular mechanism investigation of the neutralization of cadmium toxicity by transferrin. Phys Chem Chem Phys. 2016;18(5):3536–3544.
  • Deyssenroth MA, Peng S, Hao K, et al. Whole-transcriptome analysis delineates the human placenta gene network and its associations with fetal growth. BMC Genomics. 2017;18(1):520.
  • Everson TM, Armstrong DA, Jackson BP, et al. Maternal cadmium, placental PCDHAC1, and fetal development. Reprod Toxicol. 2016;65:263–271.
  • Hussey MR, Burt A, Deyssenroth MA, et al. Placental LncRNA expression associated with placental cadmium concentrations and birth weight. Environ Epigenet. 2020;6(1):dvaa003.
  • Everson TM, Kappil M, Hao K, et al. Maternal exposure to selenium and cadmium, fetal growth, and placental expression of steroidogenic and apoptotic genes. Environ Res. 2017;158:233–244.
  • Khoshhali M, Rafiei N, Farajzadegan Z, et al. Maternal exposure to cadmium and fetal growth: a systematic review and meta-analysis. Biol Trace Elem Res. 2020;195(1):9–19.
  • Kantola M, Purkunen R, Kröger P, et al. Accumulation of cadmium, zinc, and copper in maternal blood and developmental placental tissue: differences between Finland, Estonia, and St. Petersburg. Environ Res. 2000;83(1):54–66.
  • Kuhnert BR, Kuhnert PM, Debanne S, et al. The relationship between cadmium zinc and birth weight in pregnant women who smoke. Am J Obstet Gynecol. 1987;157(5):1247–1251.
  • Loiacono NJ, Graziano JH, Kline JK, et al. Placental cadmium and birthweight in women living near a Lead Smelter. Arch Environ Health. 1992;47(4):250–255.
  • Enquobahrie DA, Meller M, Rice K, et al. Differential placental gene expression in preeclampsia. Am J Obstet Gynecol. 2008;199(5):566.e1–566.11.
  • Krachler M, Wirnsberger G, Irgolic KJ. Trace element status of hemodialyzed patients. Biol Trace Elem Res. 1997;58(3):209–221.
  • Caserta D, Graziano A, Lo Monte G, et al. Heavy metals and placental fetal-maternal barrier: a mini-review on the major concerns. Eur Rev Med Pharmacol Sci. 2013;17(16):2198–2206.
  • Xu X, Chiung YM, Lu F, et al. Associations of cadmium, bisphenol a and polychlorinated biphenyl co-exposure in utero with placental gene expression and neonatal outcomes. Reprod Toxicol. 2015;52:62–70.
  • Meller M, Qiu C, Kuske BT, et al. Adipocytokine expression in placentas from Pre-Eclamptic and chronic hypertensive patients. Gynecol Endocrinol. 2006; 22(5):267–273.
  • Chawla R, Badon SE, Rangarajan J, et al. Genetic risk score for prediction of newborn adiposity and large-for-gestational-age birth. J Clin Endocrinol Metabol. 2014;99(11):E2377–E2386.
  • Horikoshi M, Yaghootkar H, Mook-Kanamori DO, et al. New loci associated with birth weight identify genetic links between intrauterine growth and adult height and height and metabolism. Nat Genet. 2013;45(1):76–82.
  • Levy D, Neuhausen SL, Hunt SC, et al. Genome-wide association identifies OBFC1 as a locus involved in human leukocyte telomere biology. PNAS. 2010;107(20):9293–9298.
  • Cedergren MI. Maternal morbid obesity and the risk of adverse pregnancy outcome. Obstet Gynecol. 2004;103(2):219–224.
  • Fraser A, Brockert J, Ward R. Association of young maternal age with adverse reproductive outcomes. N Engl J Med. 1995;332(17):1113–1117.
  • Kramer MS, Seguin L, Lydon J, et al. Socio-economic disparities in pregnancy outcome: why do the poor fare so poorly? Paediatr Perinat Epidemiol. 2000;14(3):194–210.
  • Thompson J, Bannigan J. Cadmium: toxic effects on the reproductive system and the embryo. Reprod Toxicol. 2008;25(3):304–315.
  • Shirai S, Suzuki Y, Yoshinaga J, et al. Maternal exposure to low-level heavy metals during pregnancy and birth size. J Environ Sci Health. Part A, Toxic/Hazardous Substances Environ Eng. 2010;45(11):1468–1474.
  • Röllin HB, Kootbodien T, Channa K, et al. Prenatal exposure to cadmium, placental permeability and birth outcomes in coastal populations of South Africa. PLOS One. 2015;10(11):e0142455.
  • Salpietro CD, Gangemi S, Minciuollo PL, et al. Cadmium concentration in maternal and cord blood and infant birth weight: a study on healthy non-smoking women. J Perinat Med. 2002;30(5):395–399.
  • Sun H, Chen W, Wang D, et al. The effects of prenatal exposure to low-level cadmium, lead and selenium on birth outcomes. Chemosphere. 2014;108:33–39.
  • Kim SS, Xu X, Zhang Y, et al. Birth outcomes associated with maternal exposure to metals from informal electronic waste recycling in Guiyu, China. Environ Int. 2020;137:105580.
  • Hu X, Zheng T, Cheng Y, et al. Distributions of heavy metals in maternal and cord blood and the association with infant birth weight in China. J Rep Med. 2015;60(1–2):21–29.
  • Shih Y-H, Chen HY, Christensen K, et al. Prenatal exposure to multiple metals and birth outcomes: an observational study within the national children’s study cohort. Environ Int. 2021;147:106373.
  • Stasenko S, Bradford EM, Piasek M, et al. Metals in human placenta: focus on the effects of cadmium on steroid hormones and leptin. J Appl Toxicol. 2010;30(3):242–253.
  • Guo Y, Huo X, Li Y, et al. Monitoring of lead, cadmium, chromium and nickel in placenta from an e-waste recycling town in China. Sci Total Environ. 2010;408(16):3113–3117.
  • Zhang Y, Xu X, Chen A, et al. Maternal urinary cadmium levels during pregnancy associated with risk of sex-dependent birth outcomes from an e-waste pollution site in China. Reprod Toxicol. 2018;75:49–55.
  • Esteban-Vasallo MD, Aragones N, Pollan M, et al. Mercury, cadmium, and lead levels in human placenta: a systematic review. Environ Health Perspect. 2012;120(10):1369–1377.
  • Ghezzi I, Toffoletto F, Sesana G, et al. Behaviour of biological indicators of cadmium in relation to occupational exposure. Int Arch Occup Environ Health. 1985;55(2):133–140.
  • Iwai-Shimada M, Kameo S, Nakai K, et al. Exposure profile of mercury, lead, cadmium, arsenic, antimony, copper, selenium and zinc in maternal blood, cord blood and placenta: the Tohoku study of child development in Japan. Environ Health Prev Med. 2019;24(1):35.
  • Akesson A, Bjellerup P, Berglund M, et al. Serum transferrin receptor: a specific marker of iron deficiency in pregnancy. Am J Clin Nutr. 1998;68(6):1241–1246.
  • Cao C, O’Brien KO. Pregnancy and iron homeostasis: an update. Nutr Rev. 2013;71(1):35–51.
  • Benyamin B, Ferreira MAR, Willemsen G, et al. Common variants in TMPRSS6 are associated with iron status and erythrocyte volume. Nat Genet. 2009;41(11):1173–1175.
  • McLaren CE, Garner CP, Constantine CC, et al. Genome-wide association study identifies genetic loci associated with iron deficiency. PLOS One. 2011;6(3):e17390.
  • Young MF, Pressman E, Foehr ML, et al. Impact of maternal and neonatal iron status on placental transferrin receptor expression in pregnant adolescents. Placenta. 2010;31(11):1010–1014.
  • Ciesielski TH, Schwartz J, Bellinger DC, et al. Iron-processing genotypes, nutrient intakes, and cadmium levels in the normative aging study: evidence of sensitive subpopulations in cadmium risk assessment. Environ Int. 2018;119:527–535.
  • Rentschler G, Kippler M, Axmon A, et al. Polymorphisms in iron homeostasis genes and urinary cadmium concentrations among nonsmoking women in Argentina and Bangladesh. Environ Health Perspect. 2013;121(4):467–472.
  • Karwowski MP, Just AC, Bellinger DC, et al. Maternal iron metabolism gene variants modify umbilical cord blood lead levels by gene-environment interaction: a birth cohort study. Environ Health. 2014;13(1):77.

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