Hostname: page-component-84b7d79bbc-c654p Total loading time: 0 Render date: 2024-07-25T07:59:48.079Z Has data issue: false hasContentIssue false
  • English
  • Français

Response of placental amino acid transport to gestational age and intrauterine growth retardation

Published online by Cambridge University Press:  05 March 2007

James C. Matthews ,
Mark J. Beveridge ,
Marc S. Malandro ,
Michael S. Kilberg  and
Donald A. Novak
James C. Matthews
Affiliation:
Department of Biochemistry and Molecular Biology, University of Florida College of Medicine, Box 100296, Gainesville, Florida 32610-0296, USA Department of Pediatrics, University of Florida College of Medicine, Box 100296, Gainesville, Florida 32610-0296, USA
Mark J. Beveridge
Affiliation:
Department of Pediatrics, University of Florida College of Medicine, Box 100296, Gainesville, Florida 32610-0296, USA
Marc S. Malandro
Affiliation:
Department of Biochemistry and Molecular Biology, University of Florida College of Medicine, Box 100296, Gainesville, Florida 32610-0296, USA
Michael S. Kilberg
Affiliation:
Department of Biochemistry and Molecular Biology, University of Florida College of Medicine, Box 100296, Gainesville, Florida 32610-0296, USA
Donald A. Novak*
Affiliation:
Department of Pediatrics, University of Florida College of Medicine, Box 100296, Gainesville, Florida 32610-0296, USA
*
*Corresponding author: Dr D.A. Novak, fax + 1 352 392 2445
Rights & Permissions [Opens in a new window]

Abstract

An abstract is not available for this content so a preview has been provided. As you have access to this content, a full PDF is available via the ‘Save PDF’ action button.
Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Meeting Report
Information
Proceedings of the Nutrition Society , Volume 57 , Issue 2 , May 1998 , pp. 257 - 263
Copyright
Copyright © The Nutrition Society 1998

References

Accili, D, Drago, J, Lee, EJ, Johnson, MD, Cool, MH, Salvator, P, Asico, L, Jose, PA, Taylor, SI & Westphal, H (1996) Early neonatal death in mice homozygous for a null allele of the insulin receptor gene. Nature Genetics 12, 106109.CrossRefGoogle Scholar
Albritton, LM, Tseng, L, Scadden, D & Cunningham, JM (1989) A putative murine ecotropic retrovirus receptor gene encodes a multiple membrane-spanning protein and confers susceptibility to virus infection. Cell 57, 659–466.Google Scholar
Ali, P, D'Souza, SW & Smart, JL (1990) Epidermal growth factor administered in pregnancy has little effect on placental, fetal, and postnatal growth and development in rats. Biology of the Neonate 57, 318324.Google Scholar
Araki, E, Lipes, MA, Patti, M, Bruning, JC, Haag, BI, Johnson, RS & Kahn, CR (1994) Alternative pathway of insulin signalling in mice with targeted disruption of the IRS-1 gene. Nature 372, 186190.Google Scholar
Arriza, JL, Eliasof, S, Kavanaugh, MP & Amara, SG (1997) Excitatory amino acid transporter 5, a retina1 glutamate transporter coupled to a chloride conductance. Proceedings of the National Academy of Sciences USA 94, 41554160.Google Scholar
Arriza, JL, Fairman, WA, Wadiche, JI, Murdoch, GH, Kavanaugh, MP & Amara, SG (1994) Functional comparisons of three glutamate transporter subtypes cloned from human motor cortex. Journal of Neuroscience 14, 55585569.Google Scholar
Baker, J, Liu, J, Robertson, EJ & Efstratiadis, A (1993) Role of insulin-like growth factors in embryonic and postnatal growth. Cell 75, 7382.Google Scholar
Barker, DJP (1994) Outcome of low birth weight. Hormone Research 42, 223230.Google Scholar
Battaglia, FC (1992) New concepts in fetal and placental amino acid metabolism. Journal of Animal Science 70, 32583263.Google Scholar
Bernardini, I, Evans, MI, Nicolaides, KH, Economides, DL & Gahl, WA (1991) The fetal concentrating index as a gestational age-independent measure of placental dysfunction in intrauterine growth retardation. American Journal of Obstetrics and Gynecology 164, 14811490.Google Scholar
Bertran, J, Werner, A, Stange, G, Markovich, D, Biber, J, Testar, X, Zorzano, A, Palacin, M & Murer, H (1992) Expression of Na+ independent amino acid transport in Xenopus laevis oocytes by injection of rabbit kidney cortex mRNA. Biochemical Journal 281, 717723.Google Scholar
Bracero, LA, Beneck, D, Kirshenbaum, N, Peiffer, M, Stalter, P & Schulman, H (1989) Doppler velocimetry and placental disease. American Journal of Obstetrics and Gynecology 161, 388393.Google Scholar
Broeder, JA, Smith, CH & Moe, AJ (1994) Glutamate oxidation by trophoblasts in vitro . American Journal of Physiology 267, C189C194.Google Scholar
Cetin, I, Marconi, AM, Bozzetti, P, Sereni, LP, Corbetta, C, Pardi, G & Battaglia, FC (1988) Umbilical amino acid concentrations in appropriate and small-for-gestational-age infants: a biochemical difference present in utero. American Journal of Obstetrics and Gynecology 158, 120126.Google Scholar
Chemausek, SD, Dickson, BA, Smith, EP & Hoath, SB (1991) Suppression of insulin-like growth factor I during epidermal growth factor-induced growth retardation. American Journal of Physiology 260, E416E421.Google Scholar
Chiang, MH & Nicoll, CS (1991) Administration of growth hormone to pregnant rats on a reduced diet inhibits growth of their fetuses. Endocrinology 129, 24912495.Google Scholar
Davies, J & Glasser, SR (1968) Histological and fine structural observations on the placenta of the rat. Acta Anatomica 69, 542608.Google Scholar
DeChiara, TM, Efstratiadis, A & Robertson, EJ (1990) A growth-deficiency phenotype in heterozygous mice carrying an insulin-like growth factor II gene disrupted by targeting. Nature 345, 7880.Google Scholar
Deves, R, Chavez, P & Boyd, CAR (1992) Identification of a new transport system (y+ L) in human erythrocytes that recognizes lysine and leucine with high affinity. Journal of Physiology 454, 491501.CrossRefGoogle Scholar
Dicke, JM & Henderson, GI (1988) Placental amino acid uptake in normal and complicated pregnancies. American Journal of the Medical Sciences 295, 223227.Google Scholar
Dierks-Ventling, C, Cone, AL & Wapnir, RA (1971) Placental transfer of amino acids in the rat 1. L-Glutamic acid and L-glutamine. Biology of the Neonate 17, 361372.Google Scholar
Economides, DL, Nicolaides, KH, Gahl, WA, Bernadini, I & Evans, MI (1989) Plasma amino acids in appropriate- and small-for-gestational age fetuses. American Journal of Obstetrics and Gynecology 161, 12191227.CrossRefGoogle ScholarPubMed
Eleno, N, Deves, R & Boyd, Car (1994) Membrane potential dependence of the kinetics of cationic amino acid transport systems in human placenta. Journal of Physiology 479, 291300.Google Scholar
Fairman, WA, Vandenberg, RJ, Arriza, JL, Kavanaugh, MP & Amara, SG(1995)An excitatory amino-acid transporter with properties of a ligand-gated chloride channel. Nature 375, 599603.Google Scholar
Faria, TN, Ogren, L, Talamantes, F, Linzer, D & Soares, MJ (1991) Localization of placental lactogen-I in trophoblast giant cells of the mouse placenta. Biology of Reproduction 44, 327331.Google Scholar
Fei, Y, Prasad, PD, Leibach, FH & Ganapathy, V (1995) The amino acid transport system y+L induced in Xenopus laevis oocytes by human choriocarcinoma cell (JAR) mRNA is functionally related to the heavy chain of the 4F2 cell surface antigen. Biochemistry 34, 87448751.CrossRefGoogle Scholar
Fowden, AL, Hughes, P & Comline, RS (1989) The effects of insulin on the growth rate of the sheep fetus during late gestation. Quarterly Journal of Experimental Physiology 74, 703714.Google Scholar
Furesz, TC, Moe, AJ & Smith, CH (1991) Two cationic amino acid transport systems in human placental basal plasma membranes. American Journal of Physiology 261, C246C252.CrossRefGoogle ScholarPubMed
Furesz, TC, Moe, AJ & Smith, CH (1995) Lysine uptake by human placental microvillous membrane: comparison of system y+ with basal membrane. American Journal of Physiology 268, C755C761.CrossRefGoogle ScholarPubMed
Garcia-Aragon, J, Lobie, PE, Muscat, EO, Gobius, KS, Norsted, G & Waters, MJ (1992) Prenatal expression of the growth hormone (GH) receptor/binding protein in the rat: a role for GH in embryonic and fetal development. Development 114, 869876.CrossRefGoogle Scholar
Gargosky, SE, Walton, PE, Owens, PC, Wallace, JC & Ballard, FJ (1990) Insulin-like growth factor-I (IGF-I) and IGF-binding proteins both decline in the rat during late pregnancy. Journal of Endocrinology 127, 383390.Google Scholar
Gazzola, GC, Dall'Asta, V, Franchi-Gazzola, R & White, MF (1981) The cluster-tray method for rapid measurement of solute fluxes in adherent cultured cells. Analytical Biochemistry 115, 368374.Google Scholar
Gluckman, D, Gunn, AJ, Wray, A, Cutfield, W, Chatelain, P, Guilbaud, O, Ambler, G, Wilton, D & Albertsson-Wikland, K (1992) Congenital idiopathic growth hormone deficiency is associated with prenatal and early postnatal growth failure. Journal of Pediatrics 121, 920923.Google Scholar
Golde, SH (1989) Intrauterine Growth Retardation, pp. 34, Chicago, IL: Year Book Medical Publishers.Google Scholar
Hay, WWJ (1995) Current topic: Metabolic interrelationships of placenta and fetus. Placenta 16, 1930.Google Scholar
Hoeltzli, SD, Kelley, LK, Moe, AJ & Smith, CH (1990) Anionic amino acid transport systems in isolated basal plasma membrane vesicles of human placenta. American Journal of Physiology 259, C47C55.Google Scholar
Holzman, IR, Lemons, JA, Meschia, G & Ba Haglia, FC (1977) Ammonia production by the pregnant uterus. Proceedings of the Sociery for Experimental Biology and Medicine 156, 2730.Google Scholar
Hyatt, SL, Aulak, KS, Malandro, M, Kilberg, MS & Hatzoglou, M (1997) Adaptive regulation of the cationic amino acid transporter-1 (Cat-1) in Fao cells. Journal of Biological Chemistry 272, 1995119957.Google Scholar
Jansson, T & Skarland, H (1990) Maternally administered epidermal growth factor stimulates fetal growth in the rat. Acta Physiologica Scandinavica 138, 245246.Google Scholar
Joshi, RL, Lamothe, B, Cordonnier, N, Mesbah, K, Monthioux, E, Jami, J & Bucchini, D (1996) Targeted disruption of the insulin receptor gene in the mouse results in neonatal lethality. EMBO Journal 15, 15421547.Google Scholar
Kamei, Y, Tsutsumi, O, Kuwabara, Y & Taketani, Y (1993) Intrauterine growth retardation and fetal losses are caused by epidermal growth factor deficiency in mice. American Journal of Physiology 264, R597R460.Google Scholar
Kanai, Y & Hediger, MA (1992) Primary structure and functional characterization of a high-affinity glutamate transporter. Nature 360, 467471.CrossRefGoogle ScholarPubMed
Karl, PI, Tkaczevski, H & Fisher, SE (1989) Characteristics of histidine uptake by human placental microvillous membrane vesicles. Pediatric Research 25, 1926.Google Scholar
Kilberg, MS, Handlogten, ME & Christensen, HN (1980) Characteristics of an amino acid transport system in rat liver for glutamine, asparagine, histidine, and closely related analogs. Journal of Biological Chemistry 255, 40114019.CrossRefGoogle ScholarPubMed
Krook, A, Brueton, L & O'Rahilly, S (1993) Homozygous nonsense mutation in the insulin receptor gene in infant with leprechaunism. Lancet 342, 277278.Google Scholar
Lassarre, C, Hardouin, S, Daffos, F, Forestier, F, Frankenne, F & Binoux, M (1991) Serum insulin-like growth factors and insulin-like growth factor binding proteins in the human fetus. Relationships with growth in normal subjects and in subjects with intrauterine growth retardation. Pediatric Research 29, 219225.CrossRefGoogle ScholarPubMed
Lee, S, Talamantes, F, Wilder, E, Linzer, D & Nathans, D (1988) Trophoblastic giant cells of the mouse placenta as the site of proliferin synthesis. Endocrinology 122, 17611768.CrossRefGoogle ScholarPubMed
Leger, J, Oury, JF, Noel, M, Baron, S, Benali, K, Blot, P & Czernichow, P (1996) Growth factors and intrauterine growth retardation. I. Serum growth hormone, insulin-like growth factor (IGF)-I, IGF-II, and IGF binding protein 3 levels in normally grown and growth-retarded human fetuses during the second half of gestation. Pediatric Research 40, 94100.CrossRefGoogle ScholarPubMed
Liechty, EA, Kelley, J & Lemons, JA (1991) Effect of fasting on uteroplacental amino acid metabolism in the pregnant sheep. Biology of the Neonate 60, 207214.Google Scholar
Liu, J, Baker, J, Perkins, AS, Robertson, EJ & Efstratiadis, A (1993) Mice carrying null mutations of the genes encoding insulin-like growth factor I (IGF-1) and type 1 IGF receptor (IGF-lr). Cell 75, 5972.Google Scholar
Lopez, MF, Dikes, P, Zurakowski, D & Villa-Komaroff, L (1996) Insulin-like growth factor II affects the appearance and glycogen content of glycogen cells in the murine placenta. Endocrinology 137, 21002108.Google Scholar
Malandro, MS, Beveridge, MJ, Kilberg, MS & Novak, DA (1994) Ontogeny of cationic amino acid transport in rat placenta. American Journal of Physiology 266, C804C811.Google Scholar
Malandro, MS, Beveridge, MJ, Kilberg, MS & Novak, DA (1996) Placental amino acid transport in a nutritional model of intrauterine growth retardation. American Journal of Physiology 271, C295C303.Google Scholar
Mann, GB, Fowler, KJ, Gabriel, A, Nice, EC, Williams, RL & Dunn, AR (1993) Mice with null mutation of the TGF α gene have abnormal skin architecture, wavy hair, and curly whiskers and often develop cornea1 inflammation. Cell 73, 249261.Google Scholar
Matthews, JC, Beveridge, MJ, Malandro, MS, Rothstein, JD, Campbell-Thompson, M, Verlander, JW, Kilberg, MS & Novak, DA (1997) Activity and protein localization of multiple glutamate transporters in gestation day 14 and day 20 rat placenta. American Journal of Physiology (In the Press).Google Scholar
Metz, J (1980) On the developing rat placenta. Anatomy and Embryology 159, 289305.CrossRefGoogle ScholarPubMed
Moe, AJ (1995) Placental amino acid transport. American Journal of Physiology 268, C1321C1331.Google Scholar
Moe, AJ & Smith, CH (1989) Anionic amino acid uptake by microvillous membrane vesicles from human placenta. American Journal of Physiology 257, C1005C1011.Google Scholar
Moores, RR, Vaughn, PR, Battaglia, FC, Fennessey, PV, Wilkening, RB & Meschia, G (1994) Glutamate metabolism in fetus and placenta of late-gestation sheep. American Journal of Physiology 267, R89R96.Google ScholarPubMed
Munro, HN (1985) Role of the placenta in ensuring fetal nutrition. FASEB Journal 45, 25002501.Google Scholar
Naar, EM, Bartke, A, Majumdar, SS, Buonomo, FC, Yun, JS & Wagner, TE (1991) Fertility of transgenic female mice expressing bovine growth hormone or human growth hormone variant genes. Biology of Reproduction, 45, 178187.Google Scholar
Nakayama, T, Kawakami, H, Tanaka, K & Nakamura, S (1996) Expression of three glutamate transporter subtype mRNAs in human brain regions and peripheral tissues. Molecular Brain Research 36, 189192.CrossRefGoogle ScholarPubMed
Novak, DA & Beveridge, MJ (1997) Glutamine transport in human and rat placenta. Placenta 18, 379386.Google Scholar
Novak, DA, Beveridge, MJ, Malandro, MS & Sao, J (1996) Ontogeny of amino acid transport system A in rat placenta. Placenta 17, 671674.CrossRefGoogle ScholarPubMed
Novak, DA, Matthews, JC, Beveridge, MJ, Yao, SYM, Young, JD & Kilberg, MS (1997) Demonstration of system y+L activity on the basal plasma membrane surface of rat placenta and developmentally-regulated expression of 4F2HC mRNA. Placenta 18, 643648.CrossRefGoogle ScholarPubMed
Pescovitz, OH, Johnson, NB & Berry, SA (1991) Ontogeny of growth hormone releasing hormone and insulin-like growth factors-I and -II messenger RNA in rat placenta. Pediatric Research 29, 510516.CrossRefGoogle ScholarPubMed
Phillipps, AF, Holzman, IR, Teng, C & Battaglia, FC (1978) Tissue concentration of free amino acids in term human placentas. American Journal of Obstetrics and Gynecology 131, 881887.Google Scholar
Pines, G, Danbolt, NC, Bjoras, M, Zhang, Y, Bendahan, A, Eide, L, Koepsell, H, Storm-Mathisen, J, Seeberg, E & Kanner, BI (1992) Cloning and expression of a rat brain L-glutamate transporter. Nature 360, 464467.Google Scholar
Raaberg, L, Nexo, E, Mikkelsen, JD & Poulsen, SS (1988) Immunohistochemical localization and developmental aspects of epidermal growth factor in the rat. Histochemistry 89, 351356.Google Scholar
Redline, RW, Chernicky, CL, Tan, H & Ilan, J (1993) Differential expression of insulin-like growth factor-II in specific regions of the late (post day 9.5) murine placenta. Molecular Reproduction and Development 36, 121129.Google Scholar
Remesar, X, Arola, L, Palou, A & Alemany, M (1980) Activities of enzymes involved in amino-acid metabolism in developing rat placenta. European Journal of Biochemistry 110, 289293.CrossRefGoogle ScholarPubMed
Rosso, P (1975) Changes in the transfer of nutrients across the placenta during normal gestation in the rat. American Journal of Obstetrics and Gynecology 122, 761766.Google Scholar
Rosso, P (1980) Placental growth, development, and function in relation to maternal nutrition. Federation Proceedings 39, 250254.Google Scholar
Rosso, PI & Kava, R (1980) Effects of food restriction on cardiac output and blood flow to the uterus and placenta in the pregnant rat. Journal of Nutrition 110, 23502354.Google Scholar
Rotwein, P, Bichell, DP & Kikuchi, K (1993) Multifactorial regulation of IGF-I gene expression. Molecular Reproduction and Development 35, 358364.Google Scholar
Sastry, BVR, Horst, MA & Naukam, RJ (1989) Maternal tobacco smoking and changes in amino acid uptake by human placental villi: induction of uptake systems, gammaglutamyl-transpeptidase and membrane fluidity. Placenta 10, 345358.Google Scholar
Schneider, H (1996) Ontogenic changes in the nutritive function of the placenta. Placenta 17, 1526.Google Scholar
Schneider, H, Mohlen, K-H, Challier, J-C & Dancis, J (1979) Transfer of glutamic acids across the human placenta perfused in vitro. British Journal of Obstetetrics and Gynaecology 86, 299306.Google Scholar
Shay, NF, Nick, HS & Kilberg, MS (1990) Molecular cloning of an amino acid-regulated mRNA (amino acid starvation-induced) in rat hepatoma cells. Journal of Biological Chemistry 265, 17844–17848.Google Scholar
Sibilia, M & Wagner, EF (1995) Strain-dependent epithelial defects in mice lacking the EGF receptor. Science 269, 234238.Google Scholar
Smith, CH (1986) Mechanisms and regulation of placental amino acid transport. Federation Proceedings 45, 24432445.Google Scholar
Smith, CH, Moe, AJ & Ganapathy, V (1992) Nutrient transport pathways across the epithelium of the placenta. Annual Review of Nutrition 12, 183206.Google Scholar
Snead, ML, Luo, W, Don-Wheeler, G, Bessem, C, Bell, GF, Rall, LB & Slavkin, HC (1989) Localization of epidermal growth factor precursor in tooth and lung during embryonic mouse development. Developmental Biology 134, 420429.Google Scholar
Soares, MJ, Chapman, BM, Rasmussen, CA, Dai, G, Kamei, T & Orwig, KE (1996) Differentiation of trophoblast endocrine cells. Placenta 17, 277289.Google Scholar
Spatola, E, Pescovitz, OH, Marsh, K, Johnson, NB, Berry, SA & Gelato, MC (1991) Interaction of growth hormone-releasing hormone with the insulin-like growth factors during prenatal development in the rat. Endocrinology 129, 11931200.Google Scholar
Storck, T, Schulte, S, Hofmann, K & Stoffel, W (1992) Structure, expression, and functional analysis of a Na+-dependent glutamate/aspartate transporter from rat brain. Proceedings of the National Academy of Sciences USA 89, 1095510959.Google Scholar
Strosser, MT & Mialhe, P (1975) Growth hormone secretion in the rat as a function of age. Hormone and Metabolic Research 7, 275278.Google Scholar
Sybulski, S & Tremblay, PC (1967) Uptake and incorporation into protein of radioactive glycine by human placentas in vitro. American Journal of Obstetrics and Gynecology 97, 11111118.Google Scholar
Takata, K, Kasahara, T, Kasahara, M, Ezaki, O & Hirano, H (1994) Immunolocalization of glucose transporter GLUT1 in the rat placental barrier: possible role of GLUT1 and the gap junction in the transport of glucose across the placental barrier. Cell Tissue Research 276, 411418.Google Scholar
Tate, SS, Yan, N & Udenfriend, S (1992) Expression cloning of a Na+-independent neutral amino acid transporter from rat kidney. Proceedings of the National Academy of Sciences USA 89, 15.Google Scholar
Threadgill, DW, Dlugosz, AA, Hansen, LA, Tennenbaum, T, Lichti, U, Yee, D, LaMantia, C, Mourton, T, Hemp, K, Hanis, RC, Barnard, JA, Yuspa, SH, Coffey, RJ & Magnuson, T (1995) Targeted disruption of mouse EGF reception: effect of genetic background on mutant phenotype. Science 269, 230234.Google Scholar
Van Winkle, LJ, Campione, AL & Gorman, JM (1988) Na+ independent transport of basic and zwitterionic amino acids in mouse blastocysts by a shared system and by processes which distinguish between these substrates. Journal of Biological Chemistry 263, 31503163.CrossRefGoogle ScholarPubMed
Vaughn, PR, Lobo, C, Battaglia, FC, Fennessey, PV, Wilkening, RB & Meschia, G (1995) Glutamine-glutamate exchange between placenta and fetal liver. American Journal of Physiology 268, E705E711.Google Scholar
Warshaw, JB (1990) Nutritional correlates of fetal growth. Developmental Pharmacology and Therapeutics 15, 153158.Google Scholar
Wells, RG, Lee, W-S, Kanai, Y, Leiden, JM & Hediger, MA (1992) The 4F2 antigen heavy chain induces uptake of neutral and dibasic amino acids in xenopus oocytes. Journal of Biological Chemistry 267, 1528515288.CrossRefGoogle ScholarPubMed
Wheeler, CPD & Yudilevich, DL (1989) Lysine and alanine transport in the perfused guinea-pig placenta. Biochimica et Biophysica Acta 978, 257266.Google Scholar
White, MF (1985) The transport of cationic amino acids across the plasma membrane of mammalian cells. Biochimica et Biophysica Acta 822, 355374.Google Scholar
White, MF & Christensen, HN (1982) Cationic amino acid transport into cultured animal cells. Journal of Biological Chemistry 257, 44504457.Google Scholar
Windmueller, HG & Spaeth, AE (1974) Uptake and metabolism of plasma glutamine by the small intestine. Journal of Biological Chemistry 249, 50705079.Google Scholar
Yamaguchi, R, Matsuda, T & Aizawa, T (1978) Amino acid uptakes in normal and small-for-date placentas, with special reference to activity of transport ATPase in placental slices and isolated trophoblastic membrane. Tohoku Journal of Experimental Medicine 125, 367376.Google Scholar
Yamaguchi, M, Ogren, L, Endo, H, Soares, MJ & Talamantes, F (1994) Co-localization of placental lactogen-I, placental lacto-gen-II, and proliferin in the mouse placenta at midpregnancy. Biology of Reproduction 51, 11881192.Google Scholar
Yudilevich, DL & Sweiry, JH (1985) Transport of amino acids in the placenta. Biochimica et Biophysica Acta 822, 169201.Google Scholar
Zhou, J & Bondy, CA (1992) Insulin-like growth factor II and its binding proteins in placental development. Endocrinology 131, 12301240.Google Scholar