Toxic effects of hyperglycemia are mediated by the hexosamine signaling pathway and o-linked glycosylation in early mouse embryos

Maternal hyperglycemia is believed to be the metabolic derangement associated with both early pregnancy loss and congenital malformations in a diabetic pregnancy. Using an in vitro model of embryo exposure to hyperglycemia, this study questioned if increased flux through the hexosamine signaling pat...

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Published in:Biology of reproduction 2010-04, Vol.82 (4), p.751-758
Main Authors: Pantaleon, Marie, Tan, Hwee Y, Kafer, Georgia R, Kaye, Peter L
Format: Article
Language:English
Subjects:
Acetylglucosaminidase - immunology
Acetylglucosaminidase - metabolism
Animals
Antibodies - pharmacology
Carbohydrate Metabolism - drug effects
Carbohydrate Metabolism - physiology
Embryo, Mammalian - drug effects
Embryo, Mammalian - metabolism
Embryonic Development - drug effects
Embryonic Development - physiology
Enzyme Activation - drug effects
Female
Gestational Age
Glycosylation - drug effects
Hexosamines - metabolism
Hyperglycemia - complications
Hyperglycemia - metabolism
Hyperglycemia - pathology
Maternal-Fetal Exchange - physiology
Mice
Models, Biological
N-Acetylglucosaminyltransferases - immunology
N-Acetylglucosaminyltransferases - metabolism
Pregnancy
Pregnancy Complications - metabolism
Pregnancy Complications - pathology
Signal Transduction - drug effects
Signal Transduction - physiology
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creator Pantaleon, Marie
Tan, Hwee Y
Kafer, Georgia R
Kaye, Peter L
description Maternal hyperglycemia is believed to be the metabolic derangement associated with both early pregnancy loss and congenital malformations in a diabetic pregnancy. Using an in vitro model of embryo exposure to hyperglycemia, this study questioned if increased flux through the hexosamine signaling pathway (HSP), which results in increased embryonic O-linked glycosylation (O-GlcNAcylation), underlies the glucotoxic effects of hyperglycemia during early embryogenesis. Mouse zygotes were randomly allocated to culture treatment groups that included no glucose (no flux through HSP), hyperglycemia (27 mM glucose, excess flux), 0.2 mM glucosamine (GlcN) in the absence of glucose (HSP flux alone), and O-GlcNAcylation levels monitored immunohistochemically. The impact of HSP manipulation on the first differentiation in development, blastocyst formation, was assessed, as were apoptosis and cell number in individual embryos. The enzymes regulating O-GlcNAcylation, and therefore hexosamine signaling, are the beta-linked-O-GlcNAc transferase (OGT) and an O-GlcNAc-selective beta-N-acetylglucosaminidase (O-GlcNAcase). Inhibition of these enzymes has a negative impact on blastocyst formation, demonstrating the importance of this signaling system to developmental potential. The ability of the OGT inhibitor benzyl-2-acetamido-2-deoxy-alpha-D-galactopyranoside (BADGP) to reverse the glucotoxic effects of hyperglycemia on these parameters was also sought. Excess HSP flux arising from a hyperglycemic environment or glucosamine supplementation reduced cell proliferation and blastocyst formation, confirming the criticality of this signaling pathway during early embryogenesis. Inhibition of OGT using BADGP blocked the negative impact of hyperglycemia on blastocyst formation, cell number, and apoptosis. Our results suggest that dysregulation of HSP and O-GlcNAcylation is the mechanism by which the embryotoxic effects of hyperglycemia are manifested during preimplantation development.
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Inhibition of these enzymes has a negative impact on blastocyst formation, demonstrating the importance of this signaling system to developmental potential. The ability of the OGT inhibitor benzyl-2-acetamido-2-deoxy-alpha-D-galactopyranoside (BADGP) to reverse the glucotoxic effects of hyperglycemia on these parameters was also sought. Excess HSP flux arising from a hyperglycemic environment or glucosamine supplementation reduced cell proliferation and blastocyst formation, confirming the criticality of this signaling pathway during early embryogenesis. Inhibition of OGT using BADGP blocked the negative impact of hyperglycemia on blastocyst formation, cell number, and apoptosis. 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Inhibition of these enzymes has a negative impact on blastocyst formation, demonstrating the importance of this signaling system to developmental potential. The ability of the OGT inhibitor benzyl-2-acetamido-2-deoxy-alpha-D-galactopyranoside (BADGP) to reverse the glucotoxic effects of hyperglycemia on these parameters was also sought. Excess HSP flux arising from a hyperglycemic environment or glucosamine supplementation reduced cell proliferation and blastocyst formation, confirming the criticality of this signaling pathway during early embryogenesis. Inhibition of OGT using BADGP blocked the negative impact of hyperglycemia on blastocyst formation, cell number, and apoptosis. 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ispartof Biology of reproduction, 2010-04, Vol.82 (4), p.751-758
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source Oxford Journals Online
subjects Acetylglucosaminidase - immunology
Acetylglucosaminidase - metabolism
Animals
Antibodies - pharmacology
Carbohydrate Metabolism - drug effects
Carbohydrate Metabolism - physiology
Embryo, Mammalian - drug effects
Embryo, Mammalian - metabolism
Embryonic Development - drug effects
Embryonic Development - physiology
Enzyme Activation - drug effects
Female
Gestational Age
Glycosylation - drug effects
Hexosamines - metabolism
Hyperglycemia - complications
Hyperglycemia - metabolism
Hyperglycemia - pathology
Maternal-Fetal Exchange - physiology
Mice
Models, Biological
N-Acetylglucosaminyltransferases - immunology
N-Acetylglucosaminyltransferases - metabolism
Pregnancy
Pregnancy Complications - metabolism
Pregnancy Complications - pathology
Signal Transduction - drug effects
Signal Transduction - physiology
title Toxic effects of hyperglycemia are mediated by the hexosamine signaling pathway and o-linked glycosylation in early mouse embryos
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