BIOMAT Database Logo BIOMAT Database Logo

Glucose metabolism in embryos of normal and diabetic rats during organogenesis. 1992

A M Svensson, and L A Borg, and U J Eriksson
Department of Medical Cell Biology, University of Uppsala, Sweden.

To investigate whether malformations in the offspring of diabetic rats are related to a disturbed embryonic glucose metabolism, lactate production, lactate content and glucose oxidation in embryos of normal and manifestly diabetic rats were measured in vitro during the period of organogenesis. The embryonic production and content of lactate decreased by 90% between gestational days 10 and 11. On both gestational days the embryos of diabetic rats showed increased lactate production and content compared to the embryos of normal rats. The embryonic oxidation of glucose decreased slightly from gestational day 10 to day 11, and the embryos of diabetic rats exhibited a lower glucose oxidation rate than those of normal rats on both days. The lactate production and content in the embryos increased with increasing concentrations of glucose in the incubation medium, whereas the oxidation of glucose was unaffected by the glucose concentration. The results suggest that the embryonic metabolism of glucose is only marginally affected by changes in the availability of glucose. The lactate production rate was higher and the glucose oxidation rate lower in the embryos of diabetic than in those of normal rats, even when the values for these metabolic variables were normalized to the embryonic DNA content. Thus, a causative role for a disturbance of the glucose metabolism in diabetes-induced embryonic dysmorphogenesis could be envisaged.

UI MeSH Term Description Entries
D007773 Lactates Salts or esters of LACTIC ACID containing the general formula CH3CHOHCOOR.
D009994 Osmolar Concentration The concentration of osmotically active particles in solution expressed in terms of osmoles of solute per liter of solution. Osmolality is expressed in terms of osmoles of solute per kilogram of solvent. Ionic Strength,Osmolality,Osmolarity,Concentration, Osmolar,Concentrations, Osmolar,Ionic Strengths,Osmolalities,Osmolar Concentrations,Osmolarities,Strength, Ionic,Strengths, Ionic
D010084 Oxidation-Reduction A chemical reaction in which an electron is transferred from one molecule to another. The electron-donating molecule is the reducing agent or reductant; the electron-accepting molecule is the oxidizing agent or oxidant. Reducing and oxidizing agents function as conjugate reductant-oxidant pairs or redox pairs (Lehninger, Principles of Biochemistry, 1982, p471). Redox,Oxidation Reduction
D012016 Reference Values The range or frequency distribution of a measurement in a population (of organisms, organs or things) that has not been selected for the presence of disease or abnormality. Normal Range,Normal Values,Reference Ranges,Normal Ranges,Normal Value,Range, Normal,Range, Reference,Ranges, Normal,Ranges, Reference,Reference Range,Reference Value,Value, Normal,Value, Reference,Values, Normal,Values, Reference
D003921 Diabetes Mellitus, Experimental Diabetes mellitus induced experimentally by administration of various diabetogenic agents or by PANCREATECTOMY. Alloxan Diabetes,Streptozocin Diabetes,Streptozotocin Diabetes,Experimental Diabetes Mellitus,Diabete, Streptozocin,Diabetes, Alloxan,Diabetes, Streptozocin,Diabetes, Streptozotocin,Streptozocin Diabete
D004247 DNA A deoxyribonucleotide polymer that is the primary genetic material of all cells. Eukaryotic and prokaryotic organisms normally contain DNA in a double-stranded state, yet several important biological processes transiently involve single-stranded regions. DNA, which consists of a polysugar-phosphate backbone possessing projections of purines (adenine and guanine) and pyrimidines (thymine and cytosine), forms a double helix that is held together by hydrogen bonds between these purines and pyrimidines (adenine to thymine and guanine to cytosine). DNA, Double-Stranded,Deoxyribonucleic Acid,ds-DNA,DNA, Double Stranded,Double-Stranded DNA,ds DNA
D004622 Embryo, Mammalian The entity of a developing mammal (MAMMALS), generally from the cleavage of a ZYGOTE to the end of embryonic differentiation of basic structures. For the human embryo, this represents the first two months of intrauterine development preceding the stages of the FETUS. Embryonic Structures, Mammalian,Mammalian Embryo,Mammalian Embryo Structures,Mammalian Embryonic Structures,Embryo Structure, Mammalian,Embryo Structures, Mammalian,Embryonic Structure, Mammalian,Embryos, Mammalian,Mammalian Embryo Structure,Mammalian Embryonic Structure,Mammalian Embryos,Structure, Mammalian Embryo,Structure, Mammalian Embryonic,Structures, Mammalian Embryo,Structures, Mammalian Embryonic
D005314 Embryonic and Fetal Development Morphological and physiological development of EMBRYOS or FETUSES. Embryo and Fetal Development,Prenatal Programming,Programming, Prenatal
D005865 Gestational Age The age of the conceptus, beginning from the time of FERTILIZATION. In clinical obstetrics, the gestational age is often estimated from the onset of the last MENSTRUATION which is about 2 weeks before OVULATION and fertilization. It is also estimated to begin from fertilization, estrus, coitus, or artificial insemination. Embryologic Age,Fetal Maturity, Chronologic,Chronologic Fetal Maturity,Fetal Age,Maturity, Chronologic Fetal,Age, Embryologic,Age, Fetal,Age, Gestational,Ages, Embryologic,Ages, Fetal,Ages, Gestational,Embryologic Ages,Fetal Ages,Gestational Ages
D005947 Glucose A primary source of energy for living organisms. It is naturally occurring and is found in fruits and other parts of plants in its free state. It is used therapeutically in fluid and nutrient replacement. Dextrose,Anhydrous Dextrose,D-Glucose,Glucose Monohydrate,Glucose, (DL)-Isomer,Glucose, (alpha-D)-Isomer,Glucose, (beta-D)-Isomer,D Glucose,Dextrose, Anhydrous,Monohydrate, Glucose

Related Publications

A M Svensson, and L A Borg, and U J Eriksson
Growth retardation during early organogenesis in embryos of experimentally diabetic rats.
March 1984, Diabetes,
A M Svensson, and L A Borg, and U J Eriksson
Lipid metabolism in the embryos of diabetic rats during early organogenesis: modulatory effect of prostaglandin E2.
January 2003, Reproduction, fertility, and development,
A M Svensson, and L A Borg, and U J Eriksson
Glucose metabolism in separated embryos and investing membranes during organogenesis in the rat.
July 1994, Metabolism: clinical and experimental,
A M Svensson, and L A Borg, and U J Eriksson
Some aspects of glucose metabolism in normal and alloxan-diabetic rats.
April 1962, Biochimica et biophysica acta,
A M Svensson, and L A Borg, and U J Eriksson
Altered matrix metalloproteinases and tissue inhibitors of metalloproteinases in embryos from diabetic rats during early organogenesis.
December 2011, Reproductive toxicology (Elmsford, N.Y.),
A M Svensson, and L A Borg, and U J Eriksson
Peroxynitrites and impaired modulation of nitric oxide concentrations in embryos from diabetic rats during early organogenesis.
November 2005, Reproduction (Cambridge, England),
A M Svensson, and L A Borg, and U J Eriksson
Embryonic growth impaired by maternal hypoglycemia during early organogenesis in normal and diabetic rats.
September 1994, Acta diabetologica,
A M Svensson, and L A Borg, and U J Eriksson
Metabolism of sorbitol and glucose compared in normal and alloxan-diabetic rats.
November 1951, The Journal of biological chemistry,
A M Svensson, and L A Borg, and U J Eriksson
Metabolism of glucose, fructose and xylitol in normal and streptozotocin-diabetic rats.
July 1982, The Journal of nutrition,
A M Svensson, and L A Borg, and U J Eriksson
Modulation of nitric oxide concentration and lipid metabolism by 15-deoxy Delta12,14prostaglandin J2 in embryos from control and diabetic rats during early organogenesis.
November 2002, Reproduction (Cambridge, England),
Copied contents to your clipboard!