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14. Spatiotemporal distribution of insulin-like growth factor receptors during nephrogenesis in fetuses from normal and diabetic rats.

Author

Van Huyen, J.-P. Duong, Amri, K., Bélair, M.-F., Vilar, J., Merlet-Bénichou, C., Bruneval, P., and Lelièvre -Pégorier, M.

Subjects
HYPERGLYCEMIA, HYPOGLYCEMIC agents, PEOPLE with diabetes, INSULIN receptors, BLOOD sugar, IMMUNOSUPPRESSIVE agents
Abstract

Exposure to hyperglycemia in utero impairs rat nephrogenesis. The effect of maternal diabetes on insulin-like growth factors and their receptors in the fetal kidney is associated with an increase in both mRNA and protein of the insulin-like growth factor II/mannose 6-phosphate receptor. However, this receptor has never been localized in the fetal kidney. The spatial and temporal distribution of the three insulin-like growth factor receptors (insulin-like growth factor I receptor, insulin-like growth factor II/mannose 6-phosphate receptor and insulin receptor) in rat metanephros during both normal and streptozotocin-induced diabetic renal development was investigated using in situ hybridization and immunohistochemistry. All receptors were found in the fetal kidney from the start of nephrogenesis. Insulin-like growth factor I receptor expression was ubiquitous and continuously present during metanephric development. Insulin receptor expression was developmentally regulated during kidney maturation with an enhanced expression in proximal tubules at the late stages of development. Insulin-like growth factor II/mannose 6-phosphate receptor expression was ubiquitous in the early stages of development and was dramatically decreased at the late stages of normal kidney development. Insulin receptor and insulin-like growth factor I receptor expressions were unchanged in diabetic metanephroi. Although the spatial expression of insulin-like growth factor II/mannose 6-phosphate receptor was unaffected by hyperglycemia, its expression was not downregulated in the mesenchyme of the nephrogenic zone of diabetic fetuses on gestational day 20. This study suggests a crucial role of insulin-like growth factor II/mannose 6-phosphate receptor in the pathogenesis of the impaired nephrogenesis in fetuses of diabetic mothers. [ABSTRACT FROM AUTHOR]

Published
2003
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15. Altered nephrogenesis due to maternal diabetes is associated with increased expression of IGF-II/mannose-6-phosphate receptor in the fetal kidney.

Author

Amri, Kaouthar, Freund, Nicole, Duong Van Huyen, J.P., Merlet-Benichou, Claudie, Lelievre-Pegorier, Martine, Amri, K, Freund, N, Merlet-Bénichou, C, and Lelièvre-Pégorier, M

Subjects
INSULIN-like growth factor-binding proteins, DIABETES, ANIMAL models in research, ANIMAL experimentation, CELL receptors, GESTATIONAL diabetes, GENES, GESTATIONAL age, HUMAN reproduction, KIDNEYS, PROTEINS, RATS, RNA, SOMATOMEDIN
Abstract

We have recently demonstrated that the exposure to hyperglycemia in utero impairs nephrogenesis in rat fetuses (Amri K et al., Diabetes 48:2240-2245, 1999). Diabetic pregnancy is commonly associated with alterations in the IGF system in fetal tissues. It has also been shown that both IGF-I and IGF-II are produced within developing metanephros and promote renal organogenesis. Therefore, we investigated the effect of maternal diabetes on IGFs and their receptors in developing fetal rat kidney. Diabetes was induced in pregnant rats by a single injection of streptozotocin on day 0 of gestation. We measured the amounts of IGF and their receptors, both proteins and mRNAs, in the metanephroi of fetuses issued from diabetic subjects and in age-matched fetuses from control subjects (14-20 days of gestation). IGF-II was produced throughout fetal nephrogenesis, whereas IGF-I protein was not detected, suggesting a critical role of IGF-II in kidney development. Fetal exposure to maternal diabetes caused no change in IGF production in the early stages of nephrogenesis. Similarly, the amounts of IGF-I receptor and insulin receptor were not altered. By contrast, there was an increase in production of IGF-II/mannose-6-phosphate receptor throughout nephrogenesis. Because this receptor plays an essential role in regulating the action of IGF-II, the altered nephrogenesis in fetuses exposed to maternal diabetes may be linked to a decrease in IGF-II bioavailability. [ABSTRACT FROM AUTHOR]

Published
2001
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19. Ontogeny of Sugar Transport in Fetal Rat Kidney

Author

Lelièvre-Pégorier, M. and Geloso, J.P.

Abstract

Concentration of α-methyl-D-glucopyranoside (α-MG) by kidney slices of rat fetuses increases during the studied period of gestation from day 18 until day 21 (last day of gestation). Glucoside transport is inhibited by phloridzin, D-glucose and D-galactose. Concentration dependence, over a substrate range from 0.01 to 0.2 mM, was studied on day 21: α-MG transport obeys a saturation kinetic with a low apparent Km (0.22 mM); D-glucose inhibition is of competitive nature (apparent Ki: 0.47 mM). Sodium dependence is demonstrated on day 21 of gestation: the phloridzine-sensitive transport, entirely inhibited in Na+-free medium, is enhanced when medium Na+ concentration increases from 0 to 143 mEq/l (Krebs-Ringer buffer concentration); further increase of Na+ concentration has no effect.

Published
1980
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22. O65 Programmation fœtale de l’hypertension et de maladies rénales chez le rat exposéin utero au diabète maternel.

Author

Fassot, C., Duong Van Huyen, J.P., Viltard, M., Nehiri, T., Freund, N., Bruneval, P., and Lelièvre-Pégorier, M.

Subjects
HYPERTENSION, GESTATIONAL diabetes, KIDNEY diseases, STREPTOZOTOCIN, BLOOD pressure, RENIN, EPIDEMIOLOGY, LABORATORY rats
Abstract

Introduction: Des études épidémiologiques et expérimentales ont conduit à proposer l’hypothèse de l’origine foetale des maladies de l’adulte. Nous avons montré que, chez le rat, l’exposition in utero au diabète maternel altère le développement rénal induisant un déficit néphronique d’environ 30 %. L’objectif de notre étude a été d’évaluer, chez le rat, les conséquences à long terme de l’exposition in utero au diabète maternel sur la pression artérielle et la fonction artérielle et rénale. Matériels et méthodes: Le diabète a été induit chez les femelles gestantes par administration de streptozotocine le premier jour de la gestation. Chez les rats, de 1 à 18 mois, issus de mères témoins (Te) et diabétiques (D), nous avons réalisé des mesures de la pression artérielle (PA), de l’activité rénine plasmatique (ARP) et de la protéinurie. Chez ces mêmes rats, une analyse de la structure et des propriétés élastiques artérielles, de la fonction rénale, et de l’histopathologie et l’histomorphométrie rénales a également été réalisée. Enfin le profil d’expression génique (puces d’oligonucléotides, 22 000 gènes) a été étudié chez des rats de 3 mois des groupes Te et D. Résultats: Dès l’âge de 6 mois, les rats D développent une hypertension artérielle, la clairance de la créatinine est altérée et associée à une protéinurie. Au stade pré-hypertensif de 3 mois, l’ARP n’est pas différente dans les deux groupes de rats, en revanche, elle est diminuée chez les rats D hypertendus. L’administration d’un régime hypersodé au stade pré-hypertensif induit une augmentation de la pression artérielle systolique chez les rats D. Dans les aortes abdominales des rats D, la sur-expression desgènes codant différentes sous-unités du cytochrome P450 (Cyp4f4, Cyp4f2, Cyp8b1) et la sous-expression du récepteur de la prostacycline pourraient être responsable d’une vasoconstriction artérielle. De façon étonnante, aucune différence de structure artérielle n’a été mise en évidence entre les deux groupes. Ceci pourrait être dû à la sous-expression de gènes codant pour des protéines interagissant avec les myofibrilles (Evl, Ckap4, Dcamkl1). Conclusion: Les rats exposés in utero au diabète maternel développent, à l’âge adulte, une hypertension sel-sensible et présentent une altération de la fonction rénale. Ces altérations pourraient résulter, chez ces animaux, du déficit néphronique induit par l’exposition in utero au diabète maternel mais aussi à une programmation fœtale vasculaire anormale. [Copyright &y& Elsevier]

Published
2008
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24. Mild vitamin A deficiency leads to inborn nephron deficit in the rat.

Author

Lelièvre-Pégorier, Martine, Vilar, José, Ferrier, Marie-Laure, Moreau, Evelyne, Freund, Nicole, Gilbert, Thierry, Merlet-Bénichou, Claudie, Lelièvre-Pégorier, M, Vilar, J, Ferrier, M L, Moreau, E, Freund, N, Gilbert, T, and Merlet-Bénichou, C

Subjects
*VITAMIN A deficiency, *MORPHOGENESIS
Abstract

Background: Vitamin A plays a critical role in fetal organogenesis, and its severe deficiency during pregnancy is known to result in malformations of several organs, including the kidney. However, the consequences of mild vitamin A deficiency (VAD) has received little attention. In the present study, we examined the effect of in utero exposure to mild VAD on renal organogenesis.Methods: A rat model of mild VAD compatible with normal gestation was developed. Plasma retinol was determined by reverse phase HPLC in mothers and fetuses. Nephron counting was performed in kidneys of fetuses and pups issued from control and VAD mothers. Metanephroi explanted from 14-day-old fetuses from both groups were cultured in the presence or absence of retinoic acid (RA), and growth and differentiation were assessed. c-ret expression was analyzed from fetuses exposed in utero to VAD or to normal vitamin A status and also in metanephroi grown in culture with or without RA using RT-PCR.Results: The 50% reduction in circulating vitamin A levels induced by vitamin A deprivation in pregnant rats did not affect the overall fetal development. However, the number of nephrons was reduced by 20% in 21-day-old VAD fetuses. The number of nephrons was closely correlated with circulating vitamin A level in both VAD and control fetuses. Metanephroi taken from VAD fetuses developed to a lesser extent in vitro, but their capacity to respond to exogenous retinoic acid was not altered. Finally, we found that the expression of the proto-oncogene c-ret was modulated according to the retinoid environment.Conclusion: We conclude that vitamin A supply to the fetus is critical in determining the number of nephrons. Data available thus far on the frequency of mild VAD during pregnancy and on the long-term consequences of inborn nephron deficit highlight the clinical relevance of the present study. [ABSTRACT FROM AUTHOR]

Published
1998
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25. The magnitude of nephron number reduction mediates intrauterine growth-restriction-induced long term chronic renal disease in the rat. A comparative study in two experimental models.

Author

Boubred F, Daniel L, Buffat C, Tsimaratos M, Oliver C, Lelièvre-Pégorier M, and Simeoni U

Subjects
Animals, Animals, Newborn, Betamethasone, Birth Weight, Blood Pressure, Female, Kidney pathology, Kidney physiopathology, Kidney Function Tests, Male, Rats, Sprague-Dawley, Systole, Fetal Growth Retardation pathology, Nephrons pathology, Renal Insufficiency, Chronic pathology
Abstract

Background: Intrauterine growth restriction (IUGR) is a risk factor for hypertension (HT) and chronic renal disease (CRD). A reduction in the nephron number is proposed to be the underlying mechanism; however, the mechanism is debated. The aim of this study was to demonstrate that IUGR-induced HT and CRD are linked to the magnitude of nephron number reduction, independently on its cause., Methods: Systolic blood pressure (SBP), glomerular filtration rate (GFR), proteinuria, nephron number, and glomerular sclerosis were compared between IUGR offspring prenatally exposed to a maternal low-protein diet (9% casein; LPD offspring) or maternal administration of betamethasone (from E17 to E19; BET offspring) and offspring with a normal birth weight (NBW offspring)., Results: Both prenatal interventions led to IUGR and a similar reduction in birth weight. In comparison to NBW offspring, BET offspring had a severe nephron deficit (-50% in males and -40% in females, p < 0.01), an impaired GFR (-33%, p < 0.05), and HT (SBP+ 17 mmHg, p < 0.05). Glomerular sclerosis was more than twofold higher in BET offspring than in NBW offspring (p < 0.05). Long-term SBP, GFR, and glomerular sclerosis were unchanged in LPD offspring while the nephron number was moderately reduced only in males (-28% vs. NBW offspring, p < 0.05)., Conclusion: In this study, the magnitude of nephron number reduction influences long term renal disease in IUGR offspring: a moderate nephron number is an insufficient factor. Extremely long-term follow-up of adults prenatally exposed to glucocorticoids are required.

Published
2016
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26. Long Lasting Microvascular Tone Alteration in Rat Offspring Exposed In Utero to Maternal Hyperglycaemia.

Author

Vessières E, Dib A, Bourreau J, Lelièvre E, Custaud MA, Lelièvre-Pégorier M, Loufrani L, Henrion D, and Fassot C

Subjects
Animals, Animals, Newborn, Blood Pressure, Body Weight, Diabetes Mellitus, Experimental pathology, Diabetes Mellitus, Experimental physiopathology, Epoprostenol metabolism, Female, In Vitro Techniques, Mesenteric Arteries pathology, Mesenteric Arteries physiopathology, Pregnancy, Rats, Sprague-Dawley, Vasoconstriction, Vasodilation, Hyperglycemia complications, Microvessels pathology, Microvessels physiopathology, Prenatal Exposure Delayed Effects pathology, Prenatal Exposure Delayed Effects physiopathology
Abstract

Epidemiologic studies have demonstrated that cardiovascular risk is not only determined by conventional risk factors in adulthood, but also by early life events which may reprogram vascular function. To evaluate the effect of maternal diabetes on fetal programming of vascular tone in offspring and its evolution during adulthood, we investigated vascular reactivity of third order mesenteric arteries from diabetic mother offspring (DMO) and control mother offspring (CMO) aged 3 and 18 months. In arteries isolated from DMO the relaxation induced by prostacyclin analogues was reduced in both 3- and 18-month old animals although endothelium (acetylcholine)-mediated relaxation was reduced in 18-month old DMO only. Endothelium-independent (sodium nitroprusside) relaxation was not affected. Pressure-induced myogenic tone, which controls local blood flow, was reduced in 18-month old CMO compared to 3-month old CMO. Interestingly, myogenic tone was maintained at a high level in 18-month old DMO even though agonist-induced vasoconstriction was not altered. These perturbations, in 18-months old DMO rats, were associated with an increased pMLC/MLC, pPKA/PKA ratio and an activated RhoA protein. Thus, we highlighted perturbations in the reactivity of resistance mesenteric arteries in DMO, at as early as 3 months of age, followed by the maintenance of high myogenic tone in older rats. These modifications are in favour of excessive vasoconstrictor tone. These results evidenced a fetal programming of vascular functions of resistance arteries in adult rats exposed in utero to maternal diabetes, which could explain a re-setting of vascular functions and, at least in part, the occurrence of hypertension later in life.

Published
2016
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27. Compensatory renal growth after unilateral or subtotal nephrectomy in the ovine fetus.

Author

Sammut S, Behr L, Hekmati M, Gubler MC, Laborde K, and Lelièvre Pégorier M

Subjects
Animals, Apoptosis, Cell Proliferation, Kidney anatomy & histology, Kidney surgery, Models, Biological, Organ Size, Kidney embryology, Nephrectomy, Sheep embryology
Abstract

Background: Clinical and experimental studies show that unilateral (1/2Nx) and subtotal nephrectomy (5/6Nx) in adults result in compensatory renal growth without formation of new nephrons. During nephrogenesis, the response to renal mass reduction has not been fully investigated., Methods: Ovine fetuses underwent 1/2Nx, 5/6Nx, or sham surgery (sham) at 70 d of gestation (term: 150 d), when nephrogenesis is active. At 134 d, renal function was determined, fetuses were killed, and kidneys were further analyzed at the cellular and molecular levels. Additional fetuses subjected to 5/6Nx were killed at 80 and 90 d of gestation to investigate the kinetics of the renal compensatory process., Results: At 134 d, in 1/2Nx, a significant increase in kidney weight and estimated glomerular number was observed. In 5/6Nx, the early and marked catch-up in kidney weight and estimated glomerular number was associated with a striking butterfly-like remodeling of the kidney that developed within the first 10 d following nephrectomy. In all groups, in utero glomerular filtration rates were similar., Conclusion: Compensatory renal growth was observed after parenchymal reduction in both models; however, the resulting compensatory growth was strikingly different. After 5/6Nx, the remnant kidney displayed a butterfly-like remodeling, and glomerular number was restored.

Published
2013
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28. In utero exposure to maternal diabetes impairs vascular expression of prostacyclin receptor in rat offspring.

Author

Duong Van Huyen JP, Vessières E, Perret C, Troise A, Prince S, Guihot AL, Barbry P, Henrion D, Bruneval P, Laurent S, Lelièvre-Pégorier M, and Fassot C

Subjects
Animals, Aorta, Thoracic embryology, Aorta, Thoracic physiology, Arachidonic Acid metabolism, Blood Pressure, DNA, Complementary genetics, Diabetes Mellitus, Experimental genetics, Female, Gene Expression Profiling, Gene Expression Regulation, Developmental, Oligonucleotide Array Sequence Analysis, Pregnancy, Pregnancy Complications genetics, RNA genetics, RNA isolation & purification, Rats, Rats, Sprague-Dawley, Reverse Transcriptase Polymerase Chain Reaction, Vasodilation, Diabetes Mellitus, Experimental physiopathology, Pregnancy Complications physiopathology, Receptors, Epoprostenol genetics
Abstract

Objective: To evaluate modifications of arterial structure, gene expression, and function in our model of rats exposed to maternal diabetes., Research Design and Methods: Morphometric analyses of elastic vessels structure and determination of thoracic aortic gene expression profile with oligonucleotide chips (Agilent, G4130, 22k) were performed before the onset of established hypertension (3 months)., Results: Arterial parameters of in situ fixed thoracic aorta were not significantly different between control mother offspring and diabetic mother offspring (DMO). The aortic gene expression profile of DMO is characterized by modifications of several members of the arachidonic acid metabolism including a twofold underexpression of prostacyclin receptor, which could contribute to decreased vasodilatation. This was confirmed by ex vivo experiments on isolated aortic rings. Pharmacological studies on conscious rats showed that systolic blood pressure decline in response to a PGI(2) analog was impaired in DMO rats., Conclusions: These results suggest an abnormal vascular fetal programming of prostacyclin receptor in rats exposed in utero to maternal hyperglycemia that is associated with impaired vasodilatation and may be involved in the pathophysiology of hypertension in this model.

Published
2010
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29. MMP9 limits apoptosis and stimulates branching morphogenesis during kidney development.

Author

Arnould C, Lelièvre-Pégorier M, Ronco P, and Lelongt B

Subjects
Animals, Female, Kidney pathology, Kidney physiology, Matrix Metalloproteinase 9 genetics, Mice, Mice, Inbred C57BL, Promoter Regions, Genetic, Proto-Oncogene Proteins c-kit analysis, Stem Cell Factor analysis, Apoptosis, Kidney embryology, Matrix Metalloproteinase 9 physiology, Morphogenesis
Abstract

Early events in kidney organogenesis involve reciprocal interactions between the ureteric bud and the metanephric mesenchyme, which lead to remodeling of the extracellular matrix. This remodeling involves matrix metalloproteases (MMPs), but the specific roles of individual MMPs in kidney development are not completely understood. Here, we analyzed MMP9-deficient mice at the first step of kidney development and found that MMP9 deficiency delayed embryonic kidney maturation and increased apoptosis ex vivo by 2.5-fold. These early defects resulted in a 30% decrease in nephron number, a 20% decrease in adult kidney weight, and altered kidney function and morphology at 12 mo. The membrane form of stem cell factor (SCF) increased, whereas the activated form of the SCF receptor, c-kit, decreased in MMP9-deficient embryonic kidneys. In organotypic culture, MMP9-deficient kidneys failed to secrete SCF, and addition of recombinant SCF partially rescued both apoptosis and the branching defect. In conclusion, these data show that MMP9 protects mesenchymal cells from apoptosis during kidney development and stimulates ureteric bud branching morphogenesis, most likely by releasing the soluble form of SCF, suggesting that normal renal development requires MMP9.

Published
2009
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30. Early postnatal overfeeding induces early chronic renal dysfunction in adult male rats.

Author

Boubred F, Daniel L, Buffat C, Feuerstein JM, Tsimaratos M, Oliver C, Dignat-George F, Lelièvre-Pégorier M, and Simeoni U

Subjects
Aging physiology, Animals, Animals, Newborn, Birth Weight, Female, Fetal Growth Retardation physiopathology, Kidney Diseases pathology, Kidney Diseases physiopathology, Kidney Function Tests, Male, Nephrons pathology, Rats, Rats, Sprague-Dawley, Sclerosis, Blood Pressure, Fetal Growth Retardation pathology, Kidney Diseases etiology, Overnutrition complications
Abstract

Low birth weight is associated with an increased risk of hypertension and renal dysfunction at adulthood. Such an association has been shown to involve a reduction of nephron endowment and to be enhanced by accelerated postnatal growth in humans. However, while low-birth-weight infants often undergo catch-up growth, little is known about the long-term vascular and renal effects of accelerated postnatal growth. We surimposed early postnatal overfeeding (OF; reduction of litter size during the suckling period) to appropriate-birth-weight (NBW+OF) and intrauterine growth restriction (IUGR; IUGR+OF) pups, obtained after a maternal gestational low-protein diet. Blood pressure (systolic blood pressure; SBP) and renal function (glomerular filtration rate; GFR) were measured in young and aging offspring. Glomerulosclerosis and nephron number were determined in aging offspring (22 mo). Nephron number was reduced in both IUGR and IUGR+OF male offspring (by 24 and 26%). GFR was reduced by 40% in 12-mo-old IUGR+OF male offspring, and both NBW+OF and IUGR+OF aging male offspring had sustained hypertension (+25 mmHg) and glomerulosclerosis, while SBP and renal function were unaffected in IUGR aging offspring. Female offspring were unaffected. In conclusion, in this experimental model, early postnatal OF in the neonatal period has major long-lasting effects. Such effects are gender dependent. Reduced nephron number alone, associated with IUGR, may not be sufficient to induce long-lasting physiological alterations, and early postnatal OF acts as a "second hit." Early postnatal OF is a suitable model with which to study the long-term effects of postnatal growth in the pathogenesis of vascular disorders and renal disease.

Published
2009
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31. Exposure to maternal diabetes induces salt-sensitive hypertension and impairs renal function in adult rat offspring.

Author

Nehiri T, Duong Van Huyen JP, Viltard M, Fassot C, Heudes D, Freund N, Deschênes G, Houillier P, Bruneval P, and Lelièvre-Pégorier M

Subjects
Animals, Animals, Newborn, Blood Pressure drug effects, Blotting, Western, Diabetes Mellitus, Experimental complications, Epithelial Sodium Channels metabolism, Female, Glomerular Filtration Rate, Hypertension etiology, Hypertension metabolism, Immunohistochemistry, Kidney drug effects, Kidney pathology, Pregnancy, Rats, Rats, Sprague-Dawley, Renin metabolism, Sodium Chloride, Dietary administration & dosage, Time Factors, Diabetes Mellitus, Experimental physiopathology, Hypertension physiopathology, Kidney physiopathology, Pregnancy in Diabetics physiopathology
Abstract

Objective: Epidemiological and experimental studies have led to the hypothesis of fetal origin of adult diseases, suggesting that some adult diseases might be determined before birth by altered fetal development. We have previously demonstrated in the rat that in utero exposure to maternal diabetes impairs renal development leading to a reduction in nephron number. Little is known on the long-term consequences of in utero exposure to maternal diabetes. The aim of the study was to assess, in the rat, long-term effects of in utero exposure to maternal diabetes on blood pressure and renal function in adulthood., Research Design and Methods: Diabetes was induced in Sprague-Dawley pregnant rats by streptozotocin on day 0 of gestation. Systolic blood pressure, plasma renin activity, and renal function were measured in the offspring from 1 to 18 months of age. High-salt diet experiments were performed at the prehypertensive stage, and the abundance of tubular sodium transporters was evaluated by Western blot analysis. Kidney tissues were processed for histopathology and glomerular computer-assisted histomorphometry., Results and Conclusions: We demonstrated that in utero exposure to maternal diabetes induces a salt-sensitive hypertension in the offspring associated with a decrease in renal function in adulthood. High-salt diet experiments show an alteration of renal sodium handling that may be explained by a fetal reprogramming of tubular functions in association or as a result of the inborn nephron deficit induced by in utero exposure to maternal diabetes.

Published
2008
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32. Effects of early postnatal hypernutrition on nephron number and long-term renal function and structure in rats.

Author

Boubred F, Buffat C, Feuerstein JM, Daniel L, Tsimaratos M, Oliver C, Lelièvre-Pégorier M, and Simeoni U

Subjects
Aging physiology, Animals, Animals, Newborn, Birth Weight physiology, Blood Pressure physiology, Diet, Female, Glomerulosclerosis, Focal Segmental pathology, Kidney Function Tests, Kidney Glomerulus pathology, Male, Nephrons drug effects, Proteinuria metabolism, Rats, Rats, Sprague-Dawley, Sex Characteristics, Weight Gain physiology, Kidney pathology, Kidney physiopathology, Nephrons pathology, Overnutrition pathology, Overnutrition physiopathology, Renal Circulation physiology
Abstract

Various antenatal events impair nephrogenesis in humans as well as in several animal models. The consecutive low nephron endowment may contribute to an increased risk for cardiovascular and renal diseases in adulthood. However, little knowledge is available on the influence of the postnatal environment, especially nutrition, on nephrogenesis. Moreover, the consequences of early postnatal nutrition in late adulthood are not clear. We used a model of early postnatal overfeeding (OF) induced by reduction of litter size (3 pups/litter) in rats. Systolic blood pressure (SBP; plethysmography), glomerular filtration rate (clearance of creatinine), glomerular number and volume, and glomerulosclerosis were evaluated in 22-mo-old aging offspring. Early postnatal OF was associated with increased weight gain during the suckling period (+40%, P < 0.01) and a 20% increase in glomerular number (P < 0.05). However, an increase in SBP at 12 mo by an average of 18 mmHg and an increase in proteinuria (2.6-fold) and glomerulosclerosis at 22 mo of age were observed in OF male offspring compared with controls. In conclusion, early postnatal OF in the rat enhances postnatal nephrogenesis, but elevated blood pressure and glomerulosclerosis are still observed in male adults. Factors other than glomerular number reduction are likely to contribute to the arterial hypertension induced by early postnatal OF.

Published
2007
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33. Kidney gene expression analysis in a rat model of intrauterine growth restriction reveals massive alterations of coagulation genes.

Author

Buffat C, Boubred F, Mondon F, Chelbi ST, Feuerstein JM, Lelièvre-Pégorier M, Vaiman D, and Simeoni U

Subjects
Animals, Complement System Proteins genetics, Disease Models, Animal, Female, Gene Expression Profiling, Gene Expression Regulation, Developmental, Gene Regulatory Networks, Kidney embryology, Kidney pathology, Kidney physiology, Oligonucleotide Array Sequence Analysis, Pregnancy, Rats, Rats, Sprague-Dawley, Blood Coagulation Factors genetics, Fetal Growth Retardation genetics, Fetal Growth Retardation pathology, Kidney metabolism
Abstract

In this study, low birth weight was induced in rats by feeding the dams with a low-protein diet during pregnancy. Kidneys from the fetuses at the end of gestation were collected and showed a reduction in overall and relative weight, in parallel with other tissues (heart and liver). This reduction was associated with a reduction in nephrons number. To better understand the molecular basis of this observation, a transcriptome analysis contrasting kidneys from control and protein-deprived rats was performed, using a platform based upon long isothermic oligonucleotides, strengthening the robustness of the results. We could identify over 1800 transcripts modified more than twice (772 induced and 1040 repressed). Genes of either category were automatically classified according to functional criteria, making it possible to bring to light a large cluster of genes involved in coagulation and complement cascades. The promoters of the most induced and most repressed genes were contrasted for their composition in putative transcription factor binding sites, suggesting an overrepresentation of the AP1R binding site, together with the transcription induction of factors actually binding to this site in the set of induced genes. The induction of coagulation cascades in the kidney of low-birth-weight rats provides a putative rationale for explaining thrombo-endothelial disorders also observed in intrauterine growth-restricted human newborns. These alterations in the kidneys have been reported as a probable cause for cardiovascular diseases in the adult.

Published
2007
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34. Expression of matrix metalloproteinases MMP-2 and MMP-9 is altered during nephrogenesis in fetuses from diabetic rats.

Author

Duong Van Huyen JP, Viltard M, Nehiri T, Freund N, Bélair MF, Martinerie C, Lelongt B, Bruneval P, and Lelièvre-Pégorier M

Subjects
Animals, Cells, Cultured, Connective Tissue Growth Factor, Diabetes Mellitus, Experimental chemically induced, Extracellular Matrix chemistry, Extracellular Matrix enzymology, Female, Gene Expression Regulation, Developmental, Gene Expression Regulation, Enzymologic, Immediate-Early Proteins genetics, Immediate-Early Proteins metabolism, In Situ Hybridization, Intercellular Signaling Peptides and Proteins genetics, Intercellular Signaling Peptides and Proteins metabolism, Kidney metabolism, Male, Matrix Metalloproteinase 2 genetics, Matrix Metalloproteinase 9 genetics, Pregnancy, Rats, Rats, Sprague-Dawley, Staining and Labeling, Transforming Growth Factor beta1 metabolism, Diabetes Mellitus, Experimental metabolism, Diabetic Nephropathies metabolism, Kidney embryology, Matrix Metalloproteinase 2 metabolism, Matrix Metalloproteinase 9 metabolism, Organogenesis physiology, Pregnancy in Diabetics metabolism
Abstract

Remodeling of extracellular matrix (ECM) is an important physiological feature of normal growth and development. Recent studies have emphasized the role of matrix metalloproteinases (MMP-2 and MMP-9) in normal mouse nephrogenesis. We have demonstrated previously in the rat that in utero exposure to maternal diabetes impairs renal development leading to a 30% reduction in the nephron number. Transforming growth factor-beta1 (TGF-beta1) and connective tissue growth factor (CTGF) are known to mediate high glucose effects on matrix degradation. The aim of the present study was to address the expression of type IV collagenase and TGF-beta1/CTGF systems in rat kidney during normal development and after in utero exposure to maternal diabetes. Both MMP-2 and MMP-9 mRNA metanephric expressions and activities were dramatically downregulated in kidneys issued from diabetic fetuses and in metanephros cultured in the presence of high glucose concentration. TGF-beta1 and CTGF expressions were significantly enhanced in diabetic fetal kidneys and in high glucose cultured metanephroi. Conditioned media obtained from metanephroi grown with high glucose concentration upregulated functional TGF-beta activity in transfected ATDC5 cells. In conclusion, in impaired nephrogenesis resulting from in utero exposure to maternal diabetes, alteration of both type IV collagenase and TGF-beta1/CTGF systems may lead to abnormal remodeling of ECM, which may, in turn, induce defects in ureteral bud branching leading to the observed reduction in the nephron number with consequences later in life: progression of chronic renal disease and hypertension.

Published
2007
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35. [Renal and urinary tract disease national research program].

Author

Stengel B, Antignac C, Baverel G, Choukroun G, Cussenot O, Dussaule JC, Friedlander G, Lang P, Lelièvre-Pégorier M, Massy Z, Monteiro R, Parini A, Soulillou JP, Baud L, and Ronco P

Subjects
Foundations, France epidemiology, Humans, Incidence, Kidney Transplantation statistics & numerical data, Kidney Diseases classification, Kidney Diseases epidemiology, Research trends, Urologic Diseases classification, Urologic Diseases epidemiology
Abstract

The National Institute of Health and Medical Research (Inserm), the Society of Nephrology, and the French Kidney Foundation recognized the need to create a National Research Program for kidney and urinary tract diseases. They organized a conference gathering 80 researchers to discuss the state-of-the art and evaluate the strengths and weaknesses of kidney and urinary tract disease research in France, and to identify research priorities. From these priorities emerged 11 of common interest: 1) conducting epidemiologic studies; 2) conducting large multicenter cohorts of well-phenotyped patients with blood, urine and biopsy biobanks; 3) developing large scale approach: transcriptomics, proteomics, metabolomics; 4) developing human and animal functional imaging techniques; 5) strengthening the expertise in renal pathology and electrophysiology; 6) developing animal models of kidney injury; 7) identifying nontraumatic diagnostic and prognostic biomarkers; 8) increasing research on the fetal programming of adult kidney diseases; 9) encouraging translational research from bench to bedside and to population; 10) creating centers grouping basic and clinical research workforces with critical mass and adequate logistic support; 11) integrating and developing european research programs.

Published
2007
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36. Identification of differentially expressed genes between fetal and adult mouse kidney: candidate gene in kidney development.

Author

Guinobert I, Viltard M, Piquemal D, Elalouf JM, Marti J, and Lelièvre-Pégorier M

Subjects
Animals, Female, Mice, Mice, Inbred C57BL, Transcription Factors genetics, Transcription Factors metabolism, Aging physiology, Gene Expression Profiling, Gene Expression Regulation, Developmental physiology, Kidney embryology, Kidney metabolism, Proteome genetics, Proteome metabolism
Abstract

Background: The kidney development involves a wide variety of developmental processes requiring a lot of genes expressed in a sequential manner. The aim of the present study is to identify new genes involved in these processes., Methods: To obtain a view of the mouse embryonic kidney transcriptome we used the SADE method, which allows large-scale quantitative gene expression measurements., Results: 7,689 tags were sequenced from our library. Among the 4,507 unique transcripts yielded, 64% correspond to known genes, 22% ESTs, 12% unidentified genes. 472 genes were differentially expressed as compared to published adult kidney library. Among these, we identified several candidate genes and focused on a particular one: thymosin beta4 (Tbeta4), an actin-sequestering protein more highly expressed in fetal kidney. First we studied the in vivo expression patterns of Tbeta4 transcript during kidney development. Tbeta4 increases throughout the kidney development and remains high during active nephrogenesis. Moreover, the spatial distribution of Tbeta4 mRNA was analysed and reveals that during active nephrogenesis (i.e., 18 dpc) Tbeta4 is localised in differentiating glomeruli. In adult kidney, Tbeta4 remains expressed in podocytes and collecting ducts., Conclusion: Our results provide the first demonstration of Tbeta4 production in vivo by embryonic kidney and further show that Tbeta4 is implicated in kidney organogenesis., (2006 S. Karger AG, Basel.)

Published
2006
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37. Effects of mild vitamin a deficiency on lung maturation in newborn rats: a morphometric and morphologic study.

Author

Frey G, Egli E, Chailley-Heu B, Lelièvre-Pégorier M, Burri PH, Bourbon J, and Tschanz SA

Subjects
Animals, Body Weight, Capillaries anatomy & histology, Female, Lung anatomy & histology, Lung blood supply, Microscopy, Electron, Pulmonary Alveoli anatomy & histology, Pulmonary Alveoli blood supply, Rats, Rats, Sprague-Dawley, Vitamin A blood, Animals, Newborn growth & development, Lung growth & development, Vitamin A Deficiency complications
Abstract

Objective: To evaluate the effects of a 60% vitamin A deficiency (VAD) on the two postnatal stages of lung development: alveolarization and microvascular maturation. Lungs from deficient rats were compared to age-matched controls., Study Design: Starting at 3 weeks before mating, female rats were maintained under a diet lacking vitamin A. Due to the slow depletion of the vitamin A liver stores the pregnant rats carried to term and delivered pups under mild VAD conditions. Mothers and offspring were then kept under the same diet what resulted in a mean reduction of vitamin A plasma concentration of about 60% vs. controls during the whole experimental period. Pups were sacrificed on days 4, 10 and 21 and their lungs fixed and analyzed by means of a combined morphologic and morphometric investigation at light and electron microscopic levels., Results: During the whole experiment, body weights of VAD animals were lower than controls with a significant decrease on day 10. On days 4, 10 and 21 the pulmonary structure was in a comparable gross morphologic state in both groups. Despite this morphologic normality, quantitative alterations in some functional parameters could be detected. On day 4, lung volume and the volume and surface area of air spaces were decreased, while the arithmetic mean barrier thickness and type 2 pneumocyte volume were increased in the VAD group. On day 21, some changes were again manifest mainly consisting in an augmentation of the vascularization and a decrease in interstitial volume in deficient animals., Conclusions: Mild VAD causes no gross disturbances in the postnatal phases of lung development in rats. However, a body weight-related transient retardation of lung maturation was detectable in the first postnatal week. At 3 weeks, the VAD lungs showed a more mature vascular system substantiated by an increase in volume of both capillary volume and the large non-parenchymal vessels. In view of these quantitative alterations, we suspect that mild VAD deregulates the normal phases of body and lung growth, but does not induce serious functional impairments., (2004 S. Karger AG, Basel.)

Published
2004
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38. The number of nephrons in the mammalian kidney: environmental influences play a determining role.

Author

Lelièvre-Pégorier M and Merlet-Bénichou C

Subjects
Animals, Female, Fetal Growth Retardation pathology, Gentamicins adverse effects, Humans, Pregnancy, Pregnancy in Diabetics pathology, Vitamin A Deficiency pathology, Environment, Kidney pathology, Nephrons pathology
Abstract

Several lines of evidence, mostly derived from animal studies, indicate that changes in the fetal environment may affect the renal development. Fetal growth retardation is associated with a nephron deficit in both humans and animals. Changes in the supply of vitamin A to the fetus may be responsible for the variations in the number of nephrons in the human kidney. In utero exposure to hyperglycemia or drugs may also cause a nephron deficit., (Copyright 2000 S. Karger AG, Basel.)

Published
2000
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39. Mild vitamin A deficiency delays fetal lung maturation in the rat.

Author

Chailley-Heu B, Chelly N, Lelièvre-Pégorier M, Barlier-Mur AM, Merlet-Bénichou C, and Bourbon JR

Subjects
Animals, Choline-Phosphate Cytidylyltransferase analysis, Diterpenes, Female, Lung enzymology, Phospholipids analysis, Pregnancy, Pulmonary Surfactants analysis, Rats, Rats, Sprague-Dawley, Retinyl Esters, Vitamin A analogs & derivatives, Vitamin A analysis, Vitamin A blood, Lung embryology, Pregnancy Complications, Pregnancy, Animal, Vitamin A Deficiency embryology
Abstract

During late pregnancy, the fetal lung stores surfactant in preparation for extrauterine life. Surfactant deficiency, most often due to prematurity, precipitates respiratory distress syndrome (RDS) of the neonate. Although vitamin A (retinol) and retinoic acid have been shown to enhance the synthesis of phospholipid surfactant components, their effect on surfactant-specific proteins is unclear. No attempt has been made to evaluate the consequences of vitamin A restriction on surfactant phospholipid storage or on the expression of the life-essential surfactant protein-B (SP-B). We induced in rats a partial vitamin A deficiency leading to a 30-60% reduction in blood retinol, a status compatible with maintenance of gestation and absence of gross abnormalities in offspring. At term, lung surfactant phospholipids were reduced by 21%, and the major surfactant phospholipid, disaturated phosphatidylcholine (DSPC), was reduced by 27% in vitamin A-deficient (VAD) fetuses. The decrease in surfactant phospholipids and DSPC correlated linearly with plasma retinol, and reached about 50% in fetuses with the lowest retinol concentrations; it was accompanied by reduced expression of the gene for fatty acid synthase, a key enzyme in the synthetic pathway for surfactant-phospholipid lipid precursors. The amounts of SP-A, SP-B, and SP-C messenger RNAs were decreased by 46%, 32%, and 28%, respectively, in VAD fetuses. Consistently, amounts of SP-A and SP-B proteins were diminished as assessed by Western blotting. The proportion of type II cells determined after SP-B labeling was unchanged in VAD as compared with control lungs. Vitamin A deficiency is therefore a cause of lung maturational delay. In view of its rather large incidence in human populations, it may represent an increased risk for RDS and an aggravating factor for prematurity.

Published
1999
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40. Nephron number: variability is the rule. Causes and consequences.

Author

Merlet-Bénichou C, Gilbert T, Vilar J, Moreau E, Freund N, and Lelièvre-Pégorier M

Subjects
Animals, Birth Weight physiology, Drug-Related Side Effects and Adverse Reactions, Glomerulosclerosis, Focal Segmental physiopathology, Humans, Hypertension physiopathology, Nephrons drug effects, Vitamin A physiology, Nephrons physiopathology
Published
1999

41. Regulation of c-ret expression by retinoic acid in rat metanephros: implication in nephron mass control.

Author

Moreau E, Vilar J, Lelièvre-Pégorier M, Merlet-Bénichou C, and Gilbert T

Subjects
Amino Acid Sequence genetics, Animals, Base Sequence genetics, Dose-Response Relationship, Drug, Embryonic and Fetal Development physiology, Fetus physiology, Glial Cell Line-Derived Neurotrophic Factor, Glial Cell Line-Derived Neurotrophic Factor Receptors, Molecular Sequence Data, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Organ Culture Techniques, Proto-Oncogene Proteins genetics, Proto-Oncogene Proteins c-ret, RNA, Messenger metabolism, Rats, Rats, Sprague-Dawley, Receptor Protein-Tyrosine Kinases genetics, Tretinoin pharmacology, Drosophila Proteins, Fetus metabolism, Kidney embryology, Nerve Growth Factors, Proto-Oncogene Proteins metabolism, Receptor Protein-Tyrosine Kinases metabolism, Tretinoin physiology
Abstract

Vitamin A and its derivatives have been shown to promote kidney development in vitro in a dose-dependent fashion. To address the molecular mechanisms by which all-trans-retinoic acid (RA) may regulate the nephron mass, rat kidneys were removed on embryonic day 14 (E14) and grown in organ culture under standard or RA-stimulated conditions. By using RT-PCR, we studied the expression of the glial cell line-derived neurotrophic factor (GDNF), its cell surface receptor-alpha (GDNFR-alpha), and the receptor tyrosine kinase c-ret, known to play a major role in renal organogenesis. Expression of GDNF and GDNFR-alpha transcripts was high at the time of explantation and remained unaffected in culture with or without RA. In contrast, c-ret mRNA level, which was low in E14 metanephros and dropped rapidly in vitro, was increased by RA in a dose-dependent manner. The same is true at the protein level. Exogenous GDNF barely promotes additional nephron formation in vitro. Thus the present data establish c-ret as a key target of retinoids during kidney organogenesis.

Published
1998
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42. Intrauterine growth retardation leads to a permanent nephron deficit in the rat.

Author

Merlet-Bénichou C, Gilbert T, Muffat-Joly M, Lelièvre-Pégorier M, and Leroy B

Subjects
Animals, Disease Models, Animal, Female, Fetal Growth Retardation embryology, Fetal Growth Retardation physiopathology, Hypertrophy, Kidney Function Tests, Male, Nephrons pathology, Organ Size, Rats, Rats, Sprague-Dawley, Fetal Growth Retardation complications, Nephrons abnormalities
Abstract

Intrauterine growth retardation (IUGR) was induced in Sprague-Dawley rats by partial artery ligation of one uterine horn in the mother on day 17 of gestation or by feeding the mother a 5% protein diet from day 8 of gestation. The controls were pups of the contralateral uterine horn or pups born to mothers fed a normal (22%) protein diet. The number of nephrons present at birth and the final number of nephrons in 2-week-old rats were counted throughout the entire kidney. The number of nephrons present at birth and the final number of nephrons were significantly correlated with birth weight for growth-retarded rats of both groups and their corresponding controls (P < 0.02 for the poorest correlation). Clearance experiments and morphometric studies of 2-week-old rats born to mothers with uterine artery ligation indicated that, despite a large compensatory hypertrophy of the nephrons in those animals born with a nephron deficit of about 30%, the overall renal function was impaired. We conclude that IUGR is accompanied by a nephron deficit which may not be fully compensated for within the first weeks after birth.

Published
1994
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43. Effects of weaning on phosphate transport maturation in the rat kidney. Clearance and brush border membrane studies.

Author

Lelièvre-Pégorier M and Merlet-Bénichou C

Subjects
Animals, Biological Transport, Active, Corticosterone blood, Female, Glucose metabolism, Kidney ultrastructure, Microvilli ultrastructure, Parathyroid Hormone blood, Phosphorus Radioisotopes, Pregnancy, Rats, Triiodothyronine blood, Kidney growth & development, Kidney metabolism, Microvilli metabolism, Phosphates metabolism, Weaning
Abstract

Renal phosphate transport matures via an increase in the carrier affinity for phosphate during the 3rd post-natal week in the rat. This study examines whether weaning, which normally takes place during this period, plays a role in phosphate transport maturation. Early weaning (EW) and prevention of weaning (PW) both increased the fractional excretion of phosphate (EW 26.5 +/- 4.9, PW 26.7 +/- 2.2, controls 11.3 +/- 2.8, P < 0.001 and P < 0.05, n = 6 in each group). EW and PW also decreased the uptake of phosphate into brush border membrane vesicles (BBMV) isolated from the renal cortex of 21-day-old rats. Glucose transport in BBMV was not affected. The kinetics of phosphate uptake, measured in the presence of a sodium gradient, showed lower Vmax (4,112 +/- 362 pmol/mg protein per 10 s) in EW BBMV than in controls (6,030 +/- 200, n = 5, P < 0.001), but the affinity of the carrier for phosphate (1/Km) did not change. The decrease in Vmax may be due to the enhanced phosphate supply. The affinity of the carrier was lower in PW rats (Km = 0.31 +/- 0.04 mM) than in controls (0.18 +/- 0.04, n = 5, P < 0.01) but the Vmax remained unchanged. The low affinity may indicate that normal maturation of tubular transport, in which carrier affinity increases, is altered. The plasma concentrations of corticosterone, parathyroid hormone, insulin and triiodothyronine and their changes during EW and PW are also reported.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1993
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