Your search keyword '"Hureaux, Marguerite"' showing total 23 results

1. Prevalence of kidney failure in adults diagnosed with hereditary tubulopathies

Author

Betton, Maureen, Blanchard, Anne, Houillier, Pascal, Vargas-Poussou, Rosa, and Hureaux, Marguerite

Published

2024

2. Genome-wide analysis identifies MYH11 compound heterozygous variants leading to visceral myopathy corresponding to late-onset form of megacystis-microcolon-intestinal hypoperistalsis syndrome

Author

Billon, Clarisse, Piccoli, Giorgina Barbara, de Sainte Agathe, Jean-Madeleine, Stoeva, Radka, Derive, Nicolas, Heidet, Laurence, Berrebi, Dominique, Bruneval, Patrick, Jeunemaitre, Xavier, and Hureaux, Marguerite

Published

2024

3. Relationship between clinical phenotype and in vitro analysis of 13 NPT2c/SCL34A3 mutants

Author

Brazier, François, Courbebaisse, Marie, David, Amandine, Bergerat, David, Leroy, Christine, Lindner, Marta, Maruani, Gérard, Saint Jacques, Camille, Letavernier, Emmanuel, Hureaux, Marguerite, Vargas-Poussou, Rosa, and Prié, Dominique

Published

2023

4. X-linked transient antenatal Bartter syndrome related to MAGED2 gene: Enriching the phenotypic description and pathophysiologic investigation

Author

Buffet, Alexandre, Filser, Mathilde, Bruel, Alexandra, Dard, Rodolphe, Quibel, Thibaud, Dubucs, Charlotte, Kwon, Theresa, Le Tanno, Pauline, Thevenon, Julien, Ziegler, Alban, Allard, Lise, Guigonis, Vincent, Roux, Jean-Jacques, Heidet, Laurence, Rougeulle, Claire, Boyer, Olivia, Vargas-Poussou, Rosa, and Hureaux, Marguerite

Published

2024

5. Clinical Findings and Genetic Analysis of Nine Mexican Families with Bartter Syndrome

Author

Hernández, Norma E. Guerra, Pérez, Laura I. Escobar, Aguilera, Dora, Camargo-Muñiz, María Dolores, Espinosa, Cinthya Fabiola Ceceña, Jaramillo, María de la Cruz Ruiz, Salvador, Carolina, González, Zinaeli López, Hureaux, Marguerite, and Vargas-Poussou, Rosa

Published

2023

6. New advances in endocrine hypertension: from genes to biomarkers

Author

Fernandes-Rosa, Fabio L., Boulkroun, Sheerazed, Fedlaoui, Bakhta, Hureaux, Marguerite, Travers-Allard, Simon, Drossart, Tom, Favier, Judith, and Zennaro, Maria-Christina

Published

2023

7. Prevalence of Hyperkalemia and Familial Hyperkalemic Hypertension in 5100 Patients Referred to a Tertiary Hypertension Unit.

Author

Tetti, Martina, Burrello, Jacopo, Hureaux, Marguerite, Billon, Clarisse, Clauser, Eric, Veglio, Franco, Rabbia, Franco, Pasini, Barbara, Crisetti, Annalisa, Jeunemaitre, Xavier, Mulatero, Paolo, and Monticone, Silvia

Abstract

BACKGROUND: Hyperkalemia is a frequent electrolyte alteration whose prevalence varies widely, depending on the adopted cutoff, the setting (inpatients versus outpatients), and the characteristics of the study population. Familial hyperkalemic hypertension (FHH) is a rare cause of hypertension, hyperkalemia, and hyperchloremic metabolic acidosis. METHODS: In this retrospective observational study, we investigated the prevalence of hyperkalemia (serum K+ >5.2 mmol/L on 2 repeated measurements) in 5100 referred patients affected by arterial hypertension, the potential causes, and the associated cardiovascular risk profile. RESULTS: Overall, 374 (7.3%) patients had hyperkalemia. This was associated with drugs known to increase K+ levels (74.6%), chronic kidney disease (33.7%), or both (24.3%). Among the 60 patients with unexplained hyperkalemia, 3 displayed a clinical and biochemical phenotype suggestive of FHH that was genetically confirmed in 2 of them (0.04% in the entire cohort). FHH prevalence rose to 3.3% in patients with unexplained hyperkalemia and up to 29% (2/7) if they had serum K+ >5.8 mmol/L. The genetic cause of FHH was a missense variant affecting the acidic motif of WNK1 in 1 family and a rare CUL3 splicing variant, whose functional significance was confirmed by a minigene assay, in another. Finally, we observed a significant association between hyperkalemia and the occurrence of cardiovascular events, metabolic syndrome, and organ damage, independent of potential confounding factors. CONCLUSIONS: The identification of hyperkalemia in patients with hypertension has prognostic implications. A timely diagnosis of FHH is important for effective management of hypertension, electrolyte imbalance correction with tailored treatment, and genetic counseling. [ABSTRACT FROM AUTHOR]

Published

2024

8. The variety of genetic defects explains the phenotypic heterogeneity of Familial Hyperkalemic Hypertension

Author

Hureaux, Marguerite, Mazurkiewicz, Stephani, Boccio, Valerie, Vargas-Poussou, Rosa, and Jeunemaitre, Xavier

Published

2021

9. Mutation affecting the conserved acidic WNK1 motif causes inherited hyperkalemic hyperchloremic acidosis

Author

Louis-Dit-Picard, Helene, Kouranti, Ilektra, Rafael, Chloe, Loisel-Ferreira, Irmine, Chavez-Canales, Maria, Abdel-Khalek, Waed, Argaiz, Eduardo R., Baron, Stephanie, Vacle, Sarah, Migeon, Tiffany, Coleman, Richard, Do Cruzeiro, Marcio, Hureaux, Marguerite, Thurairajasingam, Nirubiah, Decramer, Stephane, Girerd, Xavier, O'Shaugnessy, Kevin, Mulatero, Paolo, Roussey, Gwenaelle, Tack, Ivan, Unwin, Robert, Vargas-Poussou, Rosa, Staub, Olivier, Grimm, Richard, Welling, Paul A., Gamba, Gerardo, Clauser, Eric, Hadchouel, Juliette, and Jeunemaitre, Xavier

Subjects

Gene mutations -- Health aspects, Protein kinases -- Genetic aspects -- Health aspects, Kidney tubules -- Physiological aspects -- Health aspects, Acidosis -- Genetic aspects -- Causes of -- Models, Health care industry

Abstract

Gain-of-function mutations in with no lysine (K)1 (WNK1) and WNK4genes are responsible for familial hyperkalemic hypertension (FHHt), a rare, inherited disorder characterized by arterial hypertension and hyperkalemia with metabolic acidosis. More recently, FHHt-causing mutations in the Kelch-like 3-Cullin 3 (KLHL3-CUL3) E3 ubiquitin ligase complex have shed light on the importance of WNK's cellular degradation on renal ion transport. Using full exome sequencing for a 4-generation family and then targeted sequencing in other suspected cases, we have identified new missense variants in the WNK1 gene clustering in the short conserved acidic motif known to interact with the KLHL3-CUL3 ubiquitin complex. Affected subjects had an early onset of a hyperkalemic hyperchloremic phenotype, but normal blood pressure values' Functional experiments in Xenopus laevis oocytes and HEK293T cells demonstrated that these mutations strongly decrease the ubiquitination of the kidney-specific isoform KS-WNK1 by the KLHL3-CUL3 complex rather than the long ubiquitous catalytically active L-WNK1 isoform. A corresponding CRISPR/Cas9 engineered mouse model recapitulated both the clinical and biological phenotypes. Renal investigations showed increased activation of the Ste20 proline alanine-rich kinase-[Na.sup.+]-[Cl.sup.-] cotransporter (SPAK-NCC) phosphorylation cascade, associated with impaired ROMK apical expression in the distal part of the renal tubule. Together, these new WNK1 genetic variants highlight the importance of the KS-WNK1 isoform abundance on potassium homeostasis., Introduction Familial hyperkalemic hypertension (FHHt), also known as Gordon syndrome and pseudohypoaldosteronism type 2, is a rare disease associated with net positive [Na.sup.+] balance and renal [K.sup.+] retention resulting in [...]

Published

2020

10. When a maternal heterozygous mutation of the CYP24A1 gene leads to infantile hypercalcemia through a maternal uniparental disomy of chromosome 20

Author

Hureaux, Marguerite, Chantot-Bastaraud, Sandra, Cassinari, Kévin, Martinez Casado, Edouard, Cuny, Ariane, Frébourg, Thierry, Vargas-Poussou, Rosa, and Bréhin, Anne-Claire

Published

2021

11. Prenatal hyperechogenic kidneys in three cases of infantile hypercalcemia associated with SLC34A1 mutations

Author

Hureaux, Marguerite, Molin, Arnaud, Jay, Nadine, Saliou, Anne Hélène, Spaggiari, Emmanuel, Salomon, Rémi, and Benachi, Alexandra

Subjects

Hypercalcemia -- Complications and side effects -- Genetic aspects -- Research, Gene mutation -- Physiological aspects -- Research, Kidney diseases -- Risk factors -- Genetic aspects -- Research, Health

Abstract

Background Prenatal diagnosis of hyperechogenic kidneys is associated with a wide range of etiologies and prognoses. The recent advances in fetal ultrasound associated with the development of next-generation sequencing for molecular analysis have enlarged the spectrum of etiologies, making antenatal diagnosis a very challenging discipline. Of the various known causes of hyperechogenic fetal kidneys, calcium and phosphate metabolism disorders represent a rare cause. An accurate diagnosis is crucial for providing appropriate genetic counseling and medical follow-up after birth. Methods We report on three cases of fetal hyperechogenic kidneys corresponding to postnatal diagnosis of nephrocalcinosis. In all cases, antenatal ultrasound showed hyperechogenic kidneys of normal to large size from 22 gestational weeks, with a normal amount of amniotic fluid. Postnatal ultrasound follow-up showed nephrocalcinosis associated with hypercalcemia, hypercalciuria, elevated 1,25(OH).sub.2-vitamin D, and suppressed parathyroid hormone levels. Results Molecular genetic analysis by next-generation sequencing performed after birth in the three newborns revealed biallelic pathogenic variants in the SLC34A1 gene, encoding the sodium/phosphate cotransporter type 2 (Npt2a), confirming the diagnosis of infantile hypercalcemia. Conclusions Nephrocalcinosis due to infantile hypercalcemia can be a cause of fetal hyperechogenic kidneys, which suggests early antenatal anomaly of calcium and phosphate metabolism. This entity should be considered in differential diagnosis. Postnatal follow-up of infants with hyperechogenic kidneys should include evaluation of calcium and phosphate metabolism., Author(s): Marguerite Hureaux [sup.1] [sup.2] [sup.3] , Arnaud Molin [sup.4] [sup.5] [sup.6] , Nadine Jay [sup.7] , Anne Hélène Saliou [sup.8] , Emmanuel Spaggiari [sup.9] , Rémi Salomon [sup.2] [sup.3] [...]

Published

2018

12. Mechanisms of paracellular transport of magnesium in intestinal and renal epithelia.

Author

Houillier, Pascal, Lievre, Loïc, Hureaux, Marguerite, and Prot‐Bertoye, Caroline

Subjects

MAGNESIUM, KIDNEY tubules, EPITHELIUM, PROXIMAL kidney tubules, TIGHT junctions, INTESTINAL absorption

Abstract

Magnesium is the fourth most abundant cation in the body. It plays a critical role in many biological processes, including the process of energy release. Paracellular transport of magnesium is mandatory for magnesium homeostasis. In addition to intestinal absorption that occurs in part across the paracellular pathway, magnesium is reabsorbed by the kidney tubule. The bulk of magnesium is reabsorbed through the paracellular pathway in the proximal tubule and the thick ascending limb of the loop of Henle. The finding that rare genetic diseases due to pathogenic variants in genes encoding specific claudins (CLDNs), proteins located at the tight junction that determine the selectivity and the permeability of the paracellular pathway, led to an awareness of their importance in magnesium homeostasis. Familial hypomagnesemia with hypercalciuria and nephrocalcinosis is caused by a loss of function of CLDN16 or CLDN19. Pathogenic CLDN10 variants cause HELIX syndrome, which is associated with a severe renal loss of sodium chloride and hypermagnesemia. The present review summarizes the current knowledge of the mechanisms and factors involved in paracellular magnesium permeability. The review also highlights some of the unresolved questions that need to be addressed. [ABSTRACT FROM AUTHOR]

Published

2023

13. Possible role for rare TRPM7 variants in patients with hypomagnesaemia with secondary hypocalcaemia.

Author

Vargas-Poussou, Rosa, Claverie-Martin, Felix, Prot-Bertoye, Caroline, Carotti, Valentina, van der Wijst, Jenny, Perdomo-Ramirez, Ana, Fraga-Rodriguez, Gloria M, Hureaux, Marguerite, Bos, Caro, Latta, Femke, Houillier, Pascal, Hoenderop, Joost G J, and Baaij, Jeroen H F de

Subjects

HYPOMAGNESEMIA, HYPOCALCEMIA, GENETIC variation, MISSENSE mutation, MESSENGER RNA, MUSCLE cramps

Abstract

Background Hypomagnesaemia with secondary hypocal-caemia (HSH) is a rare autosomal recessive disorder caused by pathogenic variants in TRPM6 , encoding the channel-kinase transient receptor potential melastatin type 6. Patients have very low serum magnesium (Mg2+) levels and suffer from muscle cramps and seizures. Despite genetic testing, a subgroup of HSH patients remains without a diagnosis. Methods In this study, two families with an HSH phenotype but negative for TRPM6 pathogenic variants were subjected to whole exome sequencing. Using a complementary combination of biochemical and functional analyses in overexpression systems and patient-derived fibroblasts, the effect of the TRPM7 -identified variants on Mg2+ transport was examined. Results For the first time, variants in TRPM7 were identified in two families as a potential cause for hereditary HSH. Patients suffer from seizures and muscle cramps due to magnesium deficiency and episodes of hypocalcaemia. In the first family, a splice site variant caused the incorporation of intron 1 sequences into the TRPM7 messenger RNA and generated a premature stop codon. As a consequence, patient-derived fibroblasts exhibit decreased cell growth. In the second family, a heterozygous missense variant in the pore domain resulted in decreased TRPM7 channel activity. Conclusions We establish TRPM7 as a prime candidate gene for autosomal dominant hypomagnesaemia and secondary hypocalcaemia. Screening of unresolved patients with hypocalcaemia and secondary hypocalcaemia may further establish TRPM7 pathogenic variants as a novel Mendelian disorder. [ABSTRACT FROM AUTHOR]

Published

2023

14. Les grandes avancées en néphro-génétique pédiatrique.

Author

Hureaux, Marguerite, Heidet, Laurence, Vargas-Poussou, Rosa, and Dorval, Guillaume

Published

2023

15. Prenatal bone abnormalities in three cases of familial hypocalciuric hypercalcemia.

Author

Frerot, Alice, Baudouin, Véronique, Rideau‐Batista, Aline, Couderc, Anne, Garel, Catherine, Soltane, Samia, Colella, Marina, Vargas‐Poussou, Rosa, and Hureaux, Marguerite

Abstract

Introduction: Prenatal diagnosis of bone and mineralization anomalies is associated with a wide range of etiologies and prognoses. The improvement of antenatal ultrasound combined with the development of molecular diagnosis in genetics has transformed antenatal medicine into a challenging discipline. Of the various known causes of bone abnormalities and hypomineralization, calcium and phosphate metabolism disorders are exceptional. An accurate diagnosis is crucial for providing appropriate genetic counseling and medical follow‐up after birth. Case: We report on three siblings with severe bone abnormalities diagnosed during the second trimester ultrasound of pregnancy. Postnatal follow‐up showed transitory hyperparathyroidism, with hypercalcemia and hypocalciuria. Methods: Sanger sequencing performed after birth in the three newborns revealed a monoallelic pathogenic variant in the CASR gene, encoding the calcium sensing receptor, confirming the diagnosis of familial hypocalciuric hypercalcemia, paternally inherited. Postnatal evolution was favorable after treatment with a calcimimetic agent. Conclusions: Previously, prenatal bone abnormalities caused by familial hypocalciuric hypercalcemia had only been described in one patient. This entity should be considered as differential diagnosis of bones abnormalities. Knowing about this unusual etiology is important to guide the diagnosis, the prenatal counseling and to improve medical management. Highlights: What is already know? Familial hypocalciuric hypercalcemia type 1 (FHH1) is a genetic disorder, caused mainly by heterozygous mutations in the CASR gene. It associates hypercalcemia, normal PTH value, and normo‐ or hypocalciuria. Some children may present with bone abnormalities and early hyperparathyroidism, resolving gradually. What does this study add? This article presents three cases of prenatal bone abnormalities due to postnatally genetically confirmed FHH that resolved within the first years of life. This condition should be considered as a differential diagnosis in antenatal bone abnormalities. [ABSTRACT FROM AUTHOR]

Published

2022

16. Diversity of functional alterations of the ClC‐5 exchanger in the region of the proton glutamate in patients with Dent disease 1.

Author

Sakhi, Imène, Bignon, Yohan, Frachon, Nadia, Hureaux, Marguerite, Arévalo, Bárbara, González, Wendy, Vargas‐Poussou, Rosa, and Lourdel, Stéphane

Abstract

Mutations in the CLCN5 gene encoding the 2Cl−/1H+ exchanger ClC‐5 are associated with Dent disease 1, an inherited renal disorder characterized by low‐molecular‐weight (LMW) proteinuria and hypercalciuria. In the kidney, ClC‐5 is mostly localized in proximal tubule cells, where it is thought to play a key role in the endocytosis of LMW proteins. Here, we investigated the consequences of eight previously reported pathogenic missense mutations of ClC‐5 surrounding the "proton glutamate" that serves as a crucial H+‐binding site for the exchanger. A complete loss of function was observed for a group of mutants that were either retained in the endoplasmic reticulum of HEK293T cells or unstainable at plasma membrane due to proteasomal degradation. In contrast, the currents measured for the second group of mutations in Xenopus laevis oocytes were reduced. Molecular dynamics simulations performed on a ClC‐5 homology model demonstrated that such mutations might alter ClC‐5 protonation by interfering with the water pathway. Analysis of clinical data from patients harboring these mutations demonstrated no phenotype/genotype correlation. This study reveals that mutations clustered in a crucial region of ClC‐5 have diverse molecular consequences in patients with Dent disease 1, ranging from altered expression to defects in transport. [ABSTRACT FROM AUTHOR]

Published

2021

17. A Rare Cause of Chronic Hypokalemia with Metabolic Alkalosis: Case Report and Differential Diagnosis.

Author

Bertulli, Cristina, Hureaux, Marguerite, De Mutiis, Chiara, Pasini, Andrea, Bockenhauer, Detlef, Vargas-Poussou, Rosa, and La Scola, Claudio

Subjects

HYPOKALEMIA, METABOLIC alkalosis, DIFFERENTIAL diagnosis, GENETIC mutation, DEHYDROGENASES

Abstract

Hypokalemia and metabolic alkalosis can be present in different rare diseases, and the differential diagnosis of these forms is challenging. Apparent mineralcorticoid (AME) excess syndrome is one of these conditions. Characterized by increased blood pressure due to excessive sodium retention and plasma volume, it is caused by a mutation in the HSD11B2 gene encoding the oxydoreductase enzyme 11-hydroxysteroide dehydrogenase type 2. We report the case of a child presenting with failure to thrive associated with early detection of hypokalemia, metabolic alkalosis, nephrocalcinosis and hypertension in which AME syndrome was detected. A novel mutation in the HSD11B2 gene was identified in this patient. In clinical pictures characterized by metabolic alkalosis and hypokalemia, the evaluation of renin, aldosterone and blood pressure is crucial for accurate diagnosis. AME syndrome is a rare disorder that can be an insidious but lethal disease, if untreated. With clinical signs appearing during the first days of life. Early diagnosis is imperative in order to enable prompt and adequate treatment to improve the outcome of these patients. [ABSTRACT FROM AUTHOR]

Published

2020

18. Clinical characteristics of familial hypocalciuric hypercalcaemia type 1: A multicentre study of 77 adult patients.

Author

Mouly, Céline, Vargas‐Poussou, Rosa, Lienhardt, Anne, Silve, Caroline, Hureaux, Marguerite, Magdelaine, Corinne, Buffet, Alexandre, Grunenwald, Solange, Kuhn, Jean-Marc, Brue, Thierry, Reznik, Yves, Tabarin, Antoine, Martin‐Coignard, Dominique, Haymann, Jean‐Philippe, Tack, Ivan, Bennet, Antoine, Caron, Philippe, Linglart, Agnès, and Vezzosi, Delphine

Subjects

DUAL-energy X-ray absorptiometry, CALCIUM-sensing receptors, OSTEOPOROSIS, RENAL colic, HUMAN chromosome abnormality diagnosis, KIDNEY stones

Abstract

Objective: Familial hypocalciuric hypercalcaemia type 1 (FHH1), related to heterozygous loss‐of‐function mutations of the calcium‐sensing receptor gene, is the main differential diagnosis for primary hyperparathyroidism. The aim of our study was to describe clinical characteristics of adult patients living in France with a genetically confirmed FHH1. Design and patients: This observational, retrospective, multicentre study included 77 adults, followed up in 32 clinical departments in France, with a genetic FHH1 diagnosis between 2001 and 2012. Results: Hypercalcaemia was diagnosed at a median age of 53 years [IQR: 38‐61]. The diagnosis was made after clinical manifestations, routine analysis or familial screening in 56, 34 and 10% of cases, respectively, (n = 58; data not available for 19 patients). Chondrocalcinosis was present in 11/51 patients (22%), bone fractures in 8/56 (14%) and renal colic in 6/55 (11%). The median serum calcium was 2.74 mmol/L [IQR: 2.63‐2.86 mmol/L], the median plasma parathyroid hormone level was 4.9 pmol/L [3.1‐7.1], and the median 24‐hour urinary calcium excretion was 2.8 mmol/24 hours [IQR: 1.9‐4.0]. Osteoporosis (dual X‐ray absorptiometry) or kidney stones (renal ultrasonography) were found in 6/38 patients (16%) and 9/32 patients (28%), respectively. Fourteen patients (18%) underwent parathyroid surgery; parathyroid adenoma was found in three patients (21%) and parathyroid hyperplasia in nine patients (64%). No correlation between genotype and phenotype was established. Conclusion: This large cohort study demonstrates that FHH1 clinical characteristics can be atypical in 33 patients (43%). Clinicians should be aware of this rare differential diagnosis in order to adopt an appropriate treatment strategy. [ABSTRACT FROM AUTHOR]

Published

2020

19. SOX3 duplication: A genetic cause to investigate in fetuses with neural tube defects.

Author

Hureaux, Marguerite, Ben Miled, Selima, Chatron, Nicolas, Coussement, Aurelie, Bessières, Bettina, Egloff, Matthieu, Mechler, Charlotte, Stirnemann, Julien, Tsatsaris, Vassilis, Barcia, Giulia, Turleau, Catherine, Ville, Yves, Encha‐Razavi, Ferechte, Attie‐Bitach, Tania, Malan, Valérie, Encha-Razavi, Ferechte, and Attie-Bitach, Tania

Abstract

Objective: Neural tube defects (NTDs) are one of the most common congenital anomalies caused by a complex interaction of many genetic and environmental factors. In about 10% of cases, NTDs are associated with genetic syndromes or chromosomal anomalies. Among these, SOX3 duplication has been reported in some isolated cases. The phenotype associated with this microduplication is variable and includes myelomeningocele (MMC) in both sexes as well as hypopituitarism and cognitive impairment in males. In order to determine the prevalence of this anomaly in fetuses with MMC, a retrospective cohort of fetuses with MMC was analyzed by quantitative PCR (qPCR) targeting SOX3 locus.Methods: The detection of an SOX3 microduplication by chromosomal microarray analysis (CMA) in two female fetuses with MMC prompted us to analyze retrospectively by qPCR this gene in a cohort of 53 fetuses with MMC.Results: In addition to our two initial cases, one fetus harboring an Xq27.1q28 duplication that encompasses the SOX3 gene was detected.Conclusion: Our data demonstrate that SOX3 duplication is a genomic imbalance involved in the pathogenesis of NTDs. In addition, our survey highlights the importance of CMA testing in fetuses with NTDs to enable genetic counseling upstream of any considerations of in utero fetal surgery. [ABSTRACT FROM AUTHOR]

Published

2019

20. Chromosomal microarray analysis in fetuses with an isolated congenital heart defect: A retrospective, nationwide, multicenter study in France.

Author

Hureaux, Marguerite, Guterman, Sarah, Hervé, Bérénice, Till, Marianne, Jaillard, Sylvie, Redon, Sylvie, Valduga, Myléne, Coutton, Charles, Missirian, Chantal, Prieur, Fabienne, Simon‐Bouy, Brigitte, Beneteau, Claire, Kuentz, Paul, Rooryck, Caroline, Gruchy, Nicolas, Marle, Nathalie, Plutino, Morgane, Tosca, Lucie, Dupont, Celine, and Puechberty, Jacques

Abstract

Objectives: Congenital heart defects (CHDs) may be isolated or associated with other malformations. The use of chromosome microarray (CMA) can increase the genetic diagnostic yield for CHDs by between 4% and 10%. The objective of this study was to evaluate the value of CMA after the prenatal diagnosis of an isolated CHD.Methods: In a retrospective, nationwide study performed in France, we collected data on all cases of isolated CHD that had been explored using CMAs in 2015.Results: A total of 239 fetuses were included and 33 copy number variations (CNVs) were reported; 19 were considered to be pathogenic, six were variants of unknown significance, and eight were benign variants. The anomaly detection rate was 10.4% overall but ranged from 0% to 16.7% as a function of the isolated CHD in question. The known CNVs were 22q11.21 deletions (n = 10), 22q11.21 duplications (n = 2), 8p23 deletions (n = 2), an Alagille syndrome (n = 1), and a Kleefstra syndrome (n = 1).Conclusion: The additional diagnostic yield was clinically significant (3.1%), even when anomalies in the 22q11.21 region were not taken into account. Hence, patients with a suspected isolated CHD and a normal karyotype must be screened for chromosome anomalies other than 22q11.21 duplications and deletions. [ABSTRACT FROM AUTHOR]

Published

2019

21. Genetic basis of nephrogenic diabetes insipidus.

Author

Hureaux, Marguerite and Vargas-Poussou, Rosa

Subjects

*DIABETES insipidus, *SALT-free diet, *WATER restrictions, *SYMPTOMS, *DRINKING (Physiology), *X chromosome

Abstract

Nephrogenic diabetes insipidus is defined as an inability to concentrate urine due to a complete or partial alteration of the renal tubular response to arginine vasopressin hormone, resulting in excessive diluted urine excretion. Hereditary forms are caused by molecular defects in the genes encoding either of the two main renal effectors of the arginine vasopressin pathway: the AVPR2 gene, which encodes for the type 2 vasopressin receptor, or the AQP2 gene, which encodes for the water channel aquaporin-2. About 90% of cases of nephrogenic diabetes insipidus result from loss-of-function variants in the AVPR2 gene, which are inherited in a X-linked recessive manner. The remaining 10% of cases result from loss-of-function variants in the AQP2 gene, which can be inherited in either a recessive or a dominant manner. The main symptoms of the disease are polyuria, chronic dehydration and hypernatremia. These symptoms usually occur in the first year of life, although some patients present later. Diagnosis is based on abnormal response in urinary osmolality after water restriction and/or administration of exogenous vasopressin. Treatment involves ensuring adequate water intake on demand, possibly combined with thiazide diuretics, non-steroidal anti-inflammatory drugs, and a low-salt and protein diet. In this review, we provide an update on current understanding of the molecular basis of inherited nephrogenic insipidus diabetes. [ABSTRACT FROM AUTHOR]

Published

2023

22. Gitelman‐like syndrome caused by pathogenic variants in mitochondrial DNA.

Author

de Baaij, Jeroen H. F., Viering, Daan, Schlingmann, Karl P., Hureaux, Marguerite, Nijenhuis, Tom, Knoers, Nine V., Vargas Poussou, Rosa, and Bockenhauer, Detlef

Published

2022

23. Renin-aldosterone system evaluation over four decades in an extended family with autosomal dominant pseudohypoaldosteronism due to a deletion in the NR3C2 gene.

Author

Hanukoglu, Aaron, Vargas-Poussou, Rosa, Landau, Zohar, Yosovich, Keren, Hureaux, Marguerite, and Zennaro, Maria-Christina

Subjects

*EXTENDED families, *DELETION mutation, *MINERALOCORTICOID receptors, *GENETIC mutation, *GENETIC code

Abstract

• Renal pseudohypoaldosteronism was diagnosed in 15 members of an extended family spanning four generations. • The affected members had a deletion in the NR3C2 gene coding for the mineralocorticoid receptor. • Aldosterone levels remain elevated over four decades despite age-dependent decrease. • The diagnosis of the proband allowed early diagnosis with improved clinical outcome in other infants. Renal pseudohypoaldosteronism (PHA1) is a mild form of an aldosterone-resistance syndrome caused by mutations in the NR3C2 gene that codes for the mineralocorticoid receptor (MR). The disease is inherited as an autosomal dominant trait characterized by signs and symptoms of salt-losing in infancy. Disease manifestations could be severe in infancy but improve after the age of 1–3 years. Some affected members are asymptomatic and remain so life-long. In this study, we report the identification of a large deletion in the NR3C2 gene (c.1897+1_1898−1)_(c.*2955+?)del in renal PHA1 patients from an extended family spanning four generations. We prospectively evaluated the plasma renin activity and serum aldosterone profiles over four decades in symptomatic and asymptomatic affected family members. The benefits of early diagnosis on the clinical outcome were assessed as well. The long-term follow-up showed an age-dependent decrease in both plasma renin activity and serum aldosterone levels over the years. However, aldosterone levels remain high life-long. Thus, levels of aldosterone are a reliable marker to detect asymptomatic family members. The diagnosis of the proposita led to early diagnosis and therapy in other affected family members, significantly mitigating the clinical course. Despite the extremely elevated serum aldosterone levels during pregnancy, affected pregnant women did not experience any ill effects. However, this should be verified by observations in other adult patients. [ABSTRACT FROM AUTHOR]

Published

2020