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3. Comment to 'Recommendation on an updated standardization of serum magnesium reference ranges'

Author

Baaij, J.H.F. de, Bockenhauer, D., Claverie-Martin, F., Hoenderop, J.G.J., Hoorn, E.J., Houillier, P., Knoers, N.V.A.M., Konrad, M., Müller, D., Nijenhuis, T., Schlingmann, K.P., Vargas Poussou, R., and Internal Medicine

Subjects
Renal disorders Radboud Institute for Molecular Life Sciences [Radboudumc 11], Nutrition and Dietetics, Medicine (miscellaneous)
Abstract

Contains fulltext : 283448.pdf (Publisher’s version ) (Closed access)

Published
2022
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4. Magnesium at the Heart of Insulin Signaling in Diabetes Mellitus

Author

Hoenderop, J.G.J., Tack, C.J.J., Baaij, J.H.F. de, Oost, L.J., Hoenderop, J.G.J., Tack, C.J.J., Baaij, J.H.F. de, and Oost, L.J.

Abstract

Radboud University, 12 april 2023, Promotores : Hoenderop, J.G.J., Tack, C.J.J. Co-promotor : Baaij, J.H.F. de, Contains fulltext : 291362.pdf (Publisher’s version ) (Closed access)

Published
2023

5. Long-Read Sequencing Identifies Novel Pathogenic Intronic Variants in Gitelman Syndrome.

Author

Viering, D.H.H.M., Hureaux, M., Neveling, K., Latta, F., Kwint, M.P., Blanchard, A., Konrad, M., Bindels, R.J.M., Schlingmann, K.P., Vargas-Poussou, R., Baaij, J.H.F. de, Viering, D.H.H.M., Hureaux, M., Neveling, K., Latta, F., Kwint, M.P., Blanchard, A., Konrad, M., Bindels, R.J.M., Schlingmann, K.P., Vargas-Poussou, R., and Baaij, J.H.F. de

Abstract

Item does not contain fulltext, BACKGROUND: Gitelman syndrome is a salt-losing tubulopathy characterized by hypokalemic alkalosis and hypomagnesemia. It is caused by homozygous recessive or compound heterozygous pathogenic variants in SLC12A3 , which encodes the Na + -Cl - cotransporter (NCC). In up to 10% of patients with Gitelman syndrome, current genetic techniques detect only one specific pathogenic variant. This study aimed to identify a second pathogenic variant in introns, splice sites, or promoters to increase the diagnostic yield. METHODS: Long-read sequencing of SLC12A3 was performed in 67 DNA samples from individuals with suspected Gitelman syndrome in whom a single likely pathogenic or pathogenic variant was previously detected. In addition, we sequenced DNA samples from 28 individuals with one variant of uncertain significance or no candidate variant. Midigene splice assays assessed the pathogenicity of novel intronic variants. RESULTS: A second likely pathogenic/pathogenic variant was identified in 45 (67%) patients. Those with two likely pathogenic/pathogenic variants had a more severe electrolyte phenotype than other patients. Of the 45 patients, 16 had intronic variants outside of canonic splice sites (nine variants, mostly deep intronic, six novel), whereas 29 patients had an exonic variant or canonic splice site variant. Midigene splice assays of the previously known c.1670-191C>T variant and intronic candidate variants demonstrated aberrant splicing patterns. CONCLUSION: Intronic pathogenic variants explain an important part of the missing heritability in Gitelman syndrome. Long-read sequencing should be considered in diagnostic workflows for Gitelman syndrome.

Published
2023

6. Magnesium reabsorption in the kidney.

Author

Baaij, J.H.F. de and Baaij, J.H.F. de

Abstract

Item does not contain fulltext, Mg(2+) is essential for many cellular and physiological processes, including muscle contraction, neuronal activity, and metabolism. Consequently, the blood Mg(2+) concentration is tightly regulated by balanced intestinal Mg(2+) absorption, renal Mg(2+) excretion, and Mg(2+) storage in bone and soft tissues. In recent years, the development of novel transgenic animal models and identification of Mendelian disorders has advanced our current insight in the molecular mechanisms of Mg(2+) reabsorption in the kidney. In the proximal tubule, Mg(2+) reabsorption is dependent on paracellular permeability by claudin-2/12. In the thick ascending limb of Henle's loop, the claudin-16/19 complex provides a cation-selective pore for paracellular Mg(2+) reabsorption. The paracellular Mg(2+) reabsorption in this segment is regulated by the Ca(2+)-sensing receptor, parathyroid hormone, and mechanistic target of rapamycin (mTOR) signaling. In the distal convoluted tubule, the fine tuning of Mg(2+) reabsorption takes place by transcellular Mg(2+) reabsorption via transient receptor potential melastatin-like types 6 and 7 (TRPM6/TRPM7) divalent cation channels. Activity of TRPM6/TRPM7 is dependent on hormonal regulation, metabolic activity, and interacting proteins. Basolateral Mg(2+) extrusion is still poorly understood but is probably dependent on the Na(+) gradient. Cyclin M2 and SLC41A3 are the main candidates to act as Na(+)/Mg(2+) exchangers. Consequently, disturbances of basolateral Na(+)/K(+) transport indirectly result in impaired renal Mg(2+) reabsorption in the distal convoluted tubule. Altogether, this review aims to provide an overview of the molecular mechanisms of Mg(2+) reabsorption in the kidney, specifically focusing on transgenic mouse models and human hereditary diseases.

Published
2023

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

Author

Vargas-Poussou, R., Claverie-Martin, F., Prot-Bertoye, C., Carotti, V., Wijst, J.A.J. van der, Perdomo-Ramirez, A., Fraga-Rodriguez, G.M., Hureaux, M., Bos, C., Latta, F., Houillier, P., Hoenderop, J.G.J., Baaij, J.H.F. de, Vargas-Poussou, R., Claverie-Martin, F., Prot-Bertoye, C., Carotti, V., Wijst, J.A.J. van der, Perdomo-Ramirez, A., Fraga-Rodriguez, G.M., Hureaux, M., Bos, C., Latta, F., Houillier, P., Hoenderop, J.G.J., and Baaij, J.H.F. de

Abstract

Item does not contain fulltext, 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.

Published
2023

8. HNF1 beta-associated cyst development and electrolyte disturbances are not explained by BAIAP2L2 expression

Author

Tholen, L.E., Schigt, H., Kleuskens, Sanne G.E., Bos, C., Spruijt, C.G., Willemsen, B.K.T., Vermeulen, M., Hoenderop, J.G.J., Baaij, J.H.F. de, Tholen, L.E., Schigt, H., Kleuskens, Sanne G.E., Bos, C., Spruijt, C.G., Willemsen, B.K.T., Vermeulen, M., Hoenderop, J.G.J., and Baaij, J.H.F. de

Abstract

Contains fulltext : 287437.pdf (Publisher’s version ) (Open Access)

Published
2023

9. Hypomagnesemia and Cardiovascular Risk in Type 2 Diabetes.

Author

Oost, L.J., Tack, C.J., Baaij, J.H.F. de, Oost, L.J., Tack, C.J., and Baaij, J.H.F. de

Abstract

Contains fulltext : 292731.pdf (Publisher’s version ) (Open Access), Hypomagnesemia is 10-fold more common in individuals with type 2 diabetes (T2D) than in the healthy population. Factors that are involved in this high prevalence are low Mg2+ intake, gut microbiome composition, medication use, and presumably genetics. Hypomagnesemia is associated with insulin resistance, which subsequently increases the risk to develop T2D or deteriorates glycemic control in existing diabetes. Mg2+ supplementation decreases T2D-associated features like dyslipidemia and inflammation, which are important risk factors for cardiovascular disease (CVD). Epidemiological studies have shown an inverse association between serum Mg2+ and the risk of developing heart failure (HF), atrial fibrillation (AF), and microvascular disease in T2D. The potential protective effect of Mg2+ on HF and AF may be explained by reduced oxidative stress, fibrosis, and electrical remodeling in the heart. In microvascular disease, Mg2+ reduces the detrimental effects of hyperglycemia and improves endothelial dysfunction; however, clinical studies assessing the effect of long-term Mg2+ supplementation on CVD incidents are lacking, and gaps remain on how Mg2+ may reduce CVD risk in T2D. Despite the high prevalence of hypomagnesemia in people with T2D, routine screening of Mg2+ deficiency to provide Mg2+ supplementation when needed is not implemented in clinical care as sufficient clinical evidence is lacking. In conclusion, hypomagnesemia is common in people with T2D and is involved both as cause, probably through molecular mechanisms leading to insulin resistance, and as consequence and is prospectively associated with development of HF, AF, and microvascular complications. Whether long-term supplementation of Mg2+ is beneficial, however, remains to be determined.

Published
2023

10. Withdrawn as duplicate: Expanding the phenotypic spectrum of Kenny-Caffey syndrome: a case series and systematic literature review.

Author

Schigt, H., Bald, M., Eerden, B.C.J. van der, Gal, Lars, Ilenwabor, B.P., Konrad, M., Levine, M.A., Li, D., Mache, C.J., Mackin, S., Perry, C., Rios, F.J., Schlingmann, K.P., Storey, B., Trapp, C.M., Verkerk, A.J.M.H., Zillikens, M.C., Touyz, R.M., Hoorn, E.J., Hoenderop, J.G.J., Baaij, J.H.F. de, Schigt, H., Bald, M., Eerden, B.C.J. van der, Gal, Lars, Ilenwabor, B.P., Konrad, M., Levine, M.A., Li, D., Mache, C.J., Mackin, S., Perry, C., Rios, F.J., Schlingmann, K.P., Storey, B., Trapp, C.M., Verkerk, A.J.M.H., Zillikens, M.C., Touyz, R.M., Hoorn, E.J., Hoenderop, J.G.J., and Baaij, J.H.F. de

Abstract

Item does not contain fulltext, This article has been withdrawn due to a publisher error that caused it to be duplicated. The definitive version of this article is published under https://doi.org/10.1210/clinem/dgad147.

Published
2023

11. Gaining ground on Gitelman-genes. NCC and all his friends

Author

Bindels, R.J.M., Baaij, J.H.F. de, Deinum, J., Viering, D.H., Bindels, R.J.M., Baaij, J.H.F. de, Deinum, J., and Viering, D.H.

Abstract

Radboud University, 25 mei 2023, Promotor : Bindels, R.J.M. Co-promotores : Baaij, J.H.F. de, Deinum, J., Contains fulltext : 292281.pdf (Publisher’s version ) (Closed access)

Published
2023

13. mTOR signaling in renal ion transport.

Author

Adella, A., Baaij, J.H.F. de, Adella, A., and Baaij, J.H.F. de

Abstract

Item does not contain fulltext, The mammalian target of rapamycin (mTOR) signaling pathway is crucial in maintaining cell growth and metabolism. The mTOR protein kinase constitutes the catalytic subunit of two multimeric protein complexes called mTOR complex 1 (mTORC1) and mTOR complex 2 (mTORC2). As such, this pathway is indispensable for many organs, including the kidney. Since its discovery, mTOR has been associated with major renal disorders such as acute kidney injury, chronic kidney disease, and polycystic kidney disease. On top of that, emerging studies using pharmacological interventions and genetic disease models have unveiled mTOR role in renal tubular ion handling. Along the tubule, mTORC1 and mTORC2 subunits are ubiquitously expressed at mRNA level. Nevertheless, at the protein level, current studies suggest that a tubular segment-specific balance between mTORC1 and mTORC2 exists. In the proximal tubule, mTORC1 regulates nutrients transports through various transporters located in this segment. On the other hand, in the thick ascending limb of the loop of Henle, both complexes play a role in regulating NKCC2 expression and activity. Lastly, in the principal cells of the collecting duct, mTORC2 determines Na(+) reabsorption and K(+) excretion by regulating of SGK1 activation. Altogether, these studies establish the relevance of the mTOR signaling pathway in the pathophysiology of tubular solute transport. Despite extensive studies on the effectors of mTOR, the upstream activators of mTOR signaling remain elusive in most nephron segments. Further understanding of the role of growth factor signaling and nutrient sensing is essential to establish the exact role of mTOR in kidney physiology.

Published
2023

14. Expanding the Phenotypic Spectrum of Kenny-Caffey Syndrome.

Author

Schigt, H., Bald, M., Eerden, B.C.J. van der, Gal, Lars, Ilenwabor, B.P., Konrad, M., Levine, M.A., Li, D., Mache, C.J., Mackin, S., Perry, C., Rios, F.J., Schlingmann, K.P., Storey, B., Trapp, C.M., Verkerk, A.J.M.H., Zillikens, M.C., Touyz, R.M., Hoorn, E.J., Hoenderop, J.G.J., Baaij, J.H.F. de, Schigt, H., Bald, M., Eerden, B.C.J. van der, Gal, Lars, Ilenwabor, B.P., Konrad, M., Levine, M.A., Li, D., Mache, C.J., Mackin, S., Perry, C., Rios, F.J., Schlingmann, K.P., Storey, B., Trapp, C.M., Verkerk, A.J.M.H., Zillikens, M.C., Touyz, R.M., Hoorn, E.J., Hoenderop, J.G.J., and Baaij, J.H.F. de

Abstract

Contains fulltext : 295983.pdf (Publisher’s version ) (Open Access), CONTEXT: Kenny-Caffey syndrome (KCS) is a rare hereditary disorder characterized by short stature, hypoparathyroidism, and electrolyte disturbances. KCS1 and KCS2 are caused by pathogenic variants in TBCE and FAM111A, respectively. Clinically the phenotypes are difficult to distinguish. OBJECTIVE: The objective was to determine and expand the phenotypic spectrum of KCS1 and KCS2 in order to anticipate complications that may arise in these disorders. METHODS: We clinically and genetically analyzed 10 KCS2 patients from 7 families. Because we found unusual phenotypes in our cohort, we performed a systematic review of genetically confirmed KCS cases using PubMed and Scopus. Evaluation by 3 researchers led to the inclusion of 26 papers for KCS1 and 16 for KCS2, totaling 205 patients. Data were extracted following the Cochrane guidelines and assessed by 2 independent researchers. RESULTS: Several patients in our KCS2 cohort presented with intellectual disability (3/10) and chronic kidney disease (6/10), which are not considered common findings in KCS2. Systematic review of all reported KCS cases showed that the phenotypes of KCS1 and KCS2 overlap for postnatal growth retardation (KCS1: 52/52, KCS2: 23/23), low parathyroid hormone levels (121/121, 16/20), electrolyte disturbances (139/139, 24/27), dental abnormalities (47/50, 15/16), ocular abnormalities (57/60, 22/23), and seizures/spasms (103/115, 13/16). Symptoms more prevalent in KCS1 included intellectual disability (74/80, 5/24), whereas in KCS2 bone cortical thickening (1/18, 16/20) and medullary stenosis (7/46, 27/28) were more common. CONCLUSION: Our case series established chronic kidney disease as a new feature of KCS2. In the literature, we found substantial overlap in the phenotypic spectra of KCS1 and KCS2, but identified intellectual disability and the abnormal bone phenotype as the most distinguishing features.

Published
2023

15. Clearing up calciprotein particles in chronic kidney disease

Author

Hoenderop, J.G.J., Baaij, J.H.F. de, Zeper, L.W., Hoenderop, J.G.J., Baaij, J.H.F. de, and Zeper, L.W.

Abstract

Radboud University, 31 augustus 2023, Promotor : Hoenderop, J.G.J. Co-promotor : Baaij, J.H.F. de, Contains fulltext : 294847.pdf (Publisher’s version ) (Closed access)

Published
2023

16. Electrolyte Disorders in Mitochondrial Cytopathies: A Systematic Review.

Author

Viering, D.H., Vermeltfoort, L., Bindels, R.J.M., Deinum, J., Baaij, J.H.F. de, Viering, D.H., Vermeltfoort, L., Bindels, R.J.M., Deinum, J., and Baaij, J.H.F. de

Abstract

Item does not contain fulltext, SIGNIFICANCE STATEMENT: Several recent studies identified mitochondrial mutations in patients with Gitelman or Fanconi syndrome. Mitochondrial cytopathies are generally not considered in the diagnostic workup of patients with electrolyte disorders. In this systematic review, we investigated the presence of electrolyte disorders in patients with mitochondrial cytopathies to determine the relevance of mitochondrial mutation screening in this population. Our analysis demonstrates that electrolyte disorders are commonly reported in mitochondrial cytopathies, often as presenting symptoms. Consequently, more clinical attention should be raised for mitochondrial disease as cause for disturbances in electrolyte homeostasis. Further prospective cohort studies are required to determine the exact prevalence of electrolyte disorders in mitochondrial cytopathies. BACKGROUND: Electrolyte reabsorption in the kidney has a high energy demand. Proximal and distal tubular epithelial cells have a high mitochondrial density for energy release. Recently, electrolyte disorders have been reported as the primary presentation of some mitochondrial cytopathies. However, the prevalence and the pathophysiology of electrolyte disturbances in mitochondrial disease are unknown. Therefore, we systematically investigated electrolyte disorders in patients with mitochondrial cytopathies. METHODS: We searched PubMed, Embase, and Google Scholar for articles on genetically confirmed mitochondrial disease in patients for whom at least one electrolyte is reported. Patients with a known second genetic anomaly were excluded. We evaluated 214 case series and reports (362 patients) as well as nine observational studies. Joanna Briggs Institute criteria were used to evaluate the quality of included studies. RESULTS: Of 362 reported patients, 289 had an electrolyte disorder, with it being the presenting or main symptom in 38 patients. The average number of different electrolyte abnormalities per patient ranged f

Published
2023

17. Cleft palate and minor metabolic disturbances in a mouse global Arl15 gene knockout.

Author

Bai, Y., Bentley, L., Ma, C., Naveenan, N., Cleak, J., Wu, Y., Simon, M.M., Westerberg, H., Cañas, R.C., Horner, N., Pandey, R., Paphiti, K., Schulze, U., Mianné, J., Hough, T., Teboul, L., Baaij, J.H.F. de, Cox, R.D., Bai, Y., Bentley, L., Ma, C., Naveenan, N., Cleak, J., Wu, Y., Simon, M.M., Westerberg, H., Cañas, R.C., Horner, N., Pandey, R., Paphiti, K., Schulze, U., Mianné, J., Hough, T., Teboul, L., Baaij, J.H.F. de, and Cox, R.D.

Abstract

01 november 2023, Contains fulltext : 296932.pdf (Publisher’s version ) (Open Access), ARL15, a small GTPase protein, was linked to metabolic traits in association studies. We aimed to test the Arl15 gene as a functional candidate for metabolic traits in the mouse. CRISPR/Cas9 germline knockout (KO) of Arl15 showed that homozygotes were postnatal lethal and exhibited a complete cleft palate (CP). Also, decreased cell migration was observed from Arl15 KO mouse embryonic fibroblasts (MEFs). Metabolic phenotyping of heterozygotes showed that females had reduced fat mass on a chow diet from 14 weeks of age. Mild body composition phenotypes were also observed in heterozygous mice on a high-fat diet (HFD)/low-fat diet (LFD). Females on a HFD showed reduced body weight, gonadal fat depot weight and brown adipose tissue (BAT) weight. In contrast, in the LFD group, females showed increased bone mineral density (BMD), while males showed a trend toward reduced BMD. Clinical biochemistry analysis of plasma on HFD showed transient lower adiponectin at 20 weeks of age in females. Urinary and plasma Mg(2+) concentrations were not significantly different. Our phenotyping data showed that Arl15 is essential for craniofacial development. Adult metabolic phenotyping revealed potential roles in brown adipose tissue and bone development.

Published
2023

18. Chloride-sensitive signaling turns the potassium switch on

Author

Hoorn, E.J., Baaij, J.H.F. de, and Internal Medicine

Subjects
Renal disorders Radboud Institute for Molecular Life Sciences [Radboudumc 11], Nephrology
Abstract

Item does not contain fulltext The potassium switch refers to plasma potassium regulation of the sodium-chloride cotransporter (NCC), which controls distal sodium delivery and therefore potassium secretion. Low extracellular potassium activates NCC by relieving chloride inhibition of With-No-Lysine 4 (WNK4). A new mouse model carrying a chloride-insensitive WNK4 mutant still shows NCC activation on low potassium diet. These effects are mediated by WNK4 activation and kelch-like 3 (KLHL3) inhibition and reveal additional chloride-sensitive pathways for NCC activation. 01 november 2022

Published
2022

19. Magnesium increases insulin-dependent glucose uptake in adipocytes

Author

Oost, L.J., Kurstjens, S., Ma, C., Hoenderop, J.G.J., Tack, C.J.J., and Baaij, J.H.F. de

Subjects
All institutes and research themes of the Radboud University Medical Center, Renal disorders Radboud Institute for Molecular Life Sciences [Radboudumc 11], Glucose, Diabetes Mellitus, Type 2, Endocrinology, Diabetes and Metabolism, Adipocytes, Humans, Insulin, Metabolic Disorders Radboud Institute for Molecular Life Sciences [Radboudumc 6], Magnesium, Insulin Resistance, Proto-Oncogene Proteins c-akt, Receptor, Insulin
Abstract

BackgroundType 2 diabetes (T2D) is characterized by a decreased insulin sensitivity. Magnesium (Mg2+) deficiency is common in people with T2D. However, the molecular consequences of low Mg2+ levels on insulin sensitivity and glucose handling have not been determined in adipocytes. The aim of this study is to determine the role of Mg2+ in the insulin-dependent glucose uptake.MethodsFirst, the association of low plasma Mg2+ with markers of insulin resistance was assessed in a cohort of 395 people with T2D. Secondly, the molecular role of Mg2+ in insulin-dependent glucose uptake was studied by incubating 3T3-L1 adipocytes with 0 or 1 mmol/L Mg2+ for 24 hours followed by insulin stimulation. Radioactive-glucose labelling, enzymatic assays, immunocytochemistry and live microscopy imaging were used to analyze the insulin receptor phosphoinositide 3-kinases/Akt pathway. Energy metabolism was assessed by the Seahorse Extracellular Flux Analyzer.ResultsIn people with T2D, plasma Mg2+ concentration was inversely associated with markers of insulin resistance; i.e., the lower Mg2+, the more insulin resistant. In Mg2+-deficient adipocytes, insulin-dependent glucose uptake was decreased by approximately 50% compared to control Mg2+condition. Insulin receptor phosphorylation Tyr1150/1151 and PIP3 mass were not decreased in Mg2+-deficient adipocytes. Live imaging microscopy of adipocytes transduced with an Akt sensor (FoxO1-Clover) demonstrated that FoxO1 translocation from the nucleus to the cytosol was reduced, indicting less Akt activation in Mg2+-deficient adipocytes. Immunocytochemistry using a Lectin membrane marker and at the membrane located Myc epitope-tagged glucose transporter 4 (GLUT4) demonstrated that GLUT4 translocation was diminished in insulin-stimulated Mg2+-deficient adipocytes compared to control conditions. Energy metabolism in Mg2+ deficient adipocytes was characterized by decreased glycolysis, upon insulin stimulation.ConclusionsMg2+ increases insulin-dependent glucose uptake in adipocytes and suggests that Mg2+ deficiency may contribute to insulin resistance in people with T2D.

Published
2022

20. The association between hypomagnesemia and poor glycaemic control in type 1 diabetes is limited to insulin resistant individuals

Author

Oost, L.J., Heck, J.I.P. van, Tack, C.J., and Baaij, J.H.F. de

Subjects
Adult, Blood Glucose, Multidisciplinary, Metabolic Disorders Radboud Institute for Molecular Life Sciences [Radboudumc 6], Glycemic Control, All institutes and research themes of the Radboud University Medical Center, Renal disorders Radboud Institute for Molecular Life Sciences [Radboudumc 11], C-Reactive Protein, Diabetes Mellitus, Type 1, Diabetes Mellitus, Type 2, Hyperglycemia, Cytokines, Humans, Insulin, Magnesium, Insulin Resistance, Biomarkers, Aged
Abstract

In a cohort of adults with type 1 diabetes, we examined the prevalence of hypomagnesemia and the correlation of serum magnesium levels with metabolic determinants, such as glycaemic control (as HbA1c), inflammatory markers and circulating cytokines. Furthermore, we assessed if a surrogate for insulin resistance is essential for the possible association of serum magnesium with metabolic determinants. Individuals with type 1 diabetes, aged above 18 years, were included and clinical characteristics were obtained from questionnaires and clinical records. In venous blood samples we measured cytokines and adipose-tissue specific secretion proteins. Serum magnesium concentrations were measured and correlated with clinical data and laboratory measurements using univariate and multivariate regression models. Hierarchical multiple regression of serum magnesium with insulin resistance was adjusted for diabetes and potential magnesium confounders. The prevalence of hypomagnesemia (serum magnesium levels 1c (r = − 0.12, P-value = 0.068) nor with any inflammatory marker or adipokine. However, insulin dose (IU/kg), a surrogate measure of resistance in type 1 diabetes, moderated the association of serum magnesium (mmol/L) with HbA1c (mmol/mol) with a B coefficient of − 71.91 (95% CI: − 119.11; -24.71), P-value = 0.003) and Log10 high-sensitivity C-reactive protein (Log10 mg/L) − 2.09 (95% CI: − 3.70; − 0.48), P-value = 0.011). The association of low serum magnesium levels with glycaemic control (HbA1c) and high-sensitivity C-reactive protein in individuals with type 1 diabetes is limited to subjects using a high insulin dose and suggests that insulin resistance, a type 2 diabetes feature, is a prerequisite for hypomagnesemia.

Published
2022
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21. Colonic expression of calcium transporter TRPV6 is regulated by dietary sodium butyrate.

Author

Gommers, L.M.M., Wijst, J.A.J. van der, Bos, C., Janssen, L.A.M, Bindels, R.J.M., Baaij, J.H.F. de, Hoenderop, J.G.J., Gommers, L.M.M., Wijst, J.A.J. van der, Bos, C., Janssen, L.A.M, Bindels, R.J.M., Baaij, J.H.F. de, and Hoenderop, J.G.J.

Abstract

Item does not contain fulltext, Dietary fibers have been shown to increase the intestinal absorption of calcium (Ca(2+)) and magnesium (Mg(2+)). However, the mechanisms that explain the enhanced electrolyte absorption remain unknown. Therefore, this study aims to investigate the short-term and long-term effects of 5% (w/w) sodium butyrate (Na-butyrate), an important end-metabolite of bacterial fermentation of dietary fibers, on Ca(2+) and Mg(2+) homeostasis in mice. Serum Ca(2+) levels were only significantly increased in mice treated with Na-butyrate for 1 day. This was associated with a twofold increase in the mRNA expression levels of Trpv6 in the proximal and distal colon. Contrary, Na-butyrate did not affect serum Mg(2+) concentrations at either of the intervention periods. However, we observed a reduction in urinary Mg(2+) excretion, although not significantly, after 1 day of treatment. A significant reduction of 2.5-fold in urinary Mg(2+) excretion was observed after 14 days of treatment. Indeed, 14-day Na-butyrate supplementation increased colonic Trpm7 expression by 1.2-fold compared to control mice. In conclusion, short-term Na-butyrate supplementation increases serum Ca(2+) levels in mice. This was associated with increased mRNA expression levels of Trpv6 in the colon, suggesting that Na-butyrate regulates the expression of genes involved in active intestinal Ca(2+) absorption.

Published
2022

23. Higher SBP in female patients with mitochondrial disease

Author

Viering, D.H.H.M., Borselen, Marjolein D. van, Deinum, J., Bindels, R.J.M., Baaij, J.H.F. de, Janssen, M.C.H., Viering, D.H.H.M., Borselen, Marjolein D. van, Deinum, J., Bindels, R.J.M., Baaij, J.H.F. de, and Janssen, M.C.H.

Abstract

Item does not contain fulltext

Published
2022

25. Gitelman-Like Syndrome Caused by Pathogenic Variants in mtDNA

Author

Viering, D.H., Schlingmann, K.P., Hureaux, M., Nijenhuis, T., Mallett, A., Chan, M.M., Beek, Andre van, Eerde, A.M. van, Coulibaly, J.M., Vallet, M., Decramer, S., Pelletier, S., Klaus, G., Kömhoff, M., Beetz, R., Patel, C., Shenoy, M., Steenbergen, E.J., Anderson, G., Bongers, E.M.H.F., Bergmann, C., Panneman, D., Rodenburg, R.J.T., Kleta, R., Houillier, P., Konrad, M., Vargas-Poussou, R., Knoers, N.V.A.M., Bockenhauer, D., Baaij, J.H.F. de, Viering, D.H., Schlingmann, K.P., Hureaux, M., Nijenhuis, T., Mallett, A., Chan, M.M., Beek, Andre van, Eerde, A.M. van, Coulibaly, J.M., Vallet, M., Decramer, S., Pelletier, S., Klaus, G., Kömhoff, M., Beetz, R., Patel, C., Shenoy, M., Steenbergen, E.J., Anderson, G., Bongers, E.M.H.F., Bergmann, C., Panneman, D., Rodenburg, R.J.T., Kleta, R., Houillier, P., Konrad, M., Vargas-Poussou, R., Knoers, N.V.A.M., Bockenhauer, D., and Baaij, J.H.F. de

Abstract

Item does not contain fulltext, BACKGROUND: Gitelman syndrome is the most frequent hereditary salt-losing tubulopathy characterized by hypokalemic alkalosis and hypomagnesemia. Gitelman syndrome is caused by biallelic pathogenic variants in SLC12A3, encoding the Na(+)-Cl(-) cotransporter (NCC) expressed in the distal convoluted tubule. Pathogenic variants of CLCNKB, HNF1B, FXYD2, or KCNJ10 may result in the same renal phenotype of Gitelman syndrome, as they can lead to reduced NCC activity. For approximately 10 percent of patients with a Gitelman syndrome phenotype, the genotype is unknown. METHODS: We identified mitochondrial DNA (mtDNA) variants in three families with Gitelman-like electrolyte abnormalities, then investigated 156 families for variants in MT-TI and MT-TF, which encode the transfer RNAs for phenylalanine and isoleucine. Mitochondrial respiratory chain function was assessed in patient fibroblasts. Mitochondrial dysfunction was induced in NCC-expressing HEK293 cells to assess the effect on thiazide-sensitive (22)Na(+) transport. RESULTS: Genetic investigations revealed four mtDNA variants in 13 families: m.591C>T (n=7), m.616T>C (n=1), m.643A>G (n=1) (all in MT-TF), and m.4291T>C (n=4, in MT-TI). Variants were near homoplasmic in affected individuals. All variants were classified as pathogenic, except for m.643A>G, which was classified as a variant of uncertain significance. Importantly, affected members of six families with an MT-TF variant additionally suffered from progressive chronic kidney disease. Dysfunction of oxidative phosphorylation complex IV and reduced maximal mitochondrial respiratory capacity were found in patient fibroblasts. In vitro pharmacological inhibition of complex IV, mimicking the effect of the mtDNA variants, inhibited NCC phosphorylation and NCC-mediated sodium uptake. CONCLUSION: Pathogenic mtDNA variants in MT-TF and MT-TI can cause a Gitelman-like syndrome. Genetic investigation of mtDNA should be considered in patients with unexplained Gitelman syndro

Published
2022

27. Butyrate reduces cellular magnesium absorption independently of metabolic regulation in Caco-2 human colon cells

Author

Gommers, L.M.M., Leermakers, P.A., Wijst, J.A.J. van der, Roig, S.R., Adella, A., Wal, M.A.E. van de, Bindels, R.J.M., Baaij, J.H.F. de, Hoenderop, J.G.J., Gommers, L.M.M., Leermakers, P.A., Wijst, J.A.J. van der, Roig, S.R., Adella, A., Wal, M.A.E. van de, Bindels, R.J.M., Baaij, J.H.F. de, and Hoenderop, J.G.J.

Abstract

Contains fulltext : 285278.pdf (Publisher’s version ) (Open Access)

Published
2022

28. Structural and functional comparison of magnesium transporters throughout evolution

Author

Franken, G.A.C., Huynen, M.A., Martínez-Cruz, L.A., Bindels, R.J.M., Baaij, J.H.F. de, Franken, G.A.C., Huynen, M.A., Martínez-Cruz, L.A., Bindels, R.J.M., and Baaij, J.H.F. de

Abstract

Contains fulltext : 283350.pdf (Publisher’s version ) (Closed access), Magnesium (Mg(2+)) is the most prevalent divalent intracellular cation. As co-factor in many enzymatic reactions, Mg(2+) is essential for protein synthesis, energy production, and DNA stability. Disturbances in intracellular Mg(2+) concentrations, therefore, unequivocally result in delayed cell growth and metabolic defects. To maintain physiological Mg(2+) levels, all organisms rely on balanced Mg(2+) influx and efflux via Mg(2+) channels and transporters. This review compares the structure and the function of prokaryotic Mg(2+) transporters and their eukaryotic counterparts. In prokaryotes, cellular Mg(2+) homeostasis is orchestrated via the CorA, MgtA/B, MgtE, and CorB/C Mg(2+) transporters. For CorA, MgtE, and CorB/C, the motifs that form the selectivity pore are conserved during evolution. These findings suggest that CNNM proteins, the vertebrate orthologues of CorB/C, also have Mg(2+) transport capacity. Whereas CorA and CorB/C proteins share the gross quaternary structure and functional properties with their respective orthologues, the MgtE channel only shares the selectivity pore with SLC41 Na(+)/Mg(2+) transporters. In eukaryotes, TRPM6 and TRPM7 Mg(2+) channels provide an additional Mg(2+) transport mechanism, consisting of a fusion of channel with a kinase. The unique features these TRP channels allow the integration of hormonal, cellular, and transcriptional regulatory pathways that determine their Mg(2+) transport capacity. Our review demonstrates that understanding the structure and function of prokaryotic magnesiotropic proteins aids in our basic understanding of Mg(2+) transport.

Published
2022

30. FAM111A is dispensable for electrolyte homeostasis in mice.

Author

Ilenwabor, B.P., Schigt, H., Kompatscher, A., Bos, C., Zuidscherwoude, M.C., Eerden, B.C. van der, Hoenderop, J.G.J., Baaij, J.H.F. de, Ilenwabor, B.P., Schigt, H., Kompatscher, A., Bos, C., Zuidscherwoude, M.C., Eerden, B.C. van der, Hoenderop, J.G.J., and Baaij, J.H.F. de

Abstract

Contains fulltext : 251718.pdf (Publisher’s version ) (Open Access), Autosomal dominant mutations in FAM111A are causative for Kenny-Caffey syndrome type 2. Patients with Kenny-Caffey syndrome suffer from severe growth retardation, skeletal dysplasia, hypoparathyroidism, hypocalcaemia, hyperphosphataemia and hypomagnesaemia. While recent studies have reported FAM111A to function in antiviral response and DNA replication, its role in regulating electrolyte homeostasis remains unknown. In this study, we assessed the role of FAM111A in the regulation of serum electrolyte balance using a Fam111a knockout (Fam111a(-/-)) C57BL/6 N mouse model. Fam111a(-/-) mice displayed normal weight and serum parathyroid hormone (PTH) concentration and exhibited unaltered magnesium, calcium and phosphate levels in serum and 24-hour urine. Expression of calciotropic (including Cabp28k, Trpv5, Klotho and Cyp24a1), magnesiotropic (including Trpm6, Trpm7, Cnnm2 and Cnnm4) and phosphotropic (Slc20a1, Slc20a2, Slc34a1 and Slc34a3) genes in the kidneys, duodenum and colon were not affected by Fam111a depletion. Only Slc34a2 expression was significantly upregulated in the duodenum, but not in the colon. Analysis of femurs showed unaffected bone morphology and density in Fam111a(-/-) mice. Kidney and parathyroid histology were also normal in Fam111a(-/-) mice. In conclusion, our study is the first to characterise the function of FAM111A in vivo and we report that mice lacking FAM111A exhibit normal electrolyte homeostasis on a standard diet.

Published
2022

31. On the origin and function of renal magnesium transport

Author

Bindels, R.J.M., Baaij, J.H.F. de, Franken, G.A.C., Bindels, R.J.M., Baaij, J.H.F. de, and Franken, G.A.C.

Abstract

Radboud University, 05 oktober 2022, Promotor : Bindels, R.J.M. Co-promotor : Baaij, J.H.F. de, Contains fulltext : 281783.pdf (Publisher’s version ) (Closed access)

Published
2022

32. The genetic spectrum of Gitelman(-like) syndromes.

Author

Schlingmann, K.P., Baaij, J.H.F. de, Schlingmann, K.P., and Baaij, J.H.F. de

Abstract

Item does not contain fulltext, PURPOSE OF REVIEW: Gitelman syndrome is a recessive salt-wasting disorder characterized by hypomagnesemia, hypokalemia, metabolic alkalosis and hypocalciuria. The majority of patients are explained by mutations and deletions in the SLC12A3 gene, encoding the Na+-Cl--co-transporter (NCC). Recently, additional genetic causes of Gitelman-like syndromes have been identified that should be considered in genetic screening. This review aims to provide a comprehensive overview of the clinical, genetic and mechanistic aspects of Gitelman(-like) syndromes. RECENT FINDINGS: Disturbed Na+ reabsorption in the distal convoluted tubule (DCT) is associated with hypomagnesemia and hypokalemic alkalosis. In Gitelman syndrome, loss-of-function mutations in SLC12A3 cause impaired NCC-mediated Na+ reabsorption. In addition, patients with mutations in CLCKNB, KCNJ10, FXYD2 or HNF1B may present with a similar phenotype, as these mutations indirectly reduce NCC activity. Furthermore, genetic investigations of patients with Na+-wasting tubulopathy have resulted in the identification of pathogenic variants in MT-TI, MT-TF, KCNJ16 and ATP1A1. These novel findings highlight the importance of cell metabolism and basolateral membrane potential for Na+ reabsorption in the DCT. SUMMARY: Altogether, these findings extend the genetic spectrum of Gitelman-like electrolyte alterations. Genetic testing of patients with hypomagnesemia and hypokalemia should cover a panel of genes involved in Gitelman-like syndromes, including the mitochondrial genome.

Published
2022

34. SLC41A1 knockout mice display normal magnesium homeostasis

Author

Ilenwabor, B.P., Franken, G.A.C., Sponder, Gerhard, Bos, C., Racay, Peter, Kolisek, Martin, Hoenderop, J.G.J., Baaij, J.H.F. de, Ilenwabor, B.P., Franken, G.A.C., Sponder, Gerhard, Bos, C., Racay, Peter, Kolisek, Martin, Hoenderop, J.G.J., and Baaij, J.H.F. de

Abstract

Item does not contain fulltext

Published
2022

35. Mechanisms of proton pump inhibitor-induced hypomagnesemia.

Author

Gommers, L.M.M., Hoenderop, J.G.J., Baaij, J.H.F. de, Gommers, L.M.M., Hoenderop, J.G.J., and Baaij, J.H.F. de

Abstract

01 augustus 2022, Contains fulltext : 283450.pdf (Publisher’s version ) (Open Access), Proton pump inhibitors (PPIs) reliably suppress gastric acid secretion and are therefore the first-line treatment for gastric acid-related disorders. Hypomagnesemia (serum magnesium [Mg(2+) ] <0.7 mmol/L) is a commonly reported side effect of PPIs. Clinical reports demonstrate that urinary Mg(2+) excretion is low in PPI users with hypomagnesemia, suggesting a compensatory mechanism by the kidney for malabsorption of Mg(2+) in the intestines. However, the exact mechanism by which PPIs cause impaired Mg(2+) absorption is still unknown. In this review, we show that current experimental evidence points toward reduced Mg(2+) solubility in the intestinal lumen. Moreover, the absorption pathways in both the small intestine and the colon may be reduced by changes in the expression and activity of key transporter proteins. Additionally, the gut microbiome may contribute to the development of PPI-induced hypomagnesemia, as PPI use affects the composition of the gut microbiome. In this review, we argue that the increase of the luminal pH during PPI treatment may contribute to several of these mechanisms. Considering the fact that bacterial fermentation of dietary fibers results in luminal acidification, we propose that targeting the gut microbiome using dietary intervention might be a promising treatment strategy to restore hypomagnesemia in PPI users.

Published
2022

36. Framework From a Multidisciplinary Approach for Transitioning Variants of Unknown Significance From Clinical Genetic Testing in Kidney Disease to a Definitive Classification

Author

Mirshahi, Uyenlinh L., Bhan, Ahana, Tholen, L.E., Fang, Brian, Chen, Guoli, Moore, Bryn, Baaij, J.H.F. de, Hoenderop, J.G.J., Carey, David J., Chang, Alexander R., Mirshahi, Uyenlinh L., Bhan, Ahana, Tholen, L.E., Fang, Brian, Chen, Guoli, Moore, Bryn, Baaij, J.H.F. de, Hoenderop, J.G.J., Carey, David J., and Chang, Alexander R.

Abstract

Contains fulltext : 283274.pdf (Publisher’s version ) (Open Access)

Published
2022

37. ARL15 modulates magnesium homeostasis through N-glycosylation of CNNMs.

Author

Zolotarov, Y., Ma, C., González-Recio, I., Hardy, S., Franken, G.A.C., Uetani, N., Latta, F., Kostantin, E., Boulais, J., Thibault, M.P., Côté, J.F., Díaz-Moreno, I., Quintana, A.D., Hoenderop, J.G.J., Martínez-Cruz, L.A., Tremblay, M.L., Baaij, J.H.F. de, Zolotarov, Y., Ma, C., González-Recio, I., Hardy, S., Franken, G.A.C., Uetani, N., Latta, F., Kostantin, E., Boulais, J., Thibault, M.P., Côté, J.F., Díaz-Moreno, I., Quintana, A.D., Hoenderop, J.G.J., Martínez-Cruz, L.A., Tremblay, M.L., and Baaij, J.H.F. de

Abstract

01 juli 2021, Item does not contain fulltext, Cyclin M (CNNM1-4) proteins maintain cellular and body magnesium (Mg(2+)) homeostasis. Using various biochemical approaches, we have identified members of the CNNM family as direct interacting partners of ADP-ribosylation factor-like GTPase 15 (ARL15), a small GTP-binding protein. ARL15 interacts with CNNMs at their carboxyl-terminal conserved cystathionine-β-synthase (CBS) domains. In silico modeling of the interaction between CNNM2 and ARL15 supports that the small GTPase specifically binds the CBS1 and CNBH domains. Immunocytochemical experiments demonstrate that CNNM2 and ARL15 co-localize in the kidney, with both proteins showing subcellular localization in the endoplasmic reticulum, Golgi apparatus and the plasma membrane. Most importantly, we found that ARL15 is required for forming complex N-glycosylation of CNNMs. Overexpression of ARL15 promotes complex N-glycosylation of CNNM3. Mg(2+) uptake experiments with a stable isotope demonstrate that there is a significant increase of (25)Mg(2+) uptake upon knockdown of ARL15 in multiple kidney cancer cell lines. Altogether, our results establish ARL15 as a novel negative regulator of Mg(2+) transport by promoting the complex N-glycosylation of CNNMs.

Published
2021

38. Bifunctional protein PCBD2 operates as a co-factor for hepatocyte nuclear factor 1β and modulates gene transcription.

Author

Tholen, L.E., Bos, C., Jansen, P.W.T.C., Venselaar, H., Vermeulen, M., Hoenderop, J.G.J., Baaij, J.H.F. de, Tholen, L.E., Bos, C., Jansen, P.W.T.C., Venselaar, H., Vermeulen, M., Hoenderop, J.G.J., and Baaij, J.H.F. de

Abstract

01 april 2021, Contains fulltext : 232382.pdf (Publisher’s version ) (Open Access), Hepatocyte nuclear factor 1β (HNF1β) is an essential transcription factor in development of the kidney, liver, and pancreas. HNF1β-mediated transcription of target genes is dependent on the cell type and the development stage. Nevertheless, the regulation of HNF1β function by enhancers and co-factors that allow this cell-specific transcription is largely unknown. To map the HNF1β interactome we performed mass spectrometry in a mouse kidney inner medullary collecting duct cell line. Pterin-4a-carbinolamine dehydratase 2 (PCBD2) was identified as a novel interaction partner of HNF1β. PCBD2 and its close homolog PCBD1 shuttle between the cytoplasm and nucleus to exert their enzymatic and transcriptional activities. Although both PCBD proteins share high sequence identity (48% and 88% in HNF1 recognition helix), their tissue expression patterns are unique. PCBD1 is most abundant in kidney and liver while PCBD2 is also abundant in lung, spleen, and adipose tissue. Using immunolocalization studies and biochemical analysis we show that in presence of HNF1β the nuclear localization of PCBD1 and PCBD2 increases significantly. Promoter luciferase assays demonstrate that co-factors PCBD1 and PCBD2 differentially regulate the ability of HNF1β to activate the promoters of transcriptional targets important in renal electrolyte homeostasis. Deleting the N-terminal sequence of PCBD2, not found in PCBD1, diminished the differential effects of the co-factors on HNF1β activity. All together these results indicate that PCBD1 and PCBD2 can exert different effects on HNF1β-mediated transcription. Future studies should confirm whether these unique co-factor activities also apply to HNF1β-target genes involved in additional processes besides ion transport in the kidney.

Published
2021

39. mTOR-Activating Mutations in RRAGD Are Causative for Kidney Tubulopathy and Cardiomyopathy.

Author

Schlingmann, K.P., Jouret, F., Shen, K., Nigam, A., Arjona, F.J., Dafinger, C., Houillier, P., Jones, D.P., Kleinerüschkamp, F., Oh, J., Godefroid, N., Eltan, M., Güran, T., Burtey, S., Parotte, M.C., König, J., Braun, A., Bos, C., Ibars Serra, M., Rehmann, H., Zwartkruis, F.J., Renkema, K.Y., Klingel, K., Schulze-Bahr, E., Schermer, B., Bergmann, C., Altmüller, J., Thiele, H., Beck, B.B., Dahan, K., Sabatini, D., Liebau, M.C., Vargas-Poussou, R., Knoers, N.V.A.M., Konrad, M., Baaij, J.H.F. de, Schlingmann, K.P., Jouret, F., Shen, K., Nigam, A., Arjona, F.J., Dafinger, C., Houillier, P., Jones, D.P., Kleinerüschkamp, F., Oh, J., Godefroid, N., Eltan, M., Güran, T., Burtey, S., Parotte, M.C., König, J., Braun, A., Bos, C., Ibars Serra, M., Rehmann, H., Zwartkruis, F.J., Renkema, K.Y., Klingel, K., Schulze-Bahr, E., Schermer, B., Bergmann, C., Altmüller, J., Thiele, H., Beck, B.B., Dahan, K., Sabatini, D., Liebau, M.C., Vargas-Poussou, R., Knoers, N.V.A.M., Konrad, M., and Baaij, J.H.F. de

Abstract

01 november 2021, Item does not contain fulltext, BACKGROUND: Over the last decade, advances in genetic techniques have resulted in the identification of rare hereditary disorders of renal magnesium and salt handling. Nevertheless, approximately 20% of all patients with tubulopathy lack a genetic diagnosis. METHODS: We performed whole-exome and -genome sequencing of a patient cohort with a novel, inherited, salt-losing tubulopathy; hypomagnesemia; and dilated cardiomyopathy. We also conducted subsequent in vitro functional analyses of identified variants of RRAGD, a gene that encodes a small Rag guanosine triphosphatase (GTPase). RESULTS: In eight children from unrelated families with a tubulopathy characterized by hypomagnesemia, hypokalemia, salt wasting, and nephrocalcinosis, we identified heterozygous missense variants in RRAGD that mostly occurred de novo. Six of these patients also had dilated cardiomyopathy and three underwent heart transplantation. We identified a heterozygous variant in RRAGD that segregated with the phenotype in eight members of a large family with similar kidney manifestations. The GTPase RagD, encoded by RRAGD, plays a role in mediating amino acid signaling to the mechanistic target of rapamycin complex 1 (mTORC1). RagD expression along the mammalian nephron included the thick ascending limb and the distal convoluted tubule. The identified RRAGD variants were shown to induce a constitutive activation of mTOR signaling in vitro. CONCLUSIONS: Our findings establish a novel disease, which we call autosomal dominant kidney hypomagnesemia (ADKH-RRAGD), that combines an electrolyte-losing tubulopathy and dilated cardiomyopathy. The condition is caused by variants in the RRAGD gene, which encodes Rag GTPase D; these variants lead to an activation of mTOR signaling, suggesting a critical role of Rag GTPase D for renal electrolyte handling and cardiac function.

Published
2021

40. Diagnostic Dilemma in an Adolescent Girl with an Eating Disorder, Intellectual Disability, and Hypomagnesemia.

Author

Bamhraz, A.A., Franken, G.A.C., Baaij, J.H.F. de, Rodrigues, A., Grady, R., Deveau, S., Chanchlani, R., Bamhraz, A.A., Franken, G.A.C., Baaij, J.H.F. de, Rodrigues, A., Grady, R., Deveau, S., and Chanchlani, R.

Abstract

Item does not contain fulltext, Neurological disorders, including seizures, migraine, depression, and intellectual disability, are frequently associated with hypomagnesemia. Specifically, magnesium (Mg2+) channel transient receptor potential melastatin (TRPM) 6 and TRPM7 are essential for brain function and development. Both channels are also localized in renal and intestinal epithelia and are crucial for Mg2+(re)absorption. Cyclin M2 (CNNM2) is located on the basolateral side of the distal convoluted tubule. In addition, it plays a role in the maintenance of plasma Mg2+ levels along with TRPM6, which is present at the apical level. The CNNM2 gene is crucial for renal magnesium handling, brain development, and neurological functioning. Here, we identified a novel mutation in the CNNM2 gene causing a cognitive delay in a girl with hypomagnesemia. We suggest testing for CNNM2 mutation in patients with neurological impairment and hypomagnesemia.

Published
2021

41. CNNM proteins selectively bind to the TRPM7 channel to stimulate divalent cation entry into cells.

Author

Bai, Z., Feng, J., Franken, G.A.C., Al'Saadi, N., Cai, N., Yu, A.S., Lou, L., Komiya, Y., Hoenderop, J.G.J., Baaij, J.H.F. de, Yue, L., Runnels, L.W., Bai, Z., Feng, J., Franken, G.A.C., Al'Saadi, N., Cai, N., Yu, A.S., Lou, L., Komiya, Y., Hoenderop, J.G.J., Baaij, J.H.F. de, Yue, L., and Runnels, L.W.

Abstract

01 december 2021, Contains fulltext : 244768.pdf (Publisher’s version ) (Open Access), Magnesium is essential for cellular life, but how it is homeostatically controlled still remains poorly understood. Here, we report that members of CNNM family, which have been controversially implicated in both cellular Mg2+ influx and efflux, selectively bind to the TRPM7 channel to stimulate divalent cation entry into cells. Coexpression of CNNMs with the channel markedly increased uptake of divalent cations, which is prevented by an inactivating mutation to the channel's pore. Knockout (KO) of TRPM7 in cells or application of the TRPM7 channel inhibitor NS8593 also interfered with CNNM-stimulated divalent cation uptake. Conversely, KO of CNNM3 and CNNM4 in HEK-293 cells significantly reduced TRPM7-mediated divalent cation entry, without affecting TRPM7 protein expression or its cell surface levels. Furthermore, we found that cellular overexpression of phosphatases of regenerating liver (PRLs), known CNNMs binding partners, stimulated TRPM7-dependent divalent cation entry and that CNNMs were required for this activity. Whole-cell electrophysiological recordings demonstrated that deletion of CNNM3 and CNNM4 from HEK-293 cells interfered with heterologously expressed and native TRPM7 channel function. We conclude that CNNMs employ the TRPM7 channel to mediate divalent cation influx and that CNNMs also possess separate TRPM7-independent Mg2+ efflux activities that contribute to CNNMs' control of cellular Mg2+ homeostasis.

Published
2021

42. Low plasma magnesium concentration and future abdominal aortic calcifications in moderate chronic kidney disease

Author

Braake, A.D. ter, Govers, L.P., Peeters, M.J., Zuilen, A.D. van, Wetzels, J.F.M., Blankenstijn, Peter J., Hoenderop, J.G.J., Baaij, J.H.F. de, Brand, J. van den, Braake, A.D. ter, Govers, L.P., Peeters, M.J., Zuilen, A.D. van, Wetzels, J.F.M., Blankenstijn, Peter J., Hoenderop, J.G.J., Baaij, J.H.F. de, and Brand, J. van den

Abstract

Contains fulltext : 231609.pdf (publisher's version ) (Open Access)

Published
2021

43. Mechanisms coupling sodium and magnesium reabsorption in the distal convoluted tubule of the kidney.

Author

Franken, G.A.C., Adella, A., Bindels, R.J.M., Baaij, J.H.F. de, Franken, G.A.C., Adella, A., Bindels, R.J.M., and Baaij, J.H.F. de

Abstract

Contains fulltext : 229882.pdf (publisher's version ) (Open Access), Hypomagnesaemia is a common feature of renal Na(+) wasting disorders such as Gitelman and EAST/SeSAME syndrome. These genetic defects specifically affect Na(+) reabsorption in the distal convoluted tubule, where Mg(2+) reabsorption is tightly regulated. Apical uptake via TRPM6 Mg(2+) channels and basolateral Mg(2+) extrusion via a putative Na(+) -Mg(2+) exchanger determines Mg(2+) reabsorption in the distal convoluted tubule. However, the mechanisms that explain the high incidence of hypomagnesaemia in patients with Na(+) wasting disorders of the distal convoluted tubule are largely unknown. In this review, we describe three potential mechanisms by which Mg(2+) reabsorption in the distal convoluted tubule is linked to Na(+) reabsorption. First, decreased activity of the thiazide-sensitive Na(+) /Cl(-) cotransporter (NCC) results in shortening of the segment, reducing the Mg(2+) reabsorption capacity. Second, the activity of TRPM6 and NCC are determined by common regulatory pathways. Secondary effects of NCC dysregulation such as hormonal imbalance, therefore, might disturb TRPM6 expression. Third, the basolateral membrane potential, maintained by the K(+) permeability and Na(+) -K(+) -ATPase activity, provides the driving force for Na(+) and Mg(2+) extrusion. Depolarisation of the basolateral membrane potential in Na(+) wasting disorders of the distal convoluted tubule may therefore lead to reduced activity of the putative Na(+) -Mg(2+) exchanger SLC41A1. Elucidating the interconnections between Mg(2+) and Na(+) transport in the distal convoluted tubule is hampered by the currently available models. Our analysis indicates that the coupling of Na(+) and Mg(2+) reabsorption may be multifactorial and that advanced experimental models are required to study the molecular mechanisms.

Published
2021

44. Functional tests to guide management in an adult with loss of function of type-1 angiotensin II receptor

Author

Viering, D.H.H.M., Bech, A.P., Baaij, J.H.F. de, Steenbergen, E.J., Danser, A.H.J., Wetzels, J.F.M., Bindels, R.J.M., Deinum, J., Viering, D.H.H.M., Bech, A.P., Baaij, J.H.F. de, Steenbergen, E.J., Danser, A.H.J., Wetzels, J.F.M., Bindels, R.J.M., and Deinum, J.

Abstract

Item does not contain fulltext, BACKGROUND: Genetic loss of function of AGT (angiotensinogen), REN (renin), ACE (angiotensin-converting enzyme), or AGTR1 (type-1 angiotensin II receptor) leads to renal tubular dysgenesis (RTD). This syndrome is almost invariably lethal. Most surviving patients reach stage 5 chronic kidney disease at a young age. METHODS: Here, we report a 28-year-old male with a homozygous truncating mutation in AGTR1 (p.Arg216*), who survived the perinatal period with a mildly impaired kidney function. In contrast to classic RTD, kidney biopsy showed proximal tubules that were mostly normal. During the subsequent three decades, we observed evidence of both tubular dysfunction (hyperkalemia, metabolic acidosis, salt-wasting and a urinary concentrating defect) and glomerular dysfunction (reduced glomerular filtration rate, currently ~30 mL/min/1.73 m(2), accompanied by proteinuria). To investigate the recurrent and severe hyperkalemia, we performed a patient-tailored functional test and showed that high doses of fludrocortisone induced renal potassium excretion by 155%. Furthermore, fludrocortisone lowered renal sodium excretion by 39%, which would have a mitigating effect on salt-wasting. In addition, urinary pH decreased in response to fludrocortisone. Opposite effects on urinary potassium and pH occurred with administration of amiloride, further supporting the notion that a collecting duct is present and able to react to fludrocortisone. CONCLUSIONS: This report provides living proof that even truncating loss-of-function mutations in AGTR1 are compatible with life and relatively good GFR and provides evidence for the prescription of fludrocortisone to treat hyperkalemia and salt-wasting in such patients.

Published
2021

46. Defects in KCNJ16 Cause a Novel Tubulopathy with Hypokalemia, Salt Wasting, Disturbed Acid-Base Homeostasis, and Sensorineural Deafness

Author

Schlingmann, K.P., Renigunta, A., Hoorn, E.J., Forst, A.L., Renigunta, V., Atanasov, V., Mahendran, S., Barakat, T.S., Gillion, V., Godefroid, N., Brooks, A.S., Lugtenberg, D., Lake, J., Debaix, H., Rudin, C., Knebelmann, B., Tellier, S., Rousset-Rouvière, C., Viering, D., Baaij, J.H.F. de, Weber, S., Palygin, O., Staruschenko, A., Kleta, R., Houillier, P., Bockenhauer, D., Devuyst, O., Vargas-Poussou, R., Warth, R., Zdebik, A.A., Konrad, M., Schlingmann, K.P., Renigunta, A., Hoorn, E.J., Forst, A.L., Renigunta, V., Atanasov, V., Mahendran, S., Barakat, T.S., Gillion, V., Godefroid, N., Brooks, A.S., Lugtenberg, D., Lake, J., Debaix, H., Rudin, C., Knebelmann, B., Tellier, S., Rousset-Rouvière, C., Viering, D., Baaij, J.H.F. de, Weber, S., Palygin, O., Staruschenko, A., Kleta, R., Houillier, P., Bockenhauer, D., Devuyst, O., Vargas-Poussou, R., Warth, R., Zdebik, A.A., and Konrad, M.

Abstract

Item does not contain fulltext, BACKGROUND: The transepithelial transport of electrolytes, solutes, and water in the kidney is a well-orchestrated process involving numerous membrane transport systems. Basolateral potassium channels in tubular cells not only mediate potassium recycling for proper Na(+),K(+)-ATPase function but are also involved in potassium and pH sensing. Genetic defects in KCNJ10 cause EAST/SeSAME syndrome, characterized by renal salt wasting with hypokalemic alkalosis associated with epilepsy, ataxia, and sensorineural deafness. METHODS: A candidate gene approach and whole-exome sequencing determined the underlying genetic defect in eight patients with a novel disease phenotype comprising a hypokalemic tubulopathy with renal salt wasting, disturbed acid-base homeostasis, and sensorineural deafness. Electrophysiologic studies and surface expression experiments investigated the functional consequences of newly identified gene variants. RESULTS: We identified mutations in the KCNJ16 gene encoding KCNJ16, which along with KCNJ15 and KCNJ10, constitutes the major basolateral potassium channel of the proximal and distal tubules, respectively. Coexpression of mutant KCNJ16 together with KCNJ15 or KCNJ10 in Xenopus oocytes significantly reduced currents. CONCLUSIONS: Biallelic variants in KCNJ16 were identified in patients with a novel disease phenotype comprising a variable proximal and distal tubulopathy associated with deafness. Variants affect the function of heteromeric potassium channels, disturbing proximal tubular bicarbonate handling as well as distal tubular salt reabsorption.

Published
2021

47. Cyclin M2 (CNNM2) knockout mice show mild hypomagnesaemia and developmental defects

Author

Franken, G.A.C., Seker, Murat, Bos, C., Siemons, Laura A.H., Eerden, B.C. van der, Christ, Annabel, Hoenderop, J.G.J., Bindels, R.J.M., Breiderhoff, Tilman, Baaij, J.H.F. de, Franken, G.A.C., Seker, Murat, Bos, C., Siemons, Laura A.H., Eerden, B.C. van der, Christ, Annabel, Hoenderop, J.G.J., Bindels, R.J.M., Breiderhoff, Tilman, and Baaij, J.H.F. de

Abstract

Contains fulltext : 233470.pdf (Publisher’s version ) (Open Access)

Published
2021

48. The phenotypic and genetic spectrum of patients with heterozygous mutations in cyclin M2 (CNNM2).

Author

Franken, G.A.C., Müller, D., Mignot, C., Keren, B., Lévy, J., Tabet, A.C., Germanaud, D., Tejada, M.I., Kroes, H.Y., Nievelstein, R.A., Brimble, E., Ruzhnikov, M., Claverie-Martin, F., Szczepańska, M., Ćuk, M., Latta, F., Konrad, M., Martínez-Cruz, L.A., Bindels, R.J.M., Hoenderop, J.G.J., Schlingmann, K.P., Baaij, J.H.F. de, Franken, G.A.C., Müller, D., Mignot, C., Keren, B., Lévy, J., Tabet, A.C., Germanaud, D., Tejada, M.I., Kroes, H.Y., Nievelstein, R.A., Brimble, E., Ruzhnikov, M., Claverie-Martin, F., Szczepańska, M., Ćuk, M., Latta, F., Konrad, M., Martínez-Cruz, L.A., Bindels, R.J.M., Hoenderop, J.G.J., Schlingmann, K.P., and Baaij, J.H.F. de

Abstract

01 april 2021, Contains fulltext : 238837.pdf (Publisher’s version ) (Open Access), Hypomagnesemia, seizures, and intellectual disability (HSMR) syndrome is a rare disorder caused by mutations in the cyclin M2 (CNNM2) gene. Due to the limited number of cases, extensive phenotype analyses of these patients have not been performed, hindering early recognition of patients. In this study, we established the largest cohort of HSMR to date, aiming to improve recognition and diagnosis of this complex disorder. Eleven novel variants in CNNM2 were identified in nine single sporadic cases and in two families with suspected HSMR syndrome. (25) Mg(2+) uptake assays demonstrated loss-of-function in seven out of nine variants in CNNM2. Interestingly, the pathogenic mutations resulted in decreased plasma membrane expression. The phenotype of those affected by pathogenic CNNM2 mutations was compared with five previously reported cases of HSMR. All patients suffered from hypomagnesemia (0.44-0.72 mmol/L), which could not be fully corrected by Mg(2+) supplementation. The majority of patients (77%) experienced generalized seizures and exhibited mild to moderate intellectual disability and speech delay. Moreover, severe obesity was present in most patients (89%). Our data establish hypomagnesemia, seizures, intellectual disability, and obesity as hallmarks of HSMR syndrome. The assessment of these major features offers a straightforward tool for the clinical diagnosis of HSMR.

Published
2021

49. Serum Magnesium Is Inversely Associated With Heart Failure, Atrial Fibrillation, and Microvascular Complications in Type 2 Diabetes

Author

Oost, L.J., Heijden, Amber A.W.A. van der, Vermeulen, Emma A., Bos, C., Elders, Petra J.M., Slieker, Roderick C., Kurstjens, S., Berkel, M. van, Hoenderop, J.G.J., Tack, C.J., Beulens, Joline W.J., Baaij, J.H.F. de, Oost, L.J., Heijden, Amber A.W.A. van der, Vermeulen, Emma A., Bos, C., Elders, Petra J.M., Slieker, Roderick C., Kurstjens, S., Berkel, M. van, Hoenderop, J.G.J., Tack, C.J., Beulens, Joline W.J., and Baaij, J.H.F. de

Abstract

Contains fulltext : 236949.pdf (Publisher’s version ) (Closed access)

Published
2021

50. Digesting the role of the gut microbiome in proton pump inhibitor (PPI)-induced hypomagnesemia

Author

Hoenderop, J.G.J., Bindels, R.J.M., Baaij, J.H.F. de, Wijst, J.A.J. van der, Gommers, L.M.M., Hoenderop, J.G.J., Bindels, R.J.M., Baaij, J.H.F. de, Wijst, J.A.J. van der, and Gommers, L.M.M.

Abstract

Radboud University, 02 juni 2021, Promotores : Hoenderop, J.G.J., Bindels, R.J.M. Co-promotores : Baaij, J.H.F. de, Wijst, J.A.J. van der, Contains fulltext : 233371 .pdf (Publisher’s version ) (Open Access)

Published
2021

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