Data from: Epithelial magnesium transport by TRPM6 is essential for prenatal development and adult survival

Chubanov, Vladimir, Ludwig Maximilian University of Munich

Gudermann, Thomas, German Center for Lung Research, German Centre for Cardiovascular Research, Ludwig Maximilian University of Munich

Jonas, Wenke, German Center for Diabetes Research, German Institute of Human Nutrition

Schürmann, Annette, German Center for Diabetes Research, German Institute of Human Nutrition

Yildirim, Önder A, German Center for Lung Research

Shymkiv, Yuriy, Princeton Medical Institute

Ryazanov, Alexey G, Princeton Medical Institute

Weber, Christian, German Centre for Cardiovascular Research, Ludwig Maximilian University of Munich

van der Vorst, Emiel PC, Ludwig Maximilian University of Munich

Bartsch, Harald, Ludwig Maximilian University of Munich

Sotlar, Karl, Ludwig Maximilian University of Munich

Braun, Attila, University of Würzburg

Simmons, David G, University of Queensland

Ferioli, Silvia, Ludwig Maximilian University of Munich

Wisnowsky, Annika, Ludwig Maximilian University of Munich

Akdogan, Banu, Ludwig Maximilian University of Munich

Mittermeier, Lorenz, Ludwig Maximilian University of Munich

Sytik, Ludmila, Ludwig Maximilian University of Munich

Zierler, Susanna, Ludwig Maximilian University of Munich

Jurinovic, Vindi, Ludwig Maximilian University of Munich

Published Dec 15, 2017 on Dryad. https://doi.org/10.5061/dryad.gs7fv

Cite this dataset

Chubanov, Vladimir et al. (2017). Data from: Epithelial magnesium transport by TRPM6 is essential for prenatal development and adult survival [Dataset]. Dryad. https://doi.org/10.5061/dryad.gs7fv

Abstract

Mg2+ regulates many physiological processes and signalling pathways. However, little is known about the mechanisms underlying the organismal balance of Mg2+. Capitalizing on a set of newly generated mouse models, we provide an integrated mechanistic model of the regulation of organismal Mg2+ balance during prenatal development and in adult mice by the ion channel TRPM6. We show that TRPM6 activity in the placenta and yolk sac is essential for embryonic development. In adult mice, TRPM6 is required in the intestine to maintain organismal Mg2+ balance, but is dispensable in the kidney. Trpm6 inactivation in adult mice leads to shortened lifespan, growth deficit and metabolic alterations indicative of impaired energy balance. Dietary Mg2+ supplementation not only rescues all phenotypes displayed by Trpm6-deficient adult mice, but also may extend the lifespan of wildtype mice. Hence, maintenance of organismal Mg2+ balance by TRPM6 is crucial for prenatal development and survival to adulthood.

Usage notes

Whole genome profiling of hepatic transcripts altered in Trpm6-deficient mice

Excel file contains two worksheets: (1) Genome-wide analysis of hepatic transcriptome in control vs Trpm6-deficient mice. (2) Up- and down-regulated transcripts in the liver of Trpm6-deficient mice with the false discovery rate (FDR) P≤0.1.

Table S2.xls

Ingenuity Pathway Analysis (IPA) analysis of hepatic transcripts altered in Trpm6-deficient mice

Excel file contains two worksheets: (1) IPA Canonical Pathways representing differentially expressed genes in the liver of Trpm6-deficient mice. (2) IPA Causal Networks for differentially expressed genes in the liver of Trpm6-deficient mice.

Table S3.xls

Metabolic profiling of the serum, liver and gastrocnemius muscle of Trpm6-deficient mice

Excel file contains seven worksheets: (1) Statistical analysis of metabolite measurements in serum samples. (2) Statistical analysis of metabolite measurements in gastrocnemius muscle samples. (3) Statistical analysis of metabolite measurements in liver samples. (4) Metabolites significantly changed in serum samples of Trpm6-deficient mice (FDR P≤0.05). (5) Metabolites significantly changed in gastrocnemius muscle samples of Trpm6-deficient mice (FDR P≤0.05). (6) Metabolites significantly changed in liver samples of Trpm6-deficient mice (FDR P≤0.05). (7) Abbreviations of metabolites.

Table S4.xlsx

MATLAB code

MATLAB code used for statistical analysis of survival distributions of control and dietary treated mice

MATLAB Code.docx