Dominik Müller scite author profile

Microglia are crucial for immune responses in the brain. Although their origin from the yolk sac has been recognized for some time, their precise precursors and the transcription program that is used are not known. We found that mouse microglia were derived from primitive c-kit(+) erythromyeloid precursors that were detected in the yolk sac as early as 8 d post conception. These precursors developed into CD45(+) c-kit(lo) CX(3)CR1(-) immature (A1) cells and matured into CD45(+) c-kit(-) CX(3)CR1(+) (A2) cells, as evidenced by the downregulation of CD31 and concomitant upregulation of F4/80 and macrophage colony stimulating factor receptor (MCSF-R). Proliferating A2 cells became microglia and invaded the developing brain using specific matrix metalloproteinases. Notably, microgliogenesis was not only dependent on the transcription factor Pu.1 (also known as Sfpi), but also required Irf8, which was vital for the development of the A2 population, whereas Myb, Id2, Batf3 and Klf4 were not required. Our data provide cellular and molecular insights into the origin and development of microglia.

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Positional cloning uncovers mutations in PLCE1 responsible for a nephrotic syndrome variant that may be reversible

Hinkes

et al. 2006

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Nephrotic syndrome, a malfunction of the kidney glomerular filter, leads to proteinuria, edema and, in steroid-resistant nephrotic syndrome, end-stage kidney disease. Using positional cloning, we identified mutations in the phospholipase C epsilon gene (PLCE1) as causing early-onset nephrotic syndrome with end-stage kidney disease. Kidney histology of affected individuals showed diffuse mesangial sclerosis (DMS). Using immunofluorescence, we found PLCepsilon1 expression in developing and mature glomerular podocytes and showed that DMS represents an arrest of normal glomerular development. We identified IQ motif-containing GTPase-activating protein 1 as a new interaction partner of PLCepsilon1. Two siblings with a missense mutation in an exon encoding the PLCepsilon1 catalytic domain showed histology characteristic of focal segmental glomerulosclerosis. Notably, two other affected individuals responded to therapy, making this the first report of a molecular cause of nephrotic syndrome that may resolve after therapy. These findings, together with the zebrafish model of human nephrotic syndrome generated by plce1 knockdown, open new inroads into pathophysiology and treatment mechanisms of nephrotic syndrome.

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COQ6 mutations in human patients produce nephrotic syndrome with sensorineural deafness

Heeringa¹,

Chernin²,

Chaki³

et al. 2011

J. Clin. Invest.

358

338

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Steroid-resistant nephrotic syndrome (SRNS) is a frequent cause of end-stage renal failure. Identification of single-gene causes of SRNS has generated some insights into its pathogenesis; however, additional genes and disease mechanisms remain obscure, and SRNS continues to be treatment refractory. Here we have identified 6 different mutations in coenzyme Q 10 biosynthesis monooxygenase 6 (COQ6) in 13 individuals from 7 families by homozygosity mapping. Each mutation was linked to early-onset SRNS with sensorineural deafness. The deleterious effects of these human COQ6 mutations were validated by their lack of complementation in coq6-deficient yeast. Furthermore, knockdown of Coq6 in podocyte cell lines and coq6 in zebrafish embryos caused apoptosis that was partially reversed by coenzyme Q 10 treatment. In rats, COQ6 was located within cell processes and the Golgi apparatus of renal glomerular podocytes and in stria vascularis cells of the inner ear, consistent with an oto-renal disease phenotype. These data suggest that coenzyme Q 10 -related forms of SRNS and hearing loss can be molecularly identified and potentially treated.

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CNNM2, Encoding a Basolateral Protein Required for Renal Mg2+ Handling, Is Mutated in Dominant Hypomagnesemia

Stuiver

Laínez

Will

et al. 2011

The American Journal of Human Genetics

187

257

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Familial hypomagnesemia is a rare human disorder caused by renal or intestinal magnesium (Mg(2+)) wasting, which may lead to symptoms of Mg(2+) depletion such as tetany, seizures, and cardiac arrhythmias. Our knowledge of the physiology of Mg(2+) (re)absorption, particularly the luminal uptake of Mg(2+) along the nephron, has benefitted from positional cloning approaches in families with Mg(2+) reabsorption disorders; however, basolateral Mg(2+) transport and its regulation are still poorly understood. Here, by using a candidate screening approach, we identified CNNM2 as a gene involved in renal Mg(2+) handling in patients of two unrelated families with unexplained dominant hypomagnesemia. In the kidney, CNNM2 was predominantly found along the basolateral membrane of distal tubular segments involved in Mg(2+) reabsorption. The basolateral localization of endogenous and recombinant CNNM2 was confirmed in epithelial kidney cell lines. Electrophysiological analysis showed that CNNM2 mediated Mg(2+)-sensitive Na(+) currents that were significantly diminished in mutant protein and were blocked by increased extracellular Mg(2+) concentrations. Our data support the findings of a recent genome-wide association study showing the CNNM2 locus to be associated with serum Mg(2+) concentrations. The mutations found in CNNM2, its observed sensitivity to extracellular Mg(2+), and its basolateral localization signify a critical role for CNNM2 in epithelial Mg(2+) transport.

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Claudin-10 exists in six alternatively spliced isoforms that exhibit distinct localization and function

et al. 2009

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cells, transfection of high-resistance MDCK-C7 cells withCldn10b dramatically decreased transepithelial resistance, increased cation permeability, and changed monovalent cation selectivity from Eisenman sequence IV to X, indicating the presence of a high field-strength binding site that almost completely removes the hydration shell of the permeating cations. The extent of all these effects strongly depended on the endogenous claudins of the transfected cells. Supplementary material available online at

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Whole Exome Sequencing of Patients with Steroid-Resistant Nephrotic Syndrome

Warejko¹,

Tan²,

Daga³

et al. 2017

CJASN

184

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Mosaic expression of claudins in thick ascending limbs of Henle results in spatial separation of paracellular Na ⁺ and Mg ²⁺ transport

Milatz

Himmerkus

Wulfmeyer

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

181

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The thick ascending limb (TAL) of Henle's loop drives paracellular Na + , Ca 2+ , and Mg 2+ reabsorption via the tight junction (TJ). The TJ is composed of claudins that consist of four transmembrane segments, two extracellular segments (ECS1 and -2), and one intracellular loop. Claudins interact within the same (cis) and opposing (trans) plasma membranes. The claudins Cldn10b, -16, and -19 facilitate cation reabsorption in the TAL, and their absence leads to a severe disturbance of renal ion homeostasis. We combined electrophysiological measurements on microperfused mouse TAL segments with subsequent analysis of claudin expression by immunostaining and confocal microscopy. Claudin interaction properties were examined using heterologous expression in the TJ-free cell line HEK 293, live-cell imaging, and Förster/FRET. To reveal determinants of interaction properties, a set of TAL claudin protein chimeras was created and analyzed. Our main findings are that (i) TAL TJs show a mosaic expression pattern of either cldn10b or cldn3/cldn16/cldn19 in a complex; (ii) TJs dominated by cldn10b prefer Na + over Mg 2+ , whereas TJs dominated by cldn16 favor Mg 2+ over Na + ; (iii) cldn10b does not interact with other TAL claudins, whereas cldn3 and cldn16 can interact with cldn19 to form joint strands; and (iv) further claudin segments in addition to ECS2 are crucial for trans interaction. We suggest the existence of at least two spatially distinct types of paracellular channels in TAL: a cldn10b-based channel for monovalent cations such as Na + and a spatially distinct site for reabsorption of divalent cations such as Ca 2+ and Mg 2+ .T he kidney regulates the salt and water balance of the body by filtration and subsequent reabsorption or secretion of ions and water. Thereby it controls blood pressure and maintains acid-base homeostasis. The thick ascending limb (TAL) of Henle's loop drives reabsorption of Na + , Cl − , Ca 2+ , and Mg 2+ from the tubular fluid into the blood. Na + and Cl − are reabsorbed via the transcellular pathway, involving the renal-specific isoform of the Na + /K + /2Cl − cotransporter (NKCC2) in the apical epithelial cell membrane and Na + /K + -ATPase and chloride channel ClC-Kb in the basolateral membrane. K + is circulated via NKCC2 and the renal outer medullary K + channel ROMK1, across the apical cell membrane. These transport processes generate a lumen-positive transepithelial potential that drives additional paracellular reabsorption of Na + as well as the reabsorption of divalent cations, mainly Ca 2+ and Mg 2+ . Paracellular transport is regulated by the tight junction (TJ) in a size-, charge-, and water-selective manner. The main functional constituent of the TJ is the family of claudins with 27 members in mammals. Claudins consist of a four-transmembrane helix bundle, two extracellular segments that expand into the paracellular cleft, and intracellular N and C termini. Claudins interact in cis (within the same plasma membrane) and in trans (with claudins in the plasma membrane of neighbori...

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Deletion of claudin-10 ( Cldn10 ) in the thick ascending limb impairs paracellular sodium permeability and leads to hypermagnesemia and nephrocalcinosis

Breiderhoff

Himmerkus

Stuiver

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

132

155

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Dominik Müller

Microglia emerge from erythromyeloid precursors via Pu.1- and Irf8-dependent pathways

Positional cloning uncovers mutations in PLCE1 responsible for a nephrotic syndrome variant that may be reversible

COQ6 mutations in human patients produce nephrotic syndrome with sensorineural deafness

CNNM2, Encoding a Basolateral Protein Required for Renal Mg2+ Handling, Is Mutated in Dominant Hypomagnesemia

Claudin-10 exists in six alternatively spliced isoforms that exhibit distinct localization and function

Whole Exome Sequencing of Patients with Steroid-Resistant Nephrotic Syndrome

Mosaic expression of claudins in thick ascending limbs of Henle results in spatial separation of paracellular Na ⁺ and Mg ²⁺ transport

Deletion of claudin-10 ( Cldn10 ) in the thick ascending limb impairs paracellular sodium permeability and leads to hypermagnesemia and nephrocalcinosis

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Dominik Müller

Microglia emerge from erythromyeloid precursors via Pu.1- and Irf8-dependent pathways

Positional cloning uncovers mutations in PLCE1 responsible for a nephrotic syndrome variant that may be reversible

COQ6 mutations in human patients produce nephrotic syndrome with sensorineural deafness

CNNM2, Encoding a Basolateral Protein Required for Renal Mg2+ Handling, Is Mutated in Dominant Hypomagnesemia

Claudin-10 exists in six alternatively spliced isoforms that exhibit distinct localization and function

Whole Exome Sequencing of Patients with Steroid-Resistant Nephrotic Syndrome

Mosaic expression of claudins in thick ascending limbs of Henle results in spatial separation of paracellular Na + and Mg 2+ transport

Deletion of claudin-10 ( Cldn10 ) in the thick ascending limb impairs paracellular sodium permeability and leads to hypermagnesemia and nephrocalcinosis

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Mosaic expression of claudins in thick ascending limbs of Henle results in spatial separation of paracellular Na ⁺ and Mg ²⁺ transport