Cobalt- and Rhodium-Corrole-Triphenylphosphine Complexes Revisited: The Question of a Noninnocent Corrole

BackgroundCrumbs2 is expressed at embryonic stages as well as in the retina, brain, and glomerular podocytes. Recent studies identified CRB2 mutations as a novel cause of steroid-resistant nephrotic syndrome (SRNS).MethodsTo study the function of Crb2 at the renal filtration barrier, mice lacking Crb2 exclusively in podocytes were generated. Gene expression and histologic studies as well as transmission and scanning electron microscopy were used to analyze these Crb2podKO knockout mice and their littermate controls. Furthermore, high-resolution expansion microscopy was used to investigate Crb2 distribution in murine glomeruli. For pull-down experiments, live cell imaging, and transcriptome analyses, cell lines were applied that inducibly express fluorescent protein–tagged CRB2 wild type and mutants.ResultsCrb2podKO mice developed proteinuria directly after birth that preceded a prominent development of disordered and effaced foot processes, upregulation of renal injury and inflammatory markers, and glomerulosclerosis. Pull-down assays revealed an interaction of CRB2 with Nephrin, mediated by their extracellular domains. Expansion microscopy showed that in mice glomeruli, Crb2 and Nephrin are organized in adjacent clusters. SRNS-associated CRB2 protein variants and a mutant that lacks a putative conserved O-glycosylation site were not transported to the cell surface. Instead, mutants accumulated in the ER, showed altered glycosylation pattern, and triggered an ER stress response.ConclusionsCrb2 is an essential component of the podocyte’s slit diaphragm, interacting with Nephrin. Loss of slit diaphragm targeting and increasing ER stress are pivotal factors for onset and progression of CRB2-related SRNS.

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Angiotensin II regulates phosphorylation of actin‐associated proteins in human podocytes

Schenk

Möller-Kerutt

Klosowski

et al. 2017

FASEB j.

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Within the kidney, angiotensin II (AngII) targets different cell types in the vasculature, tubuli, and glomeruli. An important part of the renal filtration barrier is composed of podocytes with their actin-rich foot processes. In this study, we used stable isotope labeling with amino acids in cell culture coupled to mass spectrometry to characterize relative changes in the phosphoproteome of human podocytes in response to short-term treatment with AngII. In 4 replicates, we identified a total of 17,956 peptides that were traceable to 2081 distinct proteins. Bioinformatic analyses revealed that among the increasingly phosphorylated peptides are predominantly peptides that are related to actin filaments, cytoskeleton, lamellipodia, mammalian target of rapamycin, and MAPK signaling. Among others, this screening approach highlighted the increased phosphorylation of actin-bundling protein, L-plastin (LCP1). AngII-dependent phosphorylation of LCP1 in cultured podocytes was mediated by the kinases ERK, p90 ribosomal S6 kinase, PKA, or PKC. LCP1 phosphorylation increased filopodia formation. In addition, treatment with AngII led to LCP1 redistribution to the cell margins, membrane ruffling, and formation of lamellipodia. Our data highlight the importance of AngII-triggered actin cytoskeleton-associated signal transduction in

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LIM and SH3 protein 1 (LASP‐1): A novel link between the slit membrane and actin cytoskeleton dynamics in podocytes

et al. 2020

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The foot processes of podocytes exhibit a dynamic actin cytoskeleton, which maintains their complex cell structure and antagonizes the elastic forces of the glomerular capillary. Interdigitating secondary foot processes form a highly selective filter for proteins in the kidney, the slit membrane. Knockdown of slit membrane components such as Nephrin or Neph1 and cytoskeletal adaptor proteins such as CD2AP in mice leads to breakdown of the filtration barrier with foot process effacement, proteinuria, and early death of the mice. Less is known about the crosstalk between the slit membrane‐associated proteins and cytoskeletal components inside the podocyte foot processes. Our study shows that LASP‐1, an actin‐binding protein, is highly expressed in podocytes. Electron microscopy studies demonstrate that LASP‐1 is found at the slit membrane suggesting a role in anchoring slit membrane components to the actin cytoskeleton. Live cell imaging experiments with transfected podocytes reveal that LASP‐1 is either part of a highly dynamic granular complex or a static, actin cytoskeleton‐bound protein. We identify CD2AP as a novel LASP‐1 binding partner that regulates its association with the actin cytoskeleton. Activation of the renin‐angiotensin‐aldosterone system, which is crucial for podocyte function, leads to phosphorylation and altered localization of LASP‐1. In vivo studies using the Drosophila nephrocyte model indicate that Lasp is necessary for the slit membrane integrity and functional filtration.

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Loss of surface transport is a main cellular pathomechanism of CRB2 variants causing podocytopathies

Möller-Kerutt

Schönhoff

Rellmann³

et al. 2022

Life Sci. Alliance

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Crumbs2 (CRB2) is a central component of the renal filtration barrier and part of the slit diaphragm, a unique cell contact formed by glomerular podocytes. SomeCRB2variants cause recessive inherited forms of steroid-resistant nephrotic syndrome. However, the disease-causing potential of numerousCRB2variants remains unknown. Here, we report the establishment of a live-cell imaging–based assay, allowing a quantitative evaluation of the pathogenic potential of so far non-categorizedCRB2variants. Based on in silico data analysis and protein prediction software, putative disease–associated CRB2 missense variants were selected, expressed as CRB2-GFP fusion proteins, and analyzed in reporter cell lines with BFP-labeled plasma membrane. We found that in comparison with PM-localized WT, disease-associated CRB2 variants remained predominantly at the ER. Accumulation at the ER was also present for several non-characterized CRB2 variants and variants in which putative disulfide bridge–forming cysteines were replaced. Strikingly, WT CRB2 retained inside the ER in cells lacking protein disulfide isomerase A3, indicating that posttranslational modification, especially the formation of disulfide bridges, is a crucial step for the CRB2 PM transport.

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Annika Möller-Kerutt

Crumbs2 Is an Essential Slit Diaphragm Protein of the Renal Filtration Barrier

Angiotensin II regulates phosphorylation of actin‐associated proteins in human podocytes

LIM and SH3 protein 1 (LASP‐1): A novel link between the slit membrane and actin cytoskeleton dynamics in podocytes

Loss of surface transport is a main cellular pathomechanism of CRB2 variants causing podocytopathies

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