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Failure of endocytic flux in Donnai-Barrow syndrome caused by LRP2 p.C1400R
Andrew Beenken, Tian H. Shen, Aryan Ghotra, Hediye Erdjument-Bromage, Jeong Lee, Jared S. Kushner, Rachel E. Sturley, Atlas Khan, Jeffrey R. Arace, Leora Kronenberg, Lucy D. Shen, Gabriel H. Rahmani, Patricia K. Donahoe, Thomas A. Neubert, Frances A. High, Ora A. Weisz, Jonathan Barasch
Andrew Beenken, Tian H. Shen, Aryan Ghotra, Hediye Erdjument-Bromage, Jeong Lee, Jared S. Kushner, Rachel E. Sturley, Atlas Khan, Jeffrey R. Arace, Leora Kronenberg, Lucy D. Shen, Gabriel H. Rahmani, Patricia K. Donahoe, Thomas A. Neubert, Frances A. High, Ora A. Weisz, Jonathan Barasch
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Research Article Cell biology Nephrology

Failure of endocytic flux in Donnai-Barrow syndrome caused by LRP2 p.C1400R

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Abstract

Donnai-Barrow syndrome (DBS) arises from loss-of-function (LoF) variants in the endocytic receptor low-density lipoprotein receptor–related protein 2 (LRP2; or megalin) and is characterized by low–molecular weight proteinuria and developmental abnormalities. Urinary proteomics of 9 patients with DBS revealed that the urinary proteome of a DBS patient with the missense variant LRP2 p.C1400R was indistinguishable from that of patients with splice site, nonsense, or frameshift mutations. A CRISPR mouse model of the variant was generated to determine the mechanism of LoF and proteinuria. The mutant LRP2 was expressed and observed to dimerize and localize to the proximal tubule apical membrane. However, both fluid-phase and receptor-mediated endocytosis was impaired in the context of a general perturbation of endocytic flux. Immunofluorescence revealed aberrant endocytic recycling with mislocalized RAB11+ and TFR1+ compartments and enlarged lysosomes. Structural modeling showed that the LRP2 assembly likely tolerates the cysteine-to-arginine substitution at the cell surface, but at endosomal pH the variant introduced steric clashes that may disrupt intramolecular interfaces and disturb receptor recycling. These findings point to the importance of LRP2 recycling for global endocytic flux and offer a blueprint for leveraging patient-specific alleles to dissect proximal tubule function.

Authors

Andrew Beenken, Tian H. Shen, Aryan Ghotra, Hediye Erdjument-Bromage, Jeong Lee, Jared S. Kushner, Rachel E. Sturley, Atlas Khan, Jeffrey R. Arace, Leora Kronenberg, Lucy D. Shen, Gabriel H. Rahmani, Patricia K. Donahoe, Thomas A. Neubert, Frances A. High, Ora A. Weisz, Jonathan Barasch

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Figure 5

LRP2 p.C1401R and WT are differentially biotinylated by V5-APEX2-RAP.

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LRP2 p.C1401R and WT are differentially biotinylated by V5-APEX2-RAP.
(A...
(A) IF of kidney sections from WT and Lrp2 p.C1401R mice (p.C1401R) following ex vivo perfusion with the V5-tagged ascorbate peroxidase 2–receptor-associated protein (V5-APEX2-RAP) fusion construct, with labeling of biotinylated proteins with streptavidin-Alexa Fluor 488 (green), bound V5-APEX2-RAP with anti-V5 (red), and LRP2 (cyan). Gray asterisks mark selected apical membranes for comparison. Scale bars: 10 μm. Representative images from n = 3 mice. (B) Log2(WT/C1401R) fold change (FC) of label-free quantification (LFQ) intensities is plotted against MaxQuant data-independent acquisition analysis (MaxDIA) score for all quantified proteins. Red dots are labeled with mouse gene symbols for proteins with |log2FC| > 1.5 and MaxDIA score > 40. Horizontal dashed lines mark the ±1.5 log2FC thresholds. Key proteins are labeled, including Lrp2 showing increased abundance in WT.

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