Disrupted uromodulin trafficking is rescued by targeting TMED cargo receptors
Silvana Bazua-Valenti, Matthew R. Brown, Jason Zavras, Magdalena Riedl Khursigara, Elizabeth Grinkevich, Eriene-Heidi Sidhom, Keith H. Keller, Matthew Racette, Moran Dvela-Levitt, Catarina Quintanova, Hasan Demirci, Sebastian Sewerin, Alissa C. Goss, John Lin, Hyery Yoo, Alvaro S. Vaca Jacome, Malvina Papanastasiou, Namrata Udeshi, Steven A. Carr, Nina Himmerkus, Markus Bleich, Kerim Mutig, Sebastian Bachmann, Jan Halbritter, Stanislav Kmoch, Martina Živná, Kendrah Kidd, Anthony J. Bleyer, Astrid Weins, Seth L. Alper, Jillian L. Shaw, Maria Kost-Alimova, Juan Lorenzo B. Pablo, Anna Greka
Silvana Bazua-Valenti, Matthew R. Brown, Jason Zavras, Magdalena Riedl Khursigara, Elizabeth Grinkevich, Eriene-Heidi Sidhom, Keith H. Keller, Matthew Racette, Moran Dvela-Levitt, Catarina Quintanova, Hasan Demirci, Sebastian Sewerin, Alissa C. Goss, John Lin, Hyery Yoo, Alvaro S. Vaca Jacome, Malvina Papanastasiou, Namrata Udeshi, Steven A. Carr, Nina Himmerkus, Markus Bleich, Kerim Mutig, Sebastian Bachmann, Jan Halbritter, Stanislav Kmoch, Martina Živná, Kendrah Kidd, Anthony J. Bleyer, Astrid Weins, Seth L. Alper, Jillian L. Shaw, Maria Kost-Alimova, Juan Lorenzo B. Pablo, Anna Greka
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Research Article Nephrology

Disrupted uromodulin trafficking is rescued by targeting TMED cargo receptors

Abstract

The trafficking dynamics of uromodulin (UMOD), the most abundant protein in human urine, play a critical role in the pathogenesis of kidney disease. Monoallelic mutations in the UMOD gene cause autosomal dominant tubulointerstitial kidney disease (ADTKD-UMOD), an incurable genetic disorder that leads to kidney failure. The disease is caused by the intracellular entrapment of mutant UMOD in kidney epithelial cells, but the precise mechanisms mediating disrupted UMOD trafficking remain elusive. Here, we report that transmembrane Emp24 protein transport domain–containing (TMED) cargo receptors TMED2, TMED9, and TMED10 bind UMOD and regulate its trafficking along the secretory pathway. Pharmacological targeting of TMEDs in cells, in human kidney organoids derived from patients with ADTKD-UMOD, and in mutant-UMOD-knockin mice reduced intracellular accumulation of mutant UMOD and restored trafficking and localization of UMOD to the apical plasma membrane. In vivo, the TMED-targeted small molecule also mitigated ER stress and markers of kidney damage and fibrosis. Our work reveals TMED-targeting small molecules as a promising therapeutic strategy for kidney proteinopathies.

Authors

Silvana Bazua-Valenti, Matthew R. Brown, Jason Zavras, Magdalena Riedl Khursigara, Elizabeth Grinkevich, Eriene-Heidi Sidhom, Keith H. Keller, Matthew Racette, Moran Dvela-Levitt, Catarina Quintanova, Hasan Demirci, Sebastian Sewerin, Alissa C. Goss, John Lin, Hyery Yoo, Alvaro S. Vaca Jacome, Malvina Papanastasiou, Namrata Udeshi, Steven A. Carr, Nina Himmerkus, Markus Bleich, Kerim Mutig, Sebastian Bachmann, Jan Halbritter, Stanislav Kmoch, Martina Živná, Kendrah Kidd, Anthony J. Bleyer, Astrid Weins, Seth L. Alper, Jillian L. Shaw, Maria Kost-Alimova, Juan Lorenzo B. Pablo, Anna Greka

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Figure 4

Targeting TMEDs restores WT UMOD localization to the apical epithelial plasma membrane.

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Targeting TMEDs restores WT UMOD localization to the apical epithelial p...
(A) Immunofluorescence images of kidney sections from heterozygous knockin (UMOD+/C125R) mice treated with vehicle or BRD4780 (30 mg/kg) for 28 days, stained for UMOD (red) and the apical membrane marker MUC1 (cyan). Scale bars: 25 μm. (B) Quantitation of UMOD distribution in MUC1+ cells within the cortex, expressed as the UMOD apical ratio (UMOD in MUC1 area/UMOD in intracellular area); analyzed via 2-way ANOVA with Bonferroni’s post hoc test. Data shown as mean ± SD, with each data point representing 1 mouse. (C) Immunofluorescence of single isolated TAL tubules from UMOD+/C125R mice treated as above, stained for UMOD (red), TMED9 (cyan), and with DAPI (gray). Scale bars: 10 μm. White arrows indicate the tubular lumen, and the dotted lines represent the basolateral membrane.