Small Molecule Targets TMED9 and Promotes Lysosomal Degradation to Reverse Proteinopathy | Zendy

Moran DvelaLevitt | Zendy; Maria KostAlimova | Zendy; Maheswarareddy Emani | Zendy; Eva Kohnert | Zendy; Rebecca F. Thompson | Zendy; Eriene-Heidi Sidhom | Zendy; Ana Rivadeneira | Zendy; Nareh Sahakian | Zendy; Julie Roignot | Zendy; Gregory Papagregoriou | Zendy; Mónica S. Montesinos | Zendy; Abbe R. Clark | Zendy; David C. McKinney | Zendy; Juan Gutierrez | Zendy; Mark J. Roth | Zendy; Lucienne Ronco | Zendy; Esther Elonga | Zendy; Todd A. Carter | Zendy; Andreas Gnirke | Zendy; Michelle Melanson | Zendy; Kate Hartland | Zendy; Nicolas Wieder | Zendy; Jane C.-H. Hsu | Zendy; Constantinos Deltas | Zendy; Rebecca P. Hughey | Zendy; Anthony J. Bleyer | Zendy; Stanislav Kmoch | Zendy; Martina Živná | Zendy; Veronika Barešová | Zendy; Savithri B. Kota | Zendy; Johannes Schlöndorff | Zendy; Myriam Heiman | Zendy; Seth L. Alper | Zendy; Florence F. Wagner | Zendy; Astrid Weins | Zendy; Todd R. Golub | Zendy; Eric S. Lander | Zendy; Anna Greka | Zendy

AI Assistant Blog Pricing

Home ZAIA Blog

Open Access

Small Molecule Targets TMED9 and Promotes Lysosomal Degradation to Reverse Proteinopathy

Author(s) -

Moran DvelaLevitt,

Maria KostAlimova,

Maheswarareddy Emani,

Eva Kohnert,

Rebecca F. Thompson,

Eriene-Heidi Sidhom,

Ana Rivadeneira,

Nareh Sahakian,

Julie Roignot,

Gregory Papagregoriou,

Mónica S. Montesinos,

Abbe R. Clark,

David C. McKinney,

Juan Gutierrez,

Mark J. Roth,

Lucienne Ronco,

Esther Elonga,

Todd A. Carter,

Andreas Gnirke,

Michelle Melanson,

Kate Hartland,

Nicolas Wieder,

Jane C.-H. Hsu,

Constantinos Deltas,

Rebecca P. Hughey,

Anthony J. Bleyer,

Stanislav Kmoch,

Martina Živná,

Veronika Barešová,

Savithri B. Kota,

Johannes Schlöndorff,

Myriam Heiman,

Seth L. Alper,

Florence F. Wagner,

Astrid Weins,

Todd R. Golub,

Eric S. Lander,

Anna Greka

Publication year - 2019

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2019.07.002

Subject(s) - microbiology and biotechnology , biology , muc1 , intracellular , lysosome , receptor , endosome , mucin , biochemistry , enzyme

Intracellular accumulation of misfolded proteins causes toxic proteinopathies, diseases without targeted therapies. Mucin 1 kidney disease (MKD) results from a frameshift mutation in the MUC1 gene (MUC1-fs). Here, we show that MKD is a toxic proteinopathy. Intracellular MUC1-fs accumulation activated the ATF6 unfolded protein response (UPR) branch. We identified BRD4780, a small molecule that clears MUC1-fs from patient cells, from kidneys of knockin mice and from patient kidney organoids. MUC1-fs is trapped in TMED9 cargo receptor-containing vesicles of the early secretory pathway. BRD4780 binds TMED9, releases MUC1-fs, and re-routes it for lysosomal degradation, an effect phenocopied by TMED9 deletion. Our findings reveal BRD4780 as a promising lead for the treatment of MKD and other toxic proteinopathies. Generally, we elucidate a novel mechanism for the entrapment of misfolded proteins by cargo receptors and a strategy for their release and anterograde trafficking to the lysosome.

The content you want is available to Zendy users.

Already have an account? Click here to sign in.

Having issues? You can contact us here

Accelerating Research