Two functional forms of the Meckel-Gruber syndrome protein TMEM67 generated by proteolytic cleavage by ADAMTS9 mediate Wnt signaling and ciliogenesis.

Ahmed, M.; Fischer, S.; Robert, KL.; Lange, KI.; Stuck, MW.; Best, S.; Johnson, CA.; Pazour, GJ.; Blacque, OE.; Nandadasa, S.

Two functional forms of the Meckel-Gruber syndrome protein TMEM67 generated by proteolytic cleavage by ADAMTS9 mediate Wnt signaling and ciliogenesis.

All Authors

Ahmed, M.

Fischer, S.

Robert, KL.

Lange, KI.

Stuck, MW.

Best, S.

Johnson, CA.

Pazour, GJ.

Blacque, OE.

Nandadasa, S.

LTHT Author

Best, Sunayna

LTHT Department

Clinical Genetics

Publication Date

2024

Item Type

Journal Article
Preprint

Abstract

TMEM67 mutations are the major cause of Meckel-Gruber syndrome. TMEM67 is involved in both ciliary transition zone assembly, and non-canonical Wnt signaling mediated by its extracellular domain. How TMEM67 performs these two separate functions is not known. We identify a novel cleavage motif in the extracellular domain of TMEM67 cleaved by the extracellular matrix metalloproteinase ADAMTS9. This cleavage regulates the abundance of two functional forms: A C-terminal portion which localizes to the ciliary transition zone regulating ciliogenesis, and a non-cleaved form which regulates Wnt signaling. By characterizing three TMEM67 ciliopathy patient variants within the cleavage motif utilizing mammalian cell culture and C. elegans, we show the cleavage motif is essential for cilia structure and function, highlighting its clinical significance. We generated a novel non-cleavable TMEM67 mouse model which develop severe ciliopathies phenocopying Tmem67 -/- mice, but in contrast, undergo normal Wnt signaling, substantiating the existence of two functional forms of TMEM67.