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Ancestral roles of the Fam20C family of secreted protein kinases revealed in C. elegans.


ABSTRACT: Fam20C is a secreted protein kinase mutated in Raine syndrome, a human skeletal disorder. In vertebrates, bone and enamel proteins are major Fam20C substrates. However, Fam20 kinases are conserved in invertebrates lacking bone and enamel, suggesting other ancestral functions. We show that FAMK-1, the Caenorhabditis elegans Fam20C orthologue, contributes to fertility, embryogenesis, and development. These functions are not fulfilled when FAMK-1 is retained in the early secretory pathway. During embryogenesis, FAMK-1 maintains intercellular partitions and prevents multinucleation; notably, temperature elevation or lowering cortical stiffness reduces requirement for FAMK-1 in these contexts. FAMK-1 is expressed in multiple adult tissues that undergo repeated mechanical strain, and selective expression in the spermatheca restores fertility. Informatic, biochemical, and functional analysis implicate lectins as FAMK-1 substrates. These findings suggest that FAMK-1 phosphorylation of substrates, including lectins, in the late secretory pathway is important in embryonic and tissue contexts where cells are subjected to mechanical strain.

SUBMITTER: Gerson-Gurwitz A 

PROVIDER: S-EPMC6829671 | biostudies-literature | 2019 Nov

REPOSITORIES: biostudies-literature

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Ancestral roles of the Fam20C family of secreted protein kinases revealed in <i>C. elegans</i>.

Gerson-Gurwitz Adina A   Worby Carolyn A CA   Lee Kian-Yong KY   Khaliullin Renat R   Bouffard Jeff J   Cheerambathur Dhanya D   Oegema Karen K   Cram Erin J EJ   Dixon Jack E JE   Desai Arshad A  

The Journal of cell biology 20190920 11


Fam20C is a secreted protein kinase mutated in Raine syndrome, a human skeletal disorder. In vertebrates, bone and enamel proteins are major Fam20C substrates. However, Fam20 kinases are conserved in invertebrates lacking bone and enamel, suggesting other ancestral functions. We show that FAMK-1, the <i>Caenorhabditis elegans</i> Fam20C orthologue, contributes to fertility, embryogenesis, and development. These functions are not fulfilled when FAMK-1 is retained in the early secretory pathway. D  ...[more]

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