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Abstract
BackgroundTight control of endosome trafficking is essential for the generation of a normally patterned embryo. Recent studies have found that VPS50 is a key ingredient in EARP which is required for recycling of internalized TfRs to the cell surface and dense-core vesicle maturation. However, the role of VPS50 in embryogenesis and human physiology are poorly understood.ResultsWe identified a rare missense heterozygous VPS50 mutation (p. Gly169Val) in NTDs by high-throughput sequencing. In vitro functional analysis demonstrated that the p. Gly169Val was a loss-of-function mutation, delaying transferrin recycling and altering its interaction with VPS53. Using WISH during zebrafish embryogenesis, we demonstrated that vps50 gene was expressed throughout the early embryo, especially in the head. Abnormal body axis phenotypes were observed in those vps50 knock-down zebrafishes. Further rescue study in zebrafish suggested that the mutation displayed loss-of-function effects comparing with wild-type VPS50.ConclusionsThese findings thus demonstrated that the functional mutations in VPS50 might contribute to neurodevelopmental disorder and highlighted the critical importance of VPS50 function in cellular and organismal physiology.
Highlights
Tight control of endosome trafficking is essential for the generation of a normally patterned embryo
VPS50 is mainly associated with the cytosolic face of endosomes marked by the small GTPase Rab4, and promotes the recycling of Transferrin receptors (TfRs) from endosomes to the plasma membrane
The functions of Endosome-associated recycling protein (EARP) in TfRs transport are essential for the viability of mammalian organisms, as demonstrated by the embryonic lethality of mice with homozygous null mutations in this pathway, (2019) 12:8 showing abnormalities in the nervous system such as kinked neural tubes [10,11,12]
Summary
Tight control of endosome trafficking is essential for the generation of a normally patterned embryo. Endosomes, mediating transport of intracellular and extracellular cargos, are important functional elements in the organization of intracellular membrane dynamics [1]. Recent studies show that EARP is involved in recycling cargos from endosomes back to plasma membrane. It shares three identical proteins with GARP: Vps, Vps and Vps53 [7], but uses VPS50 instead of VPS54 as the fourth subunit [8, 9]. This change determines differential localization of EARP to recycling endosomes and GARP to the Golgi complex. The functions of EARP in TfRs transport are essential for the viability of mammalian organisms, as demonstrated by the embryonic lethality of mice with homozygous null mutations in this pathway,
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