FBXO7 sensitivity of phenotypic traits elucidated by a hypomorphic allele.

Carmen Ballesteros Reviriego,Mark J Arends,Brendan Doe,David A Goulding,Louise Van Der Weyden,Susana Caetano,Diane Gleeson,Leanne Kane,Gordon Dougan,Emma L Cambridge,Simon Clare,Katherine Harcourt,Anneliese O Speak,Agnieszka Swiatkowska,Edward Ryder,Jacqueline K White,Bushra Abu-Helil,David J Adams

doi:10.1371/journal.pone.0212481

Carmen Ballesteros Reviriego, Mark J Arends + Show 16 more

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https://doi.org/10.1371/journal.pone.0212481

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Abstract

FBXO7 encodes an F box containing protein that interacts with multiple partners to facilitate numerous cellular processes and has a canonical role as part of an SCF E3 ubiquitin ligase complex. Mutation of FBXO7 is responsible for an early onset Parkinsonian pyramidal syndrome and genome-wide association studies have linked variants in FBXO7 to erythroid traits. A putative orthologue in Drosophila, nutcracker, has been shown to regulate the proteasome, and deficiency of nutcracker results in male infertility. Therefore, we reasoned that modulating Fbxo7 levels in a murine model could provide insights into the role of this protein in mammals. We used a targeted gene trap model which retained 4–16% residual gene expression and assessed the sensitivity of phenotypic traits to gene dosage. Fbxo7 hypomorphs showed regenerative anaemia associated with a shorter erythrocyte half-life, and male mice were infertile. Alterations to T cell phenotypes were also observed, which intriguingly were both T cell intrinsic and extrinsic. Hypomorphic mice were also sensitive to infection with Salmonella, succumbing to a normally sublethal challenge. Despite these phenotypes, Fbxo7 hypomorphs were produced at a normal Mendelian ratio with a normal lifespan and no evidence of neurological symptoms. These data suggest that erythrocyte survival, T cell development and spermatogenesis are particularly sensitive to Fbxo7 gene dosage.

Highlights

F box containing proteins form part of SCF E3 ubiquitin ligase complexes in addition to SKP1 and CULLIN
We generated mice that were homozygous for a ‘knockout first targeted’ EUCOMM/KOMP CSD tm1a allele of Fbxo7 (Fbxo7tm1a/tm1a; S1 Fig; [22]) and found there was between 4 and 16% residual Fbxo7 transcript present depending on the tissue tested (S1 Fig), indicating incomplete ablation of gene expression
FBXO7 has been demonstrated to interact with numerous other proteins including SKP1 and CULLIN to form an E3 ubiquitin ligase complex, with Parkin and PINK1 to regulate mitophagy, with CDK6 and p27 to influence cell cycle progression and PI31 to regulate the proteasome

Summary

Introduction

F box containing proteins form part of SCF E3 ubiquitin ligase complexes in addition to SKP1 and CULLIN. Within these complexes the F box subunits are essential for controlling the specificity of the targets proteins for ubiquitination [1]. FBXO7 is one such F box containing protein and within the SCF complex has been demonstrated to regulate ubiquitination of HURP [2], cIAP1 [3] and TRAF2 [4]. In addition to their role in the SCF complex, certain F box proteins can function via additional protein-protein interaction domains.

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