Defective erythropoiesis in a mouse model of reduced Fbxo7 expression due to decreased p27 expression

Seminars in Cancer Biology

Laman

2016

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F-box proteins (FBP) are the substrate specifying subunit of Skp1-Cul1-FBP (SCF)-type E3 ubiquitin ligases and are responsible for directing the ubiquitination of numerous proteins essential for cellular function. Due to their ability to regulate the expression and activity of oncogenes and tumour suppressor genes, FBPs themselves play important roles in cancer development and progression. In this review, we provide a comprehensive overview of FBPs and their targets in relation to their interaction with the hallmarks of cancer cell biology, including the regulation of proliferation, epigenetics, migration and invasion, metabolism, angiogenesis, cell death and DNA damage responses. Each cancer hallmark is revealed to have multiple FBPs which converge on common signalling hubs or response pathways. We also highlight the complex regulatory interplay between SCF-type ligases and other ubiquitin ligases. We suggest six highly interconnected FBPs affecting multiple cancer hallmarks, which may prove sensible candidates for therapeutic intervention.

Section: Sustaining Proliferation By Blocking Differentiationmentioning

confidence: 96%

F-box protein interactions with the hallmark pathways in cancer

Seminars in Cancer Biology

Laman

2016

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“…To determine functional roles in vivo , we created Fbxo7 null mice, first by crossing Fbxo7 LacZ mice with ActB:FLPe animals , to generate a ‘floxed’ ( Fbxo7 fl ) allele, with LoxP sites flanking either side of exon 4 (Figure A), and subsequent breeding to Zp3 Cre mice , for germline excision ( Fbxo7 − ). Fbxo7 −/+ offspring were backcrossed with WT C57/BL6J mice and bred to homozygosity.…”

Section: Resultsmentioning

confidence: 99%

“…To generate a mouse in which Fbxo7 was lost specifically in dopaminergic neurons, Fbxo7 fl mice were bred with Dat Cre ROSA26 ‐stop‐ YFP animals, which express Cre from the dopamine transporter ( Dat ) promoter . Since our previous studies detected no phenotypes in mice heterozygous for Fbxo7 , we analysed Dat Cre Fbxo7 −/fl animals, which were systemically heterozygous for Fbxo7 expression, in addition to the loss of Fbxo7 expression in dopaminergic cells. Dat +/+ Fbxo7 −/+ and Dat Cre Fbxo7 −/+ mice were used as controls.…”

Section: Resultsmentioning

confidence: 99%

Loss of FBXO7 results in a Parkinson's‐like dopaminergic degeneration via an RPL23–MDM2–TP53 pathway

Stott

The Journal of Pathology

Rowicka

et al. 2019

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The field of Parkinson's disease research has been impeded by the absence of animal models that clearly phenocopy the features of this neurodegenerative condition. Mutations in FBXO7/PARK15 are associated with both sporadic Parkinson's disease and a severe form of autosomal recessive early‐onset Parkinsonism. Here we report that conditional deletion of Fbxo7 in the midbrain dopamine neurons results in an early reduction in striatal dopamine levels, together with a slow, progressive loss of midbrain dopamine neurons and onset of locomotor defects. Unexpectedly, a later compensatory response led to a near‐full restoration of dopaminergic fibre innervation in the striatum, but nigral cell loss was irreversible. Mechanistically, there was increased expression in the dopamine neurons of FBXO7‐interacting protein, RPL23, which is a sensor of ribosomal stress that inhibits MDM2, the negative regulator of p53. A corresponding activated p53 transcriptional signature biased towards pro‐apoptotic genes was also observed. These data suggest that the neuroprotective role of FBXO7 involves its suppression of the RPL23–MDM2–p53 axis that promotes cell death in dopaminergic midbrain neurons. © 2019 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of Pathological Society of Great Britain and Ireland.

“…In the course of our investigations into the physiological functions of mammalian Fbxo7, we generated mice that are either heterozygous or homozygous for an allele of Fbxo7 containing a LacZ insertion between exons 3 and 4 of Fbxo7 Randle et al, 2015). This insertion severely disrupts expression of all Fbxo7 isoforms but does not completely abolish it (Randle et al, 2015), and thus the phenotype(s) of the hetero-and homozygous animals can respectively be ascribed to moderate or severe under-expression of Fbxo7. In maintaining the colony of LacZ-transgenic animals, we observed that homozygous Fbxo7 LacZ/LacZ males never sired any offspring, while heterozygous males and all genotypes of female were able to produce litters.…”

Section: Resultsmentioning

confidence: 99%

“…interactions (Kuiken et al, 2012), and in cell cycle regulation via Cdk6 activation and p27 stabilisation Randle et al, 2015;Meziane et al, 2011;Laman, 2006).…”

Section: Introductionmentioning

confidence: 99%

A conserved requirement forFbxo7during male germ cell cytoplasmic remodelling

Rathje

Skinner

et al. 2019

Preprint

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statementFbxo7 is the substrate-recognition subunit of an SCF-type ubiquitin E3 ligase complex. It has physiologically important functions in regulating mitophagy, proteasome activity and the cell cycle in multiple cell types, like neurons, lymphocytes and erythrocytes. Here we show that in addition to the previously-known Parkinsonian and haematopoietic phenotypes, Fbxo7deficient male mice are completely sterile. In these males, despite successful meiosis, nuclear elongation and eviction of histones from chromatin, the developing spermatids are phagocytosed by Sertoli cells during late spermiogenesis, as the cells undergo cytoplasmic remodelling. Surprisingly, despite the loss of all germ cells, there was no evidence of the symplast formation and cell sloughing that is typically associated with spermatid death in other mouse sterility models, suggesting that novel cell death and/or cell disposal mechanisms may be engaged in Fbxo7-deficient males. Mutation of the Drosophila Fbxo7 orthologue, nutcracker (ntc) was previously shown to cause sterility at a similar stage of germ cell development, indicating that the requirement for Fbxo7 is conserved.The ntc phenotype was attributed to proteasome mis-regulation via an interaction with the proteasome regulator, DmPI31. Our data suggest rather that in mice, the requirement for Fbxo7 is either independent of its interaction with PI31, or relates specifically to cytoplasmic proteasome activity during spermiogenesis.