Sabina Schütz scite author profile

SUMMARY Blood cell formation is classically thought to occur through a hierarchical differentiation process, although recent studies have shown that lineage commitment may occur earlier in hematopoietic stem and progenitor cells (HSPCs). The relevance to human blood diseases and the underlying regulation of these refined models remain poorly understood. By studying a genetic blood disorder, Diamond-Blackfan anemia (DBA), where the majority of mutations affect ribosomal proteins and the erythroid lineage is selectively perturbed, we are able to gain mechanistic insight into how lineage commitment is programmed normally and disrupted in disease. We show that in DBA, the pool of available ribosomes is limited, while ribosome composition remains constant. Surprisingly, this global reduction in ribosome levels more profoundly alters translation of a select subset of transcripts. We show how the reduced translation of select transcripts in HSPCs can impair erythroid lineage commitment, illuminating a regulatory role for ribosome levels in cellular differentiation.

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Endolysosomal sorting of ubiquitylated caveolin-1 is regulated by VCP and UBXD1 and impaired by VCP disease mutations

Ritz

et al. 2011

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The AAA-ATPase VCP/p97 cooperates with distinct cofactors to process ubiquitinated proteins in different cellular pathways 1–3. VCP missense mutations cause a systemic degenerative disease in humans, but the molecular pathogenesis is unclear 4, 5. We used an unbiased mass spectrometry approach and identified a VCP complex with the UBXD1 cofactor, which binds the plasma membrane protein caveolin-1 (Cav1) and whose formation is specifically disrupted by disease-associated mutations. We show that VCP-UBXD1 targets mono-ubiquitinated Cav1 in SDS-resistant high molecular weight complexes on endosomes, which are en route to degradation in endolysosomes 6. Expression of VCP mutant proteins, chemical inhibition of VCP, or siRNA-mediated depletion of UBXD1 leads to a block of Cav1 transport at the limiting membrane of enlarged endosomes in cultured cells. In patient muscle, muscle-specific Caveolin-3 (Cav3) accumulates in sarcoplasmic pools and specifically delocalises from the sarcolemma. These results extend the cellular functions of VCP to mediating sorting of ubiquitinated cargo in the endocytic pathway and suggest that impaired trafficking of caveolin may contribute to the pathogenesis in individuals with VCP mutations.

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A RanGTP-independent mechanism allows ribosomal protein nuclear import for ribosome assembly

et al. 2014

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Within a single generation time a growing yeast cell imports ∼14 million ribosomal proteins (r-proteins) into the nucleus for ribosome production. After import, it is unclear how these intrinsically unstable and aggregation-prone proteins are targeted to the ribosome assembly site in the nucleolus. Here, we report the discovery of a conserved nuclear carrier Tsr2 that coordinates transfer of the r-protein eS26 to the earliest assembling pre-ribosome, the 90S. In vitro studies revealed that Tsr2 efficiently dissociates importin:eS26 complexes via an atypical RanGTP-independent mechanism that terminates the import process. Subsequently, Tsr2 binds the released eS26, shields it from proteolysis, and ensures its safe delivery to the 90S pre-ribosome. We anticipate similar carriers—termed here escortins—to securely connect the nuclear import machinery with pathways that deposit r-proteins onto developing pre-ribosomal particles.DOI: http://dx.doi.org/10.7554/eLife.03473.001

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Sabina Schütz

Ribosome Levels Selectively Regulate Translation and Lineage Commitment in Human Hematopoiesis

Endolysosomal sorting of ubiquitylated caveolin-1 is regulated by VCP and UBXD1 and impaired by VCP disease mutations

A RanGTP-independent mechanism allows ribosomal protein nuclear import for ribosome assembly

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