2008
DOI: 10.1172/jci33764
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Mitotic spindle destabilization and genomic instability in Shwachman-Diamond syndrome

Abstract: Deficiencies in the SBDS gene result in Shwachman-Diamond syndrome (SDS), an inherited bone marrow failure syndrome associated with leukemia predisposition. SBDS encodes a highly conserved protein previously implicated in ribosome biogenesis. Using human primary bone marrow stromal cells (BMSCs), lymphoblasts, and skin fibroblasts, we show that SBDS stabilized the mitotic spindle to prevent genomic instability. SBDS colocalized with the mitotic spindle in control primary BMSCs, lymphoblasts, and skin fibroblas… Show more

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Cited by 126 publications
(117 citation statements)
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“…Austin et al 5 demonstrated that the SBDS protein stabilizes the mitotic spindle preventing genomic instability; this observation may suggest that cells with the 258-iso7 are less prone to develop additional chromosome abnormalities, which in turn may lead to MDS/AML, in keeping with the observation reviewed above that the i(7)(q10) was rarely seen in SDS patients with MDS/AML.…”
Section: Discussionmentioning
confidence: 55%
See 1 more Smart Citation
“…Austin et al 5 demonstrated that the SBDS protein stabilizes the mitotic spindle preventing genomic instability; this observation may suggest that cells with the 258-iso7 are less prone to develop additional chromosome abnormalities, which in turn may lead to MDS/AML, in keeping with the observation reviewed above that the i(7)(q10) was rarely seen in SDS patients with MDS/AML.…”
Section: Discussionmentioning
confidence: 55%
“…This protein was shown to be relevant for ribosome biogenesis and, more recently, also for stabilization of the mitotic spindle. 5 A reduced but detectable quantity of the SBDS protein was shown to be present in fibroblasts of two SDS patients, this finding suggesting that the mutation found in these two cases, namely c.258 þ 2T4C, may lead to the presence of a small amount of alternatively spliced SBDS mRNA, encoding a functional protein. 6 Recently, Nicolis et al 7 demonstrated that wild-type (wt) mRNA can be found in patients carrying this mutation.…”
Section: Introductionmentioning
confidence: 87%
“…44 Although these findings provide evidence for a role of SBDS in ribosome biogenesis, SBDS is a multifunctional protein, and nonribosomal activities may play a dominant role in the clinical phenotype. In particular, SBDS has been shown to have a role in stabilizing the mitotic spindle, 46,47 which might indicate a role for SBDS in proliferation and/or chromosome segregation, thereby contributing to chromosomal instability and some component of bone marrow failure.…”
Section: Q؊ Syndromementioning
confidence: 99%
“…Although cosedimentation of human SBDS with free cytoplasmic 60S ribosomal subunits in sucrose gradients (Ganapathi et al 2007) would be consistent with a conserved role for SBDS in 60S subunit maturation, the current model in mammalian cells posits that eIF6 removal is triggered following phosphorylation of Ser 235 by protein kinase C (PKC) and RACK1 (receptor for activated protein C) (Ceci et al 2003). Furthermore, diverse alternate functions for SBDS in mammalian cells have been suggested, including mitotic spindle stabilization (Austin et al 2008), chemotaxis (Wessels et al 2006), Fas ligand-induced apoptosis (Rujkijyanont et al 2008), cellular stress responses (Ball et al 2009), and Rac2-mediated monocyte migration (Leung et al 2010). Thus, despite the prior genetic studies in yeast, the mechanism of eIF6 release in mammalian cells is controversial, biochemical evidence supporting direct catalysis of eIF6 release by SBDS and EFL1 in eukaryotic cells is currently lacking, and the specific function of the SBDS protein, its mode of action, and the molecular mechanism of the cooperative interaction with EFL1 remain obscure.…”
mentioning
confidence: 89%