Characterization of the Physical Interaction of Gli Proteins with SUFU Proteins

Dunaeva, Marina; Michelson, Piret; Kogerman, Priit; Toftgárd, Rune

doi:10.1074/jbc.m209492200

Cited by 162 publications

(174 citation statements)

References 35 publications

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“…4). SUFU-DsRed was observed predominantly in the cytoplasm and to a lesser degree in the nucleus when expressed alone, in agreement with previous reports (22,26). However, SUFU was largely (Ͼ80% of cells) localized to the nucleus in cells in which SUFU was co-expressed with Glis3 (Fig.…”

Section: The Region Of Glis3 Between Amino Acids 296 and 354 Is Highlsupporting

confidence: 81%

“…A previous report showed that protein-protein interactions by SUFU involve recognition of an SYGH motif (22). Interestingly, Glis3 contains a similar motif, VYGH, located between amino acids 348 and 351 within the conserved region described above ( Fig.…”

Section: The Region Of Glis3 Between Amino Acids 296 and 354 Is Highlmentioning

confidence: 99%

“…The plasmids p3xFlag-CMV-Glis3⌬N34, -65, -155, -288, -295, -319, -333, -355, and -388 and p3xFlag-CMV-Glis3⌬C389 were generated by PCR amplification of the respective fragments and inserting them into the EcoRI and BamHI restriction sites of the p3xFlag-CMV10 expression vector (Sigma). pCMV-Myc-SUFU was kindly provided by Rune Toftgard (Karolinska Institutet, Huddinge, Sweden) (22). The mIP(Ϫ696)-Luc luciferase reporter construct was described previously (6).…”

Section: Cells and Growth Conditions-rat Insulinoma Ins-1832/13mentioning

confidence: 99%

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Modulation of the Transactivation Function and Stability of Krüppel-like Zinc Finger Protein Gli-similar 3 (Glis3) by Suppressor of Fused

ZeRuth

Yang

Jetten

2011

Journal of Biological Chemistry

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Glis3 is a member of the Glis subfamily of Krüppel-like zinc finger transcription factors. Recently, Glis3 has been linked to both type I and type II diabetes and shown to positively regulate insulin gene expression. In this study, we have identified a region within the N terminus of Glis3 that shares high levels of homology with the Cubitus interruptus (Ci)/Gli family of proteins. We demonstrated that Glis3 interacts with Suppressor of Fused (SUFU), which involves a VYGHF motif located within this conserved region. We further showed that SUFU is able to inhibit the activation of the insulin promoter by Glis3 but not the activation by a Glis3 mutant deficient in its ability to bind SUFU, suggesting that the inhibitory effect is dependent on the interaction between the two proteins. Exogenous SUFU did not affect the nuclear localization of Glis3; however, Glis3 promoted the nuclear accumulation of SUFU. Additionally, we demonstrated that SUFU stabilizes Glis3 in part by antagonizing the Glis3 association with a Cullin 3-based E3 ubiquitin ligase that promotes the ubiquitination and degradation of Glis3. This is the first reported instance of Glis3 interacting with SUFU and suggests a novel role for SUFU in the modulation of Glis3 signaling. Given the critical role of Glis3 in pancreatic ␤-cell generation and maintenance, the elevated Glis3 expression in several cancers, and the established role of SUFU as a tumor suppressor, these data provide further insight into Glis3 regulation and its function in development and disease.

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Section: The Region Of Glis3 Between Amino Acids 296 and 354 Is Highlsupporting

confidence: 81%

Section: The Region Of Glis3 Between Amino Acids 296 and 354 Is Highlmentioning

confidence: 99%

Section: Cells and Growth Conditions-rat Insulinoma Ins-1832/13mentioning

confidence: 99%

See 1 more Smart Citation

Modulation of the Transactivation Function and Stability of Krüppel-like Zinc Finger Protein Gli-similar 3 (Glis3) by Suppressor of Fused

ZeRuth

Yang

Jetten

2011

Journal of Biological Chemistry

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“…Su(fu) tethers both the activator and repressor forms of Gli in the cytoplasm, resulting in downregulation of both activities 6,16 . Inhibition of Su(fu) by miR-214 in adaxial cells, which experience high amounts of Hedgehog signaling, allows maximal activation of Gli-mediated transcription (Fig.…”

Section: Nih Public Accessmentioning

confidence: 99%

Zebrafish miR-214 modulates Hedgehog signaling to specify muscle cell fate

et al. 2007

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Numerous microRNAs (miRNAs) have been discovered in the genomes of higher eukaryotes, and functional studies indicate that they are important during development. However, little is known concerning the function of individual miRNAs. We approached this problem in zebrafish by combining identification of miRNA expression, functional analyses and experimental validation of potential targets. We show that miR-214 is expressed during early segmentation stages in somites and that varying its expression alters the expression of genes regulated by Hedgehog signaling. Inhibition of miR-214 results in a reduction or loss of slow-muscle cell types. We show that su(fu) mRNA, encoding a negative regulator of Hedgehog signaling, is targeted by miR-214. Through regulation of su(fu), miR-214 enables precise specification of muscle cell types by sharpening cellular responses to Hedgehog.Multicellular organisms such as zebrafish use miRNAs to regulate gene expression in a tissue-or time-specific manner, guiding developmental decisions 1,2 . To identify target genes regulated by miRNAs, we first developed a microarray to examine temporal miRNA expression patterns during the first 5 d post-fertilization (dpf) of zebrafish development (unpublished data). To understand the function of a subset of these miRNAs, we performed loss-of-function experiments using antisense morpholino oligonucleotides complementary to mature miRNAs. Morpholinos have been used extensively in zebrafish as antisense inhibitors of mRNA translation and splicing 3 but are also capable of interfering with miRNA function ( Supplementary Fig. 1 online). Injection of morpholinos designed to block the function of miR-214 (214 MO ) yielded embryos with U-shaped somites at 1dpf (1 dpf) ( Fig. 1a-d). Expression of miR-214 begins during early somitogenesis and continues throughout embryogenesis (Fig. 1e). In situ hybridization showed that miR-214 is expressed in somites at 1 dpf ( Fig. 1f,g; see also ref. 2).Somites are transient embryonic structures derived from paraxial mesoderm that give rise to muscle and skeleton 4 . Presomitic mesodermal cells immediately adjacent to the notochord (adaxial cells) are highly influenced by Hedgehog and give rise to the slow-twitch muscle lineage 5,6 . Lateral presomitic cells give rise to fast-twitch muscle fibers and experience little stimulation by Hedgehog initially, whereas later-developing fast-muscle fates are dependent on Hedgehog signaling 7 . There are two slow muscle cell types that require precise COMPETING INTERESTS STATEMENTThe authors declare that they have no competing financial interests. Hedgehog signals for proper development: superficial slow fibers (SSFs), which migrate from the midline to populate the surface of the myotome, and slow muscle pioneers that remain close to the midline 6,8 . Muscle pioneers require higher levels of and longer exposure to Hedgehog for proper specification than SSFs and can be distinguished from slow muscle fibers by the expression of the transcription factor Engrailed (Eng) 4,...

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“…Sufu (Suppressor of fused) acts as a central negative regulator of Hh signaling by sequestering the Gli transcription factors in an inactive complex (Kogerman et al , 1999; Dunaeva et al , 2003; Merchant et al , 2004; Humke et al , 2010). Sufu deletion in mice leads to the continuous activation of Hh signal and embryonic lethality at day 9.5 (Cooper et al , 2005; Svard et al , 2006), underscoring the essential role of Sufu for proper development.…”

Section: Introductionmentioning

confidence: 99%

SCF (Fbxl17) ubiquitylation of Sufu regulates Hedgehog signaling and medulloblastoma development

et al. 2016

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Skp1‐Cul1‐F‐box protein (SCF) ubiquitin ligases direct cell survival decisions by controlling protein ubiquitylation and degradation. Sufu (Suppressor of fused) is a central regulator of Hh (Hedgehog) signaling and acts as a tumor suppressor by maintaining the Gli (Glioma‐associated oncogene homolog) transcription factors inactive. Although Sufu has a pivotal role in Hh signaling, the players involved in controlling Sufu levels and their role in tumor growth are unknown. Here, we show that Fbxl17 (F‐box and leucine‐rich repeat protein 17) targets Sufu for proteolysis in the nucleus. The ubiquitylation of Sufu, mediated by Fbxl17, allows the release of Gli1 from Sufu for proper Hh signal transduction. Depletion of Fbxl17 leads to defective Hh signaling associated with an impaired cancer cell proliferation and medulloblastoma tumor growth. Furthermore, we identify a mutation in Sufu, occurring in medulloblastoma of patients with Gorlin syndrome, which increases Sufu turnover through Fbxl17‐mediated polyubiquitylation and leads to a sustained Hh signaling activation. In summary, our findings reveal Fbxl17 as a novel regulator of Hh pathway and highlight the perturbation of the Fbxl17–Sufu axis in the pathogenesis of medulloblastoma.

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Characterization of the Physical Interaction of Gli Proteins with SUFU Proteins

Cited by 162 publications

References 35 publications

Modulation of the Transactivation Function and Stability of Krüppel-like Zinc Finger Protein Gli-similar 3 (Glis3) by Suppressor of Fused

Modulation of the Transactivation Function and Stability of Krüppel-like Zinc Finger Protein Gli-similar 3 (Glis3) by Suppressor of Fused

Zebrafish miR-214 modulates Hedgehog signaling to specify muscle cell fate

SCF (Fbxl17) ubiquitylation of Sufu regulates Hedgehog signaling and medulloblastoma development

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