A Putative Src Homology 3 Domain Binding Motif but Not the C-terminal Dystrophin WW Domain Binding Motif Is Required for Dystroglycan Function in Cellular Polarity in Drosophila

Yatsenko, Andriy S.; Gray, Elizabeth; Shcherbata, Halyna R.; Patterson, Larissa B.; Sood, Vanita D.; Kucherenko, Mariya M.; Baker, David; Ruohola‐Baker, Hannele

doi:10.1074/jbc.m608800200

Cited by 23 publications

(34 citation statements)

References 50 publications

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“…One copy of the mRpL34 transgene rescues this phenotype completely (Figure 3D). This result was surprising since it has been reported that expression of a Dg transgene also rescues the Dg 248 polarity phenotype (Yatsenko et al., 2007). We therefore reproduced this experiment and confirmed that Dg expression is sufficient to suppress the polarity defects associated with Dg 248 (Figure 3E).…”

Section: Resultsmentioning

confidence: 94%

RETRACTED: Dystroglycan and Perlecan Provide a Basal Cue Required for Epithelial Polarity during Energetic Stress

Mirouse¹,

Christoforou²,

Fritsch³

et al. 2009

Developmental Cell

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SummaryDystroglycan localizes to the basal domain of epithelial cells and has been reported to play a role in apical-basal polarity. Here, we show that Dystroglycan null mutant follicle cells have normal apical-basal polarity, but lose the planar polarity of their basal actin stress fibers, a phenotype it shares with Dystrophin mutants. However, unlike Dystrophin mutants, mutants in Dystroglycan or in its extracellular matrix ligand Perlecan lose polarity under energetic stress. The maintenance of epithelial polarity under energetic stress requires the activation of Myosin II by the cellular energy sensor AMPK. Starved Dystroglycan or Perlecan null cells activate AMPK normally, but do not activate Myosin II. Thus, Perlecan signaling through Dystroglycan may determine where Myosin II can be activated by AMPK, thereby providing the basal polarity cue for the low-energy epithelial polarity pathway. Since Dystroglycan is often downregulated in tumors, loss of this pathway may play a role in cancer progression.

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Section: Resultsmentioning

confidence: 94%

RETRACTED: Dystroglycan and Perlecan Provide a Basal Cue Required for Epithelial Polarity during Energetic Stress

Mirouse¹,

Christoforou²,

Fritsch³

et al. 2009

Developmental Cell

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“…Although no other extracellular partners have been identified so far besides the C-terminal domain of α-DG, possible interactions of the β-DG ectodomain with other extracellular proteins cannot be ruled out. In line with this dynamic view of the DG complex is the observation that in Drosophila also the affinity between the cytodomain of β-DG and dystrophin peptides is in the micromolar range (Yatsenko et al, 2007).…”

Section: Maturation Of the Dg Precursor: The α/β Interface Puzzlementioning

confidence: 73%

Functional diversity of dystroglycan

et al. 2009

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“…A group of genes, including POSH , UbcD10 , and pie , came to our interest. POSH and UbcD10 , respectively, encode for Drosophila E3 and E2 ubiquitin ligase (Figure 2B) (Tsuda et al 2005; Yatsenko et al 2007); whereas pie , with predicted RING/PHD domains, shares highly conserved sequence with a human E3 ubiquitin ligase G2E3 (Shi et al 2003; Brooks et al 2008) The authors of a recent study have demonstrated that another ubiquitin-conjugating enzyme, Effete, maintains Drosophila GSCs through regulating cyclin A degradation (Chen et al 2009). The finding of this group of ubiquitin ligase genes to be essential for GSC maintenance suggests a potentially conserved role of ubiquitin-mediated proteolysis in stem cell self-renewal and tissue homeostasis.…”

Section: Resultsmentioning

confidence: 99%

Loss-of-Function Screen Reveals Novel Regulators Required forDrosophilaGermline Stem Cell Self-Renewal

Xing

Kurtz

Thuparani

et al. 2012

G3 Genes|Genomes|Genetics

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The germline stem cells (GSCs) of Drosophila melanogaster ovary provide an excellent model system to study the molecular mechanisms of stem cell self-renewal. To reveal novel factors required for Drosophila female GSC maintenance and/or division, we performed a loss-of-function screen in GSCs by using a collection of P-element–induced alleles of essential genes. Mutations in genes of various functional groups were identified to cause defects in GSC self-renewal. Here we report that a group of mutations affecting various ubiquitin-conjugating enzymes cause significant GSCs loss, including Plenty of SH3s (POSH), Ubiquitin-conjugating enzyme 10 (UbcD10), and pineapple eye (pie). Ubiquitin-mediated protein degradation plays a variety of roles in the regulation of many developmental processes, including mediating stem cell division through degradation of cell cycle regulators. We demonstrated that pie, sharing highly conserved RING domains with human E3 ubiquitin ligase G2E3 that are critical for early embryonic development, is specifically required for GSC maintenance, possibly through regulation of bone morphogenetic protein signaling pathway. Despite the previously reported role in imaginal disc cell survival, pie loss-of-function induced GSC loss is not to the result of caspase-involved cell death. Further efforts are needed to elucidate the functions of ubiquitin ligases in GSC maintenance, which will ultimately contribute to a better understanding of how the ubiquitin-conjugating enzymes regulate stem cell biology in mammalian systems.

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A Putative Src Homology 3 Domain Binding Motif but Not the C-terminal Dystrophin WW Domain Binding Motif Is Required for Dystroglycan Function in Cellular Polarity in Drosophila

Cited by 23 publications

References 50 publications

RETRACTED: Dystroglycan and Perlecan Provide a Basal Cue Required for Epithelial Polarity during Energetic Stress

RETRACTED: Dystroglycan and Perlecan Provide a Basal Cue Required for Epithelial Polarity during Energetic Stress

Functional diversity of dystroglycan

Loss-of-Function Screen Reveals Novel Regulators Required forDrosophilaGermline Stem Cell Self-Renewal

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