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Literature DB >> 29549166

Wash exhibits context-dependent phenotypes and, along with the WASH regulatory complex, regulates Drosophila oogenesis.

Jeffrey M Verboon¹, Jacob R Decker¹, Mitsutoshi Nakamura¹, Susan M Parkhurst².

Abstract

WASH, a Wiskott-Aldrich syndrome (WAS) family protein, has many cell and developmental roles related to its function as a branched actin nucleation factor. Similar to mammalian WASHC1, which is embryonic lethal, Drosophila Wash was found to be essential for oogenesis and larval development. Recently, however, Drosophila wash was reported to be homozygous viable. Here, we verify that the original wash null allele harbors an unrelated lethal background mutation; however, this unrelated lethal mutation does not contribute to any Wash oogenesis phenotypes. Significantly, we find that: (1) the homozygous wash null allele retains partial lethality, leading to non-Mendelian inheritance; (2) the allele's functions are subject to its specific genetic background; and (3) the homozygous stock rapidly accumulates modifications that allow it to become robust. Together, these results suggest that Wash plays an important role in oogenesis via the WASH regulatory complex. Finally, we show that another WAS family protein, SCAR/WAVE, plays a similar role in oogenesis and that it is upregulated as one of the modifications that allows the wash allele to survive in the homozygous state.

Entities: Disease Gene Species

Keywords: Genetic assimilation; Oogenesis; SCAR/WAVE; WASH; WASH regulatory complex; Wiskott–Aldrich syndrome

Mesh：

Substances：

Year: 2018 PMID： 29549166 PMCID： PMC5963843 DOI： 10.1242/jcs.211573

Source DB: PubMed Journal: J Cell Sci ISSN： 0021-9533 Impact factor: 5.285

65 in total

1. The Arp2/3 activator WASH controls the fission of endosomes through a large multiprotein complex.

Authors: Emmanuel Derivery; Carla Sousa; Jérémie J Gautier; Bérangère Lombard; Damarys Loew; Alexis Gautreau
Journal: Dev Cell Date: 2009-11 Impact factor: 12.270

Review 2. Under lock and key: spatiotemporal regulation of WASP family proteins coordinates separate dynamic cellular processes.

Authors: Lauren E Burianek; Scott H Soderling
Journal: Semin Cell Dev Biol Date: 2013-01-03 Impact factor: 7.727

3. Identification of genes differentially expressed in breast cancer cell line SKBR3: potential identification of new prognostic biomarkers.

Authors: Marianne Leirdal; Mohsen Shadidy; Øystein Røsok; Mouldy Sioud
Journal: Int J Mol Med Date: 2004-08 Impact factor: 4.101

4. WASH inhibits autophagy through suppression of Beclin 1 ubiquitination.

Authors: Pengyan Xia; Shuo Wang; Ying Du; Zhenao Zhao; Lei Shi; Lei Sun; Guanling Huang; Buqing Ye; Chong Li; Zhonghua Dai; Ning Hou; Xuan Cheng; Qingyuan Sun; Lei Li; Xiao Yang; Zusen Fan
Journal: EMBO J Date: 2013-08-23 Impact factor: 11.598

5. Identification of Alzheimer disease-associated variants in genes that regulate retromer function.

Authors: Badri N Vardarajan; Sophia Y Bruesegem; Michael E Harbour; Rivka Inzelberg; Robert Friedland; Peter St George-Hyslop; Matthew N J Seaman; Lindsay A Farrer
Journal: Neurobiol Aging Date: 2012-06-05 Impact factor: 4.673

6. SCAR is a primary regulator of Arp2/3-dependent morphological events in Drosophila.

Authors: Jennifer A Zallen; Yehudit Cohen; Andrew M Hudson; Lynn Cooley; Eric Wieschaus; Eyal D Schejter
Journal: J Cell Biol Date: 2002-02-18 Impact factor: 10.539

7. The hereditary spastic paraplegia protein strumpellin: characterisation in neurons and of the effect of disease mutations on WASH complex assembly and function.

Authors: Caroline Freeman; Matthew N J Seaman; Evan Reid
Journal: Biochim Biophys Acta Date: 2012-10-23

8. Endosomal WASH and exocyst complexes control exocytosis of MT1-MMP at invadopodia.

Authors: Pedro Monteiro; Carine Rossé; Antonio Castro-Castro; Marie Irondelle; Emilie Lagoutte; Perrine Paul-Gilloteaux; Claire Desnos; Etienne Formstecher; François Darchen; David Perrais; Alexis Gautreau; Maud Hertzog; Philippe Chavrier
Journal: J Cell Biol Date: 2013-12-23 Impact factor: 10.539

Wash exhibits context-dependent phenotypes and, along with the WASH regulatory complex, regulates Drosophila oogenesis.

1. The Arp2/3 activator WASH controls the fission of endosomes through a large multiprotein complex.

Review 2. Under lock and key: spatiotemporal regulation of WASP family proteins coordinates separate dynamic cellular processes.

3. Identification of genes differentially expressed in breast cancer cell line SKBR3: potential identification of new prognostic biomarkers.

4. WASH inhibits autophagy through suppression of Beclin 1 ubiquitination.

5. Identification of Alzheimer disease-associated variants in genes that regulate retromer function.

6. SCAR is a primary regulator of Arp2/3-dependent morphological events in Drosophila.

7. The hereditary spastic paraplegia protein strumpellin: characterisation in neurons and of the effect of disease mutations on WASH complex assembly and function.

8. Endosomal WASH and exocyst complexes control exocytosis of MT1-MMP at invadopodia.

9. Retromer binding to FAM21 and the WASH complex is perturbed by the Parkinson disease-linked VPS35(D620N) mutation.

10. WASP family proteins and formins compete in pseudopod- and bleb-based migration.

1. Drosophila Wash and the Wash regulatory complex function in nuclear envelope budding.

2. WASH activation controls endosomal recycling and EGFR and Hippo signaling during tumor-suppressive cell competition.

3. WASH phosphorylation balances endosomal versus cortical actin network integrities during epithelial morphogenesis.

4. The kinesin-like protein Pavarotti functions noncanonically to regulate actin dynamics.

5. Autocrine insulin pathway signaling regulates actin dynamics in cell wound repair.