Abstract
Cell-cell and cell-matrix adhesion are crucial during many stages of eukaryotic development. Here, we provide the first example that mucin-type O-linked glycosylation is involved in a developmentally regulated cell adhesion event in Drosophila melanogaster. Mutations in one member of the evolutionarily conserved family of enzymes that initiates O-linked glycosylation alter epithelial cell adhesion in the Drosophila wing blade. A transposon insertion mutation in pgant3 or RNA interference to pgant3 resulted in blistered wings, a phenotype characteristic of genes involved in integrin-mediated cell interactions. Expression of wild type pgant3 in the mutant background rescued the wing blistering phenotype, whereas expression of another family member (pgant35A) did not, revealing a unique requirement for pgant3. pgant3 mutants displayed reduced O-glycosylation along the basal surface of larval wing imaginal discs, which was restored with wild type pgant3 expression, suggesting that reduced glycosylation of basal proteins is responsible for disruption of adhesion in the adult wing blade. Glycosylation reactions demonstrated that PGANT3 glycosylates certain extracellular matrix (ECM) proteins. Immunoprecipitation experiments revealed that PGANT3 glycosylates tiggrin, an ECM protein known to bind integrin. We propose that this glycosyltransferase is uniquely responsible for glycosylating tiggrin in the wing disc, thus modulating proper cell adhesion through integrin-ECM interactions. This study provides the first evidence for the role of O-glycosylation in a developmentally regulated, integrin-mediated, cell adhesion event and reveals a novel player in wing blade formation during Drosophila development.
Highlights
Cell interactions and adhesion are critical in many diverse processes, from events occurring during embryogenesis and organogenesis to wound healing and the alterations in cell adhesion seen upon tumor formation and metastasis [1]
In this study we find that a transposon mutation in pgant3 or RNA interference (RNAi) to pgant3 results in wing blistering, implicating O-glycosylation in integrin-mediated cell adhesion occurring during wing blade formation
We propose that O-glycosylation of specific extracellular matrix (ECM) proteins known to bind integrin is required for proper epithelial cell adhesion in the wing disc
Summary
Fly Strains Used—The stocks used in this study are as follows: Bloomington stocks #5138 (y1, w*; P{wϩmC ϭ tubP-GAL4}LL7/ TM3, Sb1) (the tubulin-Gal driver line); #8860 (w1118, P{wϩmW.hs ϭ GawB}BxMS1096) (the wing-specific Gal driver line); #1561 (w*; P{wϩmW.hs ϭ Gal4-arm}4a, P{wϩmW.hs ϭ Gal4-arm}4b/TM3, Sb1, Ser1) (the armadillo-Gal driver line); #7748 (w1118; Df(2R)Exel 6283, PXP-UExel6263); #8283 (w1118; CyO, P{wϩmc ϭ FRT (wϩ)Tub-PBacTM}2/wgsp-1); #8795 (w*; TigA1/CyO,P{lacZ-un3}276); #8796 (w*; TigX/CyO,P{lacZun3}276). All stocks used in the rescue experiments were first crossed into the pgant3c01318 background to generate both Gal driver lines and P{UAS-pgant} transgenic lines heterozygous for pgant3c01318. To examine the effect of the transposon on pgant gene expression levels, pgant3c01318/pgant3c01318 homozygotes, wild type, and transposon excision lines were used to isolate RNA and perform real-time PCR. Quantitative reverse transcription-PCR to determine expression levels of all pgant family members was performed using the PCR primers listed in supplemental Table 1 with cDNA prepared from wild type, TubϾpgant3IR2#2, and TubϾpgant3IR2#9 larval wing discs. Western Blotting—Protein extracts were prepared from 3rd instar larval wing discs of wild type, pgant3c01318 homozygotes, and transposon excision lines (pgant3c01318revertant#7 homozygotes) as described [45]. The final pellet was resuspended in sample loading buffer, heated to 95 °C for 5 min, and analyzed by reducing SDS-PAGE followed by immunoblotting with the Tn Ab as described
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