Wnd protein turnover by Hiw is restricted in the axon terminals of Drosophila sensory neurons.
Wnd is highly enriched in axon terminals (A-D).
(A) A representative image of Mi{MIC}wnd GFSTF in the neuropil of larval ventral nerve cords (top) and C4da neuron cell body (bottom) from a hemizygous male hiw mutant (hiw△N) were shown. Wnd-GFP (Wnd-GFSTF, green) and anti-HRP staining (magenta). Scale bar = 10 µm.
(B) Schematic of Drosophila larval C4da neurons. C4da cell bodies and dendrites are located in the body wall (green) while their axons (red) terminate in the ventral nerve cord (VNC) collectively forming the ladder-like structure of axon terminals (yellow).
(C) The Wnd::GFP (with or without wnd-UTRs, green) along with mCD8::RFP (magenta) were expressed in the larval C4da neurons in the presence of DLK inhibitor, DLKi. The expression levels of transgenes were shown in C4da cell body and the axon terminals.
(D) The axonal enrichment index was expressed as median ± 95% CI. Sample numbers were 5’-Wnd::GFP-3’ (w1118; UAS-wnd-5’UTR-Wnd::GFP-wnd-3’UTR/+;ppk-GAL4, UAS-mCD8::RFP/+) (n = 26), Wnd::GFP (w1118; UAS-Wnd::GFP-SV40 3’UTR /+; ppk-GAL4, UAS-mCD8::RFP/+) (n = 22), Wnd-KD::GFP (w1118; UAS-Wnd-KD::GFP/+; ppk-GAL4, UAS-mCD8::RFP/+) (n = 6). All samples were treated with DLKi; One-way ANOVA (F(2,51) = 0.5176) followed by post hoc Tukey’s multiple comparison test.
(E) The Wnd-KD::GFP transgene along with mCD8::RFP was expressed in C4da neurons with the ppk-Gal4 driver, in wild-type (wt) (w1118;UAS-Wnd-KD::GFP/+;ppk-Gal4, UAS-mCD8::RFP/+, sample n = 8) or in hiw mutant (hiw△N; UAS-Wnd-KD::GFP/+;ppk-Gal4,UAS-mCD8::RFP/+, sample n = 9) larvae. Representative images of Wnd-KD::GFP in C4da cell bodies and axon terminals, stained for anti-GFP (green). The average Wnd-KD::GFP intensity from cell bodies and axon terminals were quantified and expressed as median ± 95% CI; (Cell body: U=25, P=0.3213, Axon terminal: U=0, P<0.0001, two-tailed Mann-Whitney test). Scale bar = 10 µm.