Endocytic trafficking of Wingless and its receptors, Arrow and DFrizzled-2, in the Drosophila wing

Anna F. Rives; Kate M. Rochlin; Marcel Wehrli; Stephanie L. Schwartz; Stephen DiNardo

doi:10.1016/j.ydbio.2006.02.006

Endocytic trafficking of Wingless and its receptors, Arrow and DFrizzled-2, in the Drosophila wing

Anna F. Rives, Kate M. Rochlin, Marcel Wehrli, Stephanie L. Schwartz, Stephen DiNardo

Research output: Contribution to journal › Article › peer-review

63 Scopus citations

Abstract

During animal development, Wnt/Wingless (Wg) signaling is required for the patterning of multiple tissues. While insufficient signal transduction is detrimental to normal development, ectopic activation of the pathway can be just as devastating. Thus, numerous controls exist to precisely regulate Wg signaling levels. Endocytic trafficking of pathway components has recently been proposed as one such control mechanism. Here, we characterize the vesicular trafficking of Wg and its receptors, Arrow and DFrizzled-2 (DFz2), and investigate whether trafficking is important to regulate Wg signaling during dorsoventral patterning of the larval wing. We demonstrate a role for Arrow and DFz2 in Wg internalization. Subsequently, Wg, Arrow and DFz2 are trafficked through the endocytic pathway to the lysosome, where they are degraded in a hepatocyte growth factor-regulated tyrosine kinase substrate (Hrs)-dependent manner. Surprisingly, we find that Wg signaling is not attenuated by lysosomal targeting in the wing disc. Rather, we suggest that signaling is dampened intracellularly at an earlier trafficking step. This is in contrast to patterning of the embryonic epidermis, where lysosomal targeting is required to restrict the range of Wg signaling. Thus, signal modulation by endocytic routing will depend on the tissue to be patterned and the goals during that patterning event.

Original language	English (US)
Pages (from-to)	268-283
Number of pages	16
Journal	Developmental Biology
Volume	293
Issue number	1
DOIs	https://doi.org/10.1016/j.ydbio.2006.02.006
State	Published - May 1 2006
Externally published	Yes

Keywords

Arrow
Endocytic trafficking
Frizzled-2
Wingless

ASJC Scopus subject areas

Molecular Biology
Developmental Biology
Cell Biology

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10.1016/j.ydbio.2006.02.006

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@article{dd6368019158459f88c75f7222a39036,

title = "Endocytic trafficking of Wingless and its receptors, Arrow and DFrizzled-2, in the Drosophila wing",

abstract = "During animal development, Wnt/Wingless (Wg) signaling is required for the patterning of multiple tissues. While insufficient signal transduction is detrimental to normal development, ectopic activation of the pathway can be just as devastating. Thus, numerous controls exist to precisely regulate Wg signaling levels. Endocytic trafficking of pathway components has recently been proposed as one such control mechanism. Here, we characterize the vesicular trafficking of Wg and its receptors, Arrow and DFrizzled-2 (DFz2), and investigate whether trafficking is important to regulate Wg signaling during dorsoventral patterning of the larval wing. We demonstrate a role for Arrow and DFz2 in Wg internalization. Subsequently, Wg, Arrow and DFz2 are trafficked through the endocytic pathway to the lysosome, where they are degraded in a hepatocyte growth factor-regulated tyrosine kinase substrate (Hrs)-dependent manner. Surprisingly, we find that Wg signaling is not attenuated by lysosomal targeting in the wing disc. Rather, we suggest that signaling is dampened intracellularly at an earlier trafficking step. This is in contrast to patterning of the embryonic epidermis, where lysosomal targeting is required to restrict the range of Wg signaling. Thus, signal modulation by endocytic routing will depend on the tissue to be patterned and the goals during that patterning event.",

keywords = "Arrow, Endocytic trafficking, Frizzled-2, Wingless",

author = "Rives, {Anna F.} and Rochlin, {Kate M.} and Marcel Wehrli and Schwartz, {Stephanie L.} and Stephen DiNardo",

note = "Funding Information: We appreciate a very open dialogue with Elaine Seto and Hugo Bellen which led to a frequent exchange of unpublished information. They kindly suggested the use of C5-Gal4 to drive Rab5 S43N expression based on their own experiments. Ram DasGupta, K. Nybakken, and Norbert Perrimon generously provided Wg-dependent luciferase reagents prior to publication as well as suggestions for their use. We thank Dave Cohen and members of our laboratory for advice and comments on this work. Also thanks to Chris Burd for helpful discussions regarding lysosome inhibitors. Fly stocks and antibodies were provided by the Bloomington stock center, the Developmental Studies Hybridoma Bank (DSHB), Hugo Bellen, Sean Carroll, Steve Cohen, Susan Cumberledge, Ian Duncan, Marcos Gonz{\'a}lez-Gait{\'a}n, Bruce Hay, Helmut Kr{\"a}mer, Roel Nusse, and Gary Struhl. This work was supported by NIH GM45747 to S.D. and GM67029 to M.W. ",

year = "2006",

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doi = "10.1016/j.ydbio.2006.02.006",

language = "English (US)",

volume = "293",

pages = "268--283",

journal = "Developmental Biology",

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T1 - Endocytic trafficking of Wingless and its receptors, Arrow and DFrizzled-2, in the Drosophila wing

AU - Rives, Anna F.

AU - Rochlin, Kate M.

AU - Wehrli, Marcel

AU - Schwartz, Stephanie L.

AU - DiNardo, Stephen

N1 - Funding Information: We appreciate a very open dialogue with Elaine Seto and Hugo Bellen which led to a frequent exchange of unpublished information. They kindly suggested the use of C5-Gal4 to drive Rab5 S43N expression based on their own experiments. Ram DasGupta, K. Nybakken, and Norbert Perrimon generously provided Wg-dependent luciferase reagents prior to publication as well as suggestions for their use. We thank Dave Cohen and members of our laboratory for advice and comments on this work. Also thanks to Chris Burd for helpful discussions regarding lysosome inhibitors. Fly stocks and antibodies were provided by the Bloomington stock center, the Developmental Studies Hybridoma Bank (DSHB), Hugo Bellen, Sean Carroll, Steve Cohen, Susan Cumberledge, Ian Duncan, Marcos González-Gaitán, Bruce Hay, Helmut Krämer, Roel Nusse, and Gary Struhl. This work was supported by NIH GM45747 to S.D. and GM67029 to M.W.

PY - 2006/5/1

Y1 - 2006/5/1

N2 - During animal development, Wnt/Wingless (Wg) signaling is required for the patterning of multiple tissues. While insufficient signal transduction is detrimental to normal development, ectopic activation of the pathway can be just as devastating. Thus, numerous controls exist to precisely regulate Wg signaling levels. Endocytic trafficking of pathway components has recently been proposed as one such control mechanism. Here, we characterize the vesicular trafficking of Wg and its receptors, Arrow and DFrizzled-2 (DFz2), and investigate whether trafficking is important to regulate Wg signaling during dorsoventral patterning of the larval wing. We demonstrate a role for Arrow and DFz2 in Wg internalization. Subsequently, Wg, Arrow and DFz2 are trafficked through the endocytic pathway to the lysosome, where they are degraded in a hepatocyte growth factor-regulated tyrosine kinase substrate (Hrs)-dependent manner. Surprisingly, we find that Wg signaling is not attenuated by lysosomal targeting in the wing disc. Rather, we suggest that signaling is dampened intracellularly at an earlier trafficking step. This is in contrast to patterning of the embryonic epidermis, where lysosomal targeting is required to restrict the range of Wg signaling. Thus, signal modulation by endocytic routing will depend on the tissue to be patterned and the goals during that patterning event.

AB - During animal development, Wnt/Wingless (Wg) signaling is required for the patterning of multiple tissues. While insufficient signal transduction is detrimental to normal development, ectopic activation of the pathway can be just as devastating. Thus, numerous controls exist to precisely regulate Wg signaling levels. Endocytic trafficking of pathway components has recently been proposed as one such control mechanism. Here, we characterize the vesicular trafficking of Wg and its receptors, Arrow and DFrizzled-2 (DFz2), and investigate whether trafficking is important to regulate Wg signaling during dorsoventral patterning of the larval wing. We demonstrate a role for Arrow and DFz2 in Wg internalization. Subsequently, Wg, Arrow and DFz2 are trafficked through the endocytic pathway to the lysosome, where they are degraded in a hepatocyte growth factor-regulated tyrosine kinase substrate (Hrs)-dependent manner. Surprisingly, we find that Wg signaling is not attenuated by lysosomal targeting in the wing disc. Rather, we suggest that signaling is dampened intracellularly at an earlier trafficking step. This is in contrast to patterning of the embryonic epidermis, where lysosomal targeting is required to restrict the range of Wg signaling. Thus, signal modulation by endocytic routing will depend on the tissue to be patterned and the goals during that patterning event.

KW - Arrow

KW - Endocytic trafficking

KW - Frizzled-2

KW - Wingless

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DO - 10.1016/j.ydbio.2006.02.006

M3 - Article

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AN - SCOPUS:33646047425

SN - 0012-1606

VL - 293

SP - 268

EP - 283

JO - Developmental Biology

JF - Developmental Biology

IS - 1

ER -

Endocytic trafficking of Wingless and its receptors, Arrow and DFrizzled-2, in the Drosophila wing

Abstract

Keywords

ASJC Scopus subject areas

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