Asymmetric requirement of Dpp/BMP morphogen dispersal in the Drosophila wing disc

Matsuda, Shinya; Schaefer, Jonas V.; Mii, Yusuke; Hori, Yutaro; Bieli, Dimitri; Taira, Masanori; Plückthun, Andreas; Affolter, Markus

doi:10.1101/2020.11.23.394379

Cited by 7 publications

(29 citation statements)

References 94 publications

(212 reference statements)

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“…To visualize endogenous ligands in situ , we used CRISPR/Cas9 editing to introduce small epitope tags into the open reading frame of the endogenous gbb locus. Previous attempts tagging BMPs with bulky fluorescent proteins has been shown to result in partial loss of function (Matsuda et al, 2021; Akiyama, Wharton, personal commun.). Hence, we knocked in the short tags HA and OLLAS using ssDonor templates (Fig 1A and material and methods).…”

Section: Resultsmentioning

confidence: 99%

“…These tools permit the acute manipulation of tagged proteins in predictable manners, thus opening the door for experiments that were, thus far, out of reach. With respect to the BMP pathway, the combination of endogenous tagging and protein binders has permitted the interrogation of Dpp dispersal (Harmansa, Hamaratoglu, Affolter, & Caussinus, 2015; Matsuda et al, 2021), the construction of a minimal synthetic morphogen (Stapornwongkul, de Gennes, Cocconi, Salbreux, & Vincent, 2020) and here, the detection of heterodimers. It is by combining these and other emerging tools with the power of genetics that we will better understand how proteins coordinate development.…”

Section: Discussionmentioning

confidence: 99%

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Heterodimerization-dependent secretion of BMPs in Drosophila

Bauer

Aguilar

Wharton

et al. 2022

Preprint

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Combinatorial signaling is key to instruct context-dependent cell behaviors. During embryonic development, adult homeostasis and disease, Bone Morphogenetic Proteins (BMPs) act as dimers to instruct specific cellular responses. BMP ligands can form both homo- or heterodimers; however, obtaining direct evidence of the endogenous localization and function of each form has proven challenging. Here, we make use of precise genome editing and direct protein manipulation via protein binders to dissect the existence and functional relevance of BMP homo- and heterodimers in the Drosophila wing imaginal disc. This approach revealed in situ the existence of Dpp (BMP2/4)/Gbb (BMP5/6/7/8) heterodimers. We found that Gbb, despite being produced by all the cells of the wing imaginal disc, is only secreted by the cells in which Dpp is expressed. Dpp and Gbb form a gradient of heterodimers whereas neither Dpp nor Gbb homodimers are evident under endogenous physiological conditions. We find that the formation of heterodimers is critical for obtaining optimal signaling and long-range BMP distribution in the developing wing. These results indicate that Dpp/Gbb heterodimers are the active signal required for epithelial patterning and growth.

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Heterodimerization-dependent secretion of BMPs in Drosophila

Bauer

Aguilar

Wharton

et al. 2022

Preprint

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“…Manipulating proteins rather than gene expression is required in situations where perdurance of proteins due to slow turnover upon genetic knockout or RNAi-mediated knock-down precludes loss-of-function phenotypes. While nanobody-based approaches allow to interfere with proteins by re-localizing (Harmansa et al, 2017), trapping (Matsuda et al, 2021) or degrading them (Caussinus et al, 2012), reversible retention by streptavidin hooks offers the additional potential to acutely restore protein localization and function upon addition of biotin. This will enable powerful functional experiments with precise temporal control, for instance allowing to release a signaling molecule from a defined source at a defined time and to determine the spatiotemporal dynamics of dispersal of the signaling molecule in the tissue and its effects across a field of cells.…”

Section: Discussionmentioning

confidence: 99%

Acute manipulation and real-time visualization of membrane trafficking and exocytosis inDrosophila

Glashauser

Camelo

Hollmann

et al. 2022

Preprint

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Intracellular trafficking of secretory proteins plays key roles in animal development and physiology, but essential tools for investigating the dynamics of trafficking have been limited to cultured cells. Here we present a system that enables acute manipulation and real-time visualization of membrane trafficking through reversible retention of proteins in the endoplasmic reticulum (ER) in living multicellular organisms. By adapting the retention using selective hooks (RUSH) approach to Drosophila, we show that trafficking of GPI-linked, secreted, and transmembrane proteins can be controlled with high temporal precision using streptavidin hooks and biotin-induced release in intact animals and cultured organs. We demonstrate the potential of this approach by analyzing the kinetics of ER exit and of apical secretion in tracheal tubes and the spatiotemporal dynamics of tricellular junction assembly in epithelia. Furthermore, hook-induced ER retention enables tissue-specific knockdown of secretory protein function. The system is compatible with available protein-traps and is widely applicable to investigate membrane trafficking in diverse cell types in vivo.

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“…gelsolin and CapG ( Van Audenhove et al, 2013 ). Moreover, a very recent report showed the efficient trapping of an extracellular POI (Dpp), endogenously tagged with a single HA copy, using a functionalized anti-HA_scFv ( Matsuda et al, 2020 preprint).…”

Section: Discussionmentioning

confidence: 99%

“…Mislocalization or trapping of some POIs, tagged with FP, has been developed with anti-GFP nanobodies (Harmansa et al, 2017;Seller et al, 2019), anti-mTFP DARPin (Vigano et al, 2018), anti-mCherry nanobody (Prole and Taylor, 2019) but also with nanobodies against endogenous, non-tagged proteins, for example Gelsolin and CapG (Van Audenhove et al, 2013). Moreover, a very recent report showed the efficient trapping of an extracellular POI (Dpp), endogenously tagged with a single HA copy, using a functionalized anti-HA_scFv (Matsuda et al, 2020).…”

Section: Functionalization Of Small Tag Bindersmentioning

confidence: 99%

Protein manipulation using single copies of short peptide tags in cultured cells and in Drosophila melanogaster

et al. 2021

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Cellular development and function rely on highly dynamic molecular interactions among proteins distributed in all cell compartments. Analysis of these interactions has been one of the main topics in cellular and developmental research and has been mostly achieved by the manipulation of proteins of interest (POIs) at the genetic level. Although genetic strategies significantly contributed to our current understanding, targeting specific interactions of POIs in a time- and space-controlled manner or analyzing the role of POIs in dynamic cellular processes such as cell migration or cell division would profit from more direct approaches. The recent development of specific protein binders, which can be expressed and function intracellularly, along with advancement in synthetic biology, have contributed to the creation of a new toolbox for direct protein manipulations. Here, we selected a number of short tag epitopes for which protein binders from different scaffolds have been generated and showed that single copies of these tags allowed efficient POIs binding and manipulation in living cells. Using Drosophila, we also find that single short tags can be utilized for POI manipulation in vivo.

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Asymmetric requirement of Dpp/BMP morphogen dispersal in the Drosophila wing disc

Cited by 7 publications

References 94 publications

Heterodimerization-dependent secretion of BMPs in Drosophila

Heterodimerization-dependent secretion of BMPs in Drosophila

Acute manipulation and real-time visualization of membrane trafficking and exocytosis inDrosophila

Protein manipulation using single copies of short peptide tags in cultured cells and in Drosophila melanogaster

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