Madamanchi A , Mullins MC , Umulis DM .

R01GM132501 R35-GM131908 NIH HHS , R01 GM132501 NIGMS NIH HHS , R35 GM131908 NIGMS NIH HHS

             morphogen activity
             BMP signaling pathway

	Fig. 1. Signaling gradient profiles and expression domains of BMP patterned embryos. Top schematics show Dpp and Sog expression domains in the Drosophila embryo (240 μm; transverse section). Dpp expression domain and co-expression of Dpp and Sog in the Tribolium castaneum embryo (480 μm; transverse section). Expression domains of bmp ventrally and chordin dorsally in the zebrafish embryo (700 μm; late blastula) and the Xenopus embryo (1.2 mm; early gastrula, transverse section). Lower schematics show qualitative graphs of BMP signaling gradients and the expression domains for the morphogen and negative regulator. The yellow x-axis in the signaling graphs corresponds to the yellow line in the images of the top schematic. D, dorsal; DM, dorsal midline; V, ventral.
	Fig. 2 Morphogen gradient formation mechanisms. (A) Morphogen gradient concept. (B) Gradient formation via active transport mechanisms: cytonemes (top) and migrasome/transcytosis (bottom). Cytonemes are cellular projections which can emanate from cells towards the morphogen source. Cytonemes carry Type II Bmp receptors which can take ligand back to the cell where they can signal in a receptor complex. Migrasome/transcytosis shows vesicle-based transport of ligand away from the source. (C) Gradient formation by free (passive) diffusion. Ligand diffuses from areas of high concentration near the source to areas of lower concentration. Pre-steady state ligand concentration is depicted. (D) Gradient formation via regulated diffusion. Extracellular matrix, immobile regulators and diffusible extracellular regulators all act to regulate diffusion. Note: receptors and ligands not to scale.
	Fig. 3. Signaling gradient profiles and expression domains of BMP-patterned organs of different scales.Drosophila germarium (top left): BMP/Dpp and Dally are co-expressed in cap cells (purple). Type IV Collagen Vkg (not pictured) is expressed throughout the GSC niche. Tkv is highly expressed in somatic escort cells. GSC cells are outlined in red (image modified from Sun et al., 2010). Drosophila third instar imaginal wing disc (top middle): BMP/Dpp is expressed in a narrow stripe at the AP boundary. Pentagone is expressed at the periphery. Crossvein formation in Drosophila pupal wing disc (top right): BMP/Dpp is expressed in longitudinal veins, Sog is expressed throughout the pupal wing. Crossveinless and Tolloid-related are expressed in the future posterior cross vein location where they can act to promote BMP/Dpp signaling by liberating ligand from Sog-Dpp complexes. Lower schematics show qualitative graphs of BMP signaling gradients and the expression domains for the morphogen and negative regulator. Germarium regulator depicted as a gray box to reflect ubiquitous presence of multiple regulators including Type IV Collagen Vkg. Signaling and expression domain graphs not shown for pupal wing disc as active transport does not take place over a single axis. AP, anterior posterior boundary; C, cap cells.
	Fig. 4. Diversity of regulatory mechanisms. (A) Highly mobile regulators can engage in shuttling processes, which have concentrating effects. Often ligand gradients end up smaller than their expression domain. Shuttling mechanisms establish peak signaling opposite of the regulator, regardless of where morphogen is expressed. (B) Poorly diffusive regulators have primarily inhibitory effects as they bind ligand and block signaling. This can act in a source-sink function as the ligand diffuses towards the ‘sink’ of immobile regulators. (C) Countergradients involve highly mobile regulators, as in shuttling. However, countergradient regulators do not have any pro-signaling functions.
	Fig. 5. Shuttling and extracellular regulation. (A) BMP/Dpp shuttling as observed in Drosophila DV patterning. Sog binds Dpp/Scw ligand heterodimer and forms a Type IV Collagen bound complex that prevents signaling in areas of high Sog concentration. Tsg disrupts Sog-Dpp/Scw binding to Collagen and enables diffusion. Tsg also acts as a scaffold to promote Tolloid-mediated Sog cleavage and Dpp/Scw liberation. In areas with high Sog levels, the liberated ligand heterodimer typically reforms a Sog complex and begins another round of shuttling. In high Tolloid and low Sog levels areas, the ligand heterodimer is free to signal. Iterative rounds of complex formation and cleavage have the effect of moving ligand away from Sog expression, leading to a concentrated high peak at the dorsal midline. (B-F) Network diagrams of extracellular BMP regulation in diverse contexts. (B) BMP influences its own extracellular regulation in embryonic axis formation. BMP signaling leads to upregulation of the ventral protein Sizzled, which competitively inhibits Tolloid and prevents Tolloid-mediated Chordin cleavage. (C) In the Drosophila germarium, downstream BMP signaling target, Myc, provides positive feedback by upregulating BMP ligand uptake. Brat creates a bistable switch for differentiation by inhibiting BMP signal transduction and Myc activity. (D) In the Drosophila wing disc, Pent, a secreted factor that is negatively regulated by BMP signaling, supports BMP signaling by directing the internalization of Dally, a negative regulator of BMP signaling. (E) In the Drosophila embryo, downstream BMP signaling products Eiger and Cv-2 provide positive and negative feedback, respectively, to BMP signaling. These feedback mechanisms act to fine tune the BMP gradient and confer spatial bistability. (F) In zebrafish, Pinhead and Admp both act to support BMP signaling by promoting Chordin degradation. Pinhead and Admp are both downregulated by each other and by BMP signaling. The reciprocal repression circuit of Admp and Pinhead provides robustness in BMP gradient formation.

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