Edwin L Ferguson
Research Summary / Selected Publications
The lab approaches questions of pattern formation and cell fate specification in the fruit fly Drosophila melanogaster. Our current interests are the mechanisms underlying the patterning of the embryonic dorsal-ventral (D/V) axis and the asymmetric self-renewal divisions of adult stem cells.
The original focus of the lab was on the role of the Bone Morphogenetic Protein family member Decapentaplegic (Dpp) in patterning the D/V axis. In the past, we demonstrated that the system that patterns the embryonic D/V axis is conserved between arthropods and chordates, identified the mechanism by which the Spemann organizer patterns the Xenopus body axis, and characterized essential and modulatory components of the Dpp signal transduction pathway.
Recently, we showed that, although Dpp is broadly transcribed dorsally, receptor-bound Dpp is only observed in a sharp stripe comprising the dorsal-most cells. We demonstrated that formation of this pattern of Dpp – receptor interactions involves two distinct processes. First, Dpp undergoes long-range extracellular movement facilitated by the Dpp-binding protein Sog. Second, an intracellular positive feedback circuit promotes Dpp - receptor interactions as a function of previous signaling strength. The two processes cooperate to produce the observed spatial bistability of Dpp-receptor interactions.
We have also begun to investigate processes underlying maintenance of the germ line stem cells (GSCs) in the adult ovary. Like most adult stem cells, the GSCs are present in an environmental niche, which provides signals necessary for their maintenance. Dpp is a niche signal required for GSC maintenance. We hypothesize that interactions between the GSC and the surrounding niche cells create an intrinsic polarity in the GSC. This polarity both controls the plane of GSC division and elevates responsiveness to Dpp within the GSC. These two characteristics ensure a robust pattern of asymmetric, self-renewal divisions.
The lab approaches questions of pattern formation and cell fate specification in the fruit fly Drosophila melanogaster. Our current interests are the mechanisms underlying the patterning of the embryonic dorsal-ventral (D/V) axis and the asymmetric self-renewal divisions of adult stem cells.
The original focus of the lab was on the role of the Bone Morphogenetic Protein family member Decapentaplegic (Dpp) in patterning the D/V axis. In the past, we demonstrated that the system that patterns the embryonic D/V axis is conserved between arthropods and chordates, identified the mechanism by which the Spemann organizer patterns the Xenopus body axis, and characterized essential and modulatory components of the Dpp signal transduction pathway.
Recently, we showed that, although Dpp is broadly transcribed dorsally, receptor-bound Dpp is only observed in a sharp stripe comprising the dorsal-most cells. We demonstrated that formation of this pattern of Dpp – receptor interactions involves two distinct processes. First, Dpp undergoes long-range extracellular movement facilitated by the Dpp-binding protein Sog. Second, an intracellular positive feedback circuit promotes Dpp - receptor interactions as a function of previous signaling strength. The two processes cooperate to produce the observed spatial bistability of Dpp-receptor...
Page, B., Diede, S. J., Tenlen, J. R. and Ferguson, E. L. (2007). "EEL-1, a Hect E3 ubiquitin ligase, controls asymmetry and persistence of the SKN-1 transcription factor in the early C. elegans embryo." Development 134: 2303-2314 Abstract/Full text
Wang, Y.-C. and Ferguson, E. L. (2005). "Spatial bistability of Dpp-receptor interactions during Drosophila dorsal-ventral patterning." Nature, 434: 229-234. Abstract/Full text
Casanueva, M. O. and Ferguson, E. L. (2004). "Germline stem cell number in the Drosophila ovary is regulated by redundant mechanisms that control Dpp signaling." Development 131: 1881-90. Full text
Podos, S. D., Hanson, K. K., Wang, Y. C. and Ferguson, E. L. (2001). "The DSmurf ubiquitin-protein ligase restricts BMP signaling spatially and temporally during Drosophila embryogenesis." Developmental Cell 1: 567-78. Abstract/Full text
Decotto, E. and Ferguson, E. L. (2001). "A positive role for Short gastrulation in modulating BMP signaling during dorsoventral patterning in the Drosophila embryo." Development 128: 3831-41. Full text
Neul, J. L., and Ferguson, E. L. (1998). Spatially-restricted activation of the SAX receptor by SCW modulates DPP/TKV signaling in Drosophila dorsal-ventral patterning. Cell 95: 483-494.
Abstract/Full text
Hudson, J. B., Podos, S. D., Keith, K., Simpson, S. L. and Ferguson, E. L. (1998). The Drosophila Medea gene is required downstream of dpp and encodes a functional homolog of human Smad4. Development 125: 1407-1420. Full text
Holley, S. A., Neul, J. L., Attisano, L., Wrana, J. L., Sasai, Y., O'Connor, M. B., De Robertis, E. M. and Ferguson, E. L. (1996). "The Xenopus dorsalizing factor noggin ventralizes Drosophila embryos by preventing DPP from activating its receptor." Cell 86: 607-17. Abstract/Full text
Holley, S. A., Jackson, P. D., Sasai, Y., Lu, B., De Robertis, E. M., Hoffmann, F. M. and Ferguson, E. L. (1995). "A conserved system for dorsal-ventral patterning in insects and vertebrates involving sog and chordin." Nature 376: 249-53. Abstract/Full text
Page, B., Diede, S. J., Tenlen, J. R. and Ferguson, E. L. (2007). "EEL-1, a Hect E3 ubiquitin ligase, controls asymmetry and persistence of the SKN-1 transcription factor in the early C. elegans embryo." Development 134: 2303-2314 Abstract/Full text
Wang, Y.-C. and Ferguson, E. L. (2005). "Spatial bistability of Dpp-receptor interactions during Drosophila dorsal-ventral patterning." Nature, 434: 229-234. Abstract/Full text
Casanueva, M. O. and Ferguson, E. L. (2004). "Germline stem cell number in the Drosophila ovary is regulated by redundant mechanisms that control Dpp signaling." Development 131: 1881-90. Full text
Podos, S. D., Hanson, K. K., Wang, Y. C. and Ferguson, E. L. (2001). "The DSmurf ubiquitin-protein ligase restricts BMP signaling spatially and temporally during Drosophila embryogenesis." Developmental Cell 1: 567-78. Abstract/Full text
Decotto, E. and Ferguson, E. L. (2001). "A positive role for Short gastrulation in modulating BMP signaling during dorsoventral patterning in the Drosophila embryo." Development 128: 3831-41. Full text
