Hex is a transcriptional repressor that contributes to anterior identity and suppresses Spemann organiser function

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JOURNAL ARTICLES

Hex is a transcriptional repressor that contributes to anterior identity and suppresses Spemann organiser function

JM Brickman, CM Jones, M Clements, JC Smith and RS Beddington
Divisions of Mammalian Development and Developmental Biology, National Institute for Medical Research, The Ridgeway, Mill Hill, London NW7 1AA, UK.

One of the earliest markers of anterior asymmetry in vertebrate embryos is the transcription factor Hex. We find that Hex is a transcriptional repressor that can be converted to an activator by fusing full length Hex to two copies of the minimal transcriptional activation domain of VP16 together with the flexible hinge region of the (lambda) repressor (Hex-(lambda)VP2). Retention of the entire Hex open reading frame allows one to examine Hex function without disrupting potential protein-protein interactions. Expression of Hex-(lambda)VP2 in Xenopus inhibits expression of the anterior marker Cerberus and results in anterior truncations. Such embryos have multiple notochords and disorganised muscle tissue. These effects can occur in a cell non-autonomous manner, suggesting that one role of wild-type Hex is to specify anterior structures by suppressing signals that promote dorsal mesoderm formation. In support of this idea, over-expression of wild-type Hex causes cell non-autonomous dorso-anteriorization, as well as cell autonomous suppression of dorsal mesoderm. Suppression of dorsal mesoderm by Hex is accompanied by the down-regulation of Goosecoid and Chordin, while induction of dorsal mesoderm by Hex-(lambda)VP2 results in activation of these genes. Transient transfection experiments in ES cells suggest that Goosecoid is a direct target of Hex. Together, our results support a model in which Hex suppresses organiser activity and defines anterior identity.

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				A. C. Foley and M. Mercola Heart induction by Wnt antagonists depends on the homeodomain transcription factor Hex Genes & Dev., February 1, 2005; 19(3): 387 - 396. [Abstract] [Full Text] [PDF]

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				S. Kasamatsu, A. Sato, T. Yamamoto, V. W. Keng, H. Yoshida, Y. Yamazaki, M. Shimoda, J.-i. Miyazaki, and T. Noguchi Identification of the Transactivating Region of the Homeodomain Protein, Hex J. Biochem., February 1, 2004; 135(2): 217 - 223. [Abstract] [Full Text] [PDF]

				Y. Guo, R. Chan, H. Ramsey, W. Li, X. Xie, W. C. Shelley, J. P. Martinez-Barbera, B. Bort, K. Zaret, M. Yoder, et al. The homeoprotein Hex is required for hemangioblast differentiation Blood, October 1, 2003; 102(7): 2428 - 2435. [Abstract] [Full Text] [PDF]

				T. Nakagawa, M. Abe, T. Yamazaki, H. Miyashita, H. Niwa, S. Kokubun, and Y. Sato HEX Acts as a Negative Regulator of Angiogenesis by Modulating the Expression of Angiogenesis-Related Gene in Endothelial Cells In Vitro Arterioscler. Thromb. Vasc. Biol., February 1, 2003; 23(2): 231 - 237. [Abstract] [Full Text] [PDF]

				J. B. Xanthos, M. Kofron, Q. Tao, K. Schaible, C. Wylie, and J. Heasman The roles of three signaling pathways in the formation and function of the Spemann Organizer Development, September 1, 2002; 129(17): 4027 - 4043. [Abstract] [Full Text] [PDF]

				J. M. Brickman, M. Clements, R. Tyrell, D. McNay, K. Woods, J. Warner, A. Stewart, R. S. P. Beddington, and M. Dattani Molecular effects of novel mutations in Hesx1/HESX1 associated with human pituitary disorders Development, December 15, 2001; 128(24): 5189 - 5199. [Abstract] [Full Text] [PDF]

				F. L. Conlon, L. Fairclough, B. M. J. Price, E. S. Casey, and J. C. Smith Determinants of T box protein specificity Development, October 1, 2001; 128(19): 3749 - 3758. [Abstract] [Full Text] [PDF]

				W Liao, C. Ho, Y. Yan, J Postlethwait, and D. Stainier Hhex and scl function in parallel to regulate early endothelial and blood differentiation in zebrafish Development, January 10, 2000; 127(20): 4303 - 4313. [Abstract] [PDF]