TY - JOUR
T1 - A previously unidentified amino-terminal domain regulates transcriptional activity of wild-type and disease-associated human GLI2
AU - Roessler, Erich
AU - Ermilov, Alexandre N.
AU - Grange, Dorothy Katherine
AU - Wang, Aiqin
AU - Grachtchouk, Marina
AU - Dlugosz, Andrzej A.
AU - Muenke, Maximilian
N1 - Funding Information:
We are grateful to the families who participated in these studies and the DIR NHGRI for their support (E.R. and M.M.). We thank Drs Pierre Coulombe, Jose Jorcano, Fritz Aberger and Hiroshi Sasaki for providing reagents and Drs Brian Bonish and Mark Hutchin for performing preliminary experiments. We appreciate constructive comments on the manuscript from Drs Sarah Millar, Eric Fearon, Mikhail Niki-forov and Marisol Soengas. Support was provided by NIH grants CA87837 and AR45973 (A.A.D.).
PY - 2005/8/1
Y1 - 2005/8/1
N2 - Zinc finger-containing Gli proteins mediate responsiveness to Hedgehog (Hh) signaling, with Gli2 acting as the major transcriptional activator in this pathway in mice. The discovery of disease-associated mutations points to a critical role for GLI2 in human Hh signaling as well. Here, we show that human GLI2 contains previously undescribed 5′ sequence, extending the amino-terminus an additional 328 amino acids. In vitro, transcriptional activity of full-length GLI2 is up to 30 times lower than that of GLI2ΔN (previously thought to represent the entire GLI2 protein), revealing the presence of an amino-terminal repressor domain in the full-length protein. GLI2ΔN also exhibits potent transcriptional activity in vivo: Overexpression in mouse skin leads to the formation of Hh-independent epithelial downgrowths resembling basal cell carcinomas, which in humans are associated with constitutive Hh signaling. The discovery of this additional, functionally relevant GLI2 sequence led us to re-examine several pathogenic human GLI2 mutants, now containing the entire amino-terminal domain. On the basis of the functional domains affected by the mutations, mutant GLI2 proteins exhibited either loss-of-function or dominant-negative activity. Moreover, deletion of the amino-terminus abrogated dominant-negative activity of mutant GLI2, revealing that this domain is required for transcriptional repressor activity of pathogenic GLI2. Our results establish the presence of an amino-terminal transcriptional repressor domain that plays a critical role in modulating the function of wild-type GLI2 and is essential for dominant-negative activity of a GLI2 mutant associated with human disease.
AB - Zinc finger-containing Gli proteins mediate responsiveness to Hedgehog (Hh) signaling, with Gli2 acting as the major transcriptional activator in this pathway in mice. The discovery of disease-associated mutations points to a critical role for GLI2 in human Hh signaling as well. Here, we show that human GLI2 contains previously undescribed 5′ sequence, extending the amino-terminus an additional 328 amino acids. In vitro, transcriptional activity of full-length GLI2 is up to 30 times lower than that of GLI2ΔN (previously thought to represent the entire GLI2 protein), revealing the presence of an amino-terminal repressor domain in the full-length protein. GLI2ΔN also exhibits potent transcriptional activity in vivo: Overexpression in mouse skin leads to the formation of Hh-independent epithelial downgrowths resembling basal cell carcinomas, which in humans are associated with constitutive Hh signaling. The discovery of this additional, functionally relevant GLI2 sequence led us to re-examine several pathogenic human GLI2 mutants, now containing the entire amino-terminal domain. On the basis of the functional domains affected by the mutations, mutant GLI2 proteins exhibited either loss-of-function or dominant-negative activity. Moreover, deletion of the amino-terminus abrogated dominant-negative activity of mutant GLI2, revealing that this domain is required for transcriptional repressor activity of pathogenic GLI2. Our results establish the presence of an amino-terminal transcriptional repressor domain that plays a critical role in modulating the function of wild-type GLI2 and is essential for dominant-negative activity of a GLI2 mutant associated with human disease.
UR - http://www.scopus.com/inward/record.url?scp=26444577884&partnerID=8YFLogxK
U2 - 10.1093/hmg/ddi222
DO - 10.1093/hmg/ddi222
M3 - Article
C2 - 15994174
AN - SCOPUS:26444577884
SN - 0964-6906
VL - 14
SP - 2181
EP - 2188
JO - Human molecular genetics
JF - Human molecular genetics
IS - 15
ER -