PBX3 is an important cofactor of HOXA9 in leukemogenesis

Zejuan Li; Zhiyu Zhang; Yuanyuan Li; Stephen Arnovitz; Ping Chen; Hao Huang; Xi Jiang; Gia Ming Hong; Rejani B. Kunjamma; Haomin Ren; Chunjiang He; Chong Zhi Wang; Abdel G. Elkahloun; Peter J.M. Valk; Konstanze Döhner; Mary Beth Neilly; Lars Bullinger; Ruud Delwel; Bob Löwenberg; Paul P. Liu; Richard Morgan; Janet D. Rowley; Chun Su Yuan; Jianjun Chen

doi:10.1182/blood-2012-07-442004

PBX3 is an important cofactor of HOXA9 in leukemogenesis

Zejuan Li, Zhiyu Zhang, Yuanyuan Li, Stephen Arnovitz, Ping Chen, Hao Huang, Xi Jiang, Gia Ming Hong, Rejani B. Kunjamma, Haomin Ren, Chunjiang He, Chong Zhi Wang, Abdel G. Elkahloun, Peter J.M. Valk, Konstanze Döhner, Mary Beth Neilly, Lars Bullinger, Ruud Delwel, Bob Löwenberg, Paul P. LiuRichard Morgan, Janet D. Rowley, Chun Su Yuan, Jianjun Chen

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104 Scopus citations

Abstract

Although PBX proteins are known to increase DNA-binding/transcriptional activity of HOX proteins through their direct binding, the functional importance of their interaction in leukemogenesis is unclear. We recently reported that overexpression of a 4-homeobox-gene signature (ie, PBX3/HOXA7/HOXA9/HOXA11) is an independent predictor of poor survival in patients with cytogenetically abnormal acute myeloid leukemia (CA-AML). Here we show that it is PBX3, but not PBX1 or PBX2, that is consistently coexpressed with HOXA9 in various subtypes of CA-AML, particularly MLL-rearranged AML, and thus appears as a potential pathologic cofactor of HOXA9 in CA-AML. We then show that depletion of endogenous Pbx3 expression by shRNA significantly inhibits MLL-fusion-mediated cell transformation, and coexpressed PBX3 exhibits a significantly synergistic effect with HOXA9 in promoting cell transformation in vitro and leukemogenesis in vivo. Furthermore, as a proof of concept, we show that a small peptide, namely HXR9, which was developed to specifically disrupt the interactions between HOX and PBX proteins, can selectively kill leukemic cells with overexpression of HOXA/PBX3 genes. Collectively, our data suggest that PBX3 is a critical cofactor of HOXA9 in leukemogenesis, and targeting their interaction is a feasible strategy to treat presently therapy resistant CA-AML (eg, MLL-rearranged leukemia) in which HOXA/PBX3 genes are overexpressed.

Original language	English (US)
Pages (from-to)	1422-1431
Number of pages	10
Journal	Blood
Volume	121
Issue number	8
DOIs	https://doi.org/10.1182/blood-2012-07-442004
State	Published - Feb 21 2013

ASJC Scopus subject areas

Biochemistry
Immunology
Hematology
Cell Biology

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Li, Z., Zhang, Z., Li, Y., Arnovitz, S., Chen, P., Huang, H., Jiang, X., Hong, G. M., Kunjamma, R. B., Ren, H., He, C., Wang, C. Z., Elkahloun, A. G., Valk, P. J. M., Döhner, K., Neilly, M. B., Bullinger, L., Delwel, R., Löwenberg, B., ... Chen, J. (2013). PBX3 is an important cofactor of HOXA9 in leukemogenesis. Blood, 121(8), 1422-1431. https://doi.org/10.1182/blood-2012-07-442004

Li, Z, Zhang, Z, Li, Y, Arnovitz, S, Chen, P, Huang, H, Jiang, X, Hong, GM, Kunjamma, RB, Ren, H, He, C, Wang, CZ, Elkahloun, AG, Valk, PJM, Döhner, K, Neilly, MB, Bullinger, L, Delwel, R, Löwenberg, B, Liu, PP, Morgan, R, Rowley, JD, Yuan, CS & Chen, J 2013, 'PBX3 is an important cofactor of HOXA9 in leukemogenesis', Blood, vol. 121, no. 8, pp. 1422-1431. https://doi.org/10.1182/blood-2012-07-442004

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title = "PBX3 is an important cofactor of HOXA9 in leukemogenesis",

abstract = "Although PBX proteins are known to increase DNA-binding/transcriptional activity of HOX proteins through their direct binding, the functional importance of their interaction in leukemogenesis is unclear. We recently reported that overexpression of a 4-homeobox-gene signature (ie, PBX3/HOXA7/HOXA9/HOXA11) is an independent predictor of poor survival in patients with cytogenetically abnormal acute myeloid leukemia (CA-AML). Here we show that it is PBX3, but not PBX1 or PBX2, that is consistently coexpressed with HOXA9 in various subtypes of CA-AML, particularly MLL-rearranged AML, and thus appears as a potential pathologic cofactor of HOXA9 in CA-AML. We then show that depletion of endogenous Pbx3 expression by shRNA significantly inhibits MLL-fusion-mediated cell transformation, and coexpressed PBX3 exhibits a significantly synergistic effect with HOXA9 in promoting cell transformation in vitro and leukemogenesis in vivo. Furthermore, as a proof of concept, we show that a small peptide, namely HXR9, which was developed to specifically disrupt the interactions between HOX and PBX proteins, can selectively kill leukemic cells with overexpression of HOXA/PBX3 genes. Collectively, our data suggest that PBX3 is a critical cofactor of HOXA9 in leukemogenesis, and targeting their interaction is a feasible strategy to treat presently therapy resistant CA-AML (eg, MLL-rearranged leukemia) in which HOXA/PBX3 genes are overexpressed.",

author = "Zejuan Li and Zhiyu Zhang and Yuanyuan Li and Stephen Arnovitz and Ping Chen and Hao Huang and Xi Jiang and Hong, {Gia Ming} and Kunjamma, {Rejani B.} and Haomin Ren and Chunjiang He and Wang, {Chong Zhi} and Elkahloun, {Abdel G.} and Valk, {Peter J.M.} and Konstanze D{\"o}hner and Neilly, {Mary Beth} and Lars Bullinger and Ruud Delwel and Bob L{\"o}wenberg and Liu, {Paul P.} and Richard Morgan and Rowley, {Janet D.} and Yuan, {Chun Su} and Jianjun Chen",

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doi = "10.1182/blood-2012-07-442004",

language = "English (US)",

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T1 - PBX3 is an important cofactor of HOXA9 in leukemogenesis

AU - Li, Zejuan

AU - Zhang, Zhiyu

AU - Li, Yuanyuan

AU - Arnovitz, Stephen

AU - Chen, Ping

AU - Huang, Hao

AU - Jiang, Xi

AU - Hong, Gia Ming

AU - Kunjamma, Rejani B.

AU - Ren, Haomin

AU - He, Chunjiang

AU - Wang, Chong Zhi

AU - Elkahloun, Abdel G.

AU - Valk, Peter J.M.

AU - Döhner, Konstanze

AU - Neilly, Mary Beth

AU - Bullinger, Lars

AU - Delwel, Ruud

AU - Löwenberg, Bob

AU - Liu, Paul P.

AU - Morgan, Richard

AU - Rowley, Janet D.

AU - Yuan, Chun Su

AU - Chen, Jianjun

PY - 2013/2/21

Y1 - 2013/2/21

N2 - Although PBX proteins are known to increase DNA-binding/transcriptional activity of HOX proteins through their direct binding, the functional importance of their interaction in leukemogenesis is unclear. We recently reported that overexpression of a 4-homeobox-gene signature (ie, PBX3/HOXA7/HOXA9/HOXA11) is an independent predictor of poor survival in patients with cytogenetically abnormal acute myeloid leukemia (CA-AML). Here we show that it is PBX3, but not PBX1 or PBX2, that is consistently coexpressed with HOXA9 in various subtypes of CA-AML, particularly MLL-rearranged AML, and thus appears as a potential pathologic cofactor of HOXA9 in CA-AML. We then show that depletion of endogenous Pbx3 expression by shRNA significantly inhibits MLL-fusion-mediated cell transformation, and coexpressed PBX3 exhibits a significantly synergistic effect with HOXA9 in promoting cell transformation in vitro and leukemogenesis in vivo. Furthermore, as a proof of concept, we show that a small peptide, namely HXR9, which was developed to specifically disrupt the interactions between HOX and PBX proteins, can selectively kill leukemic cells with overexpression of HOXA/PBX3 genes. Collectively, our data suggest that PBX3 is a critical cofactor of HOXA9 in leukemogenesis, and targeting their interaction is a feasible strategy to treat presently therapy resistant CA-AML (eg, MLL-rearranged leukemia) in which HOXA/PBX3 genes are overexpressed.

AB - Although PBX proteins are known to increase DNA-binding/transcriptional activity of HOX proteins through their direct binding, the functional importance of their interaction in leukemogenesis is unclear. We recently reported that overexpression of a 4-homeobox-gene signature (ie, PBX3/HOXA7/HOXA9/HOXA11) is an independent predictor of poor survival in patients with cytogenetically abnormal acute myeloid leukemia (CA-AML). Here we show that it is PBX3, but not PBX1 or PBX2, that is consistently coexpressed with HOXA9 in various subtypes of CA-AML, particularly MLL-rearranged AML, and thus appears as a potential pathologic cofactor of HOXA9 in CA-AML. We then show that depletion of endogenous Pbx3 expression by shRNA significantly inhibits MLL-fusion-mediated cell transformation, and coexpressed PBX3 exhibits a significantly synergistic effect with HOXA9 in promoting cell transformation in vitro and leukemogenesis in vivo. Furthermore, as a proof of concept, we show that a small peptide, namely HXR9, which was developed to specifically disrupt the interactions between HOX and PBX proteins, can selectively kill leukemic cells with overexpression of HOXA/PBX3 genes. Collectively, our data suggest that PBX3 is a critical cofactor of HOXA9 in leukemogenesis, and targeting their interaction is a feasible strategy to treat presently therapy resistant CA-AML (eg, MLL-rearranged leukemia) in which HOXA/PBX3 genes are overexpressed.

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PBX3 is an important cofactor of HOXA9 in leukemogenesis

Abstract

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