Characterization of BMS-911543, a functionally selective small-molecule inhibitor of JAK2

A. V. Purandare; T. M. McDevitt; H. Wan; D. You; B. Penhallow; X. Han; R. Vuppugalla; Y. Zhang; S. U. Ruepp; G. L. Trainor; L. Lombardo; D. Pedicord; M. M. Gottardis; P. Ross-Macdonald; H. De Silva; J. Hosbach; S. L. Emanuel; Y. Blat; E. Fitzpatrick; T. L. Taylor; K. W. McIntyre; E. Michaud; C. Mulligan; F. Y. Lee; A. Woolfson; T. L. Lasho; A. Pardanani; A. Tefferi; M. V. Lorenzi

doi:10.1038/leu.2011.292

Characterization of BMS-911543, a functionally selective small-molecule inhibitor of JAK2

A. V. Purandare, T. M. McDevitt, H. Wan, D. You, B. Penhallow, X. Han, R. Vuppugalla, Y. Zhang, S. U. Ruepp, G. L. Trainor, L. Lombardo, D. Pedicord, M. M. Gottardis, P. Ross-Macdonald, H. De Silva, J. Hosbach, S. L. Emanuel, Y. Blat, E. Fitzpatrick, T. L. TaylorK. W. McIntyre, E. Michaud, C. Mulligan, F. Y. Lee, A. Woolfson, T. L. Lasho, A. Pardanani, A. Tefferi, M. V. Lorenzi

Hematology

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Abstract

We report the characterization of BMS-911543, a potent and selective small-molecule inhibitor of the Janus kinase (JAK) family member, JAK2. Functionally, BMS-911543 displayed potent anti-proliferative and pharmacodynamic (PD) effects in cell lines dependent upon JAK2 signaling, and had little activity in cell types dependent upon other pathways, such as JAK1 and JAK3. BMS-911543 also displayed anti-proliferative responses in colony growth assays using primary progenitor cells isolated from patients with JAK2 V617F -positive myeloproliferative neoplasms (MPNs). Similar to these in vitro observations, BMS-911543 was also highly active in in vivo models of JAK2 signaling, with sustained pathway suppression being observed after a single oral dose. At low dose levels active in JAK2-dependent PD models, no effects were observed in an in vivo model of immunosuppression monitoring antigen-induced IgG and IgM production. Expression profiling of JAK2 V617F -expressing cells treated with diverse JAK2 inhibitors revealed a shared set of transcriptional changes underlying pharmacological effects of JAK2 inhibition, including many STAT1-regulated genes and STAT1 itself. Collectively, our results highlight BMS-911543 as a functionally selective JAK2 inhibitor and support the therapeutic rationale for its further characterization in patients with MPN or in other disorders characterized by constitutively active JAK2 signaling.

Original language	English (US)
Pages (from-to)	280-288
Number of pages	9
Journal	Leukemia
Volume	26
Issue number	2
DOIs	https://doi.org/10.1038/leu.2011.292
State	Published - Feb 2012

Keywords

JAK2
STAT1
immunosuppression
tyrosine kinase inhibitor

ASJC Scopus subject areas

Hematology
Oncology
Cancer Research

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10.1038/leu.2011.292

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Purandare, A. V., McDevitt, T. M., Wan, H., You, D., Penhallow, B., Han, X., Vuppugalla, R., Zhang, Y., Ruepp, S. U., Trainor, G. L., Lombardo, L., Pedicord, D., Gottardis, M. M., Ross-Macdonald, P., De Silva, H., Hosbach, J., Emanuel, S. L., Blat, Y., Fitzpatrick, E., ... Lorenzi, M. V. (2012). Characterization of BMS-911543, a functionally selective small-molecule inhibitor of JAK2. Leukemia, 26(2), 280-288. https://doi.org/10.1038/leu.2011.292

Purandare, AV, McDevitt, TM, Wan, H, You, D, Penhallow, B, Han, X, Vuppugalla, R, Zhang, Y, Ruepp, SU, Trainor, GL, Lombardo, L, Pedicord, D, Gottardis, MM, Ross-Macdonald, P, De Silva, H, Hosbach, J, Emanuel, SL, Blat, Y, Fitzpatrick, E, Taylor, TL, McIntyre, KW, Michaud, E, Mulligan, C, Lee, FY, Woolfson, A, Lasho, TL, Pardanani, A , Tefferi, A & Lorenzi, MV 2012, 'Characterization of BMS-911543, a functionally selective small-molecule inhibitor of JAK2', Leukemia, vol. 26, no. 2, pp. 280-288. https://doi.org/10.1038/leu.2011.292

@article{e74c2977e3864da097e25318e526a208,

title = "Characterization of BMS-911543, a functionally selective small-molecule inhibitor of JAK2",

abstract = "We report the characterization of BMS-911543, a potent and selective small-molecule inhibitor of the Janus kinase (JAK) family member, JAK2. Functionally, BMS-911543 displayed potent anti-proliferative and pharmacodynamic (PD) effects in cell lines dependent upon JAK2 signaling, and had little activity in cell types dependent upon other pathways, such as JAK1 and JAK3. BMS-911543 also displayed anti-proliferative responses in colony growth assays using primary progenitor cells isolated from patients with JAK2 V617F -positive myeloproliferative neoplasms (MPNs). Similar to these in vitro observations, BMS-911543 was also highly active in in vivo models of JAK2 signaling, with sustained pathway suppression being observed after a single oral dose. At low dose levels active in JAK2-dependent PD models, no effects were observed in an in vivo model of immunosuppression monitoring antigen-induced IgG and IgM production. Expression profiling of JAK2 V617F -expressing cells treated with diverse JAK2 inhibitors revealed a shared set of transcriptional changes underlying pharmacological effects of JAK2 inhibition, including many STAT1-regulated genes and STAT1 itself. Collectively, our results highlight BMS-911543 as a functionally selective JAK2 inhibitor and support the therapeutic rationale for its further characterization in patients with MPN or in other disorders characterized by constitutively active JAK2 signaling.",

keywords = "JAK2, STAT1, immunosuppression, tyrosine kinase inhibitor",

author = "Purandare, {A. V.} and McDevitt, {T. M.} and H. Wan and D. You and B. Penhallow and X. Han and R. Vuppugalla and Y. Zhang and Ruepp, {S. U.} and Trainor, {G. L.} and L. Lombardo and D. Pedicord and Gottardis, {M. M.} and P. Ross-Macdonald and {De Silva}, H. and J. Hosbach and Emanuel, {S. L.} and Y. Blat and E. Fitzpatrick and Taylor, {T. L.} and McIntyre, {K. W.} and E. Michaud and C. Mulligan and Lee, {F. Y.} and A. Woolfson and Lasho, {T. L.} and A. Pardanani and A. Tefferi and Lorenzi, {M. V.}",

note = "Funding Information: We thank Dr Gary Gilliland for the kind gift of the Ba/F3-engineered cell lines. This work was supported by Bristol-Myers Squibb.",

year = "2012",

month = feb,

doi = "10.1038/leu.2011.292",

language = "English (US)",

volume = "26",

pages = "280--288",

journal = "Leukemia",

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T1 - Characterization of BMS-911543, a functionally selective small-molecule inhibitor of JAK2

AU - Purandare, A. V.

AU - McDevitt, T. M.

AU - Wan, H.

AU - You, D.

AU - Penhallow, B.

AU - Han, X.

AU - Vuppugalla, R.

AU - Zhang, Y.

AU - Ruepp, S. U.

AU - Trainor, G. L.

AU - Lombardo, L.

AU - Pedicord, D.

AU - Gottardis, M. M.

AU - Ross-Macdonald, P.

AU - De Silva, H.

AU - Hosbach, J.

AU - Emanuel, S. L.

AU - Blat, Y.

AU - Fitzpatrick, E.

AU - Taylor, T. L.

AU - McIntyre, K. W.

AU - Michaud, E.

AU - Mulligan, C.

AU - Lee, F. Y.

AU - Woolfson, A.

AU - Lasho, T. L.

AU - Pardanani, A.

AU - Tefferi, A.

AU - Lorenzi, M. V.

N1 - Funding Information: We thank Dr Gary Gilliland for the kind gift of the Ba/F3-engineered cell lines. This work was supported by Bristol-Myers Squibb.

PY - 2012/2

Y1 - 2012/2

N2 - We report the characterization of BMS-911543, a potent and selective small-molecule inhibitor of the Janus kinase (JAK) family member, JAK2. Functionally, BMS-911543 displayed potent anti-proliferative and pharmacodynamic (PD) effects in cell lines dependent upon JAK2 signaling, and had little activity in cell types dependent upon other pathways, such as JAK1 and JAK3. BMS-911543 also displayed anti-proliferative responses in colony growth assays using primary progenitor cells isolated from patients with JAK2 V617F -positive myeloproliferative neoplasms (MPNs). Similar to these in vitro observations, BMS-911543 was also highly active in in vivo models of JAK2 signaling, with sustained pathway suppression being observed after a single oral dose. At low dose levels active in JAK2-dependent PD models, no effects were observed in an in vivo model of immunosuppression monitoring antigen-induced IgG and IgM production. Expression profiling of JAK2 V617F -expressing cells treated with diverse JAK2 inhibitors revealed a shared set of transcriptional changes underlying pharmacological effects of JAK2 inhibition, including many STAT1-regulated genes and STAT1 itself. Collectively, our results highlight BMS-911543 as a functionally selective JAK2 inhibitor and support the therapeutic rationale for its further characterization in patients with MPN or in other disorders characterized by constitutively active JAK2 signaling.

AB - We report the characterization of BMS-911543, a potent and selective small-molecule inhibitor of the Janus kinase (JAK) family member, JAK2. Functionally, BMS-911543 displayed potent anti-proliferative and pharmacodynamic (PD) effects in cell lines dependent upon JAK2 signaling, and had little activity in cell types dependent upon other pathways, such as JAK1 and JAK3. BMS-911543 also displayed anti-proliferative responses in colony growth assays using primary progenitor cells isolated from patients with JAK2 V617F -positive myeloproliferative neoplasms (MPNs). Similar to these in vitro observations, BMS-911543 was also highly active in in vivo models of JAK2 signaling, with sustained pathway suppression being observed after a single oral dose. At low dose levels active in JAK2-dependent PD models, no effects were observed in an in vivo model of immunosuppression monitoring antigen-induced IgG and IgM production. Expression profiling of JAK2 V617F -expressing cells treated with diverse JAK2 inhibitors revealed a shared set of transcriptional changes underlying pharmacological effects of JAK2 inhibition, including many STAT1-regulated genes and STAT1 itself. Collectively, our results highlight BMS-911543 as a functionally selective JAK2 inhibitor and support the therapeutic rationale for its further characterization in patients with MPN or in other disorders characterized by constitutively active JAK2 signaling.

KW - JAK2

KW - STAT1

KW - immunosuppression

KW - tyrosine kinase inhibitor

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Characterization of BMS-911543, a functionally selective small-molecule inhibitor of JAK2

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