Ruxolitinib mediated paradoxical JAK2 hyperphosphorylation is due to the protection of activation loop tyrosines from phosphatases
Myelofibrosis (MF) in 50% of cases is driven by an activating JAK2 mutation, mostly V617F. Ruxolinitib is approved for the treatment of MF. Responses to ruxolitinib in MF are of limited duration. Unexpectedly, treatment of JAK2-V617F expressing cells with ruxolitinib causes paradoxical hyperphosphor...
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| Published in | Leukemia Vol. 39; no. 7; pp. 1678 - 1691 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Nature Publishing Group
01.07.2025
Nature Publishing Group UK |
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| Online Access | Get full text |
| ISSN | 0887-6924 1476-5551 1476-5551 |
| DOI | 10.1038/s41375-025-02594-7 |
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| Abstract | Myelofibrosis (MF) in 50% of cases is driven by an activating JAK2 mutation, mostly V617F. Ruxolinitib is approved for the treatment of MF. Responses to ruxolitinib in MF are of limited duration. Unexpectedly, treatment of JAK2-V617F expressing cells with ruxolitinib causes paradoxical hyperphosphorylation of JAK2 at activation loop Tyr1007/Tyr1008. The significance of ruxolitinib-induced JAK2 hyperphosphorylation is not well understood. We found that a ruxolitinib-resistant JAK2 variant (V617F + L983F) and a kinase dead mutant (JAK2-V617F + K882R) did not show paradoxical hyperphosphorylation after ruxolitinib treatment indicating that it is an intrinsic mechanism. Antibodies against pTyr1007/1008 failed to immunoprecipitate native JAK2-V617F in the presence of ruxolitinib, although JAK2-V617F was hyperphosphorylated at these sites, suggesting that in the presence of ruxolitinib the JAK2 activation loop is buried within the kinase domain. This stabilization of the activation loop conformation resulted in the protection of pTyr1007/1008 sites from phosphatases. Mutation of Arg975 and Lys999 to Ala reduced the phosphorylation at both Tyr1007/Tyr1008 residues, and notably, ruxolitinib treatment did not lead to JAK2 hyperphosphorylation. Importantly, hyperphosphorylated JAK2 after ruxolitinib dissociation displayed excess rebound activation of STAT5 target gene PIM kinase. Our results suggest a novel mode of kinase regulation by modulating kinase activity through conformational changes induced by ruxolitinib.
Subject categories: JAK2-V617F, Ruxolitinib, JAK2 hyperphosphorylation, Phosphatases action, PIM kinases |
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| AbstractList | Myelofibrosis (MF) in 50% of cases is driven by an activating JAK2 mutation, mostly V617F. Ruxolinitib is approved for the treatment of MF. Responses to ruxolitinib in MF are of limited duration. Unexpectedly, treatment of JAK2-V617F expressing cells with ruxolitinib causes paradoxical hyperphosphorylation of JAK2 at activation loop Tyr1007/Tyr1008. The significance of ruxolitinib-induced JAK2 hyperphosphorylation is not well understood. We found that a ruxolitinib-resistant JAK2 variant (V617F + L983F) and a kinase dead mutant (JAK2-V617F + K882R) did not show paradoxical hyperphosphorylation after ruxolitinib treatment indicating that it is an intrinsic mechanism. Antibodies against pTyr1007/1008 failed to immunoprecipitate native JAK2-V617F in the presence of ruxolitinib, although JAK2-V617F was hyperphosphorylated at these sites, suggesting that in the presence of ruxolitinib the JAK2 activation loop is buried within the kinase domain. This stabilization of the activation loop conformation resulted in the protection of pTyr1007/1008 sites from phosphatases. Mutation of Arg975 and Lys999 to Ala reduced the phosphorylation at both Tyr1007/Tyr1008 residues, and notably, ruxolitinib treatment did not lead to JAK2 hyperphosphorylation. Importantly, hyperphosphorylated JAK2 after ruxolitinib dissociation displayed excess rebound activation of STAT5 target gene PIM kinase. Our results suggest a novel mode of kinase regulation by modulating kinase activity through conformational changes induced by ruxolitinib.
Subject categories: JAK2-V617F, Ruxolitinib, JAK2 hyperphosphorylation, Phosphatases action, PIM kinases Myelofibrosis (MF) in 50% of cases is driven by an activating JAK2 mutation, mostly V617F. Ruxolinitib is approved for the treatment of MF. Responses to ruxolitinib in MF are of limited duration. Unexpectedly, treatment of JAK2-V617F expressing cells with ruxolitinib causes paradoxical hyperphosphorylation of JAK2 at activation loop Tyr1007/Tyr1008. The significance of ruxolitinib-induced JAK2 hyperphosphorylation is not well understood. We found that a ruxolitinib-resistant JAK2 variant (V617F + L983F) and a kinase dead mutant (JAK2-V617F + K882R) did not show paradoxical hyperphosphorylation after ruxolitinib treatment indicating that it is an intrinsic mechanism. Antibodies against pTyr1007/1008 failed to immunoprecipitate native JAK2-V617F in the presence of ruxolitinib, although JAK2-V617F was hyperphosphorylated at these sites, suggesting that in the presence of ruxolitinib the JAK2 activation loop is buried within the kinase domain. This stabilization of the activation loop conformation resulted in the protection of pTyr1007/1008 sites from phosphatases. Mutation of Arg975 and Lys999 to Ala reduced the phosphorylation at both Tyr1007/Tyr1008 residues, and notably, ruxolitinib treatment did not lead to JAK2 hyperphosphorylation. Importantly, hyperphosphorylated JAK2 after ruxolitinib dissociation displayed excess rebound activation of STAT5 target gene PIM kinase. Our results suggest a novel mode of kinase regulation by modulating kinase activity through conformational changes induced by ruxolitinib.Subject categories: JAK2-V617F, Ruxolitinib, JAK2 hyperphosphorylation, Phosphatases action, PIM kinases.Myelofibrosis (MF) in 50% of cases is driven by an activating JAK2 mutation, mostly V617F. Ruxolinitib is approved for the treatment of MF. Responses to ruxolitinib in MF are of limited duration. Unexpectedly, treatment of JAK2-V617F expressing cells with ruxolitinib causes paradoxical hyperphosphorylation of JAK2 at activation loop Tyr1007/Tyr1008. The significance of ruxolitinib-induced JAK2 hyperphosphorylation is not well understood. We found that a ruxolitinib-resistant JAK2 variant (V617F + L983F) and a kinase dead mutant (JAK2-V617F + K882R) did not show paradoxical hyperphosphorylation after ruxolitinib treatment indicating that it is an intrinsic mechanism. Antibodies against pTyr1007/1008 failed to immunoprecipitate native JAK2-V617F in the presence of ruxolitinib, although JAK2-V617F was hyperphosphorylated at these sites, suggesting that in the presence of ruxolitinib the JAK2 activation loop is buried within the kinase domain. This stabilization of the activation loop conformation resulted in the protection of pTyr1007/1008 sites from phosphatases. Mutation of Arg975 and Lys999 to Ala reduced the phosphorylation at both Tyr1007/Tyr1008 residues, and notably, ruxolitinib treatment did not lead to JAK2 hyperphosphorylation. Importantly, hyperphosphorylated JAK2 after ruxolitinib dissociation displayed excess rebound activation of STAT5 target gene PIM kinase. Our results suggest a novel mode of kinase regulation by modulating kinase activity through conformational changes induced by ruxolitinib.Subject categories: JAK2-V617F, Ruxolitinib, JAK2 hyperphosphorylation, Phosphatases action, PIM kinases. Myelofibrosis (MF) in 50% of cases is driven by an activating JAK2 mutation, mostly V617F. Ruxolinitib is approved for the treatment of MF. Responses to ruxolitinib in MF are of limited duration. Unexpectedly, treatment of JAK2-V617F expressing cells with ruxolitinib causes paradoxical hyperphosphorylation of JAK2 at activation loop Tyr1007/Tyr1008. The significance of ruxolitinib-induced JAK2 hyperphosphorylation is not well understood. We found that a ruxolitinib-resistant JAK2 variant (V617F + L983F) and a kinase dead mutant (JAK2-V617F + K882R) did not show paradoxical hyperphosphorylation after ruxolitinib treatment indicating that it is an intrinsic mechanism. Antibodies against pTyr1007/1008 failed to immunoprecipitate native JAK2-V617F in the presence of ruxolitinib, although JAK2-V617F was hyperphosphorylated at these sites, suggesting that in the presence of ruxolitinib the JAK2 activation loop is buried within the kinase domain. This stabilization of the activation loop conformation resulted in the protection of pTyr1007/1008 sites from phosphatases. Mutation of Arg975 and Lys999 to Ala reduced the phosphorylation at both Tyr1007/Tyr1008 residues, and notably, ruxolitinib treatment did not lead to JAK2 hyperphosphorylation. Importantly, hyperphosphorylated JAK2 after ruxolitinib dissociation displayed excess rebound activation of STAT5 target gene PIM kinase. Our results suggest a novel mode of kinase regulation by modulating kinase activity through conformational changes induced by ruxolitinib.Subject categories: JAK2-V617F, Ruxolitinib, JAK2 hyperphosphorylation, Phosphatases action, PIM kinases Myelofibrosis (MF) in 50% of cases is driven by an activating JAK2 mutation, mostly V617F. Ruxolinitib is approved for the treatment of MF. Responses to ruxolitinib in MF are of limited duration. Unexpectedly, treatment of JAK2-V617F expressing cells with ruxolitinib causes paradoxical hyperphosphorylation of JAK2 at activation loop Tyr1007/Tyr1008. The significance of ruxolitinib-induced JAK2 hyperphosphorylation is not well understood. We found that a ruxolitinib-resistant JAK2 variant (V617F + L983F) and a kinase dead mutant (JAK2-V617F + K882R) did not show paradoxical hyperphosphorylation after ruxolitinib treatment indicating that it is an intrinsic mechanism. Antibodies against pTyr1007/1008 failed to immunoprecipitate native JAK2-V617F in the presence of ruxolitinib, although JAK2-V617F was hyperphosphorylated at these sites, suggesting that in the presence of ruxolitinib the JAK2 activation loop is buried within the kinase domain. This stabilization of the activation loop conformation resulted in the protection of pTyr1007/1008 sites from phosphatases. Mutation of Arg975 and Lys999 to Ala reduced the phosphorylation at both Tyr1007/Tyr1008 residues, and notably, ruxolitinib treatment did not lead to JAK2 hyperphosphorylation. Importantly, hyperphosphorylated JAK2 after ruxolitinib dissociation displayed excess rebound activation of STAT5 target gene PIM kinase. Our results suggest a novel mode of kinase regulation by modulating kinase activity through conformational changes induced by ruxolitinib.Subject categories: JAK2-V617F, Ruxolitinib, JAK2 hyperphosphorylation, Phosphatases action, PIM kinases. |
| Author | Prince, Gerin Fliedner, Stephanie Gorantla, Sivahari P. Oelschläger, Lorenz Duyster, Justus Osius, Jasmin Maluje, Yamil Walter, Wencke Busch, Hauke Ernst, Nancy von Bubnoff, Nikolas Kolluri, Suresh Babu Ludwig, Ralf Joachim Haferlach, Torsten Fähnrich, Anke Gemoll, Timo Gebauer, Niklas Barbosa Gulde, Alanis |
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| Snippet | Myelofibrosis (MF) in 50% of cases is driven by an activating JAK2 mutation, mostly V617F. Ruxolinitib is approved for the treatment of MF. Responses to... |
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| SubjectTerms | Cloning Competition Conformation Cytokines Humans Janus kinase 2 Janus Kinase 2 - chemistry Janus Kinase 2 - genetics Janus Kinase 2 - metabolism Kinases Mutation Myelofibrosis Nitriles Phosphatase Phosphorylation Phosphorylation - drug effects Primary Myelofibrosis - drug therapy Primary Myelofibrosis - genetics Primary Myelofibrosis - metabolism Primary Myelofibrosis - pathology Protein Tyrosine Phosphatases - metabolism Pyrazoles - pharmacology Pyrimidines Stat5 protein Tyrosine - metabolism |
| Title | Ruxolitinib mediated paradoxical JAK2 hyperphosphorylation is due to the protection of activation loop tyrosines from phosphatases |
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