Type 2 calreticulin mutations activate ATF6 to promote BCL-xL–mediated survival in myeloproliferative neoplasms

Nicole S. Arellano; William L. Heaton; Mirielle C. Nauman; Abigail E. Runnels; Jacky Gomez-Villa; Daniele Vanni; Melissa Gaviria; Maihi Fujita; Nathan M. Krah; Michele Ciboddo; Saveg Yadav; Callie T. Brown; Parker D. Bowden; Amy K. Chen; Christopher Henning; Silvia Catricalà; Ilaria Carola Casetti; Oscar Borsani; Elisa Rumi; Daniela Pietra; Isabelle Plo; Caroline Marty; Marco Marchetti; Ami B. Patel; Caner Saygin; Shannon E. Elf

doi:10.1182/blood.2024026940

Type 2 calreticulin mutations activate ATF6 to promote BCL-xL–mediated survival in myeloproliferative neoplasms

Nicole S. Arellano, William L. Heaton, Mirielle C. Nauman, Abigail E. Runnels, Jacky Gomez-Villa, Daniele Vanni, Melissa Gaviria, Maihi Fujita, Nathan M. Krah, Michele Ciboddo, Saveg Yadav, Callie T. Brown, Parker D. Bowden, Amy K. Chen, Christopher Henning, Silvia Catricalà, Ilaria Carola Casetti, Oscar Borsani, Elisa Rumi, Daniela PietraIsabelle Plo, Caroline Marty, Marco Marchetti, Ami B. Patel, Caner Saygin, Shannon E. Elf

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Most calreticulin (CALR) mutations in myeloproliferative neoplasms are classified as either type 1, a 52–base pair deletion (CALRdel52); or type 2, a 5–base pair insertion (CALRins5). Both are gain-of-function (GOF) mutations that generate an identical mutant C-terminal tail, which mediates the binding to, and activation of, the thrombopoietin receptor myeloproliferative leukemia protein (MPL). We recently reported that despite this shared GOF, CALRdel52 but not CALRins5 mutations cause loss of calcium binding function, leading to activation of, and dependency on, the inositol-requiring enzyme 1/X-box binding protein 1 pathway of the unfolded protein response (UPR). This led us to ask whether CALRins5 mutations activate and depend on a different UPR pathway, and whether this is likewise mediated by a mutation type–specific loss-of-function (LOF). Here, we show that CALRins5 mutations lead to activation of the activating transcription factor 6 (ATF6) pathway of the UPR due to loss of CALR chaperone function. This LOF is caused by interference of the CALRins5 mutant C terminus with key chaperone residue H170. Furthermore, we show that CALRins5 cells are partially dependent on ATF6 for cytokine-independent growth, and identify B-cell lymphoma extra large as a transcriptional target of ATF6 that promotes type 2 CALR-mutant cell survival.

langue originale	Anglais
journal	Blood
Les DOIs	https://doi.org/10.1182/blood.2024026940
état	Accepté/sous presse - 1 janv. 2025

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10.1182/blood.2024026940

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Arellano, N. S., Heaton, W. L., Nauman, M. C., Runnels, A. E., Gomez-Villa, J., Vanni, D., Gaviria, M., Fujita, M., Krah, N. M., Ciboddo, M., Yadav, S., Brown, C. T., Bowden, P. D., Chen, A. K., Henning, C., Catricalà, S., Casetti, I. C., Borsani, O., Rumi, E., ... Elf, S. E. (Accepté/en presse). Type 2 calreticulin mutations activate ATF6 to promote BCL-xL–mediated survival in myeloproliferative neoplasms. Blood. https://doi.org/10.1182/blood.2024026940

@article{7d8512bff573482ca0f9fe8826c892c7,

title = "Type 2 calreticulin mutations activate ATF6 to promote BCL-xL–mediated survival in myeloproliferative neoplasms",

abstract = "Most calreticulin (CALR) mutations in myeloproliferative neoplasms are classified as either type 1, a 52–base pair deletion (CALRdel52); or type 2, a 5–base pair insertion (CALRins5). Both are gain-of-function (GOF) mutations that generate an identical mutant C-terminal tail, which mediates the binding to, and activation of, the thrombopoietin receptor myeloproliferative leukemia protein (MPL). We recently reported that despite this shared GOF, CALRdel52 but not CALRins5 mutations cause loss of calcium binding function, leading to activation of, and dependency on, the inositol-requiring enzyme 1/X-box binding protein 1 pathway of the unfolded protein response (UPR). This led us to ask whether CALRins5 mutations activate and depend on a different UPR pathway, and whether this is likewise mediated by a mutation type–specific loss-of-function (LOF). Here, we show that CALRins5 mutations lead to activation of the activating transcription factor 6 (ATF6) pathway of the UPR due to loss of CALR chaperone function. This LOF is caused by interference of the CALRins5 mutant C terminus with key chaperone residue H170. Furthermore, we show that CALRins5 cells are partially dependent on ATF6 for cytokine-independent growth, and identify B-cell lymphoma extra large as a transcriptional target of ATF6 that promotes type 2 CALR-mutant cell survival.",

author = "Arellano, {Nicole S.} and Heaton, {William L.} and Nauman, {Mirielle C.} and Runnels, {Abigail E.} and Jacky Gomez-Villa and Daniele Vanni and Melissa Gaviria and Maihi Fujita and Krah, {Nathan M.} and Michele Ciboddo and Saveg Yadav and Brown, {Callie T.} and Bowden, {Parker D.} and Chen, {Amy K.} and Christopher Henning and Silvia Catrical{\`a} and Casetti, {Ilaria Carola} and Oscar Borsani and Elisa Rumi and Daniela Pietra and Isabelle Plo and Caroline Marty and Marco Marchetti and Patel, {Ami B.} and Caner Saygin and Elf, {Shannon E.}",

note = "Publisher Copyright: {\textcopyright} 2025 American Society of Hematology",

year = "2025",

month = jan,

day = "1",

doi = "10.1182/blood.2024026940",

language = "English",

journal = "Blood",

issn = "0006-4971",

}

Arellano, NS, Heaton, WL, Nauman, MC, Runnels, AE, Gomez-Villa, J, Vanni, D, Gaviria, M, Fujita, M, Krah, NM, Ciboddo, M, Yadav, S, Brown, CT, Bowden, PD, Chen, AK, Henning, C, Catricalà, S, Casetti, IC, Borsani, O, Rumi, E, Pietra, D, Plo, I, Marty, C, Marchetti, M, Patel, AB, Saygin, C & Elf, SE 2025, 'Type 2 calreticulin mutations activate ATF6 to promote BCL-xL–mediated survival in myeloproliferative neoplasms', Blood. https://doi.org/10.1182/blood.2024026940

TY - JOUR

T1 - Type 2 calreticulin mutations activate ATF6 to promote BCL-xL–mediated survival in myeloproliferative neoplasms

AU - Arellano, Nicole S.

AU - Heaton, William L.

AU - Nauman, Mirielle C.

AU - Runnels, Abigail E.

AU - Gomez-Villa, Jacky

AU - Vanni, Daniele

AU - Gaviria, Melissa

AU - Fujita, Maihi

AU - Krah, Nathan M.

AU - Ciboddo, Michele

AU - Yadav, Saveg

AU - Brown, Callie T.

AU - Bowden, Parker D.

AU - Chen, Amy K.

AU - Henning, Christopher

AU - Catricalà, Silvia

AU - Casetti, Ilaria Carola

AU - Borsani, Oscar

AU - Rumi, Elisa

AU - Pietra, Daniela

AU - Plo, Isabelle

AU - Marty, Caroline

AU - Marchetti, Marco

AU - Patel, Ami B.

AU - Saygin, Caner

AU - Elf, Shannon E.

PY - 2025/1/1

Y1 - 2025/1/1

N2 - Most calreticulin (CALR) mutations in myeloproliferative neoplasms are classified as either type 1, a 52–base pair deletion (CALRdel52); or type 2, a 5–base pair insertion (CALRins5). Both are gain-of-function (GOF) mutations that generate an identical mutant C-terminal tail, which mediates the binding to, and activation of, the thrombopoietin receptor myeloproliferative leukemia protein (MPL). We recently reported that despite this shared GOF, CALRdel52 but not CALRins5 mutations cause loss of calcium binding function, leading to activation of, and dependency on, the inositol-requiring enzyme 1/X-box binding protein 1 pathway of the unfolded protein response (UPR). This led us to ask whether CALRins5 mutations activate and depend on a different UPR pathway, and whether this is likewise mediated by a mutation type–specific loss-of-function (LOF). Here, we show that CALRins5 mutations lead to activation of the activating transcription factor 6 (ATF6) pathway of the UPR due to loss of CALR chaperone function. This LOF is caused by interference of the CALRins5 mutant C terminus with key chaperone residue H170. Furthermore, we show that CALRins5 cells are partially dependent on ATF6 for cytokine-independent growth, and identify B-cell lymphoma extra large as a transcriptional target of ATF6 that promotes type 2 CALR-mutant cell survival.

AB - Most calreticulin (CALR) mutations in myeloproliferative neoplasms are classified as either type 1, a 52–base pair deletion (CALRdel52); or type 2, a 5–base pair insertion (CALRins5). Both are gain-of-function (GOF) mutations that generate an identical mutant C-terminal tail, which mediates the binding to, and activation of, the thrombopoietin receptor myeloproliferative leukemia protein (MPL). We recently reported that despite this shared GOF, CALRdel52 but not CALRins5 mutations cause loss of calcium binding function, leading to activation of, and dependency on, the inositol-requiring enzyme 1/X-box binding protein 1 pathway of the unfolded protein response (UPR). This led us to ask whether CALRins5 mutations activate and depend on a different UPR pathway, and whether this is likewise mediated by a mutation type–specific loss-of-function (LOF). Here, we show that CALRins5 mutations lead to activation of the activating transcription factor 6 (ATF6) pathway of the UPR due to loss of CALR chaperone function. This LOF is caused by interference of the CALRins5 mutant C terminus with key chaperone residue H170. Furthermore, we show that CALRins5 cells are partially dependent on ATF6 for cytokine-independent growth, and identify B-cell lymphoma extra large as a transcriptional target of ATF6 that promotes type 2 CALR-mutant cell survival.

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U2 - 10.1182/blood.2024026940

DO - 10.1182/blood.2024026940

M3 - Article

C2 - 40403318

AN - SCOPUS:105008155052

SN - 0006-4971

JO - Blood

JF - Blood

ER -