A niche driven mechanism determines response and a mutation-independent therapeutic approach for myeloid malignancies

Ioanna Mosialou; Abdullah M. Ali; Rossella Labella; Brygida Bisikirska; Alvaro Cuesta-Dominguez; Paraskevi Vgenopoulou; Ismarc Reyes; Sanjana M. Rao; Anqi Wang; Na Luo; Marta Galan-Diez; Junfei Zhao; Brian J. Chernak; Jan Philipp Bewersdorf; Kazuya Fukasawa; Jiayu Su; Jason Higa; Rachel A. Adams; Adam L. Corper; Sergey Pampou; Catherine M. Woods; Xiaomin Fan; Roshan P. Shah; Julie Feldstein; Na Liu; Cui Liang; Maël Heiblig; Steven Kornblau; Guillermo Garcia-Manero; Ellin Berman; Joseph G. Jurcic; Raul Rabadan; Azra Raza; Stavroula Kousteni

doi:10.1016/j.ccell.2025.03.007

A niche driven mechanism determines response and a mutation-independent therapeutic approach for myeloid malignancies

Ioanna Mosialou
, Abdullah M. Ali
, Rossella Labella
, Brygida Bisikirska
, Alvaro Cuesta-Dominguez
, Paraskevi Vgenopoulou
, Ismarc Reyes
, Sanjana M. Rao
, Anqi Wang
, Na Luo
, Marta Galan-Diez
, Junfei Zhao
, Brian J. Chernak
, Jan Philipp Bewersdorf
, Kazuya Fukasawa
, Jiayu Su
, Jason Higa
, Rachel A. Adams
, Adam L. Corper
, Sergey Pampou

Catherine M. Woods, Xiaomin Fan, Roshan P. Shah, Julie Feldstein, Na Liu, Cui Liang, Maël Heiblig, Steven Kornblau, Guillermo Garcia-Manero, Ellin Berman, Joseph G. Jurcic, Raul Rabadan, Azra Raza, Stavroula Kousteni

Leukemia

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Myeloid cancers such as myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML) remain resistant to standard of care (SOC) and targeted therapies. In this study, we demonstrate that responsiveness to therapy is associated with activation of β-catenin-JAG1 in osteoblastic cells of patients treated with all-trans-retinoic acid (ATRA). ATRA suppresses β-catenin activity in patients and leukemic mice. Consequently, it inhibits the growth and survival of MDS/AML cells from patients with active β-catenin-JAG1 signaling and promotes their differentiation. This occurs independently of cytogenetics and mutational profile. ATRA also improves disease outcome in mice with no evidence of relapse and a superior safety profile to SOC. A human anti-JAG1 antibody improves efficacy in leukemic mice and patient-derived MDS/AML cells. β-catenin activation provides an explanation for the differential response to ATRA and a mechanistic biomarker for ATRA repurposing in myeloid malignancies, potentially evading relapse and extending across a broad range of cancers.

Original language	English (US)
Pages (from-to)	1007-1024.e13
Journal	Cancer cell
Volume	43
Issue number	6
DOIs	https://doi.org/10.1016/j.ccell.2025.03.007
State	Published - Jun 9 2025

Keywords

AML
ATRA
MDS
anti-JAGGED1
b-catenin
bone marrow microenvironment
humanized antibody
myeloid malignancies
therapy

ASJC Scopus subject areas

Oncology
Cancer Research

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10.1016/j.ccell.2025.03.007

Cite this

Mosialou, I., Ali, A. M., Labella, R., Bisikirska, B., Cuesta-Dominguez, A., Vgenopoulou, P., Reyes, I., Rao, S. M., Wang, A., Luo, N., Galan-Diez, M., Zhao, J., Chernak, B. J., Bewersdorf, J. P., Fukasawa, K., Su, J., Higa, J., Adams, R. A., Corper, A. L., ... Kousteni, S. (2025). A niche driven mechanism determines response and a mutation-independent therapeutic approach for myeloid malignancies. Cancer cell, 43(6), 1007-1024.e13. https://doi.org/10.1016/j.ccell.2025.03.007

Mosialou, I, Ali, AM, Labella, R, Bisikirska, B, Cuesta-Dominguez, A, Vgenopoulou, P, Reyes, I, Rao, SM, Wang, A, Luo, N, Galan-Diez, M, Zhao, J, Chernak, BJ, Bewersdorf, JP, Fukasawa, K, Su, J, Higa, J, Adams, RA, Corper, AL, Pampou, S, Woods, CM, Fan, X, Shah, RP, Feldstein, J, Liu, N, Liang, C, Heiblig, M, Kornblau, S , Garcia-Manero, G, Berman, E, Jurcic, JG, Rabadan, R, Raza, A & Kousteni, S 2025, 'A niche driven mechanism determines response and a mutation-independent therapeutic approach for myeloid malignancies', Cancer cell, vol. 43, no. 6, pp. 1007-1024.e13. https://doi.org/10.1016/j.ccell.2025.03.007

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title = "A niche driven mechanism determines response and a mutation-independent therapeutic approach for myeloid malignancies",

abstract = "Myeloid cancers such as myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML) remain resistant to standard of care (SOC) and targeted therapies. In this study, we demonstrate that responsiveness to therapy is associated with activation of β-catenin-JAG1 in osteoblastic cells of patients treated with all-trans-retinoic acid (ATRA). ATRA suppresses β-catenin activity in patients and leukemic mice. Consequently, it inhibits the growth and survival of MDS/AML cells from patients with active β-catenin-JAG1 signaling and promotes their differentiation. This occurs independently of cytogenetics and mutational profile. ATRA also improves disease outcome in mice with no evidence of relapse and a superior safety profile to SOC. A human anti-JAG1 antibody improves efficacy in leukemic mice and patient-derived MDS/AML cells. β-catenin activation provides an explanation for the differential response to ATRA and a mechanistic biomarker for ATRA repurposing in myeloid malignancies, potentially evading relapse and extending across a broad range of cancers.",

keywords = "AML, ATRA, MDS, anti-JAGGED1, b-catenin, bone marrow microenvironment, humanized antibody, myeloid malignancies, therapy",

author = "Ioanna Mosialou and Ali, \{Abdullah M.\} and Rossella Labella and Brygida Bisikirska and Alvaro Cuesta-Dominguez and Paraskevi Vgenopoulou and Ismarc Reyes and Rao, \{Sanjana M.\} and Anqi Wang and Na Luo and Marta Galan-Diez and Junfei Zhao and Chernak, \{Brian J.\} and Bewersdorf, \{Jan Philipp\} and Kazuya Fukasawa and Jiayu Su and Jason Higa and Adams, \{Rachel A.\} and Corper, \{Adam L.\} and Sergey Pampou and Woods, \{Catherine M.\} and Xiaomin Fan and Shah, \{Roshan P.\} and Julie Feldstein and Na Liu and Cui Liang and Ma{\"e}l Heiblig and Steven Kornblau and Guillermo Garcia-Manero and Ellin Berman and Jurcic, \{Joseph G.\} and Raul Rabadan and Azra Raza and Stavroula Kousteni",

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month = jun,

day = "9",

doi = "10.1016/j.ccell.2025.03.007",

language = "English (US)",

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T1 - A niche driven mechanism determines response and a mutation-independent therapeutic approach for myeloid malignancies

AU - Mosialou, Ioanna

AU - Ali, Abdullah M.

AU - Labella, Rossella

AU - Bisikirska, Brygida

AU - Cuesta-Dominguez, Alvaro

AU - Vgenopoulou, Paraskevi

AU - Reyes, Ismarc

AU - Rao, Sanjana M.

AU - Wang, Anqi

AU - Luo, Na

AU - Galan-Diez, Marta

AU - Zhao, Junfei

AU - Chernak, Brian J.

AU - Bewersdorf, Jan Philipp

AU - Fukasawa, Kazuya

AU - Su, Jiayu

AU - Higa, Jason

AU - Adams, Rachel A.

AU - Corper, Adam L.

AU - Pampou, Sergey

AU - Woods, Catherine M.

AU - Fan, Xiaomin

AU - Shah, Roshan P.

AU - Feldstein, Julie

AU - Liu, Na

AU - Liang, Cui

AU - Heiblig, Maël

AU - Kornblau, Steven

AU - Garcia-Manero, Guillermo

AU - Berman, Ellin

AU - Jurcic, Joseph G.

AU - Rabadan, Raul

AU - Raza, Azra

AU - Kousteni, Stavroula

PY - 2025/6/9

Y1 - 2025/6/9

N2 - Myeloid cancers such as myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML) remain resistant to standard of care (SOC) and targeted therapies. In this study, we demonstrate that responsiveness to therapy is associated with activation of β-catenin-JAG1 in osteoblastic cells of patients treated with all-trans-retinoic acid (ATRA). ATRA suppresses β-catenin activity in patients and leukemic mice. Consequently, it inhibits the growth and survival of MDS/AML cells from patients with active β-catenin-JAG1 signaling and promotes their differentiation. This occurs independently of cytogenetics and mutational profile. ATRA also improves disease outcome in mice with no evidence of relapse and a superior safety profile to SOC. A human anti-JAG1 antibody improves efficacy in leukemic mice and patient-derived MDS/AML cells. β-catenin activation provides an explanation for the differential response to ATRA and a mechanistic biomarker for ATRA repurposing in myeloid malignancies, potentially evading relapse and extending across a broad range of cancers.

AB - Myeloid cancers such as myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML) remain resistant to standard of care (SOC) and targeted therapies. In this study, we demonstrate that responsiveness to therapy is associated with activation of β-catenin-JAG1 in osteoblastic cells of patients treated with all-trans-retinoic acid (ATRA). ATRA suppresses β-catenin activity in patients and leukemic mice. Consequently, it inhibits the growth and survival of MDS/AML cells from patients with active β-catenin-JAG1 signaling and promotes their differentiation. This occurs independently of cytogenetics and mutational profile. ATRA also improves disease outcome in mice with no evidence of relapse and a superior safety profile to SOC. A human anti-JAG1 antibody improves efficacy in leukemic mice and patient-derived MDS/AML cells. β-catenin activation provides an explanation for the differential response to ATRA and a mechanistic biomarker for ATRA repurposing in myeloid malignancies, potentially evading relapse and extending across a broad range of cancers.

KW - AML

KW - ATRA

KW - MDS

KW - anti-JAGGED1

KW - b-catenin

KW - bone marrow microenvironment

KW - humanized antibody

KW - myeloid malignancies

KW - therapy

UR - https://www.scopus.com/pages/publications/105001233339

UR - https://www.scopus.com/pages/publications/105001233339#tab=citedBy

U2 - 10.1016/j.ccell.2025.03.007

DO - 10.1016/j.ccell.2025.03.007

M3 - Article

C2 - 40154481

AN - SCOPUS:105001233339

SN - 1535-6108

VL - 43

SP - 1007-1024.e13

JO - Cancer cell

JF - Cancer cell

IS - 6

ER -

A niche driven mechanism determines response and a mutation-independent therapeutic approach for myeloid malignancies

Abstract

Keywords

ASJC Scopus subject areas

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