Elastic properties of leukemic cells linked to maturation stage and integrin activation

Ceri J. Richards; Albertus T.J. Wierenga; Annet Z. Brouwers-Vos; Emmanouil Kyrloglou; Laura S. Dillingh; Patty P.M.F.A. Mulder; Georgios Palasantzas; Jan Jacob Schuringa; Wouter H. Roos

doi:10.1016/j.isci.2025.112150

Elastic properties of leukemic cells linked to maturation stage and integrin activation

Ceri J. Richards, Albertus T.J. Wierenga, Annet Z. Brouwers-Vos, Emmanouil Kyrloglou, Laura S. Dillingh, Patty P.M.F.A. Mulder, Georgios Palasantzas, Jan Jacob Schuringa^*, Wouter H. Roos^*

^*Corresponding author voor dit werk

Onderzoeksoutput: Article › Academic › peer review

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Acute myeloid leukemia (AML) remains challenging to cure. In addition to mutations that alter cell functioning, biophysical properties are modulated by external cues. In particular, membrane proteins that interact with the bone marrow niche can induce cellular changes. Here, we develop an atomic force microscopy (AFM) approach to measure non-adherent AML cell mechanical properties. The Young's modulus of the AML cell line, THP-1, increased in response to retronectin, whereas knock-out of the adhesion protein ITGB1 resulted in no response to retronectin. Confocal microscopy revealed different actin cytoskeleton morphologies for wild-type and ITGB1 knock-out cells exposed to retronectin. These results indicate that ITGB1 mediates stimuli-induced cellular mechanoresponses through cytoskeletal changes. We next used AFM to investigate the elastic properties of primary AML cells and found that more committed cells had lower Young's moduli than immature AMLs. Overall, this provides a platform for investigating the molecular mechanisms involved in leukemic cell mechanoresponse.

Originele taal-2	English
Artikelnummer	112150
Aantal pagina's	15
Tijdschrift	Iscience
Volume	28
Nummer van het tijdschrift	4
DOI's	https://doi.org/10.1016/j.isci.2025.112150
Status	Published - 18-apr.-2025

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@article{627ec8008d454351aa87f576890101ae,

title = "Elastic properties of leukemic cells linked to maturation stage and integrin activation",

abstract = "Acute myeloid leukemia (AML) remains challenging to cure. In addition to mutations that alter cell functioning, biophysical properties are modulated by external cues. In particular, membrane proteins that interact with the bone marrow niche can induce cellular changes. Here, we develop an atomic force microscopy (AFM) approach to measure non-adherent AML cell mechanical properties. The Young's modulus of the AML cell line, THP-1, increased in response to retronectin, whereas knock-out of the adhesion protein ITGB1 resulted in no response to retronectin. Confocal microscopy revealed different actin cytoskeleton morphologies for wild-type and ITGB1 knock-out cells exposed to retronectin. These results indicate that ITGB1 mediates stimuli-induced cellular mechanoresponses through cytoskeletal changes. We next used AFM to investigate the elastic properties of primary AML cells and found that more committed cells had lower Young's moduli than immature AMLs. Overall, this provides a platform for investigating the molecular mechanisms involved in leukemic cell mechanoresponse.",

keywords = "Biomechanics, Health sciences, Natural sciences",

author = "Richards, {Ceri J.} and Wierenga, {Albertus T.J.} and Brouwers-Vos, {Annet Z.} and Emmanouil Kyrloglou and Dillingh, {Laura S.} and Mulder, {Patty P.M.F.A.} and Georgios Palasantzas and Schuringa, {Jan Jacob} and Roos, {Wouter H.}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s)",

year = "2025",

month = apr,

day = "18",

doi = "10.1016/j.isci.2025.112150",

language = "English",

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T1 - Elastic properties of leukemic cells linked to maturation stage and integrin activation

AU - Richards, Ceri J.

AU - Wierenga, Albertus T.J.

AU - Brouwers-Vos, Annet Z.

AU - Kyrloglou, Emmanouil

AU - Dillingh, Laura S.

AU - Mulder, Patty P.M.F.A.

AU - Palasantzas, Georgios

AU - Schuringa, Jan Jacob

AU - Roos, Wouter H.

PY - 2025/4/18

Y1 - 2025/4/18

N2 - Acute myeloid leukemia (AML) remains challenging to cure. In addition to mutations that alter cell functioning, biophysical properties are modulated by external cues. In particular, membrane proteins that interact with the bone marrow niche can induce cellular changes. Here, we develop an atomic force microscopy (AFM) approach to measure non-adherent AML cell mechanical properties. The Young's modulus of the AML cell line, THP-1, increased in response to retronectin, whereas knock-out of the adhesion protein ITGB1 resulted in no response to retronectin. Confocal microscopy revealed different actin cytoskeleton morphologies for wild-type and ITGB1 knock-out cells exposed to retronectin. These results indicate that ITGB1 mediates stimuli-induced cellular mechanoresponses through cytoskeletal changes. We next used AFM to investigate the elastic properties of primary AML cells and found that more committed cells had lower Young's moduli than immature AMLs. Overall, this provides a platform for investigating the molecular mechanisms involved in leukemic cell mechanoresponse.

AB - Acute myeloid leukemia (AML) remains challenging to cure. In addition to mutations that alter cell functioning, biophysical properties are modulated by external cues. In particular, membrane proteins that interact with the bone marrow niche can induce cellular changes. Here, we develop an atomic force microscopy (AFM) approach to measure non-adherent AML cell mechanical properties. The Young's modulus of the AML cell line, THP-1, increased in response to retronectin, whereas knock-out of the adhesion protein ITGB1 resulted in no response to retronectin. Confocal microscopy revealed different actin cytoskeleton morphologies for wild-type and ITGB1 knock-out cells exposed to retronectin. These results indicate that ITGB1 mediates stimuli-induced cellular mechanoresponses through cytoskeletal changes. We next used AFM to investigate the elastic properties of primary AML cells and found that more committed cells had lower Young's moduli than immature AMLs. Overall, this provides a platform for investigating the molecular mechanisms involved in leukemic cell mechanoresponse.

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KW - Natural sciences

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DO - 10.1016/j.isci.2025.112150

M3 - Article

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SN - 2589-0042

VL - 28

JO - Iscience

JF - Iscience

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ER -

Elastic properties of leukemic cells linked to maturation stage and integrin activation

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