CD49d governs immune synapse formation through actin rearrangements and synchronizes BCR signaling in CLL

Laura Polcik; Abhishek Pethe; Driti Ashok; Erika Tissino; Adrián Fernández-Rego; Federico Pozzo; Danielle-Justine Danner; Manuel Holst; Claudio Martines; Karin Hofmann; Aleksandar J Dimovski; Sandra Kissel; Andrea Härzschel; Lixia Li; Tamara Bittolo; Geoffroy Andrieux; Theresa Haslauer; Jan Philip Höpner; Nadja Zaborsky; Richard Greil; Cornelius Miething; Jesus Duque-Afonso; Natalie Köhler; Melanie Boerries; Riccardo Bomben; Justus Duyster; Robert Grosse; Gianluca GAIDANO; Alberto Zamò; Antonella Zucchetto; Yolanda R. Carrasco; Dimitar G. Efremov; Valter Gattei; Tanja Nicole Hartmann

doi:10.1182/blood.2024027753

CD49d governs immune synapse formation through actin rearrangements and synchronizes BCR signaling in CLL

Laura Polcik
, Abhishek Pethe
, Driti Ashok
, Erika Tissino
, Adrián Fernández-Rego
, Federico Pozzo
, Danielle-Justine Danner
, Manuel Holst
, Claudio Martines
, Karin Hofmann
, Aleksandar J Dimovski
, Sandra Kissel
, Andrea Härzschel
, Lixia Li
, Tamara Bittolo
, Geoffroy Andrieux
, Theresa Haslauer
, Jan Philip Höpner
, Nadja Zaborsky
, Richard Greil

Cornelius Miething, Jesus Duque-Afonso, Natalie Köhler, Melanie Boerries, Riccardo Bomben, Justus Duyster, Robert Grosse, Gianluca GAIDANO, Alberto Zamò, Antonella Zucchetto, Yolanda R. Carrasco, Dimitar G. Efremov, Valter Gattei, Tanja Nicole Hartmann

Dipartimento di Medicina Traslazionale

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

Abstract: B-cell receptor (BCR) signaling is a key determinant of chronic lymphocytic leukemia (CLL) pathophysiology. CD49d, the α4 subunit of the very late antigen 4 integrin, can be activated by BCR signals; however, its role in modulating BCR functionality remains unknown. We used knockout mouse models and primary human CLL stratified by CD49d expression to address this aspect. CD49d was required for bone marrow (BM) infiltration and shaped BM infiltration patterns and patient outcomes in human CLL. In TCL1 transplantation models, the loss of CD49d abrogated BM homing and leukemic cell positioning within splenic niches. At the cellular level, CD49d-deficient murine TCL1 transgenic cells and human CD49d-low CLL cells failed to form efficient immune synapses with antigen-presenting membranes. Transcriptome analyses identified CD49d-dependent regulation of actin-associated pathways and distinct signatures of BCR responsiveness in both human and mouse cells. Consistently, CD49d-low human CLL cells displayed aberrant actin remodeling following BCR stimulation, and a second aggressive murine CLL model reproduced the actin and engraftment defects. Kinome profiling linked impaired antigen-induced BCR responses in CD49d-deficient murine cells to altered kinase activity, and pharmacologic actin perturbation phenocopied CD49d loss. In human CD49d-low CLL cells, a desynchronization of BCR-related downstream Syk and PLCɣ2 activation was found. Mechanistically, the CD49d-BCR interplay involved their colocalization, and CD49d converged with BCR signaling on a focal adhesion kinase–actin axis. In summary, our findings establish CD49d as a key regulator of BCR functionality in CLL, linking integrins to cytoskeletal dynamics and antigen responsiveness.

Lingua originale	Inglese
Rivista	Blood
DOI	https://doi.org/10.1182/blood.2024027753
Stato di pubblicazione	Pubblicato - 2026

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10.1182/blood.2024027753

https://hdl.handle.net/11579/231609

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Polcik, L., Pethe, A., Ashok, D., Tissino, E., Fernández-Rego, A., Pozzo, F., Danner, D.-J., Holst, M., Martines, C., Hofmann, K., Dimovski, A. J., Kissel, S., Härzschel, A., Li, L., Bittolo, T., Andrieux, G., Haslauer, T., Höpner, J. P., Zaborsky, N., ... Hartmann, T. N. (2026). CD49d governs immune synapse formation through actin rearrangements and synchronizes BCR signaling in CLL. Blood. https://doi.org/10.1182/blood.2024027753

@article{4c8828aebf56471888aad3eb56fd55ac,

title = "CD49d governs immune synapse formation through actin rearrangements and synchronizes BCR signaling in CLL",

abstract = "Abstract: B-cell receptor (BCR) signaling is a key determinant of chronic lymphocytic leukemia (CLL) pathophysiology. CD49d, the α4 subunit of the very late antigen 4 integrin, can be activated by BCR signals; however, its role in modulating BCR functionality remains unknown. We used knockout mouse models and primary human CLL stratified by CD49d expression to address this aspect. CD49d was required for bone marrow (BM) infiltration and shaped BM infiltration patterns and patient outcomes in human CLL. In TCL1 transplantation models, the loss of CD49d abrogated BM homing and leukemic cell positioning within splenic niches. At the cellular level, CD49d-deficient murine TCL1 transgenic cells and human CD49d-low CLL cells failed to form efficient immune synapses with antigen-presenting membranes. Transcriptome analyses identified CD49d-dependent regulation of actin-associated pathways and distinct signatures of BCR responsiveness in both human and mouse cells. Consistently, CD49d-low human CLL cells displayed aberrant actin remodeling following BCR stimulation, and a second aggressive murine CLL model reproduced the actin and engraftment defects. Kinome profiling linked impaired antigen-induced BCR responses in CD49d-deficient murine cells to altered kinase activity, and pharmacologic actin perturbation phenocopied CD49d loss. In human CD49d-low CLL cells, a desynchronization of BCR-related downstream Syk and PLCɣ2 activation was found. Mechanistically, the CD49d-BCR interplay involved their colocalization, and CD49d converged with BCR signaling on a focal adhesion kinase–actin axis. In summary, our findings establish CD49d as a key regulator of BCR functionality in CLL, linking integrins to cytoskeletal dynamics and antigen responsiveness.",

author = "Laura Polcik and Abhishek Pethe and Driti Ashok and Erika Tissino and Adri{\'a}n Fern{\'a}ndez-Rego and Federico Pozzo and Danielle-Justine Danner and Manuel Holst and Claudio Martines and Karin Hofmann and Dimovski, \{Aleksandar J\} and Sandra Kissel and Andrea H{\"a}rzschel and Lixia Li and Tamara Bittolo and Geoffroy Andrieux and Theresa Haslauer and H{\"o}pner, \{Jan Philip\} and Nadja Zaborsky and Richard Greil and Cornelius Miething and Jesus Duque-Afonso and Natalie K{\"o}hler and Melanie Boerries and Riccardo Bomben and Justus Duyster and Robert Grosse and Gianluca GAIDANO and Alberto Zam{\`o} and Antonella Zucchetto and Carrasco, \{Yolanda R.\} and Efremov, \{Dimitar G.\} and Valter Gattei and Hartmann, \{Tanja Nicole\}",

year = "2026",

doi = "10.1182/blood.2024027753",

language = "English",

journal = "Blood",

issn = "0006-4971",

publisher = "Elsevier B.V.",

}

Polcik, L, Pethe, A, Ashok, D, Tissino, E, Fernández-Rego, A, Pozzo, F, Danner, D-J, Holst, M, Martines, C, Hofmann, K, Dimovski, AJ, Kissel, S, Härzschel, A, Li, L, Bittolo, T, Andrieux, G, Haslauer, T, Höpner, JP, Zaborsky, N, Greil, R, Miething, C, Duque-Afonso, J, Köhler, N, Boerries, M, Bomben, R, Duyster, J, Grosse, R, GAIDANO, G, Zamò, A, Zucchetto, A, Carrasco, YR, Efremov, DG, Gattei, V & Hartmann, TN 2026, 'CD49d governs immune synapse formation through actin rearrangements and synchronizes BCR signaling in CLL', Blood. https://doi.org/10.1182/blood.2024027753

TY - JOUR

T1 - CD49d governs immune synapse formation through actin rearrangements and synchronizes BCR signaling in CLL

AU - Polcik, Laura

AU - Pethe, Abhishek

AU - Ashok, Driti

AU - Tissino, Erika

AU - Fernández-Rego, Adrián

AU - Pozzo, Federico

AU - Danner, Danielle-Justine

AU - Holst, Manuel

AU - Martines, Claudio

AU - Hofmann, Karin

AU - Dimovski, Aleksandar J

AU - Kissel, Sandra

AU - Härzschel, Andrea

AU - Li, Lixia

AU - Bittolo, Tamara

AU - Andrieux, Geoffroy

AU - Haslauer, Theresa

AU - Höpner, Jan Philip

AU - Zaborsky, Nadja

AU - Greil, Richard

AU - Miething, Cornelius

AU - Duque-Afonso, Jesus

AU - Köhler, Natalie

AU - Boerries, Melanie

AU - Bomben, Riccardo

AU - Duyster, Justus

AU - Grosse, Robert

AU - GAIDANO, Gianluca

AU - Zamò, Alberto

AU - Zucchetto, Antonella

AU - Carrasco, Yolanda R.

AU - Efremov, Dimitar G.

AU - Gattei, Valter

AU - Hartmann, Tanja Nicole

PY - 2026

Y1 - 2026

N2 - Abstract: B-cell receptor (BCR) signaling is a key determinant of chronic lymphocytic leukemia (CLL) pathophysiology. CD49d, the α4 subunit of the very late antigen 4 integrin, can be activated by BCR signals; however, its role in modulating BCR functionality remains unknown. We used knockout mouse models and primary human CLL stratified by CD49d expression to address this aspect. CD49d was required for bone marrow (BM) infiltration and shaped BM infiltration patterns and patient outcomes in human CLL. In TCL1 transplantation models, the loss of CD49d abrogated BM homing and leukemic cell positioning within splenic niches. At the cellular level, CD49d-deficient murine TCL1 transgenic cells and human CD49d-low CLL cells failed to form efficient immune synapses with antigen-presenting membranes. Transcriptome analyses identified CD49d-dependent regulation of actin-associated pathways and distinct signatures of BCR responsiveness in both human and mouse cells. Consistently, CD49d-low human CLL cells displayed aberrant actin remodeling following BCR stimulation, and a second aggressive murine CLL model reproduced the actin and engraftment defects. Kinome profiling linked impaired antigen-induced BCR responses in CD49d-deficient murine cells to altered kinase activity, and pharmacologic actin perturbation phenocopied CD49d loss. In human CD49d-low CLL cells, a desynchronization of BCR-related downstream Syk and PLCɣ2 activation was found. Mechanistically, the CD49d-BCR interplay involved their colocalization, and CD49d converged with BCR signaling on a focal adhesion kinase–actin axis. In summary, our findings establish CD49d as a key regulator of BCR functionality in CLL, linking integrins to cytoskeletal dynamics and antigen responsiveness.

AB - Abstract: B-cell receptor (BCR) signaling is a key determinant of chronic lymphocytic leukemia (CLL) pathophysiology. CD49d, the α4 subunit of the very late antigen 4 integrin, can be activated by BCR signals; however, its role in modulating BCR functionality remains unknown. We used knockout mouse models and primary human CLL stratified by CD49d expression to address this aspect. CD49d was required for bone marrow (BM) infiltration and shaped BM infiltration patterns and patient outcomes in human CLL. In TCL1 transplantation models, the loss of CD49d abrogated BM homing and leukemic cell positioning within splenic niches. At the cellular level, CD49d-deficient murine TCL1 transgenic cells and human CD49d-low CLL cells failed to form efficient immune synapses with antigen-presenting membranes. Transcriptome analyses identified CD49d-dependent regulation of actin-associated pathways and distinct signatures of BCR responsiveness in both human and mouse cells. Consistently, CD49d-low human CLL cells displayed aberrant actin remodeling following BCR stimulation, and a second aggressive murine CLL model reproduced the actin and engraftment defects. Kinome profiling linked impaired antigen-induced BCR responses in CD49d-deficient murine cells to altered kinase activity, and pharmacologic actin perturbation phenocopied CD49d loss. In human CD49d-low CLL cells, a desynchronization of BCR-related downstream Syk and PLCɣ2 activation was found. Mechanistically, the CD49d-BCR interplay involved their colocalization, and CD49d converged with BCR signaling on a focal adhesion kinase–actin axis. In summary, our findings establish CD49d as a key regulator of BCR functionality in CLL, linking integrins to cytoskeletal dynamics and antigen responsiveness.

UR - https://iris.uniupo.it/handle/11579/231609

U2 - 10.1182/blood.2024027753

DO - 10.1182/blood.2024027753

M3 - Article

SN - 0006-4971

JO - Blood

JF - Blood

ER -

CD49d governs immune synapse formation through actin rearrangements and synchronizes BCR signaling in CLL

Abstract

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