Multidrug micelles and sonopermeation for chemotherapy co-delivery to brain tumors

Anshuman Dasgupta; Jan Niklas May; Geir Klinkenberg; Helena C. Besse; Eva Miriam Buhl; Diana Moeckel; Rahaf Mihyar; Quim Peña; Armin Azadkhah Shalmani; Christopher Hark; Anne Rix; Susanne Koletnik; Josbert Metselaar; Yang Shi; Wim E. Hennink; Gert Storm; Dannis van Vuurden; Chrit Moonen; Mario Ries; Ruth Schmid; Fabian Kiessling; Twan Lammers

doi:10.1016/j.jconrel.2025.02.018

Multidrug micelles and sonopermeation for chemotherapy co-delivery to brain tumors

Anshuman Dasgupta, Jan Niklas May, Geir Klinkenberg, Helena C. Besse, Eva Miriam Buhl, Diana Moeckel, Rahaf Mihyar, Quim Peña, Armin Azadkhah Shalmani, Christopher Hark, Anne Rix, Susanne Koletnik, Josbert Metselaar, Yang Shi, Wim E. Hennink, Gert Storm, Dannis van Vuurden, Chrit Moonen, Mario Ries, Ruth SchmidFabian Kiessling, Twan Lammers^*

^*Corresponding author for this work

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

Abstract

Brain tumors are difficult to target and treat. The blood-brain barrier (BBB) limits drug delivery to pathological sites, and standard mono-chemotherapy typically results in suboptimal efficacy and development of drug resistance. We here set out to load a synergistic drug combination in polymeric micelles, and combined them with ultrasound- and microbubble-mediated BBB opening in glioma models in mice. Via high-throughput screening of various chemotherapy combinations in different glioma cell lines, valrubicin and panobinostat were identified as a synergic drug combination and co-loaded in mPEG-b-p(HPMAm-Bz)-based polymeric micelles. Intravenous administration of double-drug micelles showed good tolerability and resulted in significant tumor growth inhibition in mice with subcutaneous GL261 gliomas. In orthotopically inoculated patient-derived HSJD-DIPG-007 diffuse intrinsic pontine gliomas, notoriously known to have an intact BBB and poor drug responsiveness, we provide initial experimental evidence showing that multidrug micelles plus sonopermeation can help to improve treatment efficacy. Our work exemplifies that synergistic drug combinations can be efficiently co-loaded in polymeric micelles, and that advanced nanosonochemotherapy combination regimens hold promise for the treatment of hard-to-treat brain tumors.

Original language	English
Pages (from-to)	818-828
Number of pages	11
Journal	Journal of Controlled Release
Volume	380
DOIs	https://doi.org/10.1016/j.jconrel.2025.02.018
Publication status	Published - 10 Apr 2025

Keywords

Brain cancer
Combination therapy
DIPG
Nanomedicine
Tumor targeting

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1-s2.0-S0168365925001312-mainFinal published version, 7.69 MBLicence: CC BY-NC

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Dasgupta, A., May, J. N., Klinkenberg, G., Besse, H. C., Buhl, E. M., Moeckel, D., Mihyar, R., Peña, Q., Shalmani, A. A., Hark, C., Rix, A., Koletnik, S., Metselaar, J., Shi, Y., Hennink, W. E., Storm, G., van Vuurden, D., Moonen, C., Ries, M., ... Lammers, T. (2025). Multidrug micelles and sonopermeation for chemotherapy co-delivery to brain tumors. Journal of Controlled Release, 380, 818-828. https://doi.org/10.1016/j.jconrel.2025.02.018

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abstract = "Brain tumors are difficult to target and treat. The blood-brain barrier (BBB) limits drug delivery to pathological sites, and standard mono-chemotherapy typically results in suboptimal efficacy and development of drug resistance. We here set out to load a synergistic drug combination in polymeric micelles, and combined them with ultrasound- and microbubble-mediated BBB opening in glioma models in mice. Via high-throughput screening of various chemotherapy combinations in different glioma cell lines, valrubicin and panobinostat were identified as a synergic drug combination and co-loaded in mPEG-b-p(HPMAm-Bz)-based polymeric micelles. Intravenous administration of double-drug micelles showed good tolerability and resulted in significant tumor growth inhibition in mice with subcutaneous GL261 gliomas. In orthotopically inoculated patient-derived HSJD-DIPG-007 diffuse intrinsic pontine gliomas, notoriously known to have an intact BBB and poor drug responsiveness, we provide initial experimental evidence showing that multidrug micelles plus sonopermeation can help to improve treatment efficacy. Our work exemplifies that synergistic drug combinations can be efficiently co-loaded in polymeric micelles, and that advanced nanosonochemotherapy combination regimens hold promise for the treatment of hard-to-treat brain tumors.",

keywords = "Brain cancer, Combination therapy, DIPG, Nanomedicine, Tumor targeting",

author = "Anshuman Dasgupta and May, {Jan Niklas} and Geir Klinkenberg and Besse, {Helena C.} and Buhl, {Eva Miriam} and Diana Moeckel and Rahaf Mihyar and Quim Pe{\~n}a and Shalmani, {Armin Azadkhah} and Christopher Hark and Anne Rix and Susanne Koletnik and Josbert Metselaar and Yang Shi and Hennink, {Wim E.} and Gert Storm and {van Vuurden}, Dannis and Chrit Moonen and Mario Ries and Ruth Schmid and Fabian Kiessling and Twan Lammers",

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day = "10",

doi = "10.1016/j.jconrel.2025.02.018",

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Dasgupta, A, May, JN, Klinkenberg, G, Besse, HC, Buhl, EM, Moeckel, D, Mihyar, R, Peña, Q, Shalmani, AA, Hark, C, Rix, A, Koletnik, S, Metselaar, J, Shi, Y, Hennink, WE, Storm, G, van Vuurden, D, Moonen, C, Ries, M, Schmid, R, Kiessling, F & Lammers, T 2025, 'Multidrug micelles and sonopermeation for chemotherapy co-delivery to brain tumors', Journal of Controlled Release, vol. 380, pp. 818-828. https://doi.org/10.1016/j.jconrel.2025.02.018

TY - JOUR

T1 - Multidrug micelles and sonopermeation for chemotherapy co-delivery to brain tumors

AU - Dasgupta, Anshuman

AU - May, Jan Niklas

AU - Klinkenberg, Geir

AU - Besse, Helena C.

AU - Buhl, Eva Miriam

AU - Moeckel, Diana

AU - Mihyar, Rahaf

AU - Peña, Quim

AU - Shalmani, Armin Azadkhah

AU - Hark, Christopher

AU - Rix, Anne

AU - Koletnik, Susanne

AU - Metselaar, Josbert

AU - Shi, Yang

AU - Hennink, Wim E.

AU - Storm, Gert

AU - van Vuurden, Dannis

AU - Moonen, Chrit

AU - Ries, Mario

AU - Schmid, Ruth

AU - Kiessling, Fabian

AU - Lammers, Twan

PY - 2025/4/10

Y1 - 2025/4/10

N2 - Brain tumors are difficult to target and treat. The blood-brain barrier (BBB) limits drug delivery to pathological sites, and standard mono-chemotherapy typically results in suboptimal efficacy and development of drug resistance. We here set out to load a synergistic drug combination in polymeric micelles, and combined them with ultrasound- and microbubble-mediated BBB opening in glioma models in mice. Via high-throughput screening of various chemotherapy combinations in different glioma cell lines, valrubicin and panobinostat were identified as a synergic drug combination and co-loaded in mPEG-b-p(HPMAm-Bz)-based polymeric micelles. Intravenous administration of double-drug micelles showed good tolerability and resulted in significant tumor growth inhibition in mice with subcutaneous GL261 gliomas. In orthotopically inoculated patient-derived HSJD-DIPG-007 diffuse intrinsic pontine gliomas, notoriously known to have an intact BBB and poor drug responsiveness, we provide initial experimental evidence showing that multidrug micelles plus sonopermeation can help to improve treatment efficacy. Our work exemplifies that synergistic drug combinations can be efficiently co-loaded in polymeric micelles, and that advanced nanosonochemotherapy combination regimens hold promise for the treatment of hard-to-treat brain tumors.

AB - Brain tumors are difficult to target and treat. The blood-brain barrier (BBB) limits drug delivery to pathological sites, and standard mono-chemotherapy typically results in suboptimal efficacy and development of drug resistance. We here set out to load a synergistic drug combination in polymeric micelles, and combined them with ultrasound- and microbubble-mediated BBB opening in glioma models in mice. Via high-throughput screening of various chemotherapy combinations in different glioma cell lines, valrubicin and panobinostat were identified as a synergic drug combination and co-loaded in mPEG-b-p(HPMAm-Bz)-based polymeric micelles. Intravenous administration of double-drug micelles showed good tolerability and resulted in significant tumor growth inhibition in mice with subcutaneous GL261 gliomas. In orthotopically inoculated patient-derived HSJD-DIPG-007 diffuse intrinsic pontine gliomas, notoriously known to have an intact BBB and poor drug responsiveness, we provide initial experimental evidence showing that multidrug micelles plus sonopermeation can help to improve treatment efficacy. Our work exemplifies that synergistic drug combinations can be efficiently co-loaded in polymeric micelles, and that advanced nanosonochemotherapy combination regimens hold promise for the treatment of hard-to-treat brain tumors.

KW - Brain cancer

KW - Combination therapy

KW - DIPG

KW - Nanomedicine

KW - Tumor targeting

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U2 - 10.1016/j.jconrel.2025.02.018

DO - 10.1016/j.jconrel.2025.02.018

M3 - Article

AN - SCOPUS:85217894214

SN - 0168-3659

VL - 380

SP - 818

EP - 828

JO - Journal of Controlled Release

JF - Journal of Controlled Release

ER -

Multidrug micelles and sonopermeation for chemotherapy co-delivery to brain tumors

Abstract

Keywords

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