Targeted AURKA degradation: Towards new therapeutic agents for neuroblastoma

Muhammad Rishfi; Simon Krols; Fien Martens; Sarah Lee Bekaert; Ellen Sanders; Aline Eggermont; Fanny De Vloed; Joshua Robert Goulding; Martijn Risseeuw; Jan Molenaar; Bram De Wilde; Serge Van Calenbergh; Kaat Durinck

doi:10.1016/j.ejmech.2022.115033

Targeted AURKA degradation: Towards new therapeutic agents for neuroblastoma

Muhammad Rishfi
, Simon Krols
, Fien Martens
, Sarah Lee Bekaert
, Ellen Sanders
, Aline Eggermont
, Fanny De Vloed
, Joshua Robert Goulding
, Martijn Risseeuw
, Jan Molenaar
, Bram De Wilde
, Serge Van Calenbergh
, Kaat Durinck

Group Molenaar

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

32 Citations (Scopus)

Abstract

Aurora kinase A (AURKA) is a well-established target in neuroblastoma (NB) due to both its catalytic functions during mitosis and its kinase-independent functions, including stabilization of the key oncoprotein MYCN. We present a structure-activity relationship (SAR) study of MK-5108-derived PROTACs against AURKA by exploring different linker lengths and exit vectors on the thalidomide moiety. PROTAC SK2188 induces the most potent AURKA degradation (DC_50,24h 3.9 nM, D_max,24h 89%) and shows an excellent binding and degradation selectivity profile. Treatment of NGP neuroblastoma cells with SK2188 induced concomitant MYCN degradation, high replication stress/DNA damage levels and apoptosis. Moreover, SK2188 significantly outperforms the parent inhibitor MK-5108 in a cell proliferation screen and patient-derived organoids. Furthermore, altering the attachment point of the PEG linker to the 5-position of thalidomide allowed us to identify a potent AURKA degrader with a linker as short as 2 PEG units. With this, our SAR-study provides interesting lead structures for further optimization and validation of AURKA degradation as a potential therapeutic strategy in neuroblastoma.

Original language	English
Article number	115033
Journal	European journal of medicinal chemistry
Volume	247
DOIs	https://doi.org/10.1016/j.ejmech.2022.115033
Publication status	Published - 5 Feb 2023

Keywords

AURKA
MYCN
Neuroblastoma
PROTAC
Targeted protein degradation

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10.1016/j.ejmech.2022.115033

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Rishfi, M., Krols, S., Martens, F., Bekaert, S. L., Sanders, E., Eggermont, A., De Vloed, F., Goulding, J. R., Risseeuw, M., Molenaar, J., De Wilde, B., Van Calenbergh, S., & Durinck, K. (2023). Targeted AURKA degradation: Towards new therapeutic agents for neuroblastoma. European journal of medicinal chemistry, 247, Article 115033. https://doi.org/10.1016/j.ejmech.2022.115033

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title = "Targeted AURKA degradation: Towards new therapeutic agents for neuroblastoma",

abstract = "Aurora kinase A (AURKA) is a well-established target in neuroblastoma (NB) due to both its catalytic functions during mitosis and its kinase-independent functions, including stabilization of the key oncoprotein MYCN. We present a structure-activity relationship (SAR) study of MK-5108-derived PROTACs against AURKA by exploring different linker lengths and exit vectors on the thalidomide moiety. PROTAC SK2188 induces the most potent AURKA degradation (DC50,24h 3.9 nM, Dmax,24h 89\%) and shows an excellent binding and degradation selectivity profile. Treatment of NGP neuroblastoma cells with SK2188 induced concomitant MYCN degradation, high replication stress/DNA damage levels and apoptosis. Moreover, SK2188 significantly outperforms the parent inhibitor MK-5108 in a cell proliferation screen and patient-derived organoids. Furthermore, altering the attachment point of the PEG linker to the 5-position of thalidomide allowed us to identify a potent AURKA degrader with a linker as short as 2 PEG units. With this, our SAR-study provides interesting lead structures for further optimization and validation of AURKA degradation as a potential therapeutic strategy in neuroblastoma.",

keywords = "AURKA, MYCN, Neuroblastoma, PROTAC, Targeted protein degradation",

author = "Muhammad Rishfi and Simon Krols and Fien Martens and Bekaert, \{Sarah Lee\} and Ellen Sanders and Aline Eggermont and \{De Vloed\}, Fanny and Goulding, \{Joshua Robert\} and Martijn Risseeuw and Jan Molenaar and \{De Wilde\}, Bram and \{Van Calenbergh\}, Serge and Kaat Durinck",

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T1 - Targeted AURKA degradation

T2 - Towards new therapeutic agents for neuroblastoma

AU - Rishfi, Muhammad

AU - Krols, Simon

AU - Martens, Fien

AU - Bekaert, Sarah Lee

AU - Sanders, Ellen

AU - Eggermont, Aline

AU - De Vloed, Fanny

AU - Goulding, Joshua Robert

AU - Risseeuw, Martijn

AU - Molenaar, Jan

AU - De Wilde, Bram

AU - Van Calenbergh, Serge

AU - Durinck, Kaat

PY - 2023/2/5

Y1 - 2023/2/5

N2 - Aurora kinase A (AURKA) is a well-established target in neuroblastoma (NB) due to both its catalytic functions during mitosis and its kinase-independent functions, including stabilization of the key oncoprotein MYCN. We present a structure-activity relationship (SAR) study of MK-5108-derived PROTACs against AURKA by exploring different linker lengths and exit vectors on the thalidomide moiety. PROTAC SK2188 induces the most potent AURKA degradation (DC50,24h 3.9 nM, Dmax,24h 89%) and shows an excellent binding and degradation selectivity profile. Treatment of NGP neuroblastoma cells with SK2188 induced concomitant MYCN degradation, high replication stress/DNA damage levels and apoptosis. Moreover, SK2188 significantly outperforms the parent inhibitor MK-5108 in a cell proliferation screen and patient-derived organoids. Furthermore, altering the attachment point of the PEG linker to the 5-position of thalidomide allowed us to identify a potent AURKA degrader with a linker as short as 2 PEG units. With this, our SAR-study provides interesting lead structures for further optimization and validation of AURKA degradation as a potential therapeutic strategy in neuroblastoma.

AB - Aurora kinase A (AURKA) is a well-established target in neuroblastoma (NB) due to both its catalytic functions during mitosis and its kinase-independent functions, including stabilization of the key oncoprotein MYCN. We present a structure-activity relationship (SAR) study of MK-5108-derived PROTACs against AURKA by exploring different linker lengths and exit vectors on the thalidomide moiety. PROTAC SK2188 induces the most potent AURKA degradation (DC50,24h 3.9 nM, Dmax,24h 89%) and shows an excellent binding and degradation selectivity profile. Treatment of NGP neuroblastoma cells with SK2188 induced concomitant MYCN degradation, high replication stress/DNA damage levels and apoptosis. Moreover, SK2188 significantly outperforms the parent inhibitor MK-5108 in a cell proliferation screen and patient-derived organoids. Furthermore, altering the attachment point of the PEG linker to the 5-position of thalidomide allowed us to identify a potent AURKA degrader with a linker as short as 2 PEG units. With this, our SAR-study provides interesting lead structures for further optimization and validation of AURKA degradation as a potential therapeutic strategy in neuroblastoma.

KW - AURKA

KW - MYCN

KW - Neuroblastoma

KW - PROTAC

KW - Targeted protein degradation

UR - https://www.scopus.com/pages/publications/85144393013

U2 - 10.1016/j.ejmech.2022.115033

DO - 10.1016/j.ejmech.2022.115033

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AN - SCOPUS:85144393013

SN - 0223-5234

VL - 247

JO - European journal of medicinal chemistry

JF - European journal of medicinal chemistry

M1 - 115033

ER -

Targeted AURKA degradation: Towards new therapeutic agents for neuroblastoma

Abstract

Keywords

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