Multivalent systems based on C2-alkylated (3R,4R,5R)-3,4,5-trihydroxypiperidines, members of the iminosugar family, were developed as modulators of the lysosomal enzyme β-glucocerebrosidase (GCase), whose deficiency causes Gaucher disease and is also related to Parkinson disease. The iminosugar units were successfully multimerized onto tri- and tetrapodal scaffolds and gold nanoparticles, enabling a systematic investigation of the multivalent effects. Both architectures exhibited a marked enhancement in inhibitory potency compared to a suitable monovalent reference compound, proving a strong multivalent effect. However, while tri- and tetravalent compounds primarily act as enzyme inhibitors in cellular assays, gold nanoparticle-based systems retain a productive chaperone window, promoting mutant N370S GCase rescue in Gaucher patient-derived fibroblasts by up to 1.7-fold at 100 nM, without detectable cytotoxicity. Overall, these findings highlight the critical role of scaffold organization in balancing enzyme inhibition and functional rescue in the design of multivalent pharmacological chaperones for Gaucher disease.
Multivalent C2-alkyl trihydroxypiperidine architectures modulate β-glucocerebrosidase activity / Buco, F., Clemente, F., Cardona, F., Morrone, A., Paoli, P., Moya, S.E., Goti, A., Matassini, C., Marradi, M.. - In: EUROPEAN JOURNAL OF MEDICINAL CHEMISTRY. - ISSN 0223-5234. - ELETTRONICO. - 316:(2026), pp. 0-0. [10.1016/j.ejmech.2026.118992]
Multivalent C2-alkyl trihydroxypiperidine architectures modulate β-glucocerebrosidase activity
Buco, Francesca;Clemente, Francesca
;Cardona, Francesca;Morrone, Amelia;Paoli, Paolo;Goti, Andrea;Matassini, Camilla
;Marradi, Marco
2026
Abstract
Multivalent systems based on C2-alkylated (3R,4R,5R)-3,4,5-trihydroxypiperidines, members of the iminosugar family, were developed as modulators of the lysosomal enzyme β-glucocerebrosidase (GCase), whose deficiency causes Gaucher disease and is also related to Parkinson disease. The iminosugar units were successfully multimerized onto tri- and tetrapodal scaffolds and gold nanoparticles, enabling a systematic investigation of the multivalent effects. Both architectures exhibited a marked enhancement in inhibitory potency compared to a suitable monovalent reference compound, proving a strong multivalent effect. However, while tri- and tetravalent compounds primarily act as enzyme inhibitors in cellular assays, gold nanoparticle-based systems retain a productive chaperone window, promoting mutant N370S GCase rescue in Gaucher patient-derived fibroblasts by up to 1.7-fold at 100 nM, without detectable cytotoxicity. Overall, these findings highlight the critical role of scaffold organization in balancing enzyme inhibition and functional rescue in the design of multivalent pharmacological chaperones for Gaucher disease.
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2026 Marradi et al. EurJMedChem Multivalent C2-alkyl trihydroxypiperidines.pdf
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2026 Marradi et al. EurJMedChem ESI.pdf
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