Delocalized quinolinium-macrocyclic peptides, an atypical chemotype for CNS penetration

Delocalized quinolinium-macrocyclic peptides, an atypical chemotype for CNS penetration

Macrocyclic drugs can address an increasing range of molecular targets but enabling central nervous system (CNS) access to these drugs has been viewed as an intractable problem. We designed and synthesized a series of quinolinium-modified cyclosporine derivatives targeted to the mitochondrial cyclop...

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Veröffentlicht in:Science advances 2024-07, Vol.10 (28), p.eado3501
Hauptverfasser: Pingitore, Valeria, Pancholi, Jessica, Hornsby, Thomas W, Warne, Justin, Pryce, Gareth, McCormick, Laura J, Hill, Julia, Bhosale, Gauri, Peng, Jing, Newton, Lydia S, Towers, Greg J, Coles, Simon J, Chan, Ah Wing Edith, Duchen, Michael R, Szabadkai, Gyorgy, Baker, David, Selwood, David L
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Biochemistry
Brain - drug effects
Brain - metabolism
Central Nervous System - drug effects
Central Nervous System - metabolism
Crystallography, X-Ray
Cyclosporine - chemistry
Cyclosporine - pharmacokinetics
Humans
Mice
Peptides - chemistry
Peptides - pharmacokinetics
Physical and Materials Sciences
Quinolinium Compounds - chemistry
Quinolinium Compounds - pharmacokinetics
SciAdv r-articles
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Zusammenfassung:Macrocyclic drugs can address an increasing range of molecular targets but enabling central nervous system (CNS) access to these drugs has been viewed as an intractable problem. We designed and synthesized a series of quinolinium-modified cyclosporine derivatives targeted to the mitochondrial cyclophilin D protein. Modification of the cation to enable greater delocalization was confirmed by x-ray crystallography of the cations. Critically, greater delocalization improved brain concentrations. Assessment of the compounds in preclinical assays and for pharmacokinetics identified a molecule JP1-138 with at least 20 times the brain levels of a non-delocalized compound or those reported for cyclosporine. Levels were maintained over 24 hours together with low hERG potential. The paradigm outlined here could have widespread utility in the treatment of CNS diseases.
ISSN:2375-2548
2375-2548
DOI:10.1126/sciadv.ado3501