Abstract
Background: ALS is an incurable neuromuscular degenerative disorder. A familiar form of the disease (fALS) is related to point mutations. The most common one is an expansion of a noncoding GGGGCC hexanucleotide repeat of the C9orf72 gene on chromosome 9p21. An abnormal translation of the C9orf72 gene generates dipeptide repeat proteins that aggregate in the brain. One of the classical approaches for developing treatment against protein aggregation-related diseases is to use chemical chaperones (CSs). In this work, we describe the development of novel 4-phenylbutyric acid (4-PBA) lysosome/ER-targeted derivatives. We assumed that 4-PBA targeting to specific organelles, where protein degradation takes place, might reduce the 4-PBA effective concentration. Methods: Organic chemistry synthetic methods and solid-phase peptide synthesis (SPPS) were used for preparing the 4-PBA derivatives. The obtained compounds were evaluated in an ALS Drosophila model that expressed C9orf72 repeat expansion, causing eye degeneration. Targeting to lysosome was validated by the 19F-nuclear magnetic resonance (NMR) technique. Results: Several synthesized compounds exhibited a significant biological effect by ameliorating the eye degeneration. They blocked the neurodegeneration of fly retina at different efficacy levels. The most active CS was compound 9, which is a peptide derivative and was targeted to ER. Another active compound targeted to lysosome was compound 4. Conclusions: Novel CSs were more effective than 4-PBA; therefore, they might be used as a new class of drug candidates to treat ALS and other protein misfolding disorders. Graphic abstract: [Figure not available: see fulltext.]
Original language | English |
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Pages (from-to) | 536-550 |
Number of pages | 15 |
Journal | Pharmacological Reports |
Volume | 73 |
Issue number | 2 |
DOIs | |
State | Published - Apr 2021 |
Bibliographical note
Publisher Copyright:© 2021, Maj Institute of Pharmacology Polish Academy of Sciences.
Funding
We acknowledge the Israel Ministry of Science, Technology and Space (MOST), along with the Italian Ministry of Foreign Affairs and the International Cooperation Department, the Directorate General for Country Promotion (the Unit for Scientific and Technological Cooperation) for collaboration grant number 3-13325, which was awarded to A.G. and G.C. The Germany Israel Foundation (GIF) partially supported this work (Grant no. I-1410-201.9/2017) for A.G and S. E. In addition, S. A-G wishes to thank NAAMAT for the Edelson Foundation prize (Grant number: 4) for outstanding women researchers in the field of chemistry and pharmacology and for the Navon fellowship for Ph.D. students (Grant number: 2), awarded by the Israel Ministry of Science, Technology and Space. Last, we thank Steven Manch for the English editing of the article. We acknowledge the Israel Ministry of Science, Technology and Space (MOST), along with the Italian Ministry of Foreign Affairs and the International Cooperation Department, the Directorate General for Country Promotion (the Unit for Scientific and Technological Cooperation) for collaboration grant number 3-13325, which was awarded to A.G. and G.C. The Germany Israel Foundation (GIF) partially supported this work (Grant no. I-1410-201.9/2017) for A.G and S. E. In addition, S. A-G wishes to thank NAAMAT for the Edelson Foundation prize (Grant number: 4) for outstanding women researchers in the field of chemistry and pharmacology and for the Navon fellowship for Ph.D. students (Grant number: 2), awarded by the Israel Ministry of Science, Technology and Space. Last, we thank Steven Manch for the English editing of the article.
Funders | Funder number |
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Directorate General for Country Promotion | |
Edelson Foundation | |
Germany Israel Foundation | I-1410-201.9/2017 |
International Cooperation Department | |
International Cooperation Department | |
NAAMAT | |
Unit for Scientific and Technological Cooperation | 3-13325 |
Ministry of Science, Technology and Space | |
Ministero degli Affari Esteri e della Cooperazione Internazionale |
Keywords
- ALS
- Aggregation
- C9orf72 mutation
- Chaperones
- Targeting