Deulinoleate ethyl
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| Other names | RT001; Di-deuterated ethyl linoleate; Di-deuterated linoleic acid ethyl ester, 11,11-d2-Ethyl linoleate, or Ethyl 11,11-d2-linoleate |
| Routes of administration | Oral |
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| E number | {{#property:P628}} |
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| ECHA InfoCard | {{#property:P2566}}Lua error in Module:EditAtWikidata at line 29: attempt to index field 'wikibase' (a nil value). |
| Chemical and physical data | |
| Formula | C20H34D2O2 |
| Molar mass | 310.517 g·mol−1 |
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| Density | 0.88 g/cm3 |
| Boiling point | 173–177 °C (343–351 °F) |
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Deulinoleate ethyl (also known as di-deuterated ethyl linoleate, di-deuterated linoleic acid ethyl ester, 11,11-d2-ethyl linoleate, or ethyl 11,11-d2-linoleate)[1] is an experimental, orally-bioavailable synthetic deuterated polyunsaturated fatty acid (PUFA), a part of reinforced lipids. It is an isotopologue of linoleic acid, an essential omega-6 PUFA. The deuterated compound, while identical to natural linoleic acid except for the presence of deuterium, is resistant to lipid peroxidation which makes studies of its cell-protective properties worthwhile.
Mechanism of action
[edit | edit source]Deulinoleate ethyl is recognized by cells as identical to normal linoleic acid. But when taken up, it is converted into 13,13-d2-arachidonic acid, a heavy isotope version of arachidonic acid, that gets incorporated into lipid membranes. The deuterated compound resists the non-enzymatic lipid peroxidation (LPO) through isotope effect — a non-antioxidant based mechanism that protects mitochondrial, neuronal and other lipid membranes, thereby greatly reducing the levels of numerous LPO-derived toxic products such as reactive carbonyls.[2][3]
Deulinoleate ethyl inhibits ferroptosis by stopping the autoxidation process through the kinetic isotope effect. The protective effect of D-PUFAs was verified in erastin- and RSL3-induced ferroptosis models, with demonstrated efficacy in various disease models, particularly neurodegenerative disorders and clinical trials of deulinoleate ethyl begun in 2018.[4]
Clinical development
[edit | edit source]Friedreich's ataxia
[edit | edit source]A double-blind comparator-controlled Phase I/II clinical trial for Friedreich's ataxia, sponsored by Retrotope and Friedreich's Ataxia Research Alliance, was conducted to determine the safety profile and appropriate dosing for consequent trials.[5] Deulinoleate ethyl was promptly absorbed and was found to be safe and tolerable over 28 days at the maximal dose of 9 g/day. It improved peak workload and peak oxygen consumption in the test group compared to the control group who received the equal doses of normal, non-deuterated ethyl linoleate.[6] Another randomized, double-blind, placebo-controlled clinical study began in 2019.[7]
Infantile neuroaxonal dystrophy
[edit | edit source]An open-label clinical study for infantile neuroaxonal dystrophy evaluating long-term evaluation of efficacy, safety, tolerability, and pharmacokinetics of deulinoleate ethyl, which, when taken with food, can protect the neuronal cells from degeneration, started in the Summer 2018.[8]
Phospholipase 2G6-associated neurodegeneration
[edit | edit source]In 2017, the FDA granted deulinoleate ethyl orphan drug designation in the treatment of phospholipase 2G6-associated neurodegeneration (PLAN).[9]
Amyotrophic lateral sclerosis
[edit | edit source]In 2018, deulinoleate ethyl was given to a patient with amyotrophic lateral sclerosis (ALS) under a "compassionate use scheme".[10]
Progressive supranuclear palsy
[edit | edit source]In 2020, the FDA granted orphan drug designation deulinoleate ethyl for the treatment of patients with progressive supranuclear palsy (PSP). PSP is a disease involving modification and dysfunction of tau protein; mechanism of action of deulinoleate ethyl both lowers lipid peroxidation and prevents mitochondrial cell death of neurons which is associated with disease onset and progression.[11]
Preclinical research
[edit | edit source]Alzheimer's disease
[edit | edit source]Deulinoleate ethyl has been shown to be effective in a model of Alzheimer's disease in mice.[12]
References
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- ^ Clinical trial number NCT02445794 for "A First in Human Study of RT001 in Patients With Friedreich's Ataxia" at ClinicalTrials.gov
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- ^ Clinical trial number NCT04102501 for "A Study to Assess Efficacy, Long Term Safety and Tolerability of RT001 in Subjects With Friedreich's Ataxia" at ClinicalTrials.gov
- ^ Clinical trial number NCT03570931 for "A Study to Assess Efficacy and Safety of RT001 in Subjects With Infantile Neuroaxonal Dystrophy" at ClinicalTrials.gov
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