The cardiolipin-binding peptide elamipretide mitigates fragmentation of cristae networks following cardiac ischemia reperfusion in rats

Allen, Mitchell E.; Pennington, Edward Ross; Perry, Justin B.; Dadoo, Sahil; Makrecka-Kūka, Marina; Dambrova, Maija; Moukdar, Fatiha; Patel, H.; Han, Xianlin; Kidd, Grahame J.; Benson, Emily; Raisch, Tristan B.; Poelzing, Steven; Brown, David A.; Shaikh, Saame Raza

doi:10.1038/s42003-020-1101-3

Cited by 46 publications

(52 citation statements)

References 108 publications

(155 reference statements)

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“…Additionally, improved bioenergetic efficiency would reduce the overall need for carbon substrates to support metabolism, which may also contribute to the reductions in various metabolite concentrations observed. These suppositions are in agreement with prior pre-clinical [11,13,49,50] and clinical [51,52] data in settings other than Barth syndrome, indicating that elamipretide treatment can bring about a more efficient bioenergetic state.…”

Section: Discussionsupporting

confidence: 89%

“…The loss of mature cardiolipin in Barth syndrome results in cascades of cellular dysfunction, including loss of energy and redox homeostasis, calcium overload, and cell death (for review see Sabbah [3]). Improved mitochondrial structure [13] and ETC/supercomplex function [33] with elamipretide are also expected to improve the local availability of oxidized FAD and NAD + cofactors essential for complete β-oxidation of fats [47,48]. All of these factors may contribute to the decreases in plasma and urine acylcarnitines, as well as the trends for lower acetylcarnitine, 3-methylglutaconate, and 3-hydroxybutyrate observed in this study.…”

Section: Discussionmentioning

confidence: 86%

“…Patients with Barth syndrome have increased levels of immature cardiolipin (monolysocardiolipin), decreased remodeled cardiolipin, and resulting mitochondrial dysfunction [3]. Across numerous pre-clinical models, elamipretide has been shown to improve mitochondrial structure and function in a cardiolipin-dependent manner [13,14], resulting in improved heart and skeletal muscle function.…”

Section: Introductionmentioning

confidence: 99%

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Metabolomic biomarkers from patients with Barth syndrome treated with elamipretide: insights from the TAZPOWER study

Oates¹,

Brown

Vernon

et al. 2020

Preprint

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BackgroundBarth syndrome is an inherited disorder that results from pathogenic mutations in TAZ, the gene responsible for encoding tafazzin, an enzyme that remodels the mitochondrial phospholipid cardiolipin. Barth syndrome is characterized by heart and skeletal muscle myopathy, growth delay, and neutropenia among other features. The TAZPOWER clinical trial investigated the effects of the mitochondria-targeting peptide elamipretide in patients with Barth syndrome.Methods and findingsTAZPOWER included a randomized, double-blind, crossover study of 12 weeks treatment with elamipretide or placebo in 12 patients with Barth syndrome. A broad spectrum of plasma and urine metabolites were measured using liquid chromatography-tandem mass spectrometry at baseline and after 12 weeks treatment with elamipretide or placebo. Of 51 “energy-linked” metabolites analyzed, we highlight here the effects of elamipretide on the plasma and urinary concentrations of several metabolites previously observed to be abnormal in patients with Barth syndrome. Elamipretide treatment was associated with significantly lowered medium- and short-chain acylcarnitines in plasma and urine, respectively (p < 0.05). Acetylcarnitine, 3-hydroxybutyrate, and 3-methylglutaconate trended to decrease after 12 weeks of elamipretide, but these trends did not reach statistical significance. After 12 weeks of treatment, elamipretide had no discernible effect on four amino acids previously characterized as having abnormal concentrations in patients with Barth syndrome. Lastly, elamipretide caused a significant rise in plasma taurine concentrations, an amino acid which has been observed to be decreased in patients with Barth syndrome.ConclusionsAs evidenced by reduced plasma and urinary content of acylcarnitines and trends for lowered ketone body 3-hydroxybutyrate, fat metabolism in Barth syndrome appears to be modified after 12 weeks of elamipretide treatment. Overall, these data are consistent with the improved mitochondrial function that may precede functional benefits with a longer duration of therapy with elamipretide in patients with Barth syndrome.Trial registrationClinicalTrials.gov NCT03098797.Summary pointsExploratory targeted metabolomic analyses of plasma and urine were performed after a double-blind, crossover trial in patients with Barth syndrome receiving elamipretide or placebo for 12 weeks.Among 51 “energy-linked” metabolites analyzed in both plasma and urine, prominent changes were observed in metabolites associated with fat metabolism.Collectively, plasma medium-chain (C6-C12) acylcarnitines were reduced after 12 weeks of elamipretide treatment in patients with Barth syndrome.Urinary acylcarnitine concentrations were also lowered with elamipretide in Barth syndrome patients, most prominently for shorter chain acylcarnitines.Elamipretide for 12 weeks also trended to lower 3-methylglutaconate and the ketone body 3-hydroxybutyrate, although these decreases did not reach statistical significance.Elamipretide also caused a significant rise in plasma taurine, which has been previously reported to be low in Barth syndrome patients.These metabolite changes may be consistent with improved mitochondrial function that precedes the functional benefits observed in patients with Barth syndrome after longer-term therapy.

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Section: Discussionsupporting

confidence: 89%

Section: Discussionmentioning

confidence: 86%

Section: Introductionmentioning

confidence: 99%

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Metabolomic biomarkers from patients with Barth syndrome treated with elamipretide: insights from the TAZPOWER study

Oates¹,

Brown

Vernon

et al. 2020

Preprint

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“…There, it binds to cardiolipin via electrostatic and hydrophobic interactions, 15 and is hypothesized to sustain the cristae network and remediate bioenergetic dysfunction. 16 SS-31 has shown benefit in preclinical mitochondrial disorders and heart failure. 15,[17][18][19][20] We performed a randomized, double-blind, placebocontrolled crossover trial with an open-label extension to test the clinical efficacy and safety of daily administration of elamipretide in individuals with genetically confirmed Barth syndrome.…”

Section: Introductionmentioning

confidence: 99%

A phase 2/3 randomized clinical trial followed by an open-label extension to evaluate the effectiveness of elamipretide in Barth syndrome, a genetic disorder of mitochondrial cardiolipin metabolism

Thompson

Hornby

Manuel

et al. 2021

Genetics in Medicine

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Purpose: To evaluate effectiveness of elamipretide in Barth syndrome (BTHS), a genetic condition of defects in TAZ, which causes abnormal cardiolipin on the inner mitochondrial membrane. Methods: We performed a randomized, double-blind, placebocontrolled crossover trial followed by an open-label extension in BTHS to test the effect of elamipretide, a mitochondrial tetrapeptide that interacts with cardiolipin. In part 1, 12 subjects were randomized to 40 mg per day of elamipretide or placebo for 12 weeks, followed by a 4-week washout and then 12 weeks on the opposite arm. Ten subjects continued on the open-label extension (part 2) of 40 mg per day of elamipretide, with eight subjects reaching 36 weeks. Primary endpoints were improvement on the 6-minute walk test (6MWT) and improvement on a BTHS Symptom Assessment (BTHS-SA) scale. Results: In part 1 neither primary endpoint was met. At 36 weeks in part 2, there were significant improvements in 6MWT (+95.9 m, p = 0.024) and BTHS-SA (-2.1 points, p = 0.031). There were also significant improvements in secondary endpoints including knee extensor strength, patient global impression of symptoms, and some cardiac parameters. Conclusion: In this interventional clinical trial in BTHS, daily administration of elamipretide led to improvement in BTHS symptoms.

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“…Early studies inaccurately described ELAM as having antioxidant properties, [19][20][21] although more recent work has demonstrated that ELAM actually reduces production of superoxide and H2O2 particularly where overproduction resulted from dysfunctional mitochondria [22,23]. Studies in isolated mitochondria, cells and intact organs reveal improved ETC flux, reduced mitochondrial generation of reactive oxygen species (ROS; H2O2), and elevated ATP generation with ELAM treatment after ischemic insult and heart failure [16,24,25]. In skeletal muscle, treatment with ELAM prevented the increase in mitochondrial oxidative stress and muscle wasting associated with disuse atrophy in mouse hindlimb and diaphragm.…”

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confidence: 99%

In Vivo Mitochondrial ATP Production Is Improved in Older Adult Skeletal Muscle After a Single Dose of Elamipretide in a Randomized Trial

Roshanravan

Liu

Shankland

et al. 2020

Preprint

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Background: Loss of mitochondrial function contributes to fatigue, exercise intolerance and muscle weakness, and is a key factor in the disability that develops with age and a wide variety of chronic disorders. Here, we describe the impact of a first-in-class cardiolipin-binding compound that is targeted to mitochondria and improves oxidative phosphorylation capacity (Elamipretide, ELAM) in a randomized, double-blind, placebo-controlled clinical trial. Methods: Non-invasive magnetic resonance and optical spectroscopy provided measures of mitochondrial capacity (ATPmax) with exercise and mitochondrial coupling (ATP supply per O2 uptake; P/O) at rest. The first dorsal interosseous (FDI) muscle was studied in 39 healthy older adult subjects (60 to 85 yrs of age; 46% female) who were enrolled based on the presence of poorly functioning mitochondria. We measured volitional fatigue resistance by force-time integral over repetitive muscle contractions. Results: A single ELAM dose elevated mitochondrial energetic capacity in vivo relative to placebo (∆ATPmax; P=0.055, %∆ATPmax; P=0.045) immediately after a 2-hour infusion. No difference was found on day 7 after treatment, which is consistent with the half-life of ELAM in human blood. No significant changes were found in resting muscle mitochondrial coupling. Despite the increase in ATPmax there was no significant effect of treatment on fatigue resistance in the FDI. Conclusions: These results highlight that ELAM rapidly and reversibly elevates mitochondrial capacity after a single dose. This response represents the first demonstration of a pharmacological intervention that can reverse mitochondrial dysfunction in vivo immediately after treatment in aging human muscle.

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The cardiolipin-binding peptide elamipretide mitigates fragmentation of cristae networks following cardiac ischemia reperfusion in rats

Cited by 46 publications

References 108 publications

Metabolomic biomarkers from patients with Barth syndrome treated with elamipretide: insights from the TAZPOWER study

Metabolomic biomarkers from patients with Barth syndrome treated with elamipretide: insights from the TAZPOWER study

A phase 2/3 randomized clinical trial followed by an open-label extension to evaluate the effectiveness of elamipretide in Barth syndrome, a genetic disorder of mitochondrial cardiolipin metabolism

In Vivo Mitochondrial ATP Production Is Improved in Older Adult Skeletal Muscle After a Single Dose of Elamipretide in a Randomized Trial

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