Omaveloxolone, But Not Dimethyl Fumarate, Improves Cardiac Function in Friedreich's Ataxia Mice With Severe Cardiomyopathy.

IF 5 1区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

Journal of the American Heart Association Pub Date : 2025-06-17 Epub Date: 2025-06-12 DOI:10.1161/JAHA.124.038505

Lili Salinas, Francisco Figueroa, Claire B Montgomery, Phung N Thai, Nipavan Chiamvimonvat, Gino Cortopassi, Elena N Dedkova

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引用次数: 0

Abstract

Background: Friedreich's ataxia (FA) is a genetic disorder caused by a severe decrease in FXN (frataxin) protein expression in mitochondria. The clinical manifestation of this disorder is a cerebellar ataxia; however, the common lethal component in FA is cardiomyopathy.

Methods: A conditional Fxn^flox/null::MCK-Cre knockout (FXN-cKO) mouse model was used to mimic the late-stage severe cardiomyopathy in FA. Nrf2 (nuclear factor erythroid 2-related factor 2) inducers, omaveloxolone and dimethyl fumarate (DMF), were independently tested in this mouse model to determine the effects on cardiac health and lifespan.

Results: Omaveloxolone significantly improved cardiac contractile function and markers of heart failure in FA such as Nppb, Aldh1a3, and Gdf15. Despite improvement in cardiac function, omaveloxolone did not prevent premature death in FXN-cKO animals and notably accelerated death in FXN-cKO females. Omaveloxolone decreased oxidative stress and inflammatory marker IL1β (interleukin-1 beta), and stimulated Nqo1 gene expression above control level. DMF restored elevated HO-1 (Hmox) expression and significantly increased Sirt1 expression. Although both omaveloxolone and DMF restored decreased SERCA2 (Atp2a) and MCU (Mcu) expression and ameliorated elevated phosphorylation of CaMKIIδ at Thr²⁸⁶ site in FA hearts, DMF did not improve cardiac contractile function and survival. Furthermore, neither omaveloxolone or DMF decreased hypertrophy and fibrosis (Masson trichrome staining and Lgals3 expression) or rescued impaired mitochondrial function and integrative stress response in FXN-cKO hearts.

Conclusions: These data demonstrate that omaveloxolone significantly improved contractile function but not survival in FA hearts because cardiac fibrosis and wall stress persisted even with omaveloxolone treatment. More studies are warranted to determine the cause of premature death in omaveloxolone-treated FXN-cKO female mice.

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奥马维洛酮，而不是富马酸二甲酯，改善严重心肌病弗里德赖希共济失调小鼠的心功能。

背景：friedrich 's ataxia （FA）是一种遗传性疾病，由线粒体中FXN （frataxin）蛋白表达严重下降引起。该疾病的临床表现为小脑性共济失调；然而，FA的常见致死因素是心肌病。方法：采用条件fxn - cre敲除（FXN-cKO）小鼠模型模拟FA晚期严重心肌病。Nrf2（核因子-红细胞2相关因子2）诱诱剂，omaveloxolone和富马酸二甲基（DMF）在该小鼠模型中独立测试，以确定对心脏健康和寿命的影响。结果：奥米洛龙可显著改善FA患者心肌收缩功能及心衰指标Nppb、Aldh1a3、Gdf15。尽管心功能有所改善，但奥马维洛酮不能预防FXN-cKO动物的过早死亡，并显著加速了FXN-cKO雌性动物的死亡。奥马维洛酮降低氧化应激和炎症标志物il -1 β（白细胞介素-1 β），刺激Nqo1基因表达高于对照水平。DMF恢复了升高的HO-1 （Hmox）表达，并显著增加了Sirt1表达。虽然omaveloxolone和DMF都能恢复FA心脏中SERCA2 （Atp2a）和MCU （MCU）的表达，并改善Thr286位点CaMKIIδ磷酸化的升高，但DMF并没有改善心脏收缩功能和生存。此外，在FXN-cKO心脏中，奥马维洛酮或DMF均不能减少肥大和纤维化（马松三色染色和Lgals3表达），也不能挽救受损的线粒体功能和综合应激反应。结论：这些数据表明，奥马韦洛酮可显著改善FA心脏的收缩功能，但不能改善存活，因为即使使用奥马韦洛酮治疗，心脏纤维化和壁应力仍然存在。需要更多的研究来确定奥马洛龙治疗的FXN-cKO雌性小鼠过早死亡的原因。

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来源期刊

Journal of the American Heart Association CARDIAC & CARDIOVASCULAR SYSTEMS-

CiteScore

9.40

自引率

1.90%

发文量

1749

审稿时长

12 weeks

期刊介绍： As an Open Access journal, JAHA - Journal of the American Heart Association is rapidly and freely available, accelerating the translation of strong science into effective practice. JAHA is an authoritative, peer-reviewed Open Access journal focusing on cardiovascular and cerebrovascular disease. JAHA provides a global forum for basic and clinical research and timely reviews on cardiovascular disease and stroke. As an Open Access journal, its content is free on publication to read, download, and share, accelerating the translation of strong science into effective practice.