Franczak Edziu, Kugler Benjamin A, Salathe Sebastian F, Allen Julie A, Sardiu Mihaela E, McCoin Colin S, Hevener Andrea L, Morris E Matthew, Thyfault John P
Department of Cell Biology and Physiology, The University of Kansas Medical Center, Kansas City, Kansas, United States.
Kansas City Veterans Affairs Medical Center, Kansas City, Missouri, United States.
Am J Physiol Endocrinol Metab. 2025 Jun 1;328(6):E869-E884. doi: 10.1152/ajpendo.00107.2025. Epub 2025 Apr 28.
Exercise effectively treats metabolic dysfunction-associated steatotic liver disease (MASLD) by enhancing hepatic mitochondria energy metabolism. However, the efficiency of exercise in treating MASLD in postmenopausal women may be reduced. Previously, we showed acute treadmill exercise activates hepatic mitophagy, the selective degradation of low-functioning mitochondria. Mitophagic flux is differentially regulated in female mice compared with males, possibly by estrogen. Here, we tested if loss of ovarian function via ovariectomy (OVX), which reduces estrogen, drives MASLD, and compromised hepatic mitochondrial energetics, would blunt activation of hepatic mitophagy induced by exercise. Following OVX, 12- to 15-wk-old female mice were placed on a low-fat diet (LFD) or high-fat diet (HFD) for 4 wk to induce MASLD, after which half of the mice performed a single acute bout of treadmill exercise to exhaustion or remained sedentary. Two hours post exercise, isolated hepatic mitochondria were examined via Western blotting and proteomics for accumulation of known mitophagy proteins. After exercise, reduced basal mitophagic flux in LFD-fed OVX was restored to levels found in sham mice. However, exercise possessed blunted capacity to promote mitochondrial recruitment of DRP1 (regulator of fission) and accumulation mitophagy-associated proteins (E3-ubiquitin ligase, ubiquitin, autophagy adaptor proteins, and autophagosome cargo receptors) in OVX versus sham mice on HFD. Mitochondrial HO production, which putatively activates mitophagy, was elevated following exercise in all conditions except OVX + HFD. In summary, OVX reduces mitophagic flux, blunting the stimulatory effects of exercise on these factors. The impaired regulation of mitophagy following the cessation of ovarian function likely contributes to the pathogenesis of MASLD post menopause. Loss of ovarian function reduces hepatic mitochondrial respiratory capacity, but mechanisms are unknown. Here, we leverage exercise-induced hepatic mitophagy activation to determine if loss of ovarian function impairs mitochondrial quality control mechanisms. Our data reveal that loss of ovarian function reduces both ubiquitin-mediated hepatic mitophagy and mitochondrial recruitment of Drp1 (mitochondrial fission protein) following acute exercise. These impairments to hepatic mitophagy coincided with alterations in hepatic mitochondrial respiratory capacity and mitochondrial-derived HO production.
运动通过增强肝脏线粒体能量代谢有效治疗代谢功能障碍相关脂肪性肝病(MASLD)。然而,运动治疗绝经后女性MASLD的效率可能会降低。此前,我们发现急性跑步机运动可激活肝脏线粒体自噬,即对功能低下的线粒体进行选择性降解。与雄性小鼠相比,雌性小鼠的线粒体自噬通量受到不同的调节,可能是受雌激素影响。在此,我们测试了通过卵巢切除术(OVX)导致卵巢功能丧失(从而降低雌激素水平)是否会引发MASLD,并损害肝脏线粒体能量代谢,以及这是否会削弱运动诱导的肝脏线粒体自噬激活。OVX后,将12至15周龄的雌性小鼠置于低脂饮食(LFD)或高脂饮食(HFD)中4周以诱导MASLD,之后一半小鼠进行单次急性跑步机运动直至 exhaustion 或保持久坐。运动后两小时,通过蛋白质印迹法和蛋白质组学检查分离的肝脏线粒体中已知线粒体自噬蛋白的积累情况。运动后,LFD喂养的OVX小鼠中降低的基础线粒体自噬通量恢复到假手术小鼠的水平。然而,与HFD喂养的假手术小鼠相比,运动促进OVX小鼠中DRP1(裂变调节因子)的线粒体募集以及线粒体自噬相关蛋白(E3泛素连接酶、泛素、自噬衔接蛋白和自噬体货物受体)积累的能力减弱。在除OVX + HFD之外的所有情况下,运动后假定激活线粒体自噬的线粒体HO生成均升高。总之,OVX降低了线粒体自噬通量,削弱了运动对这些因素的刺激作用。卵巢功能停止后线粒体自噬调节受损可能导致绝经后MASLD的发病机制。卵巢功能丧失会降低肝脏线粒体呼吸能力,但其机制尚不清楚。在此,我们利用运动诱导的肝脏线粒体自噬激活来确定卵巢功能丧失是否会损害线粒体质量控制机制。我们的数据显示,卵巢功能丧失会降低急性运动后泛素介导的肝脏线粒体自噬以及Drp1(线粒体裂变蛋白)的线粒体募集。这些肝脏线粒体自噬的损伤与肝脏线粒体呼吸能力和线粒体衍生的HO生成的改变同时发生。
