0000000000367680
AUTHOR
Ambra Antonioni
The early response of αB-crystallin to a single bout of aerobic exercise in mouse skeletal muscles depends upon fiber oxidative features
Besides its substantial role in eye lens, αB-crystallin (HSPB5) retains fundamental function in striated muscle during physiological or pathological modifications. In this study, we aimed to analyse the cellular and molecular factors driving the functional response of HSPB5 protein in different muscles from mice subjected to an acute bout of non-damaging endurance exercise or in C2C12 myocytes upon exposure to pro-oxidant environment, chosen as “in vivo” and “in vitro” models of a physiological stressing conditions, respectively.To this end, red (GR) and white gastrocnemius (GW), as sources of slow-oxidative and fast-glycolytic/oxidative fibers, as well as the soleus (SOL), mainly composed …
Exercise-Induced Activation and Translocation of αB-Crystallin in Skeletal Muscle Depends upon Fiber Type and Oxidative Stress
Alpha B-crystallin (CRYAB) is a member of the small heat shock proteins implicated in various biological functions, particularly in skeletal muscle tissue [1], where it results to be modulated following exercise-induced reactive oxygen species (ROS) [2]. In this work we aimed to analyse the CRYAB response to acute exercise with respect muscle fiber composition and to identify the underlying molecular mechanism by the utilization of the C2C12 “in vitro” cellular model. Our results highlighted as acute exercise determines a specific increase of phospho-CRYAB both in the red, but not white, gastrocnemius (GS), with an higher amount of oxidative and oxidative-glycolytic fibers, and in soleus (S…
αB-crystallin activation in cardiac muscle by acute exercise mirrors the sHSP kinetic in oxidative skeletal muscle fibers: animal and cellular study
Alpha-B-Crystallin (CRYAB), a Small Heat Shock Protein sensitive to oxidative stress, is implicated in various biological processes in many tissues. In cardiac muscle, CRYAB exerts a cardio protective role in ischemia-induced damage preventing apoptosis and necrosis. We aimed to study αB-crystallin’ response in mouse cardiac tissue (H), at different time of recovery from an acute aerobic exercise (1 hour), correlating its modulation with oxidative stress level. We found that a single bout exercise lead to a specific short-term increase of phospho-αB-crystallin level (pCRYAB), without changes of its total expression. Further, the level of 4-hydroxynonenal, a marker of lipidic peroxidation, h…
A single bout of endurance exercise induces αB-crystallin (CRYAB) modulation in cardiac muscle as it happens in oxidative skeletal muscle fibers
CRYAB is a small Heat Shock Protein, expressed in various tissues such as skeletal and cardiac muscles, activated as phosphorylated CRYAB (pCRYAB) and involved in several pathophysiological processes. In mammals there are no reports to date on CRYAB activation following an acute endurance exercise, so the aim of my study was to explore in mouse cardiac tissue the pCRYAB levels as effect of this exercise at 0’, 15’ and 120’ of recovery. H2O2 - treated HL-1 cardiomyocytes have been utilized as in vitro model to identify the underlying molecular mechanism/s. Both in vivo and in vitro models showed no changes in CRYAB protein expression level but its phosphorylation state was significantly incr…
αB-crystallin response to a pro-oxidant non-cytotoxic environment in murine cardiac cells: An "in vitro" and "in vivo" study.
The αB-crystallin (HSPB5) protein is modulated in response to a wide variety of stressors generated by multiple physio-pathological conditions, sustained by reactive oxygen species (ROS) production. In cardiac muscle tissue, this protein regulates various cellular processes, such as protein degradation, apoptosis and the stabilization of cytoskeletal elements. In this work, we studied the role of HSPB5 expression, activation and localization in HL-1 murine cardiomyocytes exposed to pro-oxidant and non-cytotoxic H2O2 concentration, as well as in cardiac tissue isolated from mice following an acute, non-damaging endurance exercise. Our results demonstrated that HSPB5 is the most abundant HSP …