Abstract
Cardiovascular disease, a disease caused by many pathogenic factors, is one of the most common causes of death worldwide, and oxidative stress plays a major role in its pathophysiology. Tanshinone I (Tan I), a natural compound with cardiovascular protective effects, is one of the main active compounds extracted from Salvia miltiorrhiza. Here, we investigated whether Tan I could attenuate oxidative stress and oxidative stress–induced cardiomyocyte apoptosis through Nrf2/MAPK signaling in vivo and in vitro. We found that Tan I treatment protected cardiomyocytes against oxidative stress and oxidative stress–induced apoptosis, based on the detection of relevant oxidation indexes such as reactive oxygen species, superoxide dismutase, malondialdehyde, and apoptosis, including cell viability and apoptosis-related protein expression. We further examined the mechanisms underlying these effects, determining that Tan I activated nuclear factor erythroid 2 (NFE2)–related factor 2 (Nrf2) transcription into the nucleus and dose-dependently promoted the expression of Nrf2, while inhibiting MAPK signaling activation, including P38 MAPK, SAPK/JNK, and ERK1/2. Nrf2 inhibitors in H9C2 cells and Nrf2 knockout mice demonstrated aggravated oxidative stress and oxidative stress–induced cardiomyocyte injury; Tan I treatment suppressed these effects in H9C2 cells; however, its protective effect was inhibited in Nrf2 knockout mice. Additionally, the analysis of surface plasmon resonance demonstrated that Tan I could directly target Nrf2 and act as a potential Nrf2 agonist. Collectively, these data strongly indicated that Tan I might inhibit oxidative stress and oxidative stress–induced cardiomyocyte injury through modulation of Nrf2 signaling, thus supporting the potential therapeutic application of Tan I for oxidative stress–induced CVDs.
Highlights
Cardiovascular disease (CVD), a disease caused by many pathogenic factors, is one of the most common causes of death worldwide (Bansilal et al, 2015)
To determine whether Tanshinone I (Tan I) protected H9C2 cells against oxidative stress, we examined total reactive oxygen species (ROS) production in TBHPtreated cells
The binding affinity between Tan I and nuclear factor erythroid 2 (Nrf2) was 3.58 × 10–6 M, indicating that Tan I could directly bind to Nrf2. These results strongly indicated that Tan I could protect against oxidative stress and oxidative stress–induced cardiomyocyte apoptosis through Nrf2 signaling
Summary
Cardiovascular disease (CVD), a disease caused by many pathogenic factors, is one of the most common causes of death worldwide (Bansilal et al, 2015). Various CVDs have been associated, at least partially, with increased oxidative stress, which plays a major role in the pathophysiology of cardiac disorders (Senoner and Dichtl, 2019). Several antioxidants such as coenzyme Q10 (CoQ10), vitamin C, and vitamin E have shown preventive and therapeutic benefits against different forms of CVD caused by reactive oxygen species (ROS) generated during excessive oxidative stress. Combined with the pharmacological effects of Tan I, an indepth study of the mechanism of Tan I against oxidative stress and oxidative stress–induced cardiomyocyte injury has potential therapeutic significance for its use in the treatment of CVDs
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