萼萼素能增强 H9c2 细胞中的热休克相关蛋白,从而调节细胞的存活和凋亡,抵御热休克。

The American journal of Chinese medicine Pub Date : 2024-01-01 Epub Date: 2024-06-28 DOI:10.1142/S0192415X24500472
Pei-Fang Lai, Ramasamy Mahendran, Bruce Chi-Kang Tsai, Cheng-You Lu, Chia-Hua Kuo, Kuan-Ho Lin, Shang-Yeh Lu, Yu-Ling Wu, Yung-Ming Chang, Wei-Wen Kuo, Chih-Yang Huang
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The time-dependent effects of heat shock analyzed using western blot revealed increased HSP expression for up to 2[Formula: see text]h, followed by protein degradation after 4[Formula: see text]h. Hence, a heat shock damage duration of 4[Formula: see text]h was chosen for subsequent investigations. Calycosin administered post-heat shock demonstrated dose-dependent recovery of cell viability. Under heat shock conditions, calycosin prevented the apoptosis of H9c2 cells by upregulating HSPs, suppressing p-JNK, enhancing Bcl-2 activation, and inhibiting cleaved caspase 3. Calycosin also inhibited Fas/FasL expression and activated cell survival markers (p-PI3K, p-ERK, p-Akt), indicating their cytoprotective properties through PI3K/Akt activation and JNK inhibition. TUNEL staining and flow cytometry confirmed that calycosin reduced apoptosis. 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引用次数: 0

摘要

热休克蛋白(HSP)具有伴侣蛋白的功能,可在各种环境压力下被激活。除了在蛋白质生产的不同方面发挥作用外,热休克蛋白还能抵御与蛋白质有关的有害应激源。萼萼素有许多有益的特性。本研究旨在探讨热休克条件下钙调素对心脏的保护作用,并确定其潜在机制。研究采用了 H9c2 细胞、Western 印迹、TUNEL 染色、流式细胞术和免疫荧光染色等方法。利用 Western 印迹分析了热休克的时间依赖性效应,发现 HSP 的表达在 2[式中:见正文]小时内增加,4[式中:见正文]小时后蛋白质降解。因此,后续研究选择的热休克损伤持续时间为 4[式中:见正文]小时。热休克后服用钙佐辛可使细胞活力得到恢复,但这与剂量有关。在热休克条件下,卡利科辛通过上调 HSPs、抑制 p-JNK、增强 Bcl-2 激活和抑制裂解的 caspase 3 来防止 H9c2 细胞凋亡。Calycosin还能抑制Fas/FasL的表达,激活细胞存活标志物(p-PI3K、p-ERK、p-Akt),表明它们通过激活PI3K/Akt和抑制JNK具有细胞保护特性。TUNEL 染色和流式细胞术证实钙黄绿素能减少细胞凋亡。此外,钙黄素还逆转了槲皮素对HSF1和Hsp70表达的抑制作用,说明它在热休克过程中通过激活HSF1增强了Hsp70的表达。免疫荧光染色显示,在钙黄素处理后,HSF1转位到细胞核,这强调了钙黄素的细胞保护作用。总之,钙黄素通过调节HSP的表达和关键信号通路来促进H9c2细胞的存活,对热休克诱导的损伤具有明显的保护作用。
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Calycosin Enhances Heat Shock Related-Proteins in H9c2 Cells to Modulate Survival and Apoptosis against Heat Shock.

Heat shock proteins (HSPs), which function as chaperones, are activated in response to various environmental stressors. In addition to their role in diverse aspects of protein production, HSPs protect against harmful protein-related stressors. Calycosin exhibits numerous beneficial properties. This study aims to explore the protective effects of calycosin in the heart under heat shock and determine its underlying mechanism. H9c2 cells, western blot, TUNEL staining, flow cytometry, and immunofluorescence staining were used. The time-dependent effects of heat shock analyzed using western blot revealed increased HSP expression for up to 2[Formula: see text]h, followed by protein degradation after 4[Formula: see text]h. Hence, a heat shock damage duration of 4[Formula: see text]h was chosen for subsequent investigations. Calycosin administered post-heat shock demonstrated dose-dependent recovery of cell viability. Under heat shock conditions, calycosin prevented the apoptosis of H9c2 cells by upregulating HSPs, suppressing p-JNK, enhancing Bcl-2 activation, and inhibiting cleaved caspase 3. Calycosin also inhibited Fas/FasL expression and activated cell survival markers (p-PI3K, p-ERK, p-Akt), indicating their cytoprotective properties through PI3K/Akt activation and JNK inhibition. TUNEL staining and flow cytometry confirmed that calycosin reduced apoptosis. Moreover, calycosin reversed the inhibitory effects of quercetin on HSF1 and Hsp70 expression, illustrating its role in enhancing Hsp70 expression through HSF1 activation during heat shock. Immunofluorescence staining demonstrated HSF1 translocation to the nucleus following calycosin treatment, emphasizing its cytoprotective effects. In conclusion, calycosin exhibits pronounced protective effects against heat shock-induced damages by modulating HSP expression and regulating key signaling pathways to promote cell survival in H9c2 cells.

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