Zizheng Gao scite author profile

Dasatinib shows remarkable activity against imatinib-refractory chronic myelogenous leukemia (CML) and Philadelphia chromosome positive acute lymphoblastic leukemia (PhALL). However, severe cardiovascular toxicity limits the clinical applications of dasatinib. Since the underlying mechanism of dasatinib-induced cardiotoxicity is still elusive, we aim to clarify this. Recent studies have shown that necroptosis and apoptosis participate in multiple toxicity development. Here, we first report that dasatinib could directly induce cardiomyocytes death, as analyzed by the Sulforhodamine B (SRB) assay. This type of cardiomyocytes death was mediated by the necrosis pathway rather than apoptosis, as determined by using flow cytometry to characterize the mode of dasatinib-induced cell death. Inhibition of receptor-interacting protein kinase 1 (RIP1)activity and knockdown of receptor-interacting protein kinase 3 (RIP3)expression can block dasatinib-evoked cardiotoxicity, which further confirmed the involvement of necroptosis. We next found that the classic substrates of RIP3, mixed lineage kinase domain-like protein (MLKL) and Ca-calmodulin-dependent protein kinase II (CaMKII) were not involved in dasatinib-induced cardiomyocytes necroptosis. What's more, unlike the inflammation-associated necroptosis, dasatinib-triggered necroptosis was dependent on intracellular instead of secreted High-mobility group box 1 (HMGB1) protein. Collectively, our study revealed that dasatinib-induced cardiotoxicity acted via leading cardiomyocytes to HMGB1-mediated necroptosis, indicating a viable strategy for prevention of dasatinib-induced cardiotoxicity.

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Autophagic degradation of CCN2 (cellular communication network factor 2) causes cardiotoxicity of sunitinib

Jin

Gao

et al. 2021

Autophagy

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Excessive macroautophagy/autophagy is one of the causes of cardiomyocyte death induced by cardiovascular diseases or cancer therapy, yet the underlying mechanism remains unknown. We and other groups previously reported that autophagy might contribute to cardiomyocyte death caused by sunitinib, a tumor angiogenesis inhibitor that is widely used in clinic, which may help to understand the mechanism of autophagy-induced cardiomyocyte death. Here, we found that sunitinib-induced autophagy leads to apoptosis of cardiomyocyte and cardiac dysfunction as the cardiomyocyte-specific Atg7 −/+ heterozygous mice are resistant to sunitinib. Sunitinib-induced maladaptive autophagy selectively degrades the cardiomyocyte survival mediator CCN2 (cellular communication network factor 2) through the TOLLIP (toll interacting protein)-mediated endosomerelated pathway and cardiomyocyte-specific knockdown of Ccn2 through adeno-associated virus serotype 9 (AAV9) mimics sunitinib-induced cardiac dysfunction in vivo, suggesting that the autophagic degradation of CCN2 is one of the causes of sunitinib-induced cardiotoxicity and death of cardiomyocytes. Remarkably, deletion of Hmgb1 (high mobility group box 1) inhibited sunitinibinduced cardiomyocyte autophagy and apoptosis, and the HMGB1-specific inhibitor glycyrrhizic acid (GA) significantly mitigated sunitinib-induced autophagy, cardiomyocyte death and cardiotoxicity. Our study reveals a novel target protein of autophagic degradation in the regulation of cardiomyocyte death and highlights the pharmacological inhibitor of HMGB1 as an attractive approach for improving the safety of sunitinib-based cancer therapy.

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Discovery of N-((3S,4S)-4-(3,4-Difluorophenyl)piperidin-3-yl)-2-fluoro-4-(1-methyl-1H-pyrazol-5-yl)benzamide (Hu7691), a Potent and Selective Akt Inhibitor That Enables Decrease of Cutaneous Toxicity

et al. 2021

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Rash is one of the primary dose-limiting toxicities of Akt (protein kinase B) inhibitors in clinical trials. Here, we demonstrate the inhibition of Akt2 isozyme may be a driver for keratinocyte apoptosis, which promotes us to search for new selective Akt inhibitors with an improved cutaneous safety property. According to our previous research, compound 2 is selected for further optimization for overcoming the disadvantages of compound 1, including high Akt2 inhibition and high toxicity against HaCaT keratinocytes. The dihedral angle-based design and molecular dynamics simulation lead to the identification of Hu7691 (B5) that achieves a 24-fold selectivity between Akt1 and Akt2. Hu7691 exhibits low activity in inducing HaCaT apoptosis, promising kinase selectivity, and excellent anticancer cell proliferation potencies. Based on the superior results of safety property, pharmacokinetic profile, and in vivo efficacy, the National Medical Products Administration (NMPA) approved the investigational new drug (IND) application of Hu7691.

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Dasatinib causes keratinocyte apoptosis via inhibiting high mobility group Box 1-mediated mitophagy

Gao

et al. 2023

Toxicology Letters

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Bisdemethoxycurcumin alleviates vandetanib-induced cutaneous toxicity in vivo and in vitro through autophagy activation

Jin

Chen

Gao

et al. 2021

Biomedicine & Pharmacotherapy

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Zizheng Gao

High-mobility group box 1 protein-mediated necroptosis contributes to dasatinib-induced cardiotoxicity

Autophagic degradation of CCN2 (cellular communication network factor 2) causes cardiotoxicity of sunitinib

Discovery of N-((3S,4S)-4-(3,4-Difluorophenyl)piperidin-3-yl)-2-fluoro-4-(1-methyl-1H-pyrazol-5-yl)benzamide (Hu7691), a Potent and Selective Akt Inhibitor That Enables Decrease of Cutaneous Toxicity

Dasatinib causes keratinocyte apoptosis via inhibiting high mobility group Box 1-mediated mitophagy

Bisdemethoxycurcumin alleviates vandetanib-induced cutaneous toxicity in vivo and in vitro through autophagy activation

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