Sertindole, an Antipsychotic Drug, Curbs the STAT3/BCL-xL Axis to Elicit Human Bladder Cancer Cell Apoptosis In Vitro

Hsu, Chao-Yu; Yang, Weiting; Lin, Ju-Hwa; Lu, Chien-Hsing; Hu, Kai; Lan, Tsuo-Hung; Chang, Chia‐Che

doi:10.3390/ijms241411852

IJMS

2023

DOI: 10.3390/ijms241411852

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Sertindole, an Antipsychotic Drug, Curbs the STAT3/BCL-xL Axis to Elicit Human Bladder Cancer Cell Apoptosis In Vitro

Chao-Yu Hsu

Weiting Yang

Ju-Hwa Lin

et al.

Abstract: Bladder cancer is the leading urinary tract malignancy. Epidemiological evidence has linked lower cancer incidence in schizophrenia patients to long-term medication, highlighting the anticancer potential of antipsychotics. Sertindole is an atypical antipsychotic agent with reported anticancer action on breast and gastric cancers. Yet, sertindole’s effect on bladder cancer remains unaddressed. We herein present the first evidence of sertindole’s antiproliferative effect and mechanisms of action on human bladder… Show more

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Cited by 3 publications

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Fucoxanthin induces human melanoma cytotoxicity by thwarting the JAK2/STAT3/BCL‐xL signaling axis

Kuo,

Dai,

Chang

et al. 2024

Environmental Toxicology

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Melanoma is the most lethal skin malignancy. Fucoxanthin is a marine carotenoid with significant anticancer activities. Intriguingly, Fucoxanthin's impact on human melanoma remains elusive. Signal Transducer and Activator of Transcription 3 (STAT3) represents a promising target in cancer therapy due to its persistent activation in various cancers, including melanoma. Herein, we revealed that Fucoxanthin is cytotoxic to human melanoma cell lines A2758 and A375 while showing limited cytotoxicity to normal human melanocytes. Apoptosis is a primary reason for Fucoxanthin's melanoma cytotoxicity, as the pan‐caspase inhibitor z‐VAD‐fmk drastically abrogated Fucoxanthin‐elicited clonogenicity blockage. Besides, Fucoxanthin downregulated tyrosine 705‐phosphorylated STAT3 (p‐STAT3 (Y705)), either inherently present in melanoma cells or inducible by interleukin 6 (IL‐6) stimulation. Notably, ectopic expression of STAT3‐C, a dominant‐active STAT3 mutant, abolished Fucoxanthin‐elicited melanoma cell apoptosis and clonogenicity inhibition, supporting the pivotal role of STAT3 blockage in Fucoxanthin's melanoma cytotoxicity. Moreover, Fucoxanthin lowered BCL‐xL levels by blocking STAT3 activation, while ectopic BCL‐xL expression rescued melanoma cells from Fucoxanthin‐induced killing. Lastly, Fucoxanthin was found to diminish the levels of JAK2 with dual phosphorylation at tyrosine residues 1007 and 1008 in melanoma cells, suggesting that Fucoxanthin impairs STAT3 signaling by blocking JAK2 activation. Collectively, we present the first evidence that Fucoxanthin is cytotoxic selectively against human melanoma cells while sparing normal melanocytes. Mechanistically, Fucoxanthin targets the JAK2/STAT3/BCL‐xL antiapoptotic axis to provoke melanoma cell death. This discovery implicates the potential application of Fucoxanthin as a chemopreventive or therapeutic strategy for melanoma management.

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Fucoxanthin induces human melanoma cytotoxicity by thwarting the JAK2/STAT3/BCL‐xL signaling axis

Kuo,

Dai,

Chang

et al. 2024

Environmental Toxicology

Self Cite

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show abstract

Exploring the Targets and Molecular Mechanisms of Curcumin for the Treatment of Bladder Cancer Based on Network Pharmacology, Molecular Docking and Molecular Dynamics

Li,

Feng,

Wang

et al. 2024

Mol Biotechnol

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Autophagy flux in bladder cancer: Cell death crosstalk, drug and nanotherapeutics

Liu,

Chen,

et al. 2024

Cancer Letters

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Sertindole, an Antipsychotic Drug, Curbs the STAT3/BCL-xL Axis to Elicit Human Bladder Cancer Cell Apoptosis In Vitro

Cited by 3 publications

References 56 publications

Fucoxanthin induces human melanoma cytotoxicity by thwarting the JAK2/STAT3/BCL‐xL signaling axis

Fucoxanthin induces human melanoma cytotoxicity by thwarting the JAK2/STAT3/BCL‐xL signaling axis

Exploring the Targets and Molecular Mechanisms of Curcumin for the Treatment of Bladder Cancer Based on Network Pharmacology, Molecular Docking and Molecular Dynamics

Autophagy flux in bladder cancer: Cell death crosstalk, drug and nanotherapeutics

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