Melatonin suppresses thyroid cancer growth and overcomes radioresistance via inhibition of p65 phosphorylation and induction of ROS

Zhen Wei Zou, Ting Liu, Yong Li, Peng Chen, Xin Peng, Charlie Ma, Wen Jie Zhang, Pin Dong Li

Research output: Contribution to journalArticlepeer-review

51 Scopus citations

Abstract

Thyroid cancer is the most common endocrine carcinoma with increasing incidence worldwide and anaplastic subtypes are frequently associated with cancer related death. Radioresistance of thyroid cancer often leads to therapy failure and cancer-related death. In this study, we found that melatonin showed potent suppressive roles on NF-κB signaling via inhibition of p65 phosphorylation and generated redox stress in thyroid cancer including the anaplastic subtypes. Our data showed that melatonin significantly decreased cell viability, suppressed cell migration and induced apoptosis in thyroid cancer cell lines in vitro and impaired tumor growth in the subcutaneous mouse model in vivo. By contrast, irradiation of thyroid cancer cells resulted in elevated level of phosphorylated p65, which could be reversed by cotreatment with melatonin. Consequently, melatonin synergized with irradiation to induce cytotoxicity to thyroid cancer, especially in the undifferentiated subgroups. Taken together, our results suggest that melatonin may exert anti-tumor activities against thyroid carcinoma by inhibition of p65 phosphorylation and induction of reactive oxygen species. Radio-sensitization by melatonin may have clinical benefits in thyroid cancer.

Original languageEnglish
Pages (from-to)226-236
Number of pages11
JournalRedox Biology
Volume16
DOIs
StatePublished - Jun 2018

Keywords

  • Animals
  • Apoptosis/drug effects
  • Cell Line, Tumor
  • Cell Movement/drug effects
  • Cell Proliferation/drug effects
  • Cell Survival/drug effects
  • Gene Expression Regulation, Neoplastic
  • Humans
  • Melatonin/pharmacology
  • Mice
  • NF-kappa B/genetics
  • Phosphorylation/drug effects
  • Radiation Tolerance/drug effects
  • Reactive Oxygen Species/metabolism
  • Thyroid Neoplasms/drug therapy
  • Transcription Factor RelA/genetics
  • Xenograft Model Antitumor Assays

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