Experimental and network pharmacology certify itraconazole mitigates fluorouracil-induced intestinal damage by inhibiting mTOR-mediated intestinal senescence

Fluorouracil (Fu) is one of the first-line drugs for colorectal cancer, but severe intestinal damage limits its clinical application. The intestinal damage caused by Fu is closely related to cellular senescence. Itraconazole (Itr) is primarily used to treat fungal infections. At present, the effects...

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Published inToxicology and applied pharmacology Vol. 502; p. 117404
Main Authors Ge, Yuchen, Zhao, Bingxiang, Li, Man, Li, Zhenglin, Bai, Shirui, Zhang, Qishan, Wang, Xue, Wang, Guangming, Cheng, Jianjie, Wang, Xiaobo
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.09.2025
Subjects
Animals
Cell Line, Tumor
Cellular Senescence - drug effects
Fluorouracil - toxicity
Humans
Intestinal injury
Intestinal senescence
Intestines - drug effects
Intestines - pathology
Itraconazole
Itraconazole - pharmacology
Male
Mice
Mice, Inbred BALB C
mTOR
Network Pharmacology
Side effects of fluorouracil
Signal Transduction - drug effects
TOR Serine-Threonine Kinases - antagonists & inhibitors
TOR Serine-Threonine Kinases - metabolism
mTOR
Intestinal injury
Network pharmacology
Intestinal senescence
Side effects of fluorouracil
Itraconazole
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Abstract Fluorouracil (Fu) is one of the first-line drugs for colorectal cancer, but severe intestinal damage limits its clinical application. The intestinal damage caused by Fu is closely related to cellular senescence. Itraconazole (Itr) is primarily used to treat fungal infections. At present, the effects of Itr on intestinal senescence and damage have not been the subject of extensive study. In this study, NCM460 cells were utilized to establish a model of Fu-induced senescence and inflammation. Treatment of NCM460 cells with Fu resulted in increased senescence-associated beta-galactosidase (SA-β-Gal) activity, elevated p21 expression, and the upregulation of p16 and p53. Additionally, there was enhanced Senescence-Associated Secretory Phenotype (SASP) and an increase in inflammatory factors IL-1β and IL-6. The present study demonstrated that the treatment of Itr effectively alleviated the changes caused by Fu in NCM460 cells. Moreover, it was observed that Itr was efficacious in mitigating intestinal damage induced by Fu in Balb/c mice. Network pharmacology analysis and experimental validation identified the mTOR signaling pathway as a key target of Itr in treating Fu-induced intestinal aging and inflammation. Our findings demonstrate that Itr significantly inhibited the mTOR pathway, while the mTOR activator MHY1485 restored mTOR activity and promoted senescence. Moreover, it was observed that Itr could effectively enhance the tumor-killing effect of Fu in HCT116 and SW480 cells, as well as in Balb/c nude mice. In conclusion, Itr is a promising candidate for reducing intestinal side effects and enhancing Fu's efficacy in the treatment of colorectal cancer. •Itraconazole alleviates fluorouracil-induced senescence and inflammatory responses in NCM460 cells.•Itraconazole mitigates fluorouracil-induced intestinal injury, inflammation, and senescence in Balb/c mice.•Itraconazole reduces fluorouracil-induced intestinal injury via the mTOR signaling pathway.•Itraconazole enhances the tumor-killing effects of fluorouracil in vivo and in vitro.
AbstractList Fluorouracil (Fu) is one of the first-line drugs for colorectal cancer, but severe intestinal damage limits its clinical application. The intestinal damage caused by Fu is closely related to cellular senescence. Itraconazole (Itr) is primarily used to treat fungal infections. At present, the effects of Itr on intestinal senescence and damage have not been the subject of extensive study. In this study, NCM460 cells were utilized to establish a model of Fu-induced senescence and inflammation. Treatment of NCM460 cells with Fu resulted in increased senescence-associated beta-galactosidase (SA-β-Gal) activity, elevated p21 expression, and the upregulation of p16 and p53. Additionally, there was enhanced Senescence-Associated Secretory Phenotype (SASP) and an increase in inflammatory factors IL-1β and IL-6. The present study demonstrated that the treatment of Itr effectively alleviated the changes caused by Fu in NCM460 cells. Moreover, it was observed that Itr was efficacious in mitigating intestinal damage induced by Fu in Balb/c mice. Network pharmacology analysis and experimental validation identified the mTOR signaling pathway as a key target of Itr in treating Fu-induced intestinal aging and inflammation. Our findings demonstrate that Itr significantly inhibited the mTOR pathway, while the mTOR activator MHY1485 restored mTOR activity and promoted senescence. Moreover, it was observed that Itr could effectively enhance the tumor-killing effect of Fu in HCT116 and SW480 cells, as well as in Balb/c nude mice. In conclusion, Itr is a promising candidate for reducing intestinal side effects and enhancing Fu's efficacy in the treatment of colorectal cancer.
Fluorouracil (Fu) is one of the first-line drugs for colorectal cancer, but severe intestinal damage limits its clinical application. The intestinal damage caused by Fu is closely related to cellular senescence. Itraconazole (Itr) is primarily used to treat fungal infections. At present, the effects of Itr on intestinal senescence and damage have not been the subject of extensive study. In this study, NCM460 cells were utilized to establish a model of Fu-induced senescence and inflammation. Treatment of NCM460 cells with Fu resulted in increased senescence-associated beta-galactosidase (SA-β-Gal) activity, elevated p21 expression, and the upregulation of p16 and p53. Additionally, there was enhanced Senescence-Associated Secretory Phenotype (SASP) and an increase in inflammatory factors IL-1β and IL-6. The present study demonstrated that the treatment of Itr effectively alleviated the changes caused by Fu in NCM460 cells. Moreover, it was observed that Itr was efficacious in mitigating intestinal damage induced by Fu in Balb/c mice. Network pharmacology analysis and experimental validation identified the mTOR signaling pathway as a key target of Itr in treating Fu-induced intestinal aging and inflammation. Our findings demonstrate that Itr significantly inhibited the mTOR pathway, while the mTOR activator MHY1485 restored mTOR activity and promoted senescence. Moreover, it was observed that Itr could effectively enhance the tumor-killing effect of Fu in HCT116 and SW480 cells, as well as in Balb/c nude mice. In conclusion, Itr is a promising candidate for reducing intestinal side effects and enhancing Fu's efficacy in the treatment of colorectal cancer.Fluorouracil (Fu) is one of the first-line drugs for colorectal cancer, but severe intestinal damage limits its clinical application. The intestinal damage caused by Fu is closely related to cellular senescence. Itraconazole (Itr) is primarily used to treat fungal infections. At present, the effects of Itr on intestinal senescence and damage have not been the subject of extensive study. In this study, NCM460 cells were utilized to establish a model of Fu-induced senescence and inflammation. Treatment of NCM460 cells with Fu resulted in increased senescence-associated beta-galactosidase (SA-β-Gal) activity, elevated p21 expression, and the upregulation of p16 and p53. Additionally, there was enhanced Senescence-Associated Secretory Phenotype (SASP) and an increase in inflammatory factors IL-1β and IL-6. The present study demonstrated that the treatment of Itr effectively alleviated the changes caused by Fu in NCM460 cells. Moreover, it was observed that Itr was efficacious in mitigating intestinal damage induced by Fu in Balb/c mice. Network pharmacology analysis and experimental validation identified the mTOR signaling pathway as a key target of Itr in treating Fu-induced intestinal aging and inflammation. Our findings demonstrate that Itr significantly inhibited the mTOR pathway, while the mTOR activator MHY1485 restored mTOR activity and promoted senescence. Moreover, it was observed that Itr could effectively enhance the tumor-killing effect of Fu in HCT116 and SW480 cells, as well as in Balb/c nude mice. In conclusion, Itr is a promising candidate for reducing intestinal side effects and enhancing Fu's efficacy in the treatment of colorectal cancer.
Fluorouracil (Fu) is one of the first-line drugs for colorectal cancer, but severe intestinal damage limits its clinical application. The intestinal damage caused by Fu is closely related to cellular senescence. Itraconazole (Itr) is primarily used to treat fungal infections. At present, the effects of Itr on intestinal senescence and damage have not been the subject of extensive study. In this study, NCM460 cells were utilized to establish a model of Fu-induced senescence and inflammation. Treatment of NCM460 cells with Fu resulted in increased senescence-associated beta-galactosidase (SA-β-Gal) activity, elevated p21 expression, and the upregulation of p16 and p53. Additionally, there was enhanced Senescence-Associated Secretory Phenotype (SASP) and an increase in inflammatory factors IL-1β and IL-6. The present study demonstrated that the treatment of Itr effectively alleviated the changes caused by Fu in NCM460 cells. Moreover, it was observed that Itr was efficacious in mitigating intestinal damage induced by Fu in Balb/c mice. Network pharmacology analysis and experimental validation identified the mTOR signaling pathway as a key target of Itr in treating Fu-induced intestinal aging and inflammation. Our findings demonstrate that Itr significantly inhibited the mTOR pathway, while the mTOR activator MHY1485 restored mTOR activity and promoted senescence. Moreover, it was observed that Itr could effectively enhance the tumor-killing effect of Fu in HCT116 and SW480 cells, as well as in Balb/c nude mice. In conclusion, Itr is a promising candidate for reducing intestinal side effects and enhancing Fu's efficacy in the treatment of colorectal cancer. •Itraconazole alleviates fluorouracil-induced senescence and inflammatory responses in NCM460 cells.•Itraconazole mitigates fluorouracil-induced intestinal injury, inflammation, and senescence in Balb/c mice.•Itraconazole reduces fluorouracil-induced intestinal injury via the mTOR signaling pathway.•Itraconazole enhances the tumor-killing effects of fluorouracil in vivo and in vitro.
ArticleNumber 117404
Author Zhang, Qishan
Wang, Xue
Li, Zhenglin
Bai, Shirui
Cheng, Jianjie
Wang, Guangming
Zhao, Bingxiang
Wang, Xiaobo
Ge, Yuchen
Li, Man
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Keywords mTOR
Intestinal injury
Network pharmacology
Intestinal senescence
Side effects of fluorouracil
Itraconazole
Language English
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Snippet Fluorouracil (Fu) is one of the first-line drugs for colorectal cancer, but severe intestinal damage limits its clinical application. The intestinal damage...
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StartPage 117404
SubjectTerms Animals
Cell Line, Tumor
Cellular Senescence - drug effects
Fluorouracil - toxicity
Humans
Intestinal injury
Intestinal senescence
Intestines - drug effects
Intestines - pathology
Itraconazole
Itraconazole - pharmacology
Male
Mice
Mice, Inbred BALB C
mTOR
Network Pharmacology
Side effects of fluorouracil
Signal Transduction - drug effects
TOR Serine-Threonine Kinases - antagonists & inhibitors
TOR Serine-Threonine Kinases - metabolism
Title Experimental and network pharmacology certify itraconazole mitigates fluorouracil-induced intestinal damage by inhibiting mTOR-mediated intestinal senescence
URI https://dx.doi.org/10.1016/j.taap.2025.117404
https://www.ncbi.nlm.nih.gov/pubmed/40449753
https://www.proquest.com/docview/3214325677
Volume 502
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