ChenY (2024) Effect of chrono-nutrition–based dietary intervention on metabolic disease. Precision Nutrition3(2): e00076.
2.
CrespoMTTrebucqLLSennaCA, et al. (2025) Circadian disruption of feeding-fasting rhythm and its consequences for metabolic, immune, cancer, and cognitive processes. Biomedical Journal48(3): 100827.
3.
FortinBMPfeifferSMInsua-RodríguezJ, et al. (2024) Circadian control of tumor immunosuppression affects efficacy of immune checkpoint blockade. Nature Immunology25(7): 1257–1269.
4.
FuadSAGintingRPLeeMW (2025) Chrononutrition: Potential, challenges, and application in managing obesity. International Journal of Molecular Sciences26(11): 5116.
5.
GodosJCurrentiWFerriR, et al. (2025) Chronotype and cancer: Emerging relation between chrononutrition and oncology from human studies. Nutrients17(3): 29.
6.
GrafanakiKManiatisAAnastogianniA, et al. (2025) Nutrition and diet patterns as key modulators of metabolic reprogramming in melanoma immunotherapy. Journal of Clinical Medicine14(12): 4193.
7.
Hilakivi-ClarkeLVermaVMcDermottM, et al. (2022) Foods may modify responsiveness to cancer immune checkpoint blockers by altering both the gut Microbiota and activation of estrogen receptors in immune cells. Frontiers in Microbiomes1: 1049688.
8.
JanakiramNBMohammedAMadkaV, et al. (2016) Prevention and treatment of cancers by immune modulating nutrients. Molecular Nutrition & Food Research60(6): 1275–1294.
9.
JeongMCollinsN (2024) Nutritional modulation of antitumor immunity. Current Opinion in Immunology87: 102422.
10.
KarabouéAInnominatoPFWreglesworthNI, et al. (2024) Why does circadian timing of administration matter for immune checkpoint inhibitors’ efficacy?British Journal of Cancer131(5): 783–796.
11.
LiSZhangYTongH, et al. (2025) Metabolic regulation of immunity in the tumor microenvironment. Cell Reports44(11): 116463.
12.
McIntyreCLTemesgenALynchL (2023) Diet, nutrient supply, and tumor immune responses. Trends in Cancer9(9): 752–763.
13.
ÖzdemirBCBillROkyarA, et al. (2025) Chrono-immunotherapy as a low-hanging fruit for cancer treatment? A call for pragmatic randomized clinical trials. Journal for Immunotherapy of Cancer13(3): e010644.
14.
SunXQinLLiangX, et al. (2026) Circadian rhythm in immunotherapy and cellular therapy: Impacts on the tumor microenvironment. Acta Biochimica et Biophysica Sinica58(1): 90–105.
15.
SzredzkaAChwastowiczAPergołJ, et al. (2025) Circadian clocks and adaptive immune function: From mechanisms to therapeutic applications. Frontiers in Immunology16: 1697854.
16.
TiniSBaimaJPigniS, et al. (2025) The Microbiota-diet-immunity axis in cancer care: From prevention to treatment modulation and survivorship. Nutrients17(17): 2898.
17.
VerdeLGalassoMSavastanoS, et al. (2025) "Time" for obesity-related cancers: The role of chrononutrition in cancer prevention and treatment. Seminars in Cancer Biology114: 15–28.
18.
WangCZengQGülZM, et al. (2024) Circadian tumor infiltration and function of CD8+ T cells dictate immunotherapy efficacy. Cell187(11): 2690–2702.e17.
19.
ZengYGuoZWuM, et al. (2024) Circadian rhythm regulates the function of immune cells and participates in the development of tumors. Cell Death Discovery10(1): 99.
20.
ZhangJJingBNiX, et al. (2025) AGEs-RAGE manipulates tumor intrinsic perk/Sp1/IL6 pathway and reprograms macrophage to promote intrahepatic cholangiocarcinoma progression. Translational Oncology60: 102446.
21.
ZhangXLiHLvX, et al. (2022) Impact of diets on response to immune checkpoint inhibitors (ICIs) therapy against tumors. Life (Basel, Switzerland)12(3): 409.
