[5] ZHU W Y, YE Z P, CHEN L, et al. A pyroptosis-related lncRNA signature predicts prognosis and immune microenvironment in head and neck squamous cell carcinoma[J]. International Immunopharmacology, 101, 108268(2021).

[6] WANG Z, YU H L, ZHUANG W Y, et al. Cell pyroptosis in picornavirus and its potential for treating viral infection[J]. Journal of Medical Virology, 94, 3570-3580(2022).

[7] WANG Y Y, LIU X L, ZHAO R. Induction of pyroptosis and its implications in cancer management[J]. Frontiers in Oncology, 9, 971(2019).

[8] TAN G, HUANG C Y, CHEN J Y, et al. Gasdermin-E-mediated pyroptosis participates in the pathogenesis of Crohn's disease by promoting intestinal inflammation[J]. Cell Reports, 35, 109265(2021).

[9] WEI R, LI S F, YU G H, et al. Deciphering the pyroptosis-related prognostic signature and immune cell infiltration characteristics of colon cancer[J]. Frontiers in Genetics, 12, 755384(2021).

[10] CROES L, BEYENS M, FRANSEN E, et al. Large-scale analysis of DFNA5 methylation reveals its potential as biomarker for breast cancer[J]. Clinical Epigenetics, 10, 51(2018).

[11] CROES L, DE BEECK K O, PAUWELS P, et al. DFNA5 promoter methylation a marker for breast tumorigenesis[J]. Oncotarget, 8, 31948-31958(2017).

[12] FAN J X, DENG R H, WANG H, et al. Epigenetics-based tumor cells pyroptosis for enhancing the immunological effect of chemotherapeutic Nano-carriers[J]. Nano Letters, 19, 8049-8058(2019).

[13] CAO W, CHEN G D, WU L J, et al. Ionizing radiation triggers the antitumor immunity by inducing gasdermin E-mediated pyroptosis in tumor cells[J]. International Journal of Radiation Oncology, Biology, Physics, 115, 440-452(2023).

[14] ZHENG L L, FAN Y, WANG X, et al. Nanoagonist-mediated GSDME-dependent pyroptosis remodels the inflammatory microenvironment for tumor photoimmunotherapy[J]. Advanced Functional Materials, 33, 2200811(2023).

[15] ASSIS R I F, WIENCH M, SILVÉRIO K G, et al. RG108 increases NANOG and OCT4 in bone marrow-derived mesenchymal cells through global changes in DNA modifications and epigenetic activation[J]. PLoS One, 13, e0207873(2018).

[16] LARUSH L, MAGDASSI S. Formation of near-infrared fluorescent nanoparticles for medical imaging[J]. Nanomedicine, 6, 233-240(2011).

[17] YUAN B H, CHEN N G, ZHU Q. Emission and absorption properties of indocyanine green in Intralipid solution[J]. Journal of Biomedical Optics, 9, 497(2004).

[18] ZHAO P F, WANG M, CHEN M, et al. Programming cell pyroptosis with biomimetic nanoparticles for solid tumor immunotherapy[J]. Biomaterials, 254, 120142(2020).

[19] HISHIKAWA H, KAIBORI M, TSUDA T, et al. Near-infrared fluorescence imaging and photodynamic therapy with indocyanine green lactosomes has antineoplastic effects for gallbladder cancer[J]. Oncotarget, 10, 5622-5631(2019).

[20] GAMAL-ELDEEN A M, EL-DALY S M, BORAI I H, et al. Photodynamic therapeutic effect of indocyanine green entrapped in polymeric nanoparticles and their anti-EGFR-conjugate in skin cancer in CD1 mice[J]. Photodiagnosis and Photodynamic Therapy, 10, 446-459(2013).

[21] YU X N, DENG Y, ZHANG G C, et al. Sorafenib-conjugated zinc phthalocyanine based nanocapsule for trimodal therapy in an orthotopic hepatocellular carcinoma xenograft mouse model[J]. ACS Applied Materials & Interfaces, 12, 17193-17206(2020).

[22] OH H G, NAM H G, KIM D H, et al. Neuroblastoma cells grown on fluorine or oxygen treated graphene sheets[J]. Materials Letters, 131, 328-331(2014).

[23] XU Z Q, HUANG X T, ZHANG M X, et al. Tissue imaging of glutathione-specific naphthalimide-cyanine dye with two-photon and near-infrared manners[J]. Analytical Chemistry, 91, 11343-11348(2019).

[24] BOVIS M J, WOODHAMS J H, LOIZIDOU M, et al. Improved in vivo delivery of m-THPC via pegylated liposomes for use in photodynamic therapy[J]. Journal of Controlled Release, 157, 196-205(2012).

[25] WU M R, HUANG Y Y, HSIAO J K. Use of Indocyanine Green (ICG), a medical near infrared dye, for enhanced fluorescent imaging-comparison of organic anion transporting polypeptide 1B3 (OATP1B3) and Sodium-Taurocholate Cotransporting Polypeptide (NTCP) reporter genes[J]. Molecules, 24, 2295(2019).

[26] WANG Y X, LAN M M, SHEN D J, et al. Targeted nanobubbles carrying indocyanine green for ultrasound, photoacoustic and fluorescence imaging of prostate cancer[J]. International Journal of Nanomedicine, 15, 4289-4309(2020).

[27] WANG E L, LIU Y J, XU C N, et al. Antiproliferative and proapoptotic activities of anthocyanin and anthocyanidin extracts from blueberry fruits on B16-F10 melanoma cells[J]. Food & Nutrition Research, 61, 1325308(2017).

[28] LIU Y, WEN D, GAO J Q, et al. Methamphetamine induces GSDME-dependent cell death in hippocampal neuronal cells through the endoplasmic reticulum stress pathway[J]. Brain Research Bulletin, 162, 73-83(2020).

[29] ZHU Y R, XU G L, CHEN P, et al. Effects of Cr(VI)-induced calcium-sensing receptor activation on DF-1 cell pyroptosis[J]. Ecotoxicology and Environmental Safety, 179, 257-264(2019).