Article(id=1246459847105995215, tenantId=1146029695717560320, journalId=1246415837536497731, issueId=1246459843930903036, articleNumber=null, orderNo=null, doi=10.12307/2025.765, pmid=null, cstr=null, oa=null, hot=null, price=null, onlineType=0, articleFormat=0, articleType=null, articleTypeStr=null, receivedDate=1726848000000, receivedDateStr=2024-09-21, revisedDate=1732636800000, revisedDateStr=2024-11-27, acceptedDate=1730476800000, acceptedDateStr=2024-11-02, onlineDate=1775108785653, onlineDateStr=2026-04-02, pubDate=1766851200000, pubDateStr=2025-12-28, doiRegisterDate=null, doiRegisterDateStr=null, onlineIssueDate=1775108785653, onlineIssueDateStr=2026-04-02, onlineJustAcceptDate=null, onlineJustAcceptDateStr=null, onlineFirstDate=null, onlineFirstDateStr=null, sourceXml=null, magXml=null, createTime=1775108785653, creator=13701087609, updateTime=1775108785653, updator=13701087609, issue=Issue{id=1246459843930903036, tenantId=1146029695717560320, journalId=1246415837536497731, year='2025', volume='29', issue='36', pageStart='7701', pageEnd='7920', issueExtLink='null', onlineDate='null', pubDate='null', beforeIssueId=null, nextIssueId=null, price=null, status=1, issueComplete=1, articleOrder=1, issueType=1, specialIssue=null, createTime=1775108784853, creator=13701087609, updateTime=1775108852483, updator=13701087609, preIssue=null, nextIssue=null, ext={EN=IssueExt(id=1246460127511991018, tenantId=1146029695717560320, journalId=1246415837536497731, issueId=1246459843930903036, language=EN, specialIssueTitle=, coverIllustrator=null, specialIssueEditor=, specialIssueAbout=), CN=IssueExt(id=1246460127511991019, tenantId=1146029695717560320, journalId=1246415837536497731, issueId=1246459843930903036, language=CN, specialIssueTitle=, coverIllustrator=null, specialIssueEditor=, specialIssueAbout=)}, issueFiles=null}, startPage=7880, endPage=7888, ext={EN=ArticleExt(id=1246459847424762322, articleId=1246459847105995215, tenantId=1146029695717560320, journalId=1246415837536497731, language=EN, title=Mechanism and potential application strategies of pyroptosis in breast cancer treatment, columnId=1246459847353459153, journalTitle=Chinese Journal of Tissue Engineering Research, columnName=Review, runingTitle=null, highlight=null, articleAbstract=
BACKGROUND: Numerous studies have indicated that pyroptosis plays a key role in the progression of cancer. In recent years, research has shown that pyroptosis is inextricably linked to the occurrence, development, and treatment of breast cancer. The development of effective pyroptosis-based therapeutic strategies has become a hot topic in the field of breast cancer treatment.
OBJECTIVE: To comprehensively analyze the mechanisms of pyroptosis, explore the role of pyroptosis in the anti-tumor effects in breast cancer, and its potential application value in clinical treatment.
METHODS: Using English search terms “pyroptosis, breast cancer, inflammasome, gasdermin, caspase, drug resistance, treatment”, PubMed database was searched for articles published from inception to August 2024. Through the preliminary screening of reading titles and abstracts, literature with poor relevance to the research content, outdated information, repeated views, and lack of authority was excluded. Finally, 121 articles were included for review.
RESULTS AND CONCLUSION: Pyroptosis is a special form of programmed cell death that is carried out by the activation of the gasdermin family of proteins, showing potential application value in the treatment of breast cancer. Long-term or improper treatment can lead to drug resistance in cancer cells; research on the mechanism of pyroptosis helps to overcome resistance deficiencies. Pyroptosis can trigger immunogenic cell death, promoting the release of tumor-specific antigens, thereby activating the immune system and enhancing its ability to recognize and clear tumor cells. The expression levels of pyroptosis-related genes can serve as prognostic indicators for breast cancer, helping to assess patients’ treatment responses and survival periods. Research on the mechanisms of pyroptosis can provide new strategies for the treatment of breast cancer, such as targeted drugs and therapeutic methods that induce pyroptosis, contributing to the realization of personalized treatment plans for breast cancer.
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Yuan Jun, MD, Chief technician, School of Medical Laboratory Science, Guizhou Medical University, Guiyang 550004, Guizhou Province, China; Department of Laboratory Medicine, Jinyang Hospital Affiliated to Guizhou Medical University, Guiyang 550081, Guizhou Province, China
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背景: 众多研究指出细胞焦亡在肿瘤进展中扮演着关键角色。近年来研究显示,细胞焦亡与乳腺癌发生、发展和治疗有着不可忽视的联系,开发有效的细胞焦亡治疗策略已成为乳腺癌治疗领域的研究热点。
目的: 综合分析细胞焦亡的机制,探究细胞焦亡在乳腺癌中的抗肿瘤作用以及在临床治疗中的潜在应用价值。
方法: 以“pyroptosis,breast cancer,inflammasome,gasdermin,caspase,drug resistance,treatment”为英文检索词,检索PubMed数据库建库至2024年8月发表的文献。通过阅读文题和摘要进行初步筛选,排除与此次研究内容相关性差、信息陈旧或观点重复且缺乏权威性的文献,最后纳入121篇文献进行综述。
结果与结论: 细胞焦亡是一种特殊的程序性细胞死亡方式,它通过激活Gasdermin家族蛋白来执行,在乳腺癌治疗中显示出潜在的应用价值。长期或不当的治疗可导致肿瘤细胞对药物产生耐药性,细胞焦亡机制的研究有助于克服耐药性缺陷。细胞焦亡能够触发免疫原性细胞死亡,促进肿瘤特异性抗原的释放,进而激活免疫系统,提高其对肿瘤细胞的识别和清除能力。细胞焦亡相关基因表达水平可作为乳腺癌预后指标,有助于评估患者的治疗反应和生存期。细胞焦亡机制研究可为乳腺癌治疗提供新的策略,如靶向诱导焦亡的药物和治疗方法,有助于实现乳腺癌个体化治疗方案。
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袁军,博士,主任技师,贵州医科大学医学检验学院,贵州省贵阳市 550004;贵州医科大学附属金阳医院检验科,贵州省贵阳市 550081
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文章出版前全体作者与编辑部签署了文章版权转让协议。, copyrightOwner=null, extLink=null, articleAbsUrl=null, sourceXml=QECrpyToIXGNh2eX7au40A==, magXml=nf4v+rNicbxT2r9f8RPz2g==, pdfUrl=null, pdf=kkf/b5vkz+9LaM/fBfQKnw==, pdfFileSize=1487667, pdfExtLink=null, richHtmlUrl=null, mobilePdfUrl=null, reviewReport=null, pdfFirstPage=null, abstractGraph=bddfJZacpXed/0U5RRNCsQ==, abstractGraphContent=null, abstractVideo=null, citation=null, cebUrl=null, magXmlContent=wOOAAQ/hDCQrkzeLHo+BAA==, mapNumber=null, authorCompany=null, fund=null, authors=
作者贡献:
冉亚琴负责综述构思设计,陈曦负责文章写作校对,谢宴讷参与文献收集,袁军负责项目指导。
Ran Yaqin, Master candidate, Resident physician, School of Medical Laboratory Science, Guizhou Medical University, Guiyang 550004, Guizhou Province, China; Department of Laboratory Medicine, Jinyang Hospital Affiliated to Guizhou Medical University, Guiyang 550081, Guizhou Province, China
冉亚琴,女,1997年生,贵州省铜仁市人,土家族,贵州医科大学在读硕士,规培医师,主要从事临床微生物及肿瘤免疫方面的研究。
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Ran Yaqin, Master candidate, Resident physician, School of Medical Laboratory Science, Guizhou Medical University, Guiyang 550004, Guizhou Province, China; Department of Laboratory Medicine, Jinyang Hospital Affiliated to Guizhou Medical University, Guiyang 550081, Guizhou Province, China
冉亚琴,女,1997年生,贵州省铜仁市人,土家族,贵州医科大学在读硕士,规培医师,主要从事临床微生物及肿瘤免疫方面的研究。
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Ran Yaqin, Master candidate, Resident physician, School of Medical Laboratory Science, Guizhou Medical University, Guiyang 550004, Guizhou Province, China; Department of Laboratory Medicine, Jinyang Hospital Affiliated to Guizhou Medical University, Guiyang 550081, Guizhou Province, China
冉亚琴,女,1997年生,贵州省铜仁市人,土家族,贵州医科大学在读硕士,规培医师,主要从事临床微生物及肿瘤免疫方面的研究。
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12:792106., articleTitle=Pyroptosis-Related lncRNAs Predict the Prognosis and Immune Response in Patients With Breast Cancer, refAbstract=null)], funds=[Fund(id=1246459860934615955, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847105995215, awardId=黔科合基础[2019]1004号, language=EN, fundingSource=a grant from Guizhou Province Department of Science and Technology(黔科合基础[2019]1004号), fundOrder=null, country=null), Fund(id=1246459861018502043, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847105995215, awardId=黔科合基础[2019]1004号, language=CN, fundingSource=贵州省科学技术厅项目(黔科合基础[2019]1004号), fundOrder=null, country=null), Fund(id=1246459861093999522, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847105995215, awardId=筑科合同[2019]9-9-2号, language=EN, fundingSource=Guiyang Science and Technology Plan Project(筑科合同[2019]9-9-2号), fundOrder=null, country=null), Fund(id=1246459861173691306, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847105995215, awardId=筑科合同[2019]9-9-2号, language=CN, fundingSource=贵阳市科技计划项目(筑科合同[2019]9-9-2号), fundOrder=null, country=null)], companyList=[AuthorCompany(id=1246459852764111375, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847105995215, xref=
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细胞焦亡的发展历程图注:NCDD为细胞死亡命名委员会;Gzma为颗粒酶A;Gzmb为颗粒酶B;GSDM为Gasdermin。
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细胞焦亡的分子机制图注:A为经典途径;B为非经典途径;C为其他途径。图中的PAMP为病原体相关分子模式,DAMP为损伤相关分子模式,GSDM为Gasdermin,NLR为核苷酸结合寡聚化结构域样受体,AIM2为黑色素瘤缺失蛋白2,LPS为细菌脂多糖,Gzma为颗粒酶A,Gzmb为颗粒酶B,TNF-α为肿瘤坏死因子α,IL为白细胞介素。
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| 炎症小体 | 细胞质内模式识别受体 | 细胞凋亡相关斑点样蛋白适配器 | 激活者 | 参考文献 | 发表年份 |
|---|
| NLRP1 | NLRP1 | 无 | 炭疽致死毒素 | [37] | 2012 |
| NLRP3 | NLRP3 | 有 | 病原体相关分子模式和损伤相关分子模式 | [38] | 2023 |
| NLRP4 | NLRC4 | 有/无 | Ⅲ型分泌系统蛋白和鞭毛蛋白 | [39] | 2011 |
| 黑色素瘤缺失蛋白2 | 黑色素瘤缺失蛋白2 | 有 | 细胞质dsDNA | [40] | 2023 |
| Pyrin | Pyrin | 有 | 细菌毒素介导的Rho鸟苷三磷酸酶失活 | [41] | 2023 |
), ArticleFig(id=1246459858367701816, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847105995215, language=CN, label=表1, caption=
经典的炎症小体通路概况
, figureFileSmall=null, figureFileBig=null, tableContent=
| 炎症小体 | 细胞质内模式识别受体 | 细胞凋亡相关斑点样蛋白适配器 | 激活者 | 参考文献 | 发表年份 |
|---|
| NLRP1 | NLRP1 | 无 | 炭疽致死毒素 | [37] | 2012 |
| NLRP3 | NLRP3 | 有 | 病原体相关分子模式和损伤相关分子模式 | [38] | 2023 |
| NLRP4 | NLRC4 | 有/无 | Ⅲ型分泌系统蛋白和鞭毛蛋白 | [39] | 2011 |
| 黑色素瘤缺失蛋白2 | 黑色素瘤缺失蛋白2 | 有 | 细胞质dsDNA | [40] | 2023 |
| Pyrin | Pyrin | 有 | 细菌毒素介导的Rho鸟苷三磷酸酶失活 | [41] | 2023 |
), ArticleFig(id=1246459859886039874, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847105995215, language=EN, label=null, caption=null, figureFileSmall=null, figureFileBig=null, tableContent=
| 治疗方法 | 诱导细胞焦亡的药物/条件 | 作用机制 | 参考文献 |
|---|
| 化疗 | 阿霉素 | 激活活性氧/c-Jun氨基末端激酶信号通路,导致caspase-3依赖GSDME介导的细胞焦亡 | [93] |
| 柔红霉素、多柔比星、表柔比星、放线菌素D | 激活核细胞程序性死亡-配体1/GSDMC信号通路 | [50] |
| 顺铂 | 激活NLRP3/caspase-1/GSDMD焦亡信号通路 | [82] |
| 无载体化学光动力纳米平台 | 结合阿糖胞苷和叶绿素E6诱导乳腺癌细胞焦亡 | [94] |
| 放疗 | 高能辐射 | 引起DNA双链断裂 | [95-96] |
| 电离辐射 | 增强caspase-1活性,触发GSDME蛋白高表达,促进CD8+ T淋巴细胞浸润 | [97-98] |
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化疗和放疗激活乳腺癌细胞焦亡的作用机制
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| 治疗方法 | 诱导细胞焦亡的药物/条件 | 作用机制 | 参考文献 |
|---|
| 化疗 | 阿霉素 | 激活活性氧/c-Jun氨基末端激酶信号通路,导致caspase-3依赖GSDME介导的细胞焦亡 | [93] |
| 柔红霉素、多柔比星、表柔比星、放线菌素D | 激活核细胞程序性死亡-配体1/GSDMC信号通路 | [50] |
| 顺铂 | 激活NLRP3/caspase-1/GSDMD焦亡信号通路 | [82] |
| 无载体化学光动力纳米平台 | 结合阿糖胞苷和叶绿素E6诱导乳腺癌细胞焦亡 | [94] |
| 放疗 | 高能辐射 | 引起DNA双链断裂 | [95-96] |
| 电离辐射 | 增强caspase-1活性,触发GSDME蛋白高表达,促进CD8+ T淋巴细胞浸润 | [97-98] |
), ArticleFig(id=1246459860141892437, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847105995215, language=EN, label=null, caption=null, figureFileSmall=null, figureFileBig=null, tableContent=
| 免疫疗法类型 | 作用机制 | 参考文献 |
|---|
| 免疫检查点抑制剂治疗 | 在缺氧条件下,细胞程序性死亡-配体1与磷酸化信号转导与转录激活因子3结合并促进其入核,增强GSDMC基因转录,促进GSDMC表达 | [50] |
| CD8+ T细胞 | 形成孔隙,促进蛋白质治疗剂传递,增强抗肿瘤疗效 | [100] |
| 三甲胺-N-氧化物 | 触发GSDME介导的焦亡,激活蛋白质激酶R样内质网激酶,增强CD8+ T细胞抗肿瘤免疫 | [101] |
| 尼日利亚菌素 | 增强CD4+ T细胞和CD8+ T细胞浸润,与抗程序性死亡分子1抗体协同作用 | [102] |
| 焦亡生物标志物 | 放疗使GSDMD C端、NLRP3和白细胞介素18水平提高,突显活性氧生成和焦亡水平升高 | [103] |
| 高剂量紫杉醇和光敏剂嘌呤18负载的活性氧/谷胱甘肽双重响应纳米前药 | 高效地触发癌细胞特异性焦亡 | [104] |
| 炎性小体激活 | 促进白细胞介素18、白细胞介素1β成熟和释放 | [105] |
), ArticleFig(id=1246459860267721567, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847105995215, language=CN, label=表3, caption=
免疫疗法激活乳腺癌细胞焦亡的作用机制
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| 免疫疗法类型 | 作用机制 | 参考文献 |
|---|
| 免疫检查点抑制剂治疗 | 在缺氧条件下,细胞程序性死亡-配体1与磷酸化信号转导与转录激活因子3结合并促进其入核,增强GSDMC基因转录,促进GSDMC表达 | [50] |
| CD8+ T细胞 | 形成孔隙,促进蛋白质治疗剂传递,增强抗肿瘤疗效 | [100] |
| 三甲胺-N-氧化物 | 触发GSDME介导的焦亡,激活蛋白质激酶R样内质网激酶,增强CD8+ T细胞抗肿瘤免疫 | [101] |
| 尼日利亚菌素 | 增强CD4+ T细胞和CD8+ T细胞浸润,与抗程序性死亡分子1抗体协同作用 | [102] |
| 焦亡生物标志物 | 放疗使GSDMD C端、NLRP3和白细胞介素18水平提高,突显活性氧生成和焦亡水平升高 | [103] |
| 高剂量紫杉醇和光敏剂嘌呤18负载的活性氧/谷胱甘肽双重响应纳米前药 | 高效地触发癌细胞特异性焦亡 | [104] |
| 炎性小体激活 | 促进白细胞介素18、白细胞介素1β成熟和释放 | [105] |
), ArticleFig(id=1246459860389356394, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847105995215, language=EN, label=null, caption=null, figureFileSmall=null, figureFileBig=null, tableContent=
| 研究 | 靶向药物 | 细胞模型 | 作用机制 | 发表年份 |
|---|
| FAN等[108] | 靶向性纳米脂质体LipoDDP-DCT | 4T1乳腺癌细胞 | caspase-3/GSDME | 2019 |
| ELION等[109] | 视黄酸诱导基因Ⅰ | Luminal乳腺癌细胞HER2+乳腺癌细胞、三阴性乳腺癌细胞 | 、信号转导与转录激活因子1/核因子κB | 2018 |
| LIANG等[110] | 药物-聚合物混合超分子纳米前药 | | caspase-3/GSDME | 2022 |
), ArticleFig(id=1246459860565517171, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847105995215, language=CN, label=表4, caption=
靶向药物激活乳腺癌细胞焦亡的作用机制
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| 研究 | 靶向药物 | 细胞模型 | 作用机制 | 发表年份 |
|---|
| FAN等[108] | 靶向性纳米脂质体LipoDDP-DCT | 4T1乳腺癌细胞 | caspase-3/GSDME | 2019 |
| ELION等[109] | 视黄酸诱导基因Ⅰ | Luminal乳腺癌细胞HER2+乳腺癌细胞、三阴性乳腺癌细胞 | 、信号转导与转录激活因子1/核因子κB | 2018 |
| LIANG等[110] | 药物-聚合物混合超分子纳米前药 | | caspase-3/GSDME | 2022 |
), ArticleFig(id=1246459860691346305, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847105995215, language=EN, label=null, caption=null, figureFileSmall=null, figureFileBig=null, tableContent=
| 药物 | 细胞系 | 焦亡途径 | 参考文献 | 发表年份 |
|---|
| 四砷六醇盐 | MDA-MB-231乳腺癌细胞 | caspase-3/GSDME | [111] | 2021 |
| 二十二碳六烯酸 | MDA-MB-231乳腺癌细胞、4T1乳腺癌细胞 | caspase-1/GSDMD | [112] | 2018 |
| 二甲双胍 | MCF-7乳腺癌细胞 | caspase-3/GSDME | [113] | 2020 |
| 尼日利亚菌素 | MDA-MB-231乳腺癌细胞、4T1乳腺癌细胞 | caspase-1/GSDMD | [102] | 2023 |
| 3-酰基异喹啉-1(2H)-酮 | MDA-MB-231乳腺癌细胞、MCF-7乳腺癌细胞 | caspase-3/GSDME | [114] | 2023 |
), ArticleFig(id=1246459860796203915, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847105995215, language=CN, label=表5, caption=
化合物激活乳腺癌细胞焦亡的作用机制
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| 药物 | 细胞系 | 焦亡途径 | 参考文献 | 发表年份 |
|---|
| 四砷六醇盐 | MDA-MB-231乳腺癌细胞 | caspase-3/GSDME | [111] | 2021 |
| 二十二碳六烯酸 | MDA-MB-231乳腺癌细胞、4T1乳腺癌细胞 | caspase-1/GSDMD | [112] | 2018 |
| 二甲双胍 | MCF-7乳腺癌细胞 | caspase-3/GSDME | [113] | 2020 |
| 尼日利亚菌素 | MDA-MB-231乳腺癌细胞、4T1乳腺癌细胞 | caspase-1/GSDMD | [102] | 2023 |
| 3-酰基异喹啉-1(2H)-酮 | MDA-MB-231乳腺癌细胞、MCF-7乳腺癌细胞 | caspase-3/GSDME | [114] | 2023 |
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