A. Mackiewicz, Partycja Czerwinska, M. Ruciński, K. Gryska, Iga Grządzielewska, A. Jaworska, J. Mackiewicz
{"title":"A144:在接受同种异体黑色素瘤疫苗治疗的患者中,维持黑色素瘤细胞休眠状态的外周t细胞的转录组学特征","authors":"A. Mackiewicz, Partycja Czerwinska, M. Ruciński, K. Gryska, Iga Grządzielewska, A. Jaworska, J. Mackiewicz","doi":"10.1158/2326-6074.CRICIMTEATIAACR18-A144","DOIUrl":null,"url":null,"abstract":"Melanoma (MM) cells leave primary tumors early and evolve at different sites in parallel. However, timing in human MM is unknown. Lymphatic dissemination is fast shortly after the dermal invasion, but metastases may occur late. Such delay in metastases formation suggests possible host defense mechanism, or particular nature of non-actively proliferative (dormant) MM stem cell (MSC) population. T lymphocytes may also induce tumor dormancy. The proposed mechanism involves a cytostatic mode of tumor silencing resulting from the suppression of both neoplastic cell proliferation and cell cycle progression. Significant progress in the development of novel advanced MM therapies was made. However, not all patients benefit from the therapy, developing late metastases decades after treatment ends. Moreover, using the immunotherapy-based model of MM dormancy in mouse, vaccination against MM prevented tumor growth but failed to prevent tumor cell dissemination or elimination of all MM cells. We have developed therapeutic gene modified allogenic MM vaccine (AGI-101H) that has been tested since 1997 and resulted in long-term survival of a substantial fraction of patients. Genetic modification of vaccine cells to express designer cytokine cDNA encoding Hyper-IL-6 protein (comprising of IL-6 linked with a soluble IL-6 receptor) has altered AGI-101H cells phenotype towards MSC-like with high activity of aldehyde dehydrogenase isoenzyme (ALDH1A1). We have found significant induction of anti-MSCs response in immunized patients by a generation of functionally active cytotoxic CD8+T-cells and antibodies specific for ALDH1A1 in circulation. However, the AGI-101H mode of action is complex: besides inducing a direct anticancer response to MSC population, long-term vaccination may induce MM dormancy through T-cell mediated immunity. The above hypothesis is based on clinical observations of AHI-101H treated patient who was progression-free for many years, but injury induced metastases formation in the bruise. This patient developed skin MM in 1999. In 2002 in transit metastases appeared (resected). The patient was enrolled into AGI-101H program. In 2003 metastases in liver (resected), 2004 metastasis in ovary (resected). 11 years (2004-2015) no progression. In Nov. 2015 she had bicycle accident, trauma, and MM metastasis presenting with a bruise (resected). The treatment continues with no progression. The aim was to determine the molecular mechanisms of peripheral T-cell-mediated induction of MM dormancy induced by vaccination. Therefore, T-cell mRNA expression profiling of long-term surviving patients was carried out. PBMCs were isolated from treated patients (18), untreated MM patients (13) and healthy controls (8). Untouched T-cells were separated by magnetic beads and total RNA isolated. The transcriptome profiling was performed with Affymetrix HG U219 microarray (19,285 markers). Differential gene expression (DGE) analysis between all groups was conducted and validated with RT-qPCR and FACS. The transcriptomic results were further analyzed with Gene Set Enrichment Analysis (GSEA) tool. DGE analyses comparing AGI-101H vaccinated (AV) and nonimmunized (C) patients revealed 538 differentially expressed genes (DEGs), with 373 downregulated and 165 upregulated in AV (adj p 1) is now being validated with RT-qPCR and FACS. Also, GSEA analysis revealed significant enrichment of “TNFa_signaling_via_NFkB”, “TGFb_signaling” and “G2/M_checkpoint” hallmark processes (MSigDB Hallmark gene sets) in AGI-101H vaccinated patients, that indicates considerable activation of antitumor response and prevention of conversion of MM dormanT-cells into proliferative metastases. Transcriptome profiling of peripheral T-cells in long-surviving MM patients immunized with AGI-101H suggests activation of the molecular mechanism that sustains MM cells in the non-actively proliferative dormant state. Citation Format: Andrzej A. Mackiewicz, Partycja Czerwinska, Marcin Rucinski, Katarzyna Gryska, Iga Grzadzielewska, Anna Jaworska, Jacek Mackiewicz. The transcriptomic profile of peripheral T-cells that maintain dormant state of melanoma cells in patients treated with allogenic melanoma vaccine [abstract]. In: Proceedings of the Fourth CRI-CIMT-EATI-AACR International Cancer Immunotherapy Conference: Translating Science into Survival; Sept 30-Oct 3, 2018; New York, NY. Philadelphia (PA): AACR; Cancer Immunol Res 2019;7(2 Suppl):Abstract nr A144.","PeriodicalId":18169,"journal":{"name":"Maintenance of Immune Balance: Effects of Targeted and Immune Therapies","volume":"18 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2019-02-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Abstract A144: The transcriptomic profile of peripheral T-cells that maintain dormant state of melanoma cells in patients treated with allogenic melanoma vaccine\",\"authors\":\"A. Mackiewicz, Partycja Czerwinska, M. Ruciński, K. Gryska, Iga Grządzielewska, A. Jaworska, J. Mackiewicz\",\"doi\":\"10.1158/2326-6074.CRICIMTEATIAACR18-A144\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Melanoma (MM) cells leave primary tumors early and evolve at different sites in parallel. However, timing in human MM is unknown. Lymphatic dissemination is fast shortly after the dermal invasion, but metastases may occur late. Such delay in metastases formation suggests possible host defense mechanism, or particular nature of non-actively proliferative (dormant) MM stem cell (MSC) population. T lymphocytes may also induce tumor dormancy. The proposed mechanism involves a cytostatic mode of tumor silencing resulting from the suppression of both neoplastic cell proliferation and cell cycle progression. Significant progress in the development of novel advanced MM therapies was made. However, not all patients benefit from the therapy, developing late metastases decades after treatment ends. Moreover, using the immunotherapy-based model of MM dormancy in mouse, vaccination against MM prevented tumor growth but failed to prevent tumor cell dissemination or elimination of all MM cells. We have developed therapeutic gene modified allogenic MM vaccine (AGI-101H) that has been tested since 1997 and resulted in long-term survival of a substantial fraction of patients. Genetic modification of vaccine cells to express designer cytokine cDNA encoding Hyper-IL-6 protein (comprising of IL-6 linked with a soluble IL-6 receptor) has altered AGI-101H cells phenotype towards MSC-like with high activity of aldehyde dehydrogenase isoenzyme (ALDH1A1). We have found significant induction of anti-MSCs response in immunized patients by a generation of functionally active cytotoxic CD8+T-cells and antibodies specific for ALDH1A1 in circulation. However, the AGI-101H mode of action is complex: besides inducing a direct anticancer response to MSC population, long-term vaccination may induce MM dormancy through T-cell mediated immunity. The above hypothesis is based on clinical observations of AHI-101H treated patient who was progression-free for many years, but injury induced metastases formation in the bruise. This patient developed skin MM in 1999. In 2002 in transit metastases appeared (resected). The patient was enrolled into AGI-101H program. In 2003 metastases in liver (resected), 2004 metastasis in ovary (resected). 11 years (2004-2015) no progression. In Nov. 2015 she had bicycle accident, trauma, and MM metastasis presenting with a bruise (resected). The treatment continues with no progression. The aim was to determine the molecular mechanisms of peripheral T-cell-mediated induction of MM dormancy induced by vaccination. Therefore, T-cell mRNA expression profiling of long-term surviving patients was carried out. PBMCs were isolated from treated patients (18), untreated MM patients (13) and healthy controls (8). Untouched T-cells were separated by magnetic beads and total RNA isolated. The transcriptome profiling was performed with Affymetrix HG U219 microarray (19,285 markers). Differential gene expression (DGE) analysis between all groups was conducted and validated with RT-qPCR and FACS. The transcriptomic results were further analyzed with Gene Set Enrichment Analysis (GSEA) tool. DGE analyses comparing AGI-101H vaccinated (AV) and nonimmunized (C) patients revealed 538 differentially expressed genes (DEGs), with 373 downregulated and 165 upregulated in AV (adj p 1) is now being validated with RT-qPCR and FACS. Also, GSEA analysis revealed significant enrichment of “TNFa_signaling_via_NFkB”, “TGFb_signaling” and “G2/M_checkpoint” hallmark processes (MSigDB Hallmark gene sets) in AGI-101H vaccinated patients, that indicates considerable activation of antitumor response and prevention of conversion of MM dormanT-cells into proliferative metastases. Transcriptome profiling of peripheral T-cells in long-surviving MM patients immunized with AGI-101H suggests activation of the molecular mechanism that sustains MM cells in the non-actively proliferative dormant state. Citation Format: Andrzej A. Mackiewicz, Partycja Czerwinska, Marcin Rucinski, Katarzyna Gryska, Iga Grzadzielewska, Anna Jaworska, Jacek Mackiewicz. The transcriptomic profile of peripheral T-cells that maintain dormant state of melanoma cells in patients treated with allogenic melanoma vaccine [abstract]. In: Proceedings of the Fourth CRI-CIMT-EATI-AACR International Cancer Immunotherapy Conference: Translating Science into Survival; Sept 30-Oct 3, 2018; New York, NY. 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引用次数: 0
摘要
黑色素瘤(MM)细胞早期离开原发肿瘤,并在不同部位平行进化。然而,人类MM的发病时间尚不清楚。淋巴传播在皮肤浸润后很快,但转移可能发生较晚。这种转移形成的延迟提示可能的宿主防御机制,或非活跃增殖(休眠)MM干细胞(MSC)群体的特殊性质。T淋巴细胞也可诱导肿瘤休眠。提出的机制涉及抑制肿瘤细胞增殖和细胞周期进展导致的肿瘤沉默的细胞抑制模式。新型高级MM治疗方法的开发取得了重大进展。然而,并不是所有的患者都能从治疗中获益,在治疗结束后几十年发生晚期转移。此外,在基于免疫治疗的小鼠MM休眠模型中,接种MM疫苗可以阻止肿瘤生长,但不能阻止肿瘤细胞的播散或消除所有MM细胞。我们开发了治疗性基因修饰的同种异体MM疫苗(AGI-101H),自1997年以来一直进行测试,并导致相当一部分患者长期生存。对疫苗细胞进行基因修饰以表达编码Hyper-IL-6蛋白(包括与可溶性IL-6受体连接的IL-6)的设计细胞因子cDNA,使AGI-101H细胞表型改变为具有高活性的醛脱氢酶同工酶(ALDH1A1)的msc样细胞。我们发现,在免疫患者中,通过循环中一代功能活跃的细胞毒性CD8+ t细胞和特异性ALDH1A1抗体,可以显著诱导抗mscs反应。然而,AGI-101H的作用方式是复杂的:除了诱导对间充质干细胞群体的直接抗癌反应外,长期接种疫苗可能通过t细胞介导的免疫诱导MM休眠。上述假设是基于AHI-101H治疗患者的临床观察,该患者多年无进展,但损伤引起的瘀伤转移形成。该患者于1999年出现皮肤MM。2002年出现转移瘤(切除)。患者被纳入AGI-101H项目。2003年肝脏转移(切除),2004年卵巢转移(切除)。11年(2004-2015)无进展。2015年11月,她发生自行车事故、外伤和MM转移,并伴有瘀伤(已切除)。治疗继续,无进展。目的是确定外周t细胞介导的疫苗诱导MM休眠的分子机制。因此,对长期存活患者进行t细胞mRNA表达谱分析。从接受治疗的患者(18例)、未接受治疗的MM患者(13例)和健康对照(8例)中分离PBMCs。用磁珠分离未受影响的t细胞并分离总RNA。转录组分析使用Affymetrix HG U219微阵列(19,285个标记)进行。采用RT-qPCR和FACS对各组进行差异基因表达(DGE)分析。利用基因集富集分析(GSEA)工具进一步分析转录组学结果。DGE分析比较了接种AGI-101H疫苗(AV)和未接种AGI-101H疫苗(C)的患者,发现538个差异表达基因(DEGs),其中373个在AV (adj p1)中下调,165个在AV (adj p1)中上调,目前正在用RT-qPCR和FACS验证。此外,GSEA分析显示,在接种AGI-101H的患者中,“TNFa_signaling_via_NFkB”,“TGFb_signaling”和“G2/M_checkpoint”标志过程(MSigDB标志基因集)显著富集,这表明相当大的抗肿瘤反应激活和预防MM休眠细胞转化为增殖转移。免疫AGI-101H的长期存活MM患者的外周t细胞转录组分析表明,激活了维持MM细胞处于非主动增殖休眠状态的分子机制。引文格式:Andrzej A. Mackiewicz, Partycja Czerwinska, Marcin Rucinski, Katarzyna Gryska, Iga Grzadzielewska, Anna Jaworska, Jacek Mackiewicz。在接受同种异体黑色素瘤疫苗治疗的患者中,维持黑色素瘤细胞休眠状态的外周t细胞的转录组学特征[摘要]。第四届CRI-CIMT-EATI-AACR国际癌症免疫治疗会议:将科学转化为生存;2018年9月30日至10月3日;纽约,纽约。费城(PA): AACR;癌症免疫,2019;7(2增刊):摘要nr A144。
Abstract A144: The transcriptomic profile of peripheral T-cells that maintain dormant state of melanoma cells in patients treated with allogenic melanoma vaccine
Melanoma (MM) cells leave primary tumors early and evolve at different sites in parallel. However, timing in human MM is unknown. Lymphatic dissemination is fast shortly after the dermal invasion, but metastases may occur late. Such delay in metastases formation suggests possible host defense mechanism, or particular nature of non-actively proliferative (dormant) MM stem cell (MSC) population. T lymphocytes may also induce tumor dormancy. The proposed mechanism involves a cytostatic mode of tumor silencing resulting from the suppression of both neoplastic cell proliferation and cell cycle progression. Significant progress in the development of novel advanced MM therapies was made. However, not all patients benefit from the therapy, developing late metastases decades after treatment ends. Moreover, using the immunotherapy-based model of MM dormancy in mouse, vaccination against MM prevented tumor growth but failed to prevent tumor cell dissemination or elimination of all MM cells. We have developed therapeutic gene modified allogenic MM vaccine (AGI-101H) that has been tested since 1997 and resulted in long-term survival of a substantial fraction of patients. Genetic modification of vaccine cells to express designer cytokine cDNA encoding Hyper-IL-6 protein (comprising of IL-6 linked with a soluble IL-6 receptor) has altered AGI-101H cells phenotype towards MSC-like with high activity of aldehyde dehydrogenase isoenzyme (ALDH1A1). We have found significant induction of anti-MSCs response in immunized patients by a generation of functionally active cytotoxic CD8+T-cells and antibodies specific for ALDH1A1 in circulation. However, the AGI-101H mode of action is complex: besides inducing a direct anticancer response to MSC population, long-term vaccination may induce MM dormancy through T-cell mediated immunity. The above hypothesis is based on clinical observations of AHI-101H treated patient who was progression-free for many years, but injury induced metastases formation in the bruise. This patient developed skin MM in 1999. In 2002 in transit metastases appeared (resected). The patient was enrolled into AGI-101H program. In 2003 metastases in liver (resected), 2004 metastasis in ovary (resected). 11 years (2004-2015) no progression. In Nov. 2015 she had bicycle accident, trauma, and MM metastasis presenting with a bruise (resected). The treatment continues with no progression. The aim was to determine the molecular mechanisms of peripheral T-cell-mediated induction of MM dormancy induced by vaccination. Therefore, T-cell mRNA expression profiling of long-term surviving patients was carried out. PBMCs were isolated from treated patients (18), untreated MM patients (13) and healthy controls (8). Untouched T-cells were separated by magnetic beads and total RNA isolated. The transcriptome profiling was performed with Affymetrix HG U219 microarray (19,285 markers). Differential gene expression (DGE) analysis between all groups was conducted and validated with RT-qPCR and FACS. The transcriptomic results were further analyzed with Gene Set Enrichment Analysis (GSEA) tool. DGE analyses comparing AGI-101H vaccinated (AV) and nonimmunized (C) patients revealed 538 differentially expressed genes (DEGs), with 373 downregulated and 165 upregulated in AV (adj p 1) is now being validated with RT-qPCR and FACS. Also, GSEA analysis revealed significant enrichment of “TNFa_signaling_via_NFkB”, “TGFb_signaling” and “G2/M_checkpoint” hallmark processes (MSigDB Hallmark gene sets) in AGI-101H vaccinated patients, that indicates considerable activation of antitumor response and prevention of conversion of MM dormanT-cells into proliferative metastases. Transcriptome profiling of peripheral T-cells in long-surviving MM patients immunized with AGI-101H suggests activation of the molecular mechanism that sustains MM cells in the non-actively proliferative dormant state. Citation Format: Andrzej A. Mackiewicz, Partycja Czerwinska, Marcin Rucinski, Katarzyna Gryska, Iga Grzadzielewska, Anna Jaworska, Jacek Mackiewicz. The transcriptomic profile of peripheral T-cells that maintain dormant state of melanoma cells in patients treated with allogenic melanoma vaccine [abstract]. In: Proceedings of the Fourth CRI-CIMT-EATI-AACR International Cancer Immunotherapy Conference: Translating Science into Survival; Sept 30-Oct 3, 2018; New York, NY. Philadelphia (PA): AACR; Cancer Immunol Res 2019;7(2 Suppl):Abstract nr A144.