J. Edwards, G. Baillie, J. Quinn, R. Monreno, Sourav Banerjee, N. Tomkinson, S. Mackay, L. D. L. Vega
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Methods Immunohistochemistry was employed to investigate if nuclear expression of DYRK2 was associated with clinical outcome measures in a cohort of 715 patients. Expression was determined using the weighted histoscore method. Antibody specificity was confirmed in paraffin embedded cell pellets +/- DYRK2 silencing. Cell counts in parental and CRISPR-mediated DYRK2 knocked-out MDA-MB-468 and MDA-MB-231 cells (ER, PR, HER2, AR negative) were measured using Alamar Blue; NSGTMmice (n=8) were injected subcutaneously with MDA-MDB-231 with or without DYRK2 depletion to assess tumour growth in vivo. Results In a cohort of 715 patients, median follow-up was 160 months with 155 breast cancer deaths and 135 deaths due to other causes. The majority of patients were over 50 years of age (71%), had ductal carcinoma (88%), tumours 145 were classified as high expression. In the full cohort (p=0.087) and ER negative (p=0.066) cohort DYRK2 was not associated with cancer specific survival. However in TN disease high DYRK2 expression was associated with cancer specific survival (p=0.012, mean survival 145 months versus 107 months). This was potentiated in patients with ER, PR, HER2, AR negative disease (p=0.005, mean survival 166 months versus 100 months) and independent in multivariate analysis with age, histological tumour type, tumour size tumour grad, nodal status, ki67 index, chemotherapy, radiotherapy and recurrence (p=0.13, HR 3.920). Following this observation, patients with ER, AR negative disease were investigated and again high DYRK2 expression was associated with cancer specific survival (p=0.0003, mean survival 163 months versus 86 months) and was independent when combined in multivariate analysis (p=0.001, HR 4.154). To investigate if DYRK2 was a potential target in TN breast cancer, the effect of silencing DYRK2 was investigated. CRISPR-mediated DYRK2 depletion impeded cell proliferation in TN cell-lines and markedly reduced tumour burden in mouse MDA-MDB-231 xenografts (p Conclusions Our studies indicate that DYRK2 is indeed a potential therapeutic target for patients with TN breast cancer or ER, AR negative breast cancer. Citation Format: Edwards J, Baillie G, Quinn J, Monreno R, Banerjee S, Tomkinson N, MacKay S, De La Vega L. DYRK2 is a novel therapeutic target in ER negative breast cancer [abstract]. In: Proceedings of the 2018 San Antonio Breast Cancer Symposium; 2018 Dec 4-8; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2019;79(4 Suppl):Abstract nr P3-10-10.","PeriodicalId":20307,"journal":{"name":"Poster Session Abstracts","volume":"55 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2019-02-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Abstract P3-10-10: DYRK2 is a novel therapeutic target in ER negative breast cancer\",\"authors\":\"J. Edwards, G. Baillie, J. Quinn, R. Monreno, Sourav Banerjee, N. Tomkinson, S. Mackay, L. D. L. Vega\",\"doi\":\"10.1158/1538-7445.SABCS18-P3-10-10\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Background Dual specificity tyrosine-phosphorylation-regulated kinase 2 (DYRK2) belongs to a family of CMGC kinases that function as modulators of different downstream pathways that allow cells to cope with hypoxia, DNA damage and various stress signals. Additionally, DYRK2 has been implicated in various human cancers with both pro- and anti-tumour roles, which are probably cancer type- and cell type-dependent. Furthermore, studies show that DYRK2 is involved in epithelial-mesenchymal transition, hence suggesting a role in tumour metastasis. The current study investigates the prognostic role of DYRK2 in breast cancer and investigates its potential as a novel therapeutic target. Methods Immunohistochemistry was employed to investigate if nuclear expression of DYRK2 was associated with clinical outcome measures in a cohort of 715 patients. Expression was determined using the weighted histoscore method. Antibody specificity was confirmed in paraffin embedded cell pellets +/- DYRK2 silencing. Cell counts in parental and CRISPR-mediated DYRK2 knocked-out MDA-MB-468 and MDA-MB-231 cells (ER, PR, HER2, AR negative) were measured using Alamar Blue; NSGTMmice (n=8) were injected subcutaneously with MDA-MDB-231 with or without DYRK2 depletion to assess tumour growth in vivo. Results In a cohort of 715 patients, median follow-up was 160 months with 155 breast cancer deaths and 135 deaths due to other causes. The majority of patients were over 50 years of age (71%), had ductal carcinoma (88%), tumours 145 were classified as high expression. In the full cohort (p=0.087) and ER negative (p=0.066) cohort DYRK2 was not associated with cancer specific survival. However in TN disease high DYRK2 expression was associated with cancer specific survival (p=0.012, mean survival 145 months versus 107 months). This was potentiated in patients with ER, PR, HER2, AR negative disease (p=0.005, mean survival 166 months versus 100 months) and independent in multivariate analysis with age, histological tumour type, tumour size tumour grad, nodal status, ki67 index, chemotherapy, radiotherapy and recurrence (p=0.13, HR 3.920). Following this observation, patients with ER, AR negative disease were investigated and again high DYRK2 expression was associated with cancer specific survival (p=0.0003, mean survival 163 months versus 86 months) and was independent when combined in multivariate analysis (p=0.001, HR 4.154). To investigate if DYRK2 was a potential target in TN breast cancer, the effect of silencing DYRK2 was investigated. CRISPR-mediated DYRK2 depletion impeded cell proliferation in TN cell-lines and markedly reduced tumour burden in mouse MDA-MDB-231 xenografts (p Conclusions Our studies indicate that DYRK2 is indeed a potential therapeutic target for patients with TN breast cancer or ER, AR negative breast cancer. Citation Format: Edwards J, Baillie G, Quinn J, Monreno R, Banerjee S, Tomkinson N, MacKay S, De La Vega L. DYRK2 is a novel therapeutic target in ER negative breast cancer [abstract]. In: Proceedings of the 2018 San Antonio Breast Cancer Symposium; 2018 Dec 4-8; San Antonio, TX. 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引用次数: 0
摘要
双特异性酪氨酸磷酸化调节激酶2 (DYRK2)属于CMGC激酶家族,作为不同下游途径的调节剂,使细胞能够应对缺氧、DNA损伤和各种应激信号。此外,DYRK2在多种人类癌症中具有促肿瘤和抗肿瘤的作用,这可能是癌症类型和细胞类型依赖的。此外,研究表明DYRK2参与上皮-间质转化,因此提示在肿瘤转移中起作用。目前的研究调查了DYRK2在乳腺癌中的预后作用,并研究了它作为一种新的治疗靶点的潜力。方法采用免疫组织化学方法研究DYRK2的核表达是否与715例患者的临床预后指标相关。采用加权直方图评分法测定表达。在石蜡包埋细胞颗粒+/- DYRK2沉默中证实抗体特异性。使用Alamar Blue检测亲代和crispr介导的DYRK2敲除的MDA-MB-468和MDA-MB-231细胞(ER、PR、HER2、AR阴性)的细胞计数;对NSGTMmice (n=8)皮下注射MDA-MDB-231,同时或不同时去除DYRK2,以评估体内肿瘤的生长情况。结果在715例患者的队列中,中位随访时间为160个月,其中155例乳腺癌死亡,135例因其他原因死亡。大多数患者年龄在50岁以上(71%),有导管癌(88%),肿瘤145个被分类为高表达。在完全队列(p=0.087)和ER阴性队列(p=0.066)中,DYRK2与癌症特异性生存无关。然而,在TN疾病中,DYRK2高表达与癌症特异性生存相关(p=0.012,平均生存145个月对107个月)。在ER、PR、HER2、AR阴性疾病患者中(p=0.005,平均生存期166个月对100个月),且与年龄、组织学肿瘤类型、肿瘤大小、肿瘤等级、淋巴结状态、ki67指数、化疗、放疗和复发无关(p=0.13, HR 3.920)。在此观察之后,对ER、AR阴性疾病患者进行了调查,再次发现高DYRK2表达与癌症特异性生存相关(p=0.0003,平均生存163个月对86个月),并且在多因素分析中是独立的(p=0.001, HR 4.154)。为了研究DYRK2是否是TN乳腺癌的潜在靶点,我们研究了沉默DYRK2的效果。crispr介导的DYRK2缺失抑制了TN细胞系的细胞增殖,并显著降低了小鼠MDA-MDB-231异种移植物的肿瘤负担(p结论我们的研究表明,DYRK2确实是TN乳腺癌或ER, AR阴性乳腺癌患者的潜在治疗靶点。引用格式:Edwards J, Baillie G, Quinn J, Monreno R, Banerjee S, Tomkinson N, MacKay S, De La Vega L. DYRK2是雌激素受体阴性乳腺癌新的治疗靶点[摘要]。2018年圣安东尼奥乳腺癌研讨会论文集;2018年12月4-8日;费城(PA): AACR;癌症杂志,2019;79(4增刊):P3-10-10。
Abstract P3-10-10: DYRK2 is a novel therapeutic target in ER negative breast cancer
Background Dual specificity tyrosine-phosphorylation-regulated kinase 2 (DYRK2) belongs to a family of CMGC kinases that function as modulators of different downstream pathways that allow cells to cope with hypoxia, DNA damage and various stress signals. Additionally, DYRK2 has been implicated in various human cancers with both pro- and anti-tumour roles, which are probably cancer type- and cell type-dependent. Furthermore, studies show that DYRK2 is involved in epithelial-mesenchymal transition, hence suggesting a role in tumour metastasis. The current study investigates the prognostic role of DYRK2 in breast cancer and investigates its potential as a novel therapeutic target. Methods Immunohistochemistry was employed to investigate if nuclear expression of DYRK2 was associated with clinical outcome measures in a cohort of 715 patients. Expression was determined using the weighted histoscore method. Antibody specificity was confirmed in paraffin embedded cell pellets +/- DYRK2 silencing. Cell counts in parental and CRISPR-mediated DYRK2 knocked-out MDA-MB-468 and MDA-MB-231 cells (ER, PR, HER2, AR negative) were measured using Alamar Blue; NSGTMmice (n=8) were injected subcutaneously with MDA-MDB-231 with or without DYRK2 depletion to assess tumour growth in vivo. Results In a cohort of 715 patients, median follow-up was 160 months with 155 breast cancer deaths and 135 deaths due to other causes. The majority of patients were over 50 years of age (71%), had ductal carcinoma (88%), tumours 145 were classified as high expression. In the full cohort (p=0.087) and ER negative (p=0.066) cohort DYRK2 was not associated with cancer specific survival. However in TN disease high DYRK2 expression was associated with cancer specific survival (p=0.012, mean survival 145 months versus 107 months). This was potentiated in patients with ER, PR, HER2, AR negative disease (p=0.005, mean survival 166 months versus 100 months) and independent in multivariate analysis with age, histological tumour type, tumour size tumour grad, nodal status, ki67 index, chemotherapy, radiotherapy and recurrence (p=0.13, HR 3.920). Following this observation, patients with ER, AR negative disease were investigated and again high DYRK2 expression was associated with cancer specific survival (p=0.0003, mean survival 163 months versus 86 months) and was independent when combined in multivariate analysis (p=0.001, HR 4.154). To investigate if DYRK2 was a potential target in TN breast cancer, the effect of silencing DYRK2 was investigated. CRISPR-mediated DYRK2 depletion impeded cell proliferation in TN cell-lines and markedly reduced tumour burden in mouse MDA-MDB-231 xenografts (p Conclusions Our studies indicate that DYRK2 is indeed a potential therapeutic target for patients with TN breast cancer or ER, AR negative breast cancer. Citation Format: Edwards J, Baillie G, Quinn J, Monreno R, Banerjee S, Tomkinson N, MacKay S, De La Vega L. DYRK2 is a novel therapeutic target in ER negative breast cancer [abstract]. In: Proceedings of the 2018 San Antonio Breast Cancer Symposium; 2018 Dec 4-8; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2019;79(4 Suppl):Abstract nr P3-10-10.