Tulasigeri M Totiger, Sana Chaudhry, J. Afaghani, Justin Taylor
{"title":"摘要:抑制核输出因子XPO1和抗凋亡因子BCL2在XPO1和SF3B1突变血液学恶性肿瘤中具有协同作用","authors":"Tulasigeri M Totiger, Sana Chaudhry, J. Afaghani, Justin Taylor","doi":"10.1158/1538-7445.AM2021-1341","DOIUrl":null,"url":null,"abstract":"Mutations in the nuclear exporter XPO1 and the spliceosomal protein SF3B1 are bona fide cancer drivers and occur across a spectrum of hematologic cancers, specifically in chronic lymphocytic leukemia (CLL), myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML). Selinexor is a potent, XPO1 inhibitor that was recently approved in diffuse large B-cell lymphoma and is being tested in MDS and AML. The BCL2 inhibitor, venetoclax, is approved for use in CLL and has also shown to be effective in myeloid malignancies. XPO1 inhibition exerts its antineoplastic effects by blocking key tumorigenic pathways, such as NFκB, and decreasing the anti-apoptotic protein MCL1. We therefore hypothesized that combining selinexor and venetoclax would have potential synergy and could be used to target hematologic malignancies bearing XPO1 and SF3B1 mutations. We first determined whether XPO1 and SF3B1 mutant cell lines showed differential response to either selinexor or venetoclax monotherapy. Five lymphoma cell lines; 3 diffuse large B-cell lymphoma (SU-DHL-6, SU-DHL-16, FARAGE) and 2 classical Hodgkin lymphoma (L428 and SUP-HD1), were used based on the presence or absence of XPO1 mutations. SUDHL-16 and SUP-HD1 are heterozygous for the XPO1 E571K hotspot mutation while SUDHL-6, FARAGE and SUP-HD1 are wildtype. These cell lines were used to assess sensitivity to Selinexor or Venetoclax using the CellTiter Glo assay. The XPO1 mutant cells showed increased sensitivity to selinexor (IC50 = 16-35nM vs 41-231nM). Additionally, the XPO1 mutant cell lines showed increased sensitivity to single-agent venetoclax (XPO1 mutant IC50 = 2-13nM vs 5-2853nM). SF3B1 K666N mutant K562 and Nalm-6 cells also showed increased sensitivity to selinexor compared to wildtype cells (IC50 =116-190nM vs 212-1405nM), as well as to venetoclax as compared to wildtype (IC50 =149nM-1.28 μM vs 1.26-1.4μM). Next, we tested the synergy of the combination of these drugs in the XPO1 and SF3B1 mutant cell lines. Increasing concentrations of the individual drugs were applied to each individual cell line in a 6x6 matrix and the Bliss Independence model was used to calculate synergy of the combination. As hypothesized, the combination of Selinexor and venetoclax showed synergy in both the XPO1 and SF3B1 mutant cell lines (synergy scores 4.5-16.5). Western blots of treated wildtype versus mutant cells showed decreased levels of p65 and MCL1 with selinexor (but not venetoclax) that was enhanced with combination therapy, specifically in mutant cell lines. In conclusion, inhibiting the nuclear exporter XPO1 and the anti-apoptotic factor BCL2 is synergistic in both XPO1 and SF3B1 mutant cells. This combination is highly promising as an all oral regimen for hematologic malignancies bearing these mutations. Further, preclinical testing in in vivo using XPO1 and SF3B1 mutant and wildtype mice is ongoing. Citation Format: Tulasigeri M. Totiger, Sana Chaudhry, Jumana Afaghani, Justin Taylor. Inhibiting the nuclear exporter XPO1 and the antiapoptotic factor BCL2 is synergistic in XPO1 and SF3B1 mutant hematologic malignancies [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 1341.","PeriodicalId":12258,"journal":{"name":"Experimental and Molecular Therapeutics","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2021-07-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Abstract 1341: Inhibiting the nuclear exporter XPO1 and the antiapoptotic factor BCL2 is synergistic in XPO1 and SF3B1 mutant hematologic malignancies\",\"authors\":\"Tulasigeri M Totiger, Sana Chaudhry, J. Afaghani, Justin Taylor\",\"doi\":\"10.1158/1538-7445.AM2021-1341\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Mutations in the nuclear exporter XPO1 and the spliceosomal protein SF3B1 are bona fide cancer drivers and occur across a spectrum of hematologic cancers, specifically in chronic lymphocytic leukemia (CLL), myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML). Selinexor is a potent, XPO1 inhibitor that was recently approved in diffuse large B-cell lymphoma and is being tested in MDS and AML. The BCL2 inhibitor, venetoclax, is approved for use in CLL and has also shown to be effective in myeloid malignancies. XPO1 inhibition exerts its antineoplastic effects by blocking key tumorigenic pathways, such as NFκB, and decreasing the anti-apoptotic protein MCL1. We therefore hypothesized that combining selinexor and venetoclax would have potential synergy and could be used to target hematologic malignancies bearing XPO1 and SF3B1 mutations. We first determined whether XPO1 and SF3B1 mutant cell lines showed differential response to either selinexor or venetoclax monotherapy. Five lymphoma cell lines; 3 diffuse large B-cell lymphoma (SU-DHL-6, SU-DHL-16, FARAGE) and 2 classical Hodgkin lymphoma (L428 and SUP-HD1), were used based on the presence or absence of XPO1 mutations. SUDHL-16 and SUP-HD1 are heterozygous for the XPO1 E571K hotspot mutation while SUDHL-6, FARAGE and SUP-HD1 are wildtype. These cell lines were used to assess sensitivity to Selinexor or Venetoclax using the CellTiter Glo assay. The XPO1 mutant cells showed increased sensitivity to selinexor (IC50 = 16-35nM vs 41-231nM). Additionally, the XPO1 mutant cell lines showed increased sensitivity to single-agent venetoclax (XPO1 mutant IC50 = 2-13nM vs 5-2853nM). SF3B1 K666N mutant K562 and Nalm-6 cells also showed increased sensitivity to selinexor compared to wildtype cells (IC50 =116-190nM vs 212-1405nM), as well as to venetoclax as compared to wildtype (IC50 =149nM-1.28 μM vs 1.26-1.4μM). Next, we tested the synergy of the combination of these drugs in the XPO1 and SF3B1 mutant cell lines. Increasing concentrations of the individual drugs were applied to each individual cell line in a 6x6 matrix and the Bliss Independence model was used to calculate synergy of the combination. As hypothesized, the combination of Selinexor and venetoclax showed synergy in both the XPO1 and SF3B1 mutant cell lines (synergy scores 4.5-16.5). Western blots of treated wildtype versus mutant cells showed decreased levels of p65 and MCL1 with selinexor (but not venetoclax) that was enhanced with combination therapy, specifically in mutant cell lines. In conclusion, inhibiting the nuclear exporter XPO1 and the anti-apoptotic factor BCL2 is synergistic in both XPO1 and SF3B1 mutant cells. This combination is highly promising as an all oral regimen for hematologic malignancies bearing these mutations. Further, preclinical testing in in vivo using XPO1 and SF3B1 mutant and wildtype mice is ongoing. Citation Format: Tulasigeri M. Totiger, Sana Chaudhry, Jumana Afaghani, Justin Taylor. Inhibiting the nuclear exporter XPO1 and the antiapoptotic factor BCL2 is synergistic in XPO1 and SF3B1 mutant hematologic malignancies [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. 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引用次数: 0
摘要
核输出基因XPO1和剪接体蛋白SF3B1的突变是真正的癌症驱动因素,发生在血液学癌症的谱中,特别是在慢性淋巴细胞白血病(CLL)、骨髓增生异常综合征(MDS)和急性髓性白血病(AML)中。Selinexor是一种有效的XPO1抑制剂,最近被批准用于弥漫性大b细胞淋巴瘤,目前正在MDS和AML中进行测试。BCL2抑制剂venetoclax已被批准用于慢性淋巴细胞白血病(CLL),并已证明对髓系恶性肿瘤有效。XPO1抑制通过阻断NFκB等关键致瘤途径,降低抗凋亡蛋白MCL1发挥其抗肿瘤作用。因此,我们假设selinexor和venetoclax联合使用可能具有潜在的协同作用,并可用于靶向携带XPO1和SF3B1突变的血液恶性肿瘤。我们首先确定XPO1和SF3B1突变细胞系是否对selinexor或venetoclax单药治疗表现出不同的反应。5个淋巴瘤细胞系;3例弥漫性大b细胞淋巴瘤(SU-DHL-6, SU-DHL-16, FARAGE)和2例经典霍奇金淋巴瘤(L428和su - hd1),基于XPO1突变的存在或不存在而使用。对于XPO1 E571K热点突变,SUDHL-16和SUP-HD1为杂合型,而SUDHL-6、FARAGE和SUP-HD1为野生型。这些细胞系使用CellTiter Glo测定法评估对Selinexor或Venetoclax的敏感性。XPO1突变体细胞对selinexor的敏感性增加(IC50 = 16-35nM vs 41-231nM)。此外,XPO1突变株对单剂venetoclax的敏感性增加(XPO1突变株的IC50 = 2-13nM vs 5-2853nM)。SF3B1 K666N突变体K562和nm -6细胞对selinexor的敏感性也比野生型细胞高(IC50 =116-190nM vs 212-1405nM),对venetoclax的敏感性也比野生型细胞高(IC50 =149nM-1.28 μM vs 1.26-1.4μM)。接下来,我们测试了这些药物在XPO1和SF3B1突变细胞系中的协同作用。在6x6基质中,将增加浓度的单个药物应用于每个细胞系,并使用Bliss独立模型计算组合的协同作用。正如假设的那样,Selinexor和venetoclax在XPO1和SF3B1突变细胞系中均表现出协同作用(协同作用评分为4.5-16.5)。Western blot结果显示,使用selinexor(而不是venetoclax)治疗的野生型细胞与突变型细胞相比,p65和MCL1水平降低,而联合治疗的p65和MCL1水平提高,特别是在突变细胞系中。综上所述,抑制核输出因子XPO1和抗凋亡因子BCL2在XPO1和SF3B1突变细胞中具有协同作用。这种组合是非常有希望的所有口服方案血液恶性肿瘤携带这些突变。此外,XPO1和SF3B1突变体和野生型小鼠的体内临床前试验正在进行中。引文格式:Tulasigeri M. Totiger, Sana Chaudhry, Jumana Afaghani, Justin Taylor。抑制核输出因子XPO1和抗凋亡因子BCL2在XPO1和SF3B1突变血液病中具有协同作用[摘要]。见:美国癌症研究协会2021年年会论文集;2021年4月10日至15日和5月17日至21日。费城(PA): AACR;癌症杂志,2021;81(13 -增刊):1341。
Abstract 1341: Inhibiting the nuclear exporter XPO1 and the antiapoptotic factor BCL2 is synergistic in XPO1 and SF3B1 mutant hematologic malignancies
Mutations in the nuclear exporter XPO1 and the spliceosomal protein SF3B1 are bona fide cancer drivers and occur across a spectrum of hematologic cancers, specifically in chronic lymphocytic leukemia (CLL), myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML). Selinexor is a potent, XPO1 inhibitor that was recently approved in diffuse large B-cell lymphoma and is being tested in MDS and AML. The BCL2 inhibitor, venetoclax, is approved for use in CLL and has also shown to be effective in myeloid malignancies. XPO1 inhibition exerts its antineoplastic effects by blocking key tumorigenic pathways, such as NFκB, and decreasing the anti-apoptotic protein MCL1. We therefore hypothesized that combining selinexor and venetoclax would have potential synergy and could be used to target hematologic malignancies bearing XPO1 and SF3B1 mutations. We first determined whether XPO1 and SF3B1 mutant cell lines showed differential response to either selinexor or venetoclax monotherapy. Five lymphoma cell lines; 3 diffuse large B-cell lymphoma (SU-DHL-6, SU-DHL-16, FARAGE) and 2 classical Hodgkin lymphoma (L428 and SUP-HD1), were used based on the presence or absence of XPO1 mutations. SUDHL-16 and SUP-HD1 are heterozygous for the XPO1 E571K hotspot mutation while SUDHL-6, FARAGE and SUP-HD1 are wildtype. These cell lines were used to assess sensitivity to Selinexor or Venetoclax using the CellTiter Glo assay. The XPO1 mutant cells showed increased sensitivity to selinexor (IC50 = 16-35nM vs 41-231nM). Additionally, the XPO1 mutant cell lines showed increased sensitivity to single-agent venetoclax (XPO1 mutant IC50 = 2-13nM vs 5-2853nM). SF3B1 K666N mutant K562 and Nalm-6 cells also showed increased sensitivity to selinexor compared to wildtype cells (IC50 =116-190nM vs 212-1405nM), as well as to venetoclax as compared to wildtype (IC50 =149nM-1.28 μM vs 1.26-1.4μM). Next, we tested the synergy of the combination of these drugs in the XPO1 and SF3B1 mutant cell lines. Increasing concentrations of the individual drugs were applied to each individual cell line in a 6x6 matrix and the Bliss Independence model was used to calculate synergy of the combination. As hypothesized, the combination of Selinexor and venetoclax showed synergy in both the XPO1 and SF3B1 mutant cell lines (synergy scores 4.5-16.5). Western blots of treated wildtype versus mutant cells showed decreased levels of p65 and MCL1 with selinexor (but not venetoclax) that was enhanced with combination therapy, specifically in mutant cell lines. In conclusion, inhibiting the nuclear exporter XPO1 and the anti-apoptotic factor BCL2 is synergistic in both XPO1 and SF3B1 mutant cells. This combination is highly promising as an all oral regimen for hematologic malignancies bearing these mutations. Further, preclinical testing in in vivo using XPO1 and SF3B1 mutant and wildtype mice is ongoing. Citation Format: Tulasigeri M. Totiger, Sana Chaudhry, Jumana Afaghani, Justin Taylor. Inhibiting the nuclear exporter XPO1 and the antiapoptotic factor BCL2 is synergistic in XPO1 and SF3B1 mutant hematologic malignancies [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 1341.