Abstract A39: Role of LARP1 in the leukemogenesis of Acute Myeloid Leukemia

IF 11.5 Q1 HEMATOLOGY
D. A. Nahotko, Aneta Baran, Mariafausta Fischietti, E. Beauchamp, L. Platanias
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引用次数: 0

Abstract

Mammalian target of rapamycin (mTOR) is a strong driver of tumorigenesis in multiple types of tumors, however targeting mTOR for cancer therapy has yielded only limited success. This may be explained in part by signaling redundancy with other pathways, such as CDK9 mTOR-Like (CTORC) complexes, recently described by our group. One of the binders common to mTORC1 and CTORC2 is La related protein 1 (LARP1). LARP1 influences ribosome biogenesis by regulating translation of 5'terminal oligopyrimidine tract (5’ TOP) containing mRNAs, which often encode ribosomal proteins and translation factors. Here, we validate LARP1 as common target of mTORC1 and CTORC2 as well as investigate its influence on leukemogenesis. To explore LARP1’s role in leukemogenesis we utilized CRISPR/CAS9 technology to create OCI-AML5 and U937 LARP1 knockout (KO) cells. Loss of LARP1 expression significantly diminished proliferation potential of AML cell lines both in vitro as well as in vivo when implanted into the flank of athymic nude mice as xenografts. Additionally, primary CD34+ leukemia cells were transfected with LARP1 targeting or scrambled siRNA and leukemic progenitor growth was assessed in methocellulose colony formation assays. We observed suppression of leukemic progenitors colony forming ability in LARP1 siRNA transfected cells, compared to the Ctrl siRNA transfected cells. We also determined enhanced sensitivity of Larp1 KO cell lines to standard chemotherapy agents such Azacitidine, Cytarabine and Venetoclax. We employed polysome profiling to compare global translation levels between Larp1 KO and control U937 cells. Our polysomal profiling results show that KO of LARP1 in U937 cells reduces global translation and ribosome biogenesis as expected as we observed a suppression of both monosomal and polysomal peaks. In summary, Larp1 is important for leukemogenesis and influences their response to treatment with currently used chemotherapy agents. These observations together suggest that LARP1 is a promising target for development of novel antileukemia approaches. Citation Format: Dominik A Nahotko, Aneta H Baran, Mariafausta Fischietti, Elspeth M Beauchamp, Leonidas C Platanias. Role of LARP1 in the leukemogenesis of Acute Myeloid Leukemia [abstract]. In: Proceedings of the AACR Special Conference: Acute Myeloid Leukemia and Myelodysplastic Syndrome; 2023 Jan 23-25; Austin, TX. Philadelphia (PA): AACR; Blood Cancer Discov 2023;4(3_Suppl):Abstract nr A39.
摘要:LARP1在急性髓系白血病发生中的作用
哺乳动物靶向雷帕霉素(mTOR)是多种类型肿瘤发生的强大驱动因素,但靶向mTOR用于癌症治疗仅取得有限的成功。这在一定程度上可以通过与其他途径的信号冗余来解释,例如我们小组最近描述的CDK9-mTOR样(CTORC)复合物。mTORC1和CTORC2共同的结合剂之一是La相关蛋白1(LARP1)。LARP1通过调节含有信使核糖核酸的5'-末端寡嘧啶通道(5'-TOP)的翻译来影响核糖体的生物发生,信使核糖核酸通常编码核糖体蛋白和翻译因子。在此,我们验证了LARP1是mTORC1和CTORC2的共同靶点,并研究了其对白血病发生的影响。为了探索LARP1在白血病发生中的作用,我们利用CRISPR/CAS9技术创建了OCI-AML5和U937 LARP1敲除(KO)细胞。当作为异种移植物植入无胸腺裸鼠的侧翼时,LARP1表达的缺失显著降低了AML细胞系在体外和体内的增殖潜力。此外,用LARP1靶向或扰乱siRNA转染原代CD34+白血病细胞,并在甲基纤维素集落形成测定中评估白血病祖细胞的生长。与Ctrl-siRNA转染的细胞相比,我们观察到LARP1 siRNA转染细胞对白血病祖细胞集落形成能力的抑制。我们还确定了Larp1 KO细胞系对标准化疗药物如阿扎胞苷、阿糖胞苷和Venetoclax的敏感性增强。我们采用多聚体分析来比较Larp1 KO和对照U937细胞之间的整体翻译水平。我们的多体分析结果表明,在U937细胞中,LARP1的KO降低了整体翻译和核糖体生物发生,正如我们观察到的单体和多体峰都受到抑制所预期的那样。总之,Larp1对白血病的发生很重要,并影响其对目前使用的化疗药物治疗的反应。这些观察结果共同表明,LARP1是开发新的抗白血病方法的一个有前途的靶点。引文格式:Dominik A Nahotko,Aneta H Baran,Mariafausta Fischietti,Elspeth M Beauchamp,Leonidas C Platanias。LARP1在急性髓细胞白血病白血病发生中的作用[摘要]。载:AACR特别会议论文集:急性髓细胞白血病和骨髓增生异常综合征;2023年1月23日至25日;德克萨斯州奥斯汀。费城(PA):AACR;血液癌症Discov 2023;4(3_Suppl):摘要编号A39。
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来源期刊
CiteScore
12.70
自引率
1.80%
发文量
139
期刊介绍: The journal Blood Cancer Discovery publishes high-quality Research Articles and Briefs that focus on major advances in basic, translational, and clinical research of leukemia, lymphoma, myeloma, and associated diseases. The topics covered include molecular and cellular features of pathogenesis, therapy response and relapse, transcriptional circuits, stem cells, differentiation, microenvironment, metabolism, immunity, mutagenesis, and clonal evolution. These subjects are investigated in both animal disease models and high-dimensional clinical data landscapes. The journal also welcomes submissions on new pharmacological, biological, and living cell therapies, as well as new diagnostic tools. They are interested in prognostic, diagnostic, and pharmacodynamic biomarkers, and computational and machine learning approaches to personalized medicine. The scope of submissions ranges from preclinical proof of concept to clinical trials and real-world evidence. Blood Cancer Discovery serves as a forum for diverse ideas that shape future research directions in hematooncology. In addition to Research Articles and Briefs, the journal also publishes Reviews, Perspectives, and Commentaries on topics of broad interest in the field.
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