Silencing effects of mutant RAS signalling on transcriptomes

Q1 Biochemistry, Genetics and Molecular Biology Advances in biological regulation Pub Date : 2023-01-01 DOI:10.1016/j.jbior.2022.100936
Christine Sers , Reinhold Schäfer
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Abstract

Mutated genes of the RAS family encoding small GTP-binding proteins drive numerous cancers, including pancreatic, colon and lung tumors. Besides the numerous effects of mutant RAS gene expression on aberrant proliferation, transformed phenotypes, metabolism, and therapy resistance, the most striking consequences of chronic RAS activation are changes of the genetic program. By performing systematic gene expression studies in cellular models that allow comparisons of pre-neoplastic with RAS-transformed cells, we and others have estimated that 7 percent or more of all transcripts are altered in conjunction with the expression of the oncogene. In this context, the number of up-regulated transcripts approximates that of down-regulated transcripts. While up-regulated transcription factors such as MYC, FOSL1, and HMGA2 have been identified and characterized as RAS-responsive drivers of the altered transcriptome, the suppressed factors have been less well studied as potential regulators of the genetic program and transformed phenotype in the breadth of their occurrence. We therefore have collected information on downregulated RAS-responsive factors and discuss their potential role as tumor suppressors that are likely to antagonize active cancer drivers. To better understand the active mechanisms that entail anti-RAS function and those that lead to loss of tumor suppressor activity, we focus on the tumor suppressor HREV107 (alias PLAAT3 [Phospholipase A and acyltransferase 3], PLA2G16 [Phospholipase A2, group XVI] and HRASLS3 [HRAS-like suppressor 3]). Inactivating HREV107 mutations in tumors are extremely rare, hence epigenetic causes modulated by the RAS pathway are likely to lead to down-regulation and loss of function.

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突变体RAS信号对转录组的沉默作用
编码小GTP结合蛋白的RAS家族突变基因驱动许多癌症,包括胰腺癌、结肠癌和肺癌。除了突变RAS基因表达对异常增殖、转化表型、代谢和治疗耐药性的众多影响外,慢性RAS激活最显著的后果是遗传程序的改变。通过在细胞模型中进行系统的基因表达研究,可以比较肿瘤前细胞和RAS转化的细胞,我们和其他人估计,7%或更多的转录物随着癌基因的表达而改变。在这种情况下,上调转录物的数量接近下调转录物的数目。虽然上调的转录因子如MYC、FOSL1和HMGA2已被鉴定和表征为转录组改变的RAS响应驱动因素,但被抑制的因子作为遗传程序和转化表型的潜在调节因子在其发生的广度上还没有得到很好的研究。因此,我们收集了关于下调的RAS-反应因子的信息,并讨论了它们作为肿瘤抑制剂的潜在作用,这些肿瘤抑制剂可能拮抗活跃的癌症驱动因素。为了更好地了解引起抗RAS功能的活性机制和导致肿瘤抑制活性丧失的活性机制,我们重点研究了肿瘤抑制因子HREV107(别名PLAAT3[磷脂酶A和酰基转移酶3]、PLA2G16[磷脂酶A2,第XVI组]和HRALS3[类HRAS抑制因子3])。肿瘤中HREV107失活突变极为罕见,因此RAS途径调节的表观遗传学原因可能导致下调和功能丧失。
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来源期刊
Advances in biological regulation
Advances in biological regulation Biochemistry, Genetics and Molecular Biology-Molecular Medicine
CiteScore
8.90
自引率
0.00%
发文量
41
审稿时长
17 days
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