Mechanisms of action of NME metastasis suppressors - a family affair.

IF 7.7 2区 医学 Q1 ONCOLOGY
Cancer and Metastasis Reviews Pub Date : 2023-12-01 Epub Date: 2023-06-24 DOI:10.1007/s10555-023-10118-x
Céline Prunier, Philippe Chavrier, Mathieu Boissan
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引用次数: 0

Abstract

Metastatic progression is regulated by metastasis promoter and suppressor genes. NME1, the prototypic and first described metastasis suppressor gene, encodes a nucleoside diphosphate kinase (NDPK) involved in nucleotide metabolism; two related family members, NME2 and NME4, are also reported as metastasis suppressors. These proteins physically interact with members of the GTPase dynamin family, which have key functions in membrane fission and fusion reactions necessary for endocytosis and mitochondrial dynamics. Evidence supports a model in which NDPKs provide GTP to dynamins to maintain a high local GTP concentration for optimal dynamin function. NME1 and NME2 are cytosolic enzymes that provide GTP to dynamins at the plasma membrane, which drive endocytosis, suggesting that these NMEs are necessary to attenuate signaling by receptors on the cell surface. Disruption of NDPK activity in NME-deficient tumors may thus drive metastasis by prolonging signaling. NME4 is a mitochondrial enzyme that interacts with the dynamin OPA1 at the mitochondria inner membrane to drive inner membrane fusion and maintain a fused mitochondrial network. This function is consistent with the current view that mitochondrial fusion inhibits the metastatic potential of tumor cells whereas mitochondrial fission promotes metastasis progression. The roles of NME family members in dynamin-mediated endocytosis and mitochondrial dynamics and the intimate link between these processes and metastasis provide a new framework to understand the metastasis suppressor functions of NME proteins.

Abstract Image

NME 转移抑制剂的作用机制--家事。
转移进程受转移启动子和抑制基因的调控。NME1 是原型基因,也是第一个被描述的转移抑制基因,它编码一种参与核苷酸代谢的核苷酸二磷酸激酶(NDPK);据报道,两个相关的家族成员 NME2 和 NME4 也是转移抑制基因。这些蛋白与 GTPase dynamin 家族成员发生物理相互作用,后者在内吞和线粒体动力学所需的膜裂变和融合反应中具有关键功能。有证据支持这样一种模式,即 NDPK 为动态蛋白提供 GTP,以维持较高的局部 GTP 浓度,从而使动态蛋白发挥最佳功能。NME1 和 NME2 是细胞膜酶,它们为质膜上的动态蛋白提供 GTP,从而驱动内吞,这表明这些 NME 是减弱细胞表面受体信号传导的必要条件。因此,在NME缺陷的肿瘤中,NDPK活性的破坏可能会通过延长信号传导来推动转移。NME4 是一种线粒体酶,它与线粒体内膜上的达能素 OPA1 相互作用,推动内膜融合并维持融合的线粒体网络。这一功能与目前的观点一致,即线粒体融合抑制肿瘤细胞的转移潜力,而线粒体裂变则促进转移进展。NME家族成员在达纳明介导的内吞和线粒体动力学中的作用以及这些过程与转移之间的密切联系为了解NME蛋白的转移抑制功能提供了一个新的框架。
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来源期刊
CiteScore
17.00
自引率
0.00%
发文量
54
审稿时长
6-12 weeks
期刊介绍: Contemporary biomedical research is on the threshold of an era in which physiological and pathological processes can be analyzed in increasingly precise and mechanistic terms.The transformation of biology from a largely descriptive, phenomenological discipline to one in which the regulatory principles can be understood and manipulated with predictability brings a new dimension to the study of cancer and the search for effective therapeutic modalities for this disease. Cancer and Metastasis Reviews provides a forum for critical review and discussion of these challenging developments. A major function of the journal is to review some of the more important and interesting recent developments in the biology and treatment of malignant disease, as well as to highlight new and promising directions, be they technological or conceptual. Contributors are encouraged to review their personal work and be speculative.
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