The CK2/ECE1c Partnership: An Unveiled Pathway to Aggressiveness in Cancer

Kinases and phosphatases Pub Date : 2023-12-19 DOI:10.3390/kinasesphosphatases2010001

Karla Villalobos-Nova, M. A. Toro, Pablo Pérez-Moreno, Ignacio Niechi, Julio C. Tapia

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Abstract

The endothelin-1 (ET1) peptide has a pathological role in the activation of proliferation, survival and invasiveness pathways in different cancers. ET1’s effects rely on its activation by the endothelin-converting enzyme-1 (ECE1), which is expressed as four isoforms, differing only in their cytoplasmic N-terminuses. We already demonstrated in colorectal cancer, glioblastoma, and preliminarily lung cancer, that the isoform ECE1c heightens aggressiveness by promoting cancer stem cell traits. This is achieved through a non-canonical ET1-independent mechanism of enhancement of ECE1c’s stability upon CK2-dependent phosphorylation at S18 and S20. Here, a K6 residue is presumably responsible for ECE1c ubiquitination as its mutation to R impairs proteasomal degradation. However, how phosphorylation enhances ECE1c’s stability and how this translates into aggressiveness are still open questions. In this brief report, by swapping residues to either phospho-mimetic or phospho-resistant amino acids, we propose that the N-terminus may also be phosphorylated at Y5 and/or T9 by an unknown kinase(s). In addition, N-terminus phosphorylation may lead to a blockage of K6 ubiquitination, increasing ECE1c’s stability and presumably activating the Wnt/β-catenin signaling pathway. Thus, a novel CK2/ECE1c partnership may be emerging to promote aggressiveness and thus become a biomarker of poor prognosis and a potential therapeutic target for several cancers.

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CK2/ECE1c伙伴关系：揭示癌症侵袭性的途径

内皮素-1（ET1）肽在激活不同癌症的增殖、存活和侵袭途径中起着病理作用。ET1 的作用依赖于内皮素转换酶-1（ECE1）的激活，ECE1 表达为四种异构体，只有胞质 N 端不同。我们已经在结直肠癌、胶质母细胞瘤和肺癌初步研究中证实，ECE1c异构体通过促进癌症干细胞特性来提高侵袭性。这是通过一种非经典的、不依赖于 ET1 的机制实现的，即在 S18 和 S20 处发生依赖于 CK2 的磷酸化后，ECE1c 的稳定性会增强。这里，K6 残基可能是 ECE1c 泛素化的原因，因为其突变为 R 会影响蛋白酶体降解。然而，磷酸化如何增强 ECE1c 的稳定性以及如何将其转化为侵袭性仍是未决问题。在这篇简短的报告中，通过将残基交换为磷酸化模拟氨基酸或磷酸化抗性氨基酸，我们提出 N 端也可能在 Y5 和/或 T9 处被未知激酶磷酸化。此外，N-端磷酸化可能导致 K6 泛素化受阻，从而增加 ECE1c 的稳定性，并可能激活 Wnt/β-catenin 信号通路。因此，一种新型的 CK2/ECE1c 伙伴关系可能会促进侵袭性，从而成为预后不良的生物标志物和几种癌症的潜在治疗靶点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Kinases and phosphatases

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