Department of Laboratory Medicine, National Taiwan University Hospital, Taipei, Taiwan.
Department of Internal Medicine, National Taiwan University Hospital, Taipei, Taiwan.
Oncogene. 2018 Mar;37(13):1730-1742. doi: 10.1038/s41388-017-0086-y. Epub 2018 Jan 16.
Pyruvate kinase muscle isozymes (PKMs) have crucial roles in regulating metabolic changes during carcinogenesis. A switch from PKM1 to PKM2 isoform was thought to lead to aerobic glycolysis promoting carcinogenesis, and was considered as one of the cancer signatures. However, recent evidence has argued against the existence of PKM isoform switch and related metabolic effects during cancer progression. We compared the effects of PKM1 and PKM2 in cell invasiveness and metastasis of pancreatic ductal adenocarcinoma (PDAC). Both PKM1 and PKM2 expression affected cell migration and invasion abilities of PDAC cells, but only knockdown of PKM2 suppressed metastasis in a xenograft model. By comparing the established PKM2 mutants in the regulation of cell invasion, we found that PKM2 may control cell mobility through its protein kinase and phopho-peptide binding abilities. Further survey for PKM2-associated proteins identified PAK2 as a possible phosphorylation target in PDAC. In vitro binding and kinase assays revealed that PKM2 directly phosphorylated PAK2 at Ser20, Ser141, and Ser192/197. Knockdown of PKM2 decreased PAK2 protein half-life by increasing ubiquitin-dependent proteasomal degradation. Moreover, we identified PAK2 as an HSP90 client protein and the mutation at Ser192/197 of PAK2 reduced PAK2-HSP90 association. Knockdown of PAK2 diminished in vitro cell mobility and in vivo metastatic ability of PKM2 overexpressed PDAC cells. PKM2 and PAK2 protein expression also positively correlated with each other in PDAC tissues. Our findings indicate that PKM2-PAK2 regulation is critical for developing metastasis in PDAC, and suggest that targeting the PKM2/HSP90/PAK2 complex has a potential therapeutic value in this deadly disease.
丙酮酸激酶肌肉同工酶 (PKMs) 在调节致癌过程中的代谢变化中起着至关重要的作用。从 PKM1 到 PKM2 同工型的转变被认为导致有氧糖酵解促进致癌作用,并被认为是癌症特征之一。然而,最近的证据反对在癌症进展过程中存在 PKM 同工型转换和相关代谢效应。我们比较了 PKM1 和 PKM2 在胰腺导管腺癌 (PDAC) 细胞侵袭和转移中的作用。PKM1 和 PKM2 的表达均影响 PDAC 细胞的迁移和侵袭能力,但只有 PKM2 的敲低抑制了异种移植模型中的转移。通过比较 PKM2 突变体在细胞侵袭中的调节作用,我们发现 PKM2 可能通过其蛋白激酶和磷酸肽结合能力来控制细胞迁移能力。进一步调查 PKM2 相关蛋白,发现 PAK2 可能是 PDAC 中的一个潜在磷酸化靶标。体外结合和激酶测定显示,PKM2 直接在 Ser20、Ser141 和 Ser192/197 处磷酸化 PAK2。PKM2 的敲低通过增加泛素依赖性蛋白酶体降解来减少 PAK2 蛋白半衰期。此外,我们鉴定出 PAK2 是 HSP90 的客户蛋白,并且 PAK2 的 Ser192/197 突变降低了 PAK2-HSP90 结合。PAK2 的敲低减少了 PKM2 过表达 PDAC 细胞的体外细胞迁移和体内转移能力。PKM2 和 PAK2 蛋白表达在 PDAC 组织中也彼此正相关。我们的研究结果表明,PKM2-PAK2 调节对于 PDAC 转移的发展至关重要,并表明靶向 PKM2/HSP90/PAK2 复合物在这种致命疾病中具有潜在的治疗价值。
