期刊
CELL COMMUNICATION AND SIGNALING
卷 19, 期 1, 页码 -出版社
BMC
DOI: 10.1186/s12964-021-00763-6
关键词
Hhex; RHOA; CDC42; RHOGDIA; p-CFL1
类别
资金
- National Natural Science Foundation of China [81672855, 31771526]
- Shandong special construction program for provincial key Laboratory [SDKL2018017]
- Shandong Provincial Key Laboratory of Animal Cell and Developmental Biology [SDKLACDB2019012, SDKLACDB2019017]
Hhex plays a significant role in regulating lung cancer cell migration by inhibiting the activation of RHOA/CDC42, thus decreasing the ability of lung cancer cells to migrate.
Background: Hhex(human hematopoietically expressed homeobox), also known as PRH, is originally considered as a transcription factor to regulate gene expression due to its homebox domain. Increasing studies show that Hhex plays a significant role in development, including anterior-posterior axis formation, vascular development and HSCs self-renewal etc. Hhex is linked to many diseases such as cancers, leukemia, and type-2 diabetes. Although Hhex is reported to inhibit cell migration and invasion of breast and prostate epithelial cells by upregulating Endoglin expression, the effect and molecular mechanism for lung cancer cell motility regulation remains elusive. Methods: Human non-small cell lung cancer cells and HEK293FT cells were used to investigate the molecular mechanism of Hhex regulating lung cancer cell migration by using Western blot, immunoprecipitation, wound-healing scratch assay, laser confocal. Results: Our data indicated that Hhex could inhibit cell migration and cell protrusion formation in lung cancer cells. In addition, Hhex inhibited CFL1 phosphorylation to keep its F-actin-severing activity. RHOGDIA was involved in Hhex-induced CFL1 phosphorylation regulation. Hhex enhanced RHOGDIA interaction with RHOA/CDC42, thus maintaining RHOA/CDC42 at an inactive form. Conclusion: Collectively, these data indicate that Hhex inhibited the activation of RHOA/CDC42 by enhancing interaction of RHOGDIA with RHOA/CDC42, and then RHOA/ CDC42-p-CFL1 signaling pathway was blocked. Consequently, the formation of Filopodium and Lamellipodium on the cell surface was suppressed, and thus the ability of lung cancer cells to migrate was decreased accordingly. Our findings show Hhex plays an important role in regulating migration of lung cancer cells and may provide a potential target for lung cancer therapy.
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