RNAi-mediated human Nestin silence inhibits proliferation and migration of malignant melanoma cells by G1/S arrest via Akt-GSK3β-Rb pathway

Xu-hui Yang; Tian Xia; Jie Zhang; Shao-fen Yang; Hui-xia Tang; Ting Tang; Zhi-cheng Huang; Yue-si Zhong; Feng He; Andy Peng Xiang

doi:10.1007/s11596-017-1824-7

Current Medical Science ›› 2017, Vol. 37 ›› Issue (6) : 895 -903. DOI: 10.1007/s11596-017-1824-7

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RNAi-mediated human Nestin silence inhibits proliferation and migration of malignant melanoma cells by G₁/S arrest via Akt-GSK3β-Rb pathway

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Abstract

Human Nestin (hNestin) has been found to express in melanoma, and its expression is positively correlated with the advanced stage of melanoma. However, the precise role of hNestin in the development of melanoma has not been fully understood. The present study aimed to explore the role of hNestin in the proliferation and invasion of melanoma cells. The lentivirus vector carrying a short hairpin RNAs (shRNAs) targeting hNestin (hNestin-shRNA-LV) was stably infected into human melanoma cells UACC903, which expressed high levels of hNestin. The effects of hNestin knockdown on the proliferation, apoptosis, migration of melanoma cells and the related signaling pathways were investigated by immunofluorence, Western blotting and reverse transcription polymerase chain reaction (RT-PCR), respectively. The results showed that hNestin was expressed in most melanoma specimens and the melanoma cells studied. Knockdown of hNestin expression significantly inhibited the proliferation of melanoma cells, blocked the formation of cell colony, arrested cell cycle at G₁/S stage and suppressed the activation of Akt and GSK3β. hNestin-silent cells also showed a sheet-like appearance with tight cell-cell adhesion, decreased membrane expression of N-cadherin and β-catenin, and attenuated migration. Furthermore, hNestin silence resulted in the inhibition of tumor growth in vivo. Our study indicates that hNestin knockdown suppresses the proliferation of melanoma cells, which might be through affecting Akt-GSK3β-Rb pathway-mediated G₁/S arrest, and hNestin silence inhibits the migration by selectively modulating the expression of cell adhesion molecules in the process of epithelial-mesenchymal transition.

Keywords

hNestin / proliferation / migration / melanoma cell / RNA interference

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Xu-hui Yang, Tian Xia, Jie Zhang, Shao-fen Yang, Hui-xia Tang, Ting Tang, Zhi-cheng Huang, Yue-si Zhong, Feng He, Andy Peng Xiang. RNAi-mediated human Nestin silence inhibits proliferation and migration of malignant melanoma cells by G₁/S arrest via Akt-GSK3β-Rb pathway. Current Medical Science, 2017, 37(6): 895-903 DOI:10.1007/s11596-017-1824-7

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References

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[1]	LendahlU, ZimmermanLB, McKayRD. CNS stem cells express a new class of intermediate filament protein. Cell, 1990, 60(4): 585-595 PMID: 1689217

[2]	JohnsonK, BarraganJ, BashiruddinS, et al. . Gfap-positive radial glial cells are an essential progenitor population for later-born neurons and glia in the zebrafish spinal cord. Glia, 2016, 64(7): 1170-1189 PMID: 27100776 PMCID: 4918407

[3]	HeidariF, YariA, RasoolijaziH, et al. . Bulge hair follicle stem cells accelerate cutaneous wound healing in ats. WOUNDS, 2016, 28(4): 132-141 PMID: 27071141

[4]	YariA, TeimourianS, AmidiF, et al. . The role of biodegradable engineered random polycaprolactone nanofiber scaffolds seeded with nestin-positive hair follicle stem cells for tissue engineering. Adv Biomed Res, 2016, 5: 22 PMID: 26962524 PMCID: 4770633

[5]	WenD, NiL, YouL, et al. . Upregulation of Nestin in proximal tubules may participate in cell migration during renal repair. Am J Physiol Renal Physiol, 2012, 303(11): F1534-F1544 PMID: 22993065

[6]	ChowC, TrivediP, PyleM, et al. . Evaluation of Nestin expression in the developing and adult mouse inner ear. Stem Cells Dev, 2016, 25(19): 1419-1432 PMID: 27474107 PMCID: 5036354

[7]	LiS, LaiY, FanJ, et al. . Clinicopathological and prognostic significance of Nestin expression in patients with non-small cell lung cancer: a systematic review and meta-analysis. Clin Exp Med, 2017, 17(2): 161-174 PMID: 27099933

[8]	FangBJ, GengFY, LuFQ, et al. . Expression and clinical significance of Nestin in astrocytic tumors. J Buon, 2016, 21(1): 191-198 PMID: 27061548

[9]	ZhangY, ZengS, MaJ, et al. . Nestin overexpression in hepatocellular carcinoma associates with epithelial-mesenchymal transition and chemoresistance. J Exp Clin Cancer Res, 2016, 35(1): 111 PMID: 27412382 PMCID: 4944516

[10]	MatsudaY, NaitoZ, KawaharaK, et al. . Nestin is a novel target for suppressing pancreatic cancer cell migration, invasion and metastasis. Cancer Biol Ther, 2011, 11(5): 512-523 PMID: 21258211 PMCID: 3230315

[11]	ChenZG, WangJC, CaiL, et al. . Role of the stem cell-associated intermediate filament Nestin in malignant proliferation of non-small cell lung cancer. PLoS One, 2014, 9(2): e85584 PMID: 24498263 PMCID: 3911905

[12]	LadsteinRG, BachmannIM, StraumeO, et al. . Nestin expression is associated with aggressive cutaneous melanoma of the nodular type. Mod Pathol, 2014, 27(3): 396-401 PMID: 24030749

[13]	KukSK, WonCH, LeeWJ, et al. . Prognostic significance of Nestin in primary malignant melanoma of the oral cavity. Melanoma Res, 2016, 26(5): 457-463 PMID: 27223497

[14]	FusiA, ReicheltU, BusseA, et al. . Expression of the stem cell markers Nestin and CD133 on circulating melanoma cells. J Invest Dermatol, 2011, 131(2): 487-494 PMID: 20882037

[15]	AkiyamaM, MatsudaY, IshiwataT, et al. . Inhibition of the stem cell marker Nestin reduces tumor growth and invasion of malignant melanoma. J Invest Dermatol, 2013, 133(5): 1384-1387 PMID: 23389394

[16]	ManningBD, CantleyLC. AKT/PKB signaling: navigation downstream. Cell, 2007, 129: 1267-1274

[17]	CaoJ, HeijkantsRC, JochemsenAG, et al. . Targeting of the MAPK and AKT pathways in conjunctival melanoma shows potential synergy. Oncotarget, 2016, 5(12): e1238557

[18]	ZamboI, HermanovaM, ZapletalovaD, et al. . Expression of Nestin, CD133 and ABCG2 in relation to the clinical outcome in pediatric sarcomas. Cancer Biomark, 2016, 17(1): 107-116 PMID: 27314299

[19]	YanS, WennerCE. Modulation of cyclin D1 and its signaling components by the phorbolester TPA and the tyrosine phosphatase inhibitor vanadate. Cell Physiol, 2001, 186: 338-349

[20]	PappalardoF, RussoG, CandidoS, et al. . Computational modeling of PI3K/AKT and MAPK signaling pathways in melanoma cancer. PLoS One, 2016, 11(3): e0152104 PMID: 27015094 PMCID: 4807832

[21]	Etienne-MannevilleS, HallA. Cdc42 regulates GSK-3beta and adenomatous polyposis coli to control cell polarity. Nature, 2003, 421(6924): 753-756 PMID: 12610628

[22]	TurjanskiAG, Vaque´JP, GutkindJS. MAP kinases and the control of nuclear events. Oncogene, 2007, 26(2): 3240-3253 PMID: 17496919

[23]	WuSD, XiaF, LinXM, et al. . Ginsenoside-Rd promotes neurite outgrowth of PC12 cells through MAPK/ERKand PI3K/AKT-dependent pathways. Int J Mol Sci, 2016, 17(2): E177 PMID: 26840295

[24]	WuJ, PanZ, ChengM, et al. . Ginsenoside Rg1 facilitates neural differentiation of mouse embryonic stem cells via GR-dependent signaling pathway. Neurochem Int, 2013, 62(1): 92-102 PMID: 23063465

[25]	ReimerR, HelmboldH, SzalayB, et al. . Nestin modulates glucocorticoid receptor function by cytoplasmic anchoring. PLoS One, 2009, 4(6): e6084 PMID: 19562035 PMCID: 2698154

[26]	PirasF, IontaMT, LaiS, et al. . Nestin expression associates with poor prognosis and triple negative phenotype in locally advanced (T4) breast cancer. Eur J Histochem, 2011, 55(4): e39 PMID: 22297445 PMCID: 3284241

[27]	ZhaoZ, LuP, ZhangH, et al. . Nestin positively regulates the Wnt/β-catenin pathway and the proliferation, survival and invasiveness of breast cancer stem cells. Breast Cancer Res, 2014, 16(4): 408 PMID: 25056574 PMCID: 4220087

[28]	JollyMK, WareKE, GiljaS, et al. . EMT and MET: necessary or permissive for metastasis. Mol Oncol, 2017, 11(7): 755-769 PMID: 28548345 PMCID: 5496498

[29]	BahmI, BarrigaEH, FrolovA, et al. . PDGF controls contact inhibition of locomotion by regulating N-cadherin during neural crest migration. Development, 2017, 144(13): 2456-2468 PMID: 28526750 PMCID: 5536867

[30]	ZhaoZ, WangS, LinY, et al. . Epithelial-mesenchymal transition in cancer: Role of the IL-8/IL-8R axis. Oncol Lett, 2017, 13(6): 4577-4584 PMID: 28599458 PMCID: 5453110