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Abstract

This study aimed to construct a long noncoding RNA (lncRNA)-based prognostic signature to improve the survival prediction for endometrial cancer (EC) patients and guide individualized treatments. mRNA and miRNA sequencing and clinical data of 526 patients with EC (randomized to training or validation set, n = 263) were collected from The Cancer Genome Atlas database. Differentially expressed genes (DEGs), differentially expressed lncRNAs (DELs), and differentially expressed miRNAs (DEMs) were identified between 263 EC samples and 33 normal controls. Univariate and multivariate Cox regression analyses identified five DELs (LINC00475, LINC01352, MIR503HG, KCNMB2-AS1, and LINC01143) that were overall survival related. The Kaplan–Meier curve showed that the risk score model established by these five DELs can significantly distinguish the survival ratio of patients at high risk from those at low risk. The receiver operating characteristic curve indicated that this risk score exhibited good survival prediction performance, with the area under the curve of 0.978. In addition, this risk score was independent of other clinical factors. Stratification analysis based on two independent prognostic clinical factors (histologic grade and recurrence status) demonstrated that the high-risk score was still a poor prognostic factor for patients with histologic grade 3, recurrence or nonrecurrence status. In nomogram model, the risk score was one of the main contributions to survival rates, and its Harrell's concordance index was higher than the other two independent clinical factors, although all lower than the combined. Furthermore, mechanism analyses showed that these lncRNAs functioned by coexpressing with DEGs (i.e., LINC00475-PTGDR, LINC01352/MIR503HG-BACH2, KCNMB2-AS1-PCSK9, LINC01143-NUF2/PTTG1) or as a competing endogenous RNA of DEMs to regulate DEGs (LINC00475-miR-4728-PTGDR, MIR503HG-miR-3170-BACH2). In conclusion, our novel risk score system may be a promising prognostic biomarker to guide personalized treatment for EC patients and it can add prognostic value for current clinical system.

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References

Abdullah

, Seagle

B.L

, Bautista

, Hansra

B.S.

, Samuelson

, and Shahabi

(2014). Vulvar metastasis of an early-stage well-differentiated endometrial cancer after minimally invasive surgery. J Minim Invasive Gynecol, 21, 708–711.

Chang

C.C.

, Wang

H.C.

, Liao

Y.P.

, Chen

Y.C.

, Weng

Y.C.

, Yu

M.H.

, et al. (2018). The feasibility of detecting endometrial and ovarian cancer using DNA methylation biomarkers in cervical scrapings. J Gynecol Oncol 29, e17.

Chen

, Cai

, Zheng

, Chen

, and Xie

(2018). Clinical significance of LINC0047 in renal cell carcinoma and its effect on 786-O cells. Lingnan Modern Clin Surg, 2, 162–166.

Chen

, Wang

L.L.

, Sun

K.X.

, Liu

, Guan

, Zong

Z.H.

, et al. (2018). LncRNA TDRG1 enhances tumorigenicity in endometrial carcinoma by binding and targeting VEGF-A protein. Biochim Biophys Acta Mol Basis Dis, 1864, 3013–3021.

Chen

, Zheng

, Baade

P.D.

, Zhang

, Zeng

, Bray

, et al. (2016). Cancer statistics in China, 2015. CA Cancer J Clin, 66, 115–132.

Chen

, Dai

, Zhu

, Li

, Huang

, Liu

, et al. (2017). Evaluation on the diagnostic and prognostic values of long non-coding RNA BLACAT1 in common types of human cancer. Mol Cancer 16, 160.

Cui

, An

, Li

, Liu

, and Liu

(2018). LncRNA MIR22HG negatively regulates miR-141-3p to enhance DAPK1 expression and inhibits endometrial carcinoma cells proliferation. Biomed Pharmacother, 104, 223–228.

, Dong

, Shi

, Zhang

, Ning

, Bao

, et al. (2019). LncRNA MIR503HG inhibits cell migration and invasion via miR-103/OLFM4 axis in triple negative breast cancer. J Cell Mol Med, 23, 4738–4745.

Gan

S.S.

, Ye

J.Q.

, Wang

, Qu

F.J.

, Chu

C.M.

, Tian

Y.J.

, et al. (2017). Inhibition of PCSK9 protects against radiation-induced damage of prostate cancer cells. Onco Targets Ther, 10, 2139–2146.

10.

Halle

M.K.

, Tangen

I.L.

, Berg

H.F.

, Hoivik

E.A.

, Mauland

K.K.

, Kusonmano

, et al. (2017). HER2 expression patterns in paired primary and metastatic endometrial cancer lesions. Br J Cancer 17, 16.

11.

Hirayama

, Kusunoki

, Fujino

, Terao

, and Itakura

(2019). Isolated incisional recurrence in a patient with early-stage endometrial cancer: a case report and review of the literature. Gynecol Minim Invasive Ther, 8, 73–75.

12.

Hou

, Tang

, and Bi

(2019). Comprehensive analysis of the aberrantly expressed profiles of lncRNAs, miRNAs and the regulation network of the associated ceRNAs in clear cell renal cell carcinoma. Sheng Wu Yi Xue Gong Cheng Xue Za Zhi, 36, 267–273.

13.

, Chen

, Sun

, Bie

, and Zhang

L.D.

(2015). siRNA-mediated knockdown against NUF2 suppresses pancreatic cancer proliferation in vitro and in vivo . Biosci Rep, 35, 244–248.

14.

Huang

D.W.

, Sherman

B.T.

, and Lempicki

R.A.

(2009). Systematic and integrative analysis of large gene lists using DAVID bioinformatics resources. Nat Protoc, 4, 44–57.

15.

Huang

P.S.

, Chung

I.H.

, Lin

Y.H.

, Lin

T.K.

, Chen

W.J.

, and Lin

K.H.

(2018). The long non-coding RNA MIR503HG enhances proliferation of human ALK-negative anaplastic large-cell lymphoma. Int J Mol Sci 19, 1463.

16.

Iasonos

, Schrag

, Raj

G.V.

, and Panageas

K.S.

(2008). How to build and interpret a nomogram for cancer prognosis. J Clin Oncol, 26, 1364–1370.

17.

Kalmár

, Péterfia

, Hollósi

, Galamb

, Spisák

, Wichmann

, et al. (2015). DNA hypermethylation and decreased mRNA expression of MAL, PRIMA1, PTGDR and SFRP1 in colorectal adenoma and cancer. BMC Cancer 15, 736.

18.

Khouri

O.R.

, Frey

M.K.

, Musa

, Muggia

, Lee

, Boyd

, et al. (2003). Neoadjuvant chemotherapy in patients with advanced endometrial cancer. Cancer Chemother Pharmacol, 84, 281–285.

19.

Kohl

, Wiese

, and Warscheid

(2011). Cytoscape: software for visualization and analysis of biological networks. Methods Mol Biol, 696, 291–303.

20.

Kong

, and Ren

(2018). Overexpression of LncRNA FER1L4 in endometrial carcinoma is associated with favorable survival outcome. Eur Rev Med Pharmacol Sci, 22, 8113–8118.

21.

Kuleshov

M.V.

, Jones

M.R.

, Rouillard

A.D.

, Fernandez

N.F.

, Duan

, Wang

, et al. (2016). Enrichr: a comprehensive gene set enrichment analysis web server 2016 update. Nucleic Acids Res, 44, W90–W97.

22.

, Zhou

, Zhu

, Cheng

, Zhu

, Shu

, et al. (2015). MiR-4728-3p could act as a marker of HER2 status. Cancer Biomark 15, 807.

23.

Liu

, Nie

, Liang

, Jiang

, Wan

, Zhou

, et al. (2019). Competing endogenous RNA network of endometrial carcinoma: a comprehensive analysis. J Cell Biochem, 120, 15648–15660.

24.

Matei

, Filiaci

, Randall

M.E.

, Mutch

, Steinhoff

M.M.

, DiSilvestro

P.A.

, et al. (2019). Adjuvant chemotherapy plus radiation for locally advanced endometrial cancer. N Engl J Med, 380, 2317–2326.

25.

, Wu

, Chen

, Zhai

, Gao

, Hu

, et al. (2019). Global expression profiling of metabolic pathway-related lncRNAs in human gastric cancer and the identification of RP11-555H23.1 as a new diagnostic biomarker. J Clin Lab Anal 33, e22692.

26.

Ouyang

, Li

, and Zhu

(2019). A 7-lncRNA signature predict prognosis of Uterine corpus endometrial carcinoma. J Cell Biochem, 120, 18465–18477.

27.

Pan

, Li

, Huo

, Kong

, Yang

, and Ma

(2018). LINC01016 promotes the malignant phenotype of endometrial cancer cells by regulating the miR-302a-3p/miR-3130-3p/NFYA/SATB1 axis. Cell Death Dis 9, 303.

28.

Paraskevopoulou

M.D.

, Georgakilas

, Kostoulas

, Reczko

, Maragkakis

, Dalamagas

T.M.

, et al. (2013). DIANA-LncBase: experimentally verified and computationally predicted microRNA targets on long non-coding RNAs. Nucleic Acids Res 41, D239.

29.

Povey

, Lovering

, Bruford

, Wright

, Lush

, and Wain

(2001). The HUGO Gene Nomenclature Committee (HGNC). Hum Genet, 109, 678–680.

30.

Qiu

, Zhang

M.R.

, Zhou

, Pu

J.X.

, and Zhao

X.J.

(2019). lncRNA MIR503HG functioned as a tumor suppressor and inhibited cell proliferation, metastasis and epithelial-mesenchymal transition in bladder cancer. J Cell Biochem, 120, 10821–10829.

31.

Ren

, and Jin

(2017). The clinical value and biological function of PTTG1 in colorectal cancer. Biomed Pharmacother, 89, 108–115.

32.

Ritchie

M.E.

, Phipson

, Wu

, Hu

, Law

C.W.

, Shi

, et al. (2015). limma powers differential expression analyses for RNA-sequencing and microarray studies. Nucleic Acids Res 43, e47.

33.

Satoshi

, Noriko

, Hiroki

, Taro

, Joji

, Hisayuki

, et al. (2014). Association between BACH2 expression and clinical prognosis in diffuse large B-cell lymphoma. Cancer Sci, 105, 437–444.

34.

Siegel

R.L.

, Miller

K.D.

, and Jemal

(2018). Cancer statistics, 2018. CA Cancer J Clin, 68, 7–30.

35.

Sun

, Zou

, He

, and Mao

(2017). Identification of long non-coding RNAs biomarkers associated with progression of endometrial carcinoma and patient outcomes. Oncotarget, 8, 52604–52613.

36.

Takahisa

, Lin

M.I.

, Kosuke

, Shigeko

, Shu

, Hiroshi

, et al. (2008). Role of prostaglandin D2 receptor DP as a suppressor of tumor hyperpermeability and angiogenesis in vivo . Proc Natl Acad Sci U S A, 105, 20009–20014.

37.

Tippin

B.L.

, Kwong

A.M.

, Inadomi

M.J.

, Lee

O.J.

, Park

J.M.

, Materi

A.M.

, et al. (2014). Intestinal tumor suppression in ApcMin/+ mice by prostaglandin D2 receptor PTGDR. Cancer Med, 3, 1041–1051.

38.

Wang

, Xu

, and Yang

(2018). A six-microRNA signature predicts survival of patients with uterine corpus endometrial carcinoma. Curr Probl Cancer, 43, 167–176.

39.

Xia

, Wang

, Meng

, Su

, Shen

, Wang

, et al. (2019). Integrated bioinformatic analysis of a competing endogenous RNA network reveals a prognostic signature in endometrial cancer. Front Oncol 9, 448.

40.

, Yang

, Zhou

, Yang

, Jiang

, Ai

, et al. (2018). A long noncoding RNAs signature to improve survival prediction in endometrioid endometrial cancer. J Cell Biochem [Epub ahead of print]; DOI: 10.1002/jcb.28113.

41.

Yang

J.H.

, Li

J.H.

, Shao

, Zhou

, Chen

Y.Q.

, and Qu

L.H.

(2011). starBase: a database for exploring microRNA-mRNA interaction maps from Argonaute CLIP-Seq and Degradome-Seq data. Nucleic Acids Res 39, D202.

42.

Zhang

, Bie

, Wu

, Zhang

, and Xu

(2018). PGD2/PTGDR2 signaling restricts the self-renewal and tumorigenesis of gastric cancer: PGD2 controls GC-CSCs biological behavior. Stem Cells, 36, 990–1003.

43.

Zhang

D.L.

, Zhou

H.G.

, Liu

, and Mao

(2019). Effect of LncRNA LINC00475 on biological behaviors of glioma cells. J Third Mil Med Univ, 41, 213–218.

44.

Zhou

, Zhang

, Zhao

, Bao

, and Sun

(2018). A novel lncRNA-focus expression signature for survival prediction in endometrial carcinoma. BMC Cancer 18, 39.

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Identification and Function Analysis of a Five-Long Noncoding RNA Prognostic Signature for Endometrial Cancer Patients

Abstract

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