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Abstract

Gastric cancer (GC) is the second leading cause of death from cancer globally. The most common cause of GC is the infection of Helicobacter pylori, but ∼11% of cases are caused by genetic factors. However, recurrences occur in approximately one-third of stage II GC patients, even if they are treated with adjuvant chemotherapy or chemoradiotherapy. This is potentially due to expression variation of genes; some candidate prognostic genes were identified in patients with high-risk recurrences. The objective of this study was to develop an effective computational method for meaningfully interpreting these GC-related genes and accurately predicting novel prognostic genes for high-risk recurrence patients. We employed properties of genes (gene ontology [GO] and KEGG pathway information) as features to characterize GC-related genes. We obtained an optimal set of features for interpreting these genes. By applying the minimum redundancy maximum relevance algorithm, we predicted the GC-related genes. With the same approach, we further predicted the genes for the prognostic of high-risk recurrence. We obtained 1104 GO terms and KEGG pathways and 530 GO terms and KEGG pathways, respectively, that characterized GC-related genes and recurrence-related genes well. Finally, three novel prognostic genes were predicted to help supplement genetic markers of high-risk GC patients for recurrence after surgery. An in-depth text mining indicated that the results are quite consistent with previous knowledge. Survival analysis of patients confirmed the novel prognostic genes as markers. By analyzing the related genes, we developed a systematic method to interpret the possible underlying mechanism of GC. The novel prognostic genes facilitate the understanding and therapy of GC recurrences after surgery.

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References

Asakura

, Kato

, Fujino

, Konishi

, Tezuka

, and Mori

(1999). Role of transforming growth factor-β1 and decorin in development of central fibrosis in pulmonary adenocarcinoma. Hum Pathol, 30, 195–198.

Bouckaert

R.R.

, Frank

, Hall

M.A.

, Holmes

, Pfahringer

, Reutemann

, et al. (2010). WEKA—Experiences with a Java Open-Source Project. J Mach Learn Res, 9999, 2533–2541.

Chen

, Lu

, Feng

, Li

, Song

, Zheng

, et al. (2009). Multiple classifier integration for the prediction of protein structural classes. J Comput Chem, 30, 2248–2254.

Chen

, Zheng

, Zhang

, Zhao

, Li

, Wu

, et al. (2013). Report of incidence and mortality in China cancer registries, 2009. Chin J Cancer Res, 25, 10.

Ferlay

, Shin

H.R.

, Bray

, Forman

, Mathers

, and Parkin

D.M.

(2010). Estimates of worldwide burden of cancer in 2008: GLOBOCAN 2008. Int J Cancer, 127, 2893–2917.

Ford

C.E.

, Jary

, Ma

S.S.

, Nixdorf

, Heinzelmann-Schwarz

V.A.

, and Ward

R.L.

(2013). The Wnt gatekeeper SFRP4 modulates EMT, cell migration and downstream Wnt signalling in serous ovarian cancer cells. PLoS One, 8, e54362.

Gesteira

T.F.

, Coulson-Thomas

V.J.

, Taunay-Rodrigues

, Oliveira

, Thacker

B.E.

, Juliano

M.A.

, et al. (2011). Inhibitory peptides of the sulfotransferase domain of the heparan sulfate enzyme, N-deacetylase-N-sulfotransferase-1. J Biol Chem, 286, 5338–5346.

Gyorffy

, Surowiak

, Budczies

, and Lanczky

(2013). Online survival analysis software to assess the prognostic value of biomarkers using transcriptomic data in non-small-cell lung cancer. PLoS One, 8, e82241.

, Zhang

, Shi

X.H.

, Hu

L.L.

, Kong

, Cai

Y.D.

, et al. (2010). Predicting drug-target interaction networks based on functional groups and biological features. PLoS One, 5, e9603.

10.

Iozzo

(1985). Neoplastic modulation of extracellular matrix. Colon carcinoma cells release polypeptides that alter proteoglycan metabolism in colon fibroblasts. J Biol Chem, 260, 7464–7473.

11.

Iwaya

, Fukagawa

, Suzuki

, Takahashi

, Sawada

, Ishibashi

, et al. (2013). Contrasting expression patterns of histone mRNA and microRNA 760 in patients with gastric cancer. Clin Cancer Res, 19, 6438–6449.

12.

Jemal

, Siegel

, Ward

, Hao

, Xu

, Murray

, et al. (2008). Cancer statistics, 2008. CA Cancer J Clin, 58, 71–96.

13.

Kornberg

R.D.

, and Lorch

(1999). Twenty-five years of the nucleosome, fundamental particle of the eukaryote chromosome. Cell, 98, 285–294.

14.

Lee

, Sohn

, Do

I.-G.

, Kim

K.-M.

, Park

S.H.

, Park

J.O.

, et al. (2014). Nanostring-based multigene assay to predict recurrence for gastric cancer patients after surgery. PLoS One, 9, e90133.

15.

, Niu

, Zhao

, Liu

, Lu

W.C.

, Liu

X.J.

, et al. (2009). GalNAc-transferase specificity prediction based on feature selection method. Peptides, 30, 359–364.

16.

, Shi

X.H.

, Li

S.J.

, Xie

Z.Q.

, Feng

Y.L.

, Lu

W.C.

, et al. (2010). Protein sumoylation sites prediction based on two-stage feature selection. Mol Divers, 14, 81–86.

17.

Marzluff

W.F.

, Gongidi

, Woods

K.R.

, Jin

, and Maltais

L.J.

(2002). The human and mouse replication-dependent histone genes. Genomics, 80, 487–498.

18.

Masoudi

, Saadat

, Omidvari

, and Saadat

(2009). Genetic polymorphisms of GSTO2, GSTM1, and GSTT1 and risk of gastric cancer. Mol Biol Rep, 36, 781–784.

19.

McClellan

, and King

M.-C.

(2010). Genetic heterogeneity in human disease. Cell, 141, 210–217.

20.

, Muruganujan

, Casagrande

J.T.

, and Thomas

P.D.

(2013). Large-scale gene function analysis with the PANTHER classification system. Nat Protoc, 8, 1551–1566.

21.

Paiva

, Hernandez

, Martinez

, Creus

, Quinteros

, and Marcos

(2010). Association between GSTO2 polymorphism and the urinary arsenic profile in copper industry workers. Environ Res, 110, 463–468.

22.

Parkin

D.M.

, Bray

, Ferlay

, and Pisani

(2005). Global cancer statistics, 2002. CA Cancer J Clin, 55, 74–108.

23.

Partheen

, Levan

, Österberg

, and Horvath

(2006). Expression analysis of stage III serous ovarian adenocarcinoma distinguishes a sub-group of survivors. Eur J Cancer, 42, 2846–2854.

24.

Peng

C.R.

, Liu

, Niu

, Lv

Y.L.

, Li

M.J.

, Yuan

Y.L.

, et al. (2011). Prediction of RNA-binding proteins by voting systems. J Biomed Biotechnol, 2011, 506205.

25.

Peng

, Long

, and Ding

(2005). Feature selection based on mutual information: criteria of max-dependency, max-relevance, and min-redundancy. IEEE Trans Pattern Anal Mach Intell, 27, 1226–1238.

26.

Piscopo

, Campisi

, Colella

, Bilancione

, Caccamo

, Liberto

, et al. (2006). H3 and H3. 3 histone mRNA amounts and ratio in oral squamous cell carcinoma and leukoplakia. Oral Dis, 12, 130–136.

27.

Roder

D.M.

(2002). The epidemiology of gastric cancer. Gastric Cancer, 5, 5–11.

28.

Sakamoto

, Nitta

, Kamikawa

, Sugihara

, Hasui

, Tsuyama

, et al. (2004). The assessment of cell proliferation during 9, 10-dimethyl-1, 2-benzanthracene-induced hamster tongue carcinogenesis by means of histone H3 mRNA in situ hybridization. Med Electron Microsc, 37, 52–61.

29.

Shi

, Su

, Long

, Mei

, and Chen

(2011). MicroRNA-191 targets N-deacetylase/N-sulfotransferase 1 and promotes cell growth in human gastric carcinoma cell line MGC803. Acta Biochim Biophys Sin (Shanghai), 43, 849–856.

30.

Siegel

, Ma

, Zou

, and Jemal

(2014). Cancer statistics, 2014. CA Cancer J Clin, 64, 9–29.

31.

Smith

, Healy

, Thompson

, Morley

, and Rees

(1995). Use of in situ detection of histone mRNA in the assessment of epidermal proliferation: comparison with the Ki67 antigen and BrdU incorporation. Br J Dermatol, 132, 359–366.

32.

Suzuki

, Gabrielson

, Chen

, Anbazhagan

, van Engeland

, Weijenberg

M.P.

, et al. (2002). A genomic screen for genes upregulated by demethylation and histone deacetylase inhibition in human colorectal cancer. Nat Genet, 31, 141–149.

33.

Theocharis

A.D.

, Vynios

D.H.

, Papageorgakopoulou

, Skandalis

S.S.

, and Theocharis

D.A.

(2003). Altered content composition and structure of glycosaminoglycans and proteoglycans in gastric carcinoma. Int J Biochem Cell Biol, 35, 376–390.

34.

Ting

K.M.

, and Witten

I.H.

(1997). Stacking bagged and dagged models. Proceedings of the 14th International Conference on Machine Learning (ICML-97), San Francisco, CA, pp. 367–375.

35.

Visscher

P.M.

, Brown

M.A.

, McCarthy

M.I.

, and Yang

(2012). Five years of GWAS discovery. Am J Hum Genet, 90, 7–24.

36.

Zhang

, Poustovoitov

M.V.

, Ye

, Santos

H.A.

, Chen

, Daganzo

S.M.

, et al. (2005). Formation of MacroH2A-containing senescence-associated heterochromatin foci and senescence driven by ASF1a and HIRA. Dev Cell, 8, 19–30.

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Combinations of Gene Ontology and Pathway Characterize and Predict Prognosis Genes for Recurrence of Gastric Cancer After Surgery

Abstract

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