Effects of Dendrobium officinale Polysaccharides on Gene Expression Profile of HUVEC

Ruijun WANG; Lan XIE; Juan FENG; Wenlong ZHAO; Zhifang GUO; Liansheng QIAO; Weifang SONG

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Effects of Dendrobium officinale Polysaccharides on Gene Expression Profile of HUVEC

VernacularTitle:铁皮石斛多糖对人脐静脉内皮细胞基因表达谱的影响研究
Author: Ruijun WANG ¹ ; Lan XIE ^{2
,

3} ; Juan FENG ^{2
,

3} ; Wenlong ZHAO ^{2
,

3} ; Zhifang GUO ^{2
,

3} ; Liansheng QIAO ^{2
,

3} ; Weifang SONG ¹
Author Information

1. Dept. of Pathophysiology，Fenyang College，Shanxi Medical University，Shanxi Fenyang 032200，China
2. Medical System Biology Research Center，Tsinghua University School of Medicine，Beijing 100084，China
3. National Engineering Research Center for Beijing Biochip Technology （CapitalBio），Beijing 102206，China
Publication Type:Journal Article
Keywords: Dendrobium officinale polysaccharides; HUVEC; Gene expression profile; Immune regulation
From: China Pharmacy 2019;30(6):801-806
CountryChina
Language:Chinese
Abstract: OBJECTIVE： To investigate the effects of Dendrobium officinale polysaccharides on gene expression profile of HUVEC. METHODS： HUVEC was selected as objects. MTS method was used to detect the effects of different doses of D. officinale polysaccharides （50， 100， 200， 400， 800 μg/mL） on the proliferation activity of HUVEC. The growth inhibitory concentration of 30％ cells （IC30） was calculated to screen the dose of follow-up tests. cDNA microarray assay was used to detect the changes of gene expression profile for HUVEC after treated with D. officinale polysaccharides for 24 h， so as to screen differentially expressed genes. GO enrichment analysis and KEGG pathway enrichment analysis were performed for top 5 differentially expressed genes by using DAVID bioinformatics resource database. Real-time fluorescence quantitative polymerase chain reaction （qRT-PCR） was used to validate the results of microarray detection with immunity-related differentially expressed genes as objects. RESULTS： After treated with 100， 200， 400， 800 μg/mL D. officinale polysaccharides， survival rate of HUVEC were decreased significantly （P＜0.05 or P＜0.01）. IC30 value was 408 μg/mL. After treated with 400 μg/mL （by IC30） D. officinale polysaccharides， there were 91 differentially expressed genes in HUVEC cells， of which 84 were up-regulated and 7 were down-regulated. Top 5 genes of up-regulated and down- regulated expression were SELE， CCL2， CXCL6， IL8， ICAM1 as well as VWCE， CPT1A， CLU， CCL14， CINS4， which may be mainly associated with immune conditions and inflammatory responses. The differentially expressed genes mainly distributed in extracellular domain， and were enriched in biological processes such as production and response of cytokines and stimulus response， and played molecular functions such as chemokine and its receptor activity. The up-regulated genes as SELE， ICAM1 and CXCL2 were mainly enriched in TNF signaling pathway， influenza A （H1N1）， herpes simplex virus infection and other pathways. The down-regulated gene CCL14 was mainly enriched in chemokine signaling pathway. Results of qRT-PCR validation tests showed that relative expression of ICAM1 was increased significantly， while that of CCL14 was decreased significantly （P＜0.05）， which was in agreement with microarray detection results. CONCLUSIONS： After treated with D. officinale polysaccharides， the expression of 91 genes in HUVEC cells are different significantly， mainly being up-regulated. The differentially expressed genes may participate in immune regulation through TNF signaling pathway， influenza A （H1N1） and herpes simplex virus infection.