Journal of Guangxi Normal University(Natural Science Edition) ›› 2021, Vol. 39 ›› Issue (6): 147-153.doi: 10.16088/j.issn.1001-6600.2020111204

Previous Articles     Next Articles

Study on the Abnormal Expression of Sdr9c7 Gene in Erythrocytes of Tumor-bearing Mice

LI Yinling1,2, ZHOU Jing1,2, CHEN Ying1,2, CHEN Qiaoyuan1,2, LIN Wanhua1,2*   

  1. 1. Guangxi Universities Key Laboratory of Stem Cell and Biopharmaceutical Technology (Guangxi Normal University), Guilin Guangxi 541004, China;
    2. College of Life Sciences, Guangxi Normal University, Guilin Guangxi 541006, China
  • Received:2020-11-12 Revised:2021-03-08 Online:2021-11-25 Published:2021-12-08

PDF (PC)

173

Abstract: In the peripheral blood leukocyte separation experiment, the red blood cells of tumor-bearing male mice with Lewis cancer cell (Lewis lung carcinoma, LLC) did not sink to the bottom but were stagnated in the middle layer,which was different from that of normal mice. To explore the further function of the Sdr9c7 gene and the possible mechanism of erythrocyte abnormality in tumor-bearing male mice, the expression of the Sdr9c7 gene was detected by real-time fluorescence quantitative PCR in red blood cells and lymphocyte isolated from the peripheral blood, and some tissues such as skin, liver, bone marrow, and blood vessels. Compared with the control group, the expression level of the Sdr9c7 gene in erythrocytes of tumor-bearing mice increased significantly, which was 2.60±0.44 times as that of normal mice. Although its expression showed no significant difference in skin and blood vessels, its expression in blood, bone marrow, liver, and lymphocyte of tumor-bearing mice were significantly down-regulated, which was 0.31±0.05, 0.44±0.04, 0.36±0.04 and 0.35±0.08 times as that of normal mice separately. The results suggested that the occurrence of erythrocyte abnormality in tumor-bearing mice might be related to the increased of Sdr9c7 gene expression. This result broadens the horizon for further study of the biological function of Sdr9c7 gene and provides a new perspective for the mechanism of erythrocyte abnormalities in the tumor-bearing state.

Key words: tumor-bearing mice, lung cancer, qRT-PCR, red blood cells, tissue expression

CLC Number: 

  • R-332
[1] 许冉达. 秦皮乙素对荷瘤小鼠红细胞膜功能的影响[D]. 哈尔滨: 哈尔滨商业大学, 2016.
[2] JI Y B, GAO S Y, CHENG W P, et al. Effect of haimiding on the functioning of red cell membrane of FC and H22 tumor-bearing mice[J]. World Journal of Gastroenterology, 2005, 11(6): 823-830. DOI:10.3748/wjg.v11.i6.823.
[3] PUERTOLLANO M A, de PABLO M A, ALVAREZ de C G. Polyunsaturated fatty acids induce cell death in YAC-1 lymphoma by a caspase-3-independent mechanism[J]. Anticancer Research, 2003, 23(5A): 3905-3910.
[4] UDILOVA N, JUREK D, MARIAN B, et al. Induction of lipid peroxidation in biomembranes by dietary oil components[J]. Food and Chemical Toxicology, 2003, 41(11): 1481-1489. DOI:10.1016/s0278-6915(03)00164-9.
[5] NETZEL-ARNETT S, HOOPER J D, SZABO R, et al. Membrane anchored serine proteases: A rapidly expanding group of cell surface proteolytic enzymes with potential roles in cancer[J]. Cancer Metastasis Reviews, 2003, 22(2/3): 237-258. DOI:10.1023/a:1023003616848.
[6] RINALDI A C, MANGONI M L N, RUFO A N, et al. Temporin L: antimicrobial, haemolytic and cytotoxic activities, and effects on membrane permeabilization in lipid vesicles[J]. Biochemical Journal, 2002, 368(Pt1): 91-100. DOI:10.1042/BJ20020806.
[7] MANKAD V N. Exciting new treatment approaches for pathyphysiologic mechanisms of sickle cell disease[J]. Pediatric Pathology & Molecular Medicine, 2001, 20(1): 1-13. DOI:10.1080/15513810109168814.
[8] JAFRI S M. The effects of beta blockers on morbidity and mortality in heart failure[J]. Heart Failure Reviews, 2004, 9(2): 115-121. DOI:10.1023/B:HREV.0000046366.31764.ca.
[9] LANG E, BISSINGER R, GULBINS E, et al. Ceramide in the regulation of eryptosis, the suicidal erythrocyte death[J]. Apoptosis: an International Journal on Programmed Cell Death, 2015, 20(5): 758-767. DOI:10.1007/s10495-015-1094-4.
[10] PERERA M N, GANESAN V, SISKIND L J, et al. Ceramide channel: structural basis for selective membrane targeting[J]. Chemistry and Physics of Lipids, 2016, 194: 110-116. DOI:10.1016/j.chemphyslip.2015.09.007.
[11] YUAN T, FAN W B, CONG Y, et al. Linoleic acid induces red blood cells and hemoglobin damage via oxidative mechanism[J]. International Journal of Clinical and Experimental Pathology, 2015, 8(5): 5044-5052.
[12] TAKEICHI T. SDR9C7 plays an essential role in skin barrier function by dehydrogenating acylceramide for covalent attachment to proteins[J]. Journal of Dermatological Science, 2020, 98(2): 82-87. DOI:10.1016/j.jdermsci.2020.03.005.
[13] SHIGEHARA Y, OKUDA S, NEMER G, et al. Mutations in SDR9C7 gene encoding an enzyme for vitamin A metabolism underlie autosomal recessive congenital ichthyosis[J]. Human Molecular Genetics, 2016, 25(20): 4484-4493. DOI:10.1093/hmg/ddw277.
[14] TAKEICHI T, NOMURA T, TAKAMA H, et al. Deficient stratum corneum intercellular lipid in a Japanese patient with lamellar ichthyosis with a homozygous deletion mutation in SDR9C7[J]. British Journal of Dermatology, 2017, 177(3): e62-e64. DOI:10.1111/bjd.15315.
[15] HOTZ A, FAGERBREG C, VAHLQUIST A, et al. Identification of mutations in SDR9C7 in six families with autosomal recessive congenital ichthyosis[J]. British Journal of Dermatology, 2018, 178(3): e207-e209. DOI:10.1111/bjd.15994.
[16] KARIM N, MURTAZA G, NAEEM M. Whole-exome sequencing identified a novel frameshift mutation in SDR9C7 underlying autosomal recessive congenital ichthyosis in a Pakistani family[J]. British Journal of Dermatology, 2017, 177(5): e191-e192. DOI:10.1111/bjd.15535.
[17] ZHANG H Q, ERICSSON M, VIRTANEN M, et al. Quantitative image analysis of protein expression and colocalisation in skin sections[J]. Experimental Dermatology, 2018, 27(2): 196-199. DOI:10.1111/exd.13457.
[18] SEIDL-PHILIPP M, SCHOSSIG A S, MOOSBRUGGER-MARTINZ V, et al. Impaired epidermal barrier in autosomal recessive congenital ichthyosis (ARCI) caused by missense mutations in SDR9C7 in two Austrian sisters[J]. Journal der Deutschen Dermatologischen Gesellschaft, 2019, 17(7): 742-745. DOI:10.1111/ddg.13843.
[19] 李银玲, 周洁, 周晶, 等. mSdr9c7基因在C57BL/6J小鼠不同组织中表达水平的研究[J]. 广西师范大学学报(自然科学版), 2021, 39(1): 148-155.
[1] LI Yinling, ZHOU Jie, ZHOU Jing, CHEN Qiaoyuan, ZENG Zhipeng, LIN Wanhua. Study on the Expression Level of mSdr9c7 Gene in Different Tissues of C57BL/6J Mice [J]. Journal of Guangxi Normal University(Natural Science Edition), 2021, 39(1): 148-155.
[2] MEI Han-bing, WANG Wei, YAO Xue, CHENG Lian-biao, HUANG Jin. Inhibitory Activity and Mechanism of Hsp90 Inhibitor Cynaroside Against Non-small Cell Lung Cancer in Vitro [J]. Journal of Guangxi Normal University(Natural Science Edition), 2015, 33(3): 91-97.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] HU Jinming, WEI Duqu. Hybrid Projective Synchronization of Fractional-order PMSM with Different Orders[J]. Journal of Guangxi Normal University(Natural Science Edition), 2021, 39(4): 1 -8 .
[2] WU Kangkang, ZHOU Peng, LU Ye, JIANG Dan, YAN Jianghong, QIAN Zhengcheng, GONG Chuang. FIR Equalizer Based on Mini-batch Gradient Descent Method[J]. Journal of Guangxi Normal University(Natural Science Edition), 2021, 39(4): 9 -20 .
[3] LIU Dong, ZHOU Li, ZHENG Xiaoliang. A Very Short-term Electric Load Forecasting Based on SA-DBN[J]. Journal of Guangxi Normal University(Natural Science Edition), 2021, 39(4): 21 -33 .
[4] ZHANG Weibin, WU Jun, YI Jianbing. Research on Feature Fusion Controlled Items Detection Algorithm Based on RFB Network[J]. Journal of Guangxi Normal University(Natural Science Edition), 2021, 39(4): 34 -46 .
[5] WANG Jinyan, HU Chun, GAO Jian. An OBDD Construction Method for Knowledge Compilation[J]. Journal of Guangxi Normal University(Natural Science Edition), 2021, 39(4): 47 -54 .
[6] LU Miao, HE Dengxu, QU Liangdong. Grey Wolf Optimization Algorithm Based on Elite Learning for Nonlinear Parameters[J]. Journal of Guangxi Normal University(Natural Science Edition), 2021, 39(4): 55 -67 .
[7] LI Lili, ZHANG Xingfa, LI Yuan, DENG Chunliang. Daily GARCH Model Estimation Using High Frequency Data[J]. Journal of Guangxi Normal University(Natural Science Edition), 2021, 39(4): 68 -78 .
[8] LI Songtao, LI Qunhong, ZHANG Wen. Co-dimension-two Grazing Bifurcation and Chaos Control of Three-degree-of-freedom Vibro-impact Systems[J]. Journal of Guangxi Normal University(Natural Science Edition), 2021, 39(4): 79 -92 .
[9] ZHAO Hongtao, LIU Zhiwei. Decompositions of λ-fold Complete Bipartite 3-uniform Hypergraphs λK(3)n,n into Hypergraph Triangular Bipyramid[J]. Journal of Guangxi Normal University(Natural Science Edition), 2021, 39(4): 93 -98 .
[10] LI Meng, CAO Qingxian, HU Baoqing. Spatial-temporal Analysis of Continental Coastline Migration from 1960 to 2018 in Guangxi, China[J]. Journal of Guangxi Normal University(Natural Science Edition), 2021, 39(4): 99 -108 .
Copyright © Journal of Guangxi Normal University(Natural Science Edition), All Rights Reserved.
Tel: 0773-5857325 E-mail: gxsdzkb@mailbox.gxnu.edu.cn
Powered by Beijing Magtech Co. Ltd