Journal of Peking University (Health Sciences) ›› 2020, Vol. 52 ›› Issue (5): 892-896. doi: 10.19723/j.issn.1671-167X.2020.05.016

Previous Articles     Next Articles

Association of Semaphorin 3A with thrombocytopenia in systemic lupus erythematosus

Qian GUO1,2*,Xiao-xu MA1*,Hui GAO2,Lian-jie SHI2,Yu-chao ZHONG1,Lin-feng XIE1,Miao SHAO1,Xue-wu ZHANG1,()   

  1. 1. Department of Rheumatology and Immunology, Peking University People’s Hospital, Beijing 100044, China
    2. Department of Rheumatology and Immunology, Peking University International Hospital, Beijing 102206, China
  • Received:2018-07-09 Online:2020-10-18 Published:2020-10-15
  • Contact: Xue-wu ZHANG E-mail:xuewulore@163.com
  • Supported by:
    National Natural Science Foundation of China(81501396)

RICH HTML

  

Abstract:

Objective: To measure the level of serum Semaphorin 3A (Sema3A) and to analyze the relationship between serum Sema3A and systemic lupus erythematosus (SLE) with thrombocytopenia. Methods: The concentration of serum Sema3A was detected by enzyme-linked immuno sorbent assay (ELISA) in 170 SLE patients, 50 Sjögren’s syndrome (SS) patients, 19 hypersplenism (HS) patients and 150 healthy controls (HC). Based on the presence of thrombocytopenia and whether the thrombocytopenia was in remission, the SLE patients were divided into three groups: SLE with thrombocytopenia (41 cases), SLE with thrombocytopenia remission (28 cases), and SLE without thrombocytopenia (101 cases). According to whether there was thrombocytopenia, the SS patients were divided into SS with thrombocytopenia (18 cases) and SS without thrombocytopenia (32 cases). The 28 SLE patients who underwent bone marrow aspiration biopsy were divided into two groups from the aspect of whether the bone marrow hyperplasia was normal (19 cases) or low (9 cases), as well as from the aspect of whether the maturity disturbance of megakaryocyte was positive (8 cases) or negative (20 cases). The serum Sema3A levels in SLE, SS, HS with HC were compared, meanwhile, the correlation between serum Sema3A level and platelet (PLT) in the patients with different diseases analyzed. Results: (1) Serum Sema3A levels in SLE were significantly lower than in HC [(3.84±2.76) μg/L vs. (6.96±2.62) μg/L, P<0.001], serum Sema3A levels in SS were also obviously lower than in HC [(4.35±3.57) μg/L vs. (6.96±2.62) μg/L, P<0.001], and in HS it was lower than HC at a certain extant [(5.67±2.26) μg/L vs. (6.96±2.62) μg/L, P=0.041]. (2) Serum Sema3A levels in SLE were slightly lower than in SS, but there was no significant difference [(3.84±2.76) μg/L vs. (4.35±3.57) μg/L, P=0.282]. However, when compared with HS, serum Sema3A levels in SLE were significantly lower [(3.84±2.76) μg/L vs. (5.67±2.26) μg/L, P=0.006]. (3) Serum Sema3A concentration in SLE with thrombocytopenia was significantly lower than in SLE with thrombocytopenia remission [(1.28±1.06) μg/L vs. (3.83±2.65) μg/L, P<0.001], and in SLE patients without thrombocytopenia [(1.28±1.06) μg/L vs. (4.87±2.60) μg/L, P <0.001]. There was no significant difference between SLE with thrombocytopenia remission and SLE without thrombocytopenia [(3.83±2.65) μg/L vs. (4.87±2.600 μg/L, P=0.123]. Serum Sema3A concentration in SLE with thrombocytopenia was slightly lower than in SS with thrombocytopenia, but there was no significant difference [(1.28±1.06) μg/L vs. (1.68±1.11) μg/L, P=0.189]. (4) Strong positive correlations were found between serum Sema3A and PLT in SLE (r=0.600, P<0.001). Positive correlations were also found between serum Sema3A and PLT in SS (r=0.573, P<0.001). However, there was no such correlation showed in HS patients (P=0.393). (5) There was no significant difference of serum Sema3A concentration in SLE whether the bone marrow hyperplasia was normal or low. And the same situation appeared in the patients whether the maturity disturbance of megakaryocyte was positive or negative (P>0.05). Conclusion: Serum Sema3A was significantly reduced in SLE patients, and it was highly correlated with the blood damage. Similar conclusions could be drawn in patients with SS. The serum level of Sema3A was generally decreasing in desmosis which merged thrombocytopenia, and was obviously positive correlated with platelet counts.

Key words: Semaphorin 3A, Lupus erythematosus, systemic, Thrombocytopenia

CLC Number: 

  • R593.24

Table 1

General characteristics and serum Sema3A concentration of each group"

Groups n Age/years Male/Female, n PLT/(×109/L) Sema3A/(μg/L) P*
SLE 170 34.49±14.53 22/148 163.88±88.61 3.84±2.76 <0.001
SS 50 51.63±13.13 6/44 125.84±74.90 4.35±3.57 <0.001
HS 19 57.58±11.16 11/8 51.0(11.0-116.0) 5.67±2.26 0.041
HC 150 42.05±12.82 31/119 6.96±2.62

Figure 1

Correlation between serum Semaphorin 3A levels and platelet count in patients with SLE, SS and HS A, relationship between serum Semaphorin 3A and PLT in SLE; B, relationship between serum Semaphorin 3A and PLT in SS; C, relationship between serum Semaphorin 3A and PLT in HS. SLE, systemic lupus erythematosus; SS, Sjögren’s syndrome; HS, hypersplenism; PLT, platelet. "

Figure 2

Serum Semaphorin 3A levels in different bone marrow A, level of serum Semaphorin 3A in bone marrow hyperplasia normal group and low group; B, level of serum Semaphorin 3A in maturity disturbance of megakaryocyte positive group and negative group. MKs, megakaryocytes. "

[1] Sarris M, Andersen KG, Randow F, et al. Neuropilin-1 expression on regulatory T cells enhances their interactions with dendritic cells during antigen recognition[J]. Immunity, 2008,28(3):402-413.
doi: 10.1016/j.immuni.2008.01.012
[2] Ji JD, Park-Min KH, Ivashkiv LB. Expression and function of semaphorin 3A and its receptors in human monocyte-derived macrophages[J]. Hum Immunol, 2009,70(4):211-217.
doi: 10.1016/j.humimm.2009.01.026
[3] Lepelletier Y, Moura IC, Hadj-Slimane R, et al. Immunosuppressive role of semaphorin-3A on T cell proliferation is mediated by inhibition of actin cytoskeleton reorganization[J]. Eur J Immunol, 2006,36(7):1782-1793.
doi: 10.1002/eji.200535601 pmid: 16791896
[4] Catalano A, Caprari P, Moretti S, et al. Semaphorin 3A is expressed by tumor cells and alters T-cell signal transduction and function[J]. Blood, 2006,107(8):3321-3329.
doi: 10.1182/blood-2005-06-2445 pmid: 16380453
[5] Vadasz Z, Haj T, Halasz K, et al. Semaphorin 3A is a marker for disease activity and a potential immunoregulator in systemic lupus erythematosus[J]. Arthritis Res Ther, 2012,14(3):R146.
doi: 10.1186/ar3881 pmid: 22697500
[6] Sturrock RD. Hematologic disorders in rheumatic disease[J]. Curr Opin Rheumatol, 1991,3(1):172.
doi: 10.1097/00002281-199102000-00024 pmid: 2043444
[7] Kashiwagi H, Shiraga M, Kato H, et al. Negative regulation of platelet function by a secreted cell repulsive protein, semaphorin 3A[J]. Blood, 2005,106(3):913-921.
doi: 10.1182/blood-2004-10-4092 pmid: 15831706
[8] 高辉, 马晓旭, 郭倩, 等. Sema3A在系统性红斑狼疮患者血清及单个核细胞中的表达[J]. 中华医学杂志, 2017,97(5):370-374.
[9] Okuno T, Nakatsuji Y, Kumanogoh A. The role of immune semaphorins in multiple sclerosis[J]. FEBS Lett, 2011,585(23):3829-3835.
doi: 10.1016/j.febslet.2011.03.033
[10] Eixarch H, Gutierrez-Franco A, Montalban X, et al. Semaphorins 3A and 7A: potential immune and neuroregenerative targets in multiple sclerosis[J]. Trends Mol Med, 2013,19(3):157-164.
doi: 10.1016/j.molmed.2013.01.003 pmid: 23419749
[11] Takagawa S, Nakamura F, Kumagai K, et al. Decreased semaphorin3A expression correlates with disease activity and histological features of rheumatoid arthritis[J]. BMC Musculoskelet Disord, 2013,14:40.
doi: 10.1186/1471-2474-14-40 pmid: 23343469
[12] Kuwana M, Kawakami Y, Ikeda Y. Suppression of autoreactive T-cell response to glycoprotein Ⅱb/Ⅲa by blockade of CD40/CD154 interaction: implications for treatment of immune thrombocytopenic purpura[J]. Blood, 2003,101(2):621-623.
doi: 10.1182/blood-2002-07-2157 pmid: 12393517
[13] Shenoy S, Mohanakumar T, Chatila T, et al. Defective apoptosis in lymphocytes and the role of IL-2 in autoimmune hematologic cytopenias[J]. Clin Immunol, 2001,99(2):266-275.
doi: 10.1006/clim.2001.5017
[14] Panitsas FP, Theodoropoulou M, Kouraklis A, et al. Adult chro-nic idiopathic thrombocytopenic purpura (ITP) is the manifestation of a type-1 polarized immune response[J]. Blood, 2004,103(7):2645-2647.
doi: 10.1182/blood-2003-07-2268 pmid: 14670926
[15] Ling Y, Cao X, Yu Z, et al. Circulating dendritic cells subsets and CD4+Foxp3+ regulatory T cells in adult patients with chronic ITP before and after treatment with high-dose dexamethasome [J]. Eur J Haematol, 2007,79(4):310-316.
doi: 10.1111/j.1600-0609.2007.00917.x pmid: 17692100
[16] Olsson B, Andersson PO, Jernas M, et al. T-cell-mediated cytotoxicity toward platelets in chronic idiopathic thrombocytopenic purpura[J]. Nat Med, 2003,9(9):1123-1124.
doi: 10.1038/nm921 pmid: 12937414
[17] Wannemacher KM, Wang L, Zhu L, et al. The role of sema-phorins and their receptors in platelets: Lessons learned from neuronal and immune synapses[J]. Platelets, 2011,22(6):461-465.
doi: 10.3109/09537104.2011.561891
[1] Zhihui WU, Mingzhi HU, Qiaoying ZHAO, Fengfeng LV, Jingying ZHANG, Wei ZHANG, Yongfu WANG, Xiaolin SUN, Hui WANG. Immunomodulatory mechanism of umbilical cord mesenchymal stem cells modified by miR-125b-5p in systemic lupus erythematosus [J]. Journal of Peking University (Health Sciences), 2024, 56(5): 860-867.
[2] Limin REN,Chuchu ZHAO,Yi ZHAO,Huiqiong ZHOU,Liyun ZHANG,Youlian WANG,Lingxun SHEN,Wenqiang FAN,Yang LI,Xiaomei LI,Jibo WANG,Yongjing CHENG,Jiajing PENG,Xiaozhen ZHAO,Miao SHAO,Ru Li. Low disease activity and remission status of systemic lupus erythematosus in a real-world study [J]. Journal of Peking University (Health Sciences), 2024, 56(2): 273-278.
[3] Wen-gen LI,Xiao-dong GU,Rui-qiang WENG,Su-dong LIU,Chao CHEN. Expression and clinical significance of plasma exosomal miR-34-5p and miR-142-3p in systemic sclerosis [J]. Journal of Peking University (Health Sciences), 2023, 55(6): 1022-1027.
[4] Zhi-jun LUO,Jia-jia WU,You SONG,Chun-li MEI,Rong DU. Systemic lupus erythematosus associated macrophage activation syndrome with neuropsychiatric symptoms: A report of 2 cases [J]. Journal of Peking University (Health Sciences), 2023, 55(6): 1111-1117.
[5] Hai-hong YAO,Fan YANG,Su-mei TANG,Xia ZHANG,Jing HE,Yuan JIA. Clinical characteristics and diagnostic indicators of macrophage activation syndrome in patients with systemic lupus erythematosus and adult-onset Still's disease [J]. Journal of Peking University (Health Sciences), 2023, 55(6): 966-974.
[6] Xiang-ge ZHAO,Jia-qing LIU,Hui-na HUANG,Zhi-min LU,Zi-ran BAI,Xia LI,Jing-jing QI. Interferon-α mediating the functional damage of CD56dimCD57+natural killer cells in peripheral blood of systemic lupus erythematosuss [J]. Journal of Peking University (Health Sciences), 2023, 55(6): 975-981.
[7] Zhuo-hua LIN,Ru-yi CAI,Yang SUN,Rong MU,Li-gang CUI. Methodology and clinical use of superb microvascular imaging in assessing micro-circulation changes of fingertips in systemic sclerosis [J]. Journal of Peking University (Health Sciences), 2023, 55(4): 636-640.
[8] Lin-qi ZHANG,Jing ZHAO,Hong-yan WANG,Zong-yi WANG,Ying-ni LI,Ji-yang TANG,Si-ying LI,Jin-feng QU,Ming-wei ZHAO. Relationship between anti-ENO1 antibody and systemic lupus erythematosus patients with retinopathy [J]. Journal of Peking University (Health Sciences), 2022, 54(6): 1099-1105.
[9] Min LI,Lin-qing HOU,Yue-bo JIN,Jing HE. Clinical and immunological characteristics of systemic lupus erythematosus with retinopathy [J]. Journal of Peking University (Health Sciences), 2022, 54(6): 1106-1111.
[10] Miao SHAO,Hui-fang GUO,Ling-yan LEI,Qing ZHAO,Yan-jie DING,Jin LIN,Rui WU,Feng YU,Yu-cui LI,Hua-li MIAO,Li-yun ZHANG,Yan DU,Rui-ying JIAO,Li-xia PANG,Li LONG,Zhan-guo LI,Ru LI. A multicenter study on the tolerance of intravenous low-dose cyclophosphamide in systemic lupus erythematosus [J]. Journal of Peking University (Health Sciences), 2022, 54(6): 1112-1116.
[11] Fu-zheng GUO,Xiu-juan ZHAO,Jiu-xu DENG,Zhe DU,Tian-bing WANG,Feng-xue ZHU. Early changes within the lymphocyte population are associated with the long term prognosis in severely injured patients [J]. Journal of Peking University (Health Sciences), 2022, 54(3): 552-556.
[12] TIAN Jia-yi,ZHANG Xia,CHENG Gong,LIU Qing-hong,WANG Shi-yang,HE Jing. Serum interleukin-2 receptor α as a clinical biomarker in patients with systemic lupus erythematosus [J]. Journal of Peking University (Health Sciences), 2021, 53(6): 1083-1087.
[13] Zheng-fang LI,Xue WU,Li-jun WU,Cai-nan LUO,Ya-mei SHI,Yan ZHONG,Xiao-mei CHEN,Xin-yan MENG. Clinical features of patients with Rhupus syndrome [J]. Journal of Peking University (Health Sciences), 2021, 53(5): 933-937.
[14] Jian-mei ZOU,Li-jun WU,Cai-nan LUO,Ya-mei SHI,Xue WU. Relationship of serum 25- hydroxy vitamin D and systemic lupus erythematosus [J]. Journal of Peking University (Health Sciences), 2021, 53(5): 938-941.
[15] MA Xiang-bo,ZHANG Xue-wu,JIA Ru-lin,GAO Ying,LIU Hong-jiang,LIU Yu-fang,LI Ying-ni. Application of lymphocytes test in peripheral blood of patients with systemic sclerosis during the treatment [J]. Journal of Peking University (Health Sciences), 2021, 53(4): 721-727.
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
No Suggested Reading articles found!