Skip to content
2000
Volume 21, Issue 3
  • ISSN: 1573-3971
  • E-ISSN: 1875-6360

Abstract

Background

Juvenile-onset systemic lupus erythematosus (jSLE) is an uncommon yet severe autoimmune/inflammatory condition affecting multiple bodily systems, typically manifesting before the age of 18. This disease exhibits significant complexity, displaying considerable variation among patients. Its effects can range in severity from minor to fatal, characterized by a pattern of recurring flare-ups and periods of remission, making its natural progression difficult to predict.

Aim

The aim of this work is to investigate the correlation between semaphorin 3A and systemic lupus erythematosus patients who follow up at Pediatric Rheumatology Unit Children's Hospital at Cairo University.

Materials and Methods

This cross-sectional research was performed at the Pediatric Rheumatology Unit Cairo University Children's Hospital and included cases with jSLE under treatment and follow-up from the period of August 2021 to August 2022.

Results

Regarding demographic data of the studied subjects, highly significant variances were noted among the patient group and control group regarding age (years) and sex. However, there were non-significant variances among the patient group and control group concerning weight.

In the current research, median (IQR) onset of disease was 2 (1-3) years, mean ± SD age at disease diagnosis was 8.98 ± 2.13 years, median (IQR) disease duration 2 (1-3) years, family history was negative in 36 (90.0%) patients and consanguinity was negative in 28 (70.0%).

The distribution of the manifestations within the patients group was as follows 7 (17.5%) with mucocutaneous, 7 (17.5%) with vasculitis, 4 (10.0%) with serositis, 11 (27.5%) with cardiac, 17 (42.5%) with renal, 11 (27.5%) with GIT, 5 (12.5%) with hematological, and 4 (10.0%) with neurological manifestations. In addition, there were 2 (5.0%) with arthritis, 31 (77.5%) with arthralgia, and 2 (5.0%) with fever, mean ± SD systolic BP was 115.95 ± 8.38 and mean ± SD diastolic BP was 75.60 ± 6.11.

Regarding treatments in the patients’ group, the median steroid dose was 15 mg (5-25) with median duration of 2 (1-3), 38 (95.0%) patients received hydroxychloroquine with mean ± SD hydroxychloroquine dose of 205.26 mg ± 51.71. 23 (57.5%) patients received cyclophosphamide with mean ± SD number of cyclophosphamide doses 7.17 mg ± 2.42. Mycophenolate was received in 27 (67.5%) with mean ± SD dose of 614.07 mg ± 225.85.

There were highly statistically significant differences between control group and patients’ group concerning TLC, creatinine, and ESR. Highly statistically significant variance was noted among the control group and patients group concerning CRP.

Regarding the patients' group, the mean ± SD serum C3 was 99.89 mg/dl ± 28.45, median (IQR) serum C4 was 14.5 mg/dl (8.8-25.5), and median (IQR) albumin creatinine ratio was 27 IU/ML (16-186). There was positive ANA with titre and pattern in 34 patients (85.0%), positive antids-DNA in 25 patients (62.5%), and positive anticardiolipin IgM and IgG in 5 patients (12.5%).

Renal biopsy was found to be normal in 23 (57.5%), lupus nephritis class II, III in 3 (7.5 percent), lupus nephritis class III in 10 (25.0%), and lupus nephritis class IV in 4 (10.0%). Urine analysis results showed the following: normal in 28 (70.0%), albumin in 2 (5.0%), casts in 2 (5.0%), pus cell in 4 (10.0%), albumin + casts in 2 (5.0%) and albumin + pus cell in 2 (5.0%).

Regarding semaphorin 3A level, a highly statistically significant variance was noted among the control and patients group concerning semaphorin 3A level found to be lower in cases than control with a -value below 0.001. In patients’ group, a negative correlation for semaphorin 3A with SBP, DBP, AST and ESR and also a positive correlation with steroid duration in the studied patients was noted. In addition, highly significant association between semaphorin 3A and positive CRP was also observed. However, no significant relationship between semaphorin 3A and SLE manifestations except arthritis was found related to semaphorin 3A level.

ROC curve shows that the semaphorin 3A cut-off point to predict SLE ≤ 3 with sensitivity = 47.50, specificity=92.50, PPV=86.4, and NPV=63.8.

Conclusion

Reduced plasma Semaphorin 3A levels were found in this study; furthermore, their clinical relationship in SLE proposes their significant job in this illness. Furthermore, the ROC results demonstrated that Semaphorin 3A could be a new symptomatic biomarker in SLE with very high sensitivity for the determination of SLE, demonstrating that they might be helpful biomarkers for the evaluation of SLE. However, extra studies that focus on the potential role of Semaphorin 3A in SLE are needed.

© 2025 Bentham Science Publishers
Loading

Article metrics loading...

/content/journals/crr/10.2174/0115733971304540240710094833
2024-07-18
2025-09-01

  • From This Site

    /content/journals/crr/10.2174/0115733971304540240710094833
    dcterms_title,dcterms_subject,pub_keyword
    -contentType:Contributor -contentType:Concept -contentType:Institution
    10
    5
Loading full text...

Full text loading...

References

  1. KiriakidouM. ChingC.L. Systemic Lupus Erythematosus.Ann. Intern. Med.202017211ITC81ITC9610.7326/AITC202006020 32479157
     [Google Scholar]
  2. Pons-EstelG.J. AlarconG.S. ScofieldL. ReinlibL. CooperG.S. Understanding the epidemiology and progression of systemic lupus erythematosus.Semin. Arthritis Rheum.201039257268
     [Google Scholar]
  3. BarberM.R.W. DrenkardC. FalasinnuT. Global epidemiology of systemic lupus erythematosus.Nat. Rev. Rheumatol.202117951553210.1038/s41584‑021‑00668‑1 34345022
     [Google Scholar]
  4. FanouriakisA. TziolosN. BertsiasG. BoumpasD.T. Update οn the diagnosis and management of systemic lupus erythematosus.Ann. Rheum. Dis.2021801142510.1136/annrheumdis‑2020‑218272 33051219
     [Google Scholar]
  5. FillatreauS. ManfroiB. DörnerT. Toll-like receptor signalling in B cells during systemic lupus erythematosus.Nat. Rev. Rheumatol.20211729810810.1038/s41584‑020‑00544‑4 33339987
     [Google Scholar]
  6. ShipaM. Embleton-ThirskA. ParvazM. Effectiveness of belimumab after rituximab in systemic lupus erythematosus: A randomized controlled trial.Ann. Intern. Med.2021174121647165710.7326/M21‑2078 34698499
     [Google Scholar]
  7. SahinS. AdrovicA. BarutK. Juvenile systemic lupus erythematosus in Turkey: Demographic, clinical and laboratory features with disease activity and outcome.Lupus201827351451910.1177/0961203317747717 29233038
     [Google Scholar]
  8. PoddigheD. DauyeyK. Macrophage activation syndrome in juvenile dermatomyositis: A systematic review.Rheumatol. Int.202040569570210.1007/s00296‑019‑04442‑1 31529231
     [Google Scholar]
  9. GromA.A. MellinsE.D. Macrophage activation syndrome: Advances towards understanding pathogenesis.Curr. Opin. Rheumatol.201022556156610.1097/01.bor.0000381996.69261.71
     [Google Scholar]
  10. AbdirakhmanovaA. SazonovV. MukushevaZ. AssylbekovaM. AbdukhakimovaD. PoddigheD. Macrophage activation syndrome in pediatric systemic lupus erythematosus: A systematic review of the diagnostic aspects.Front. Med.2021868187510.3389/fmed.2021.681875 34150813
     [Google Scholar]
  11. IzmirlyP.M. KimM.Y. SamanovicM. Evaluation of immune response and disease status in systemic lupus erythematosus patients following SARS–CoV‐2 vaccination.Arthritis Rheumatol.202274228429410.1002/art.41937 34347939
     [Google Scholar]
  12. FeltenR. KawkaL. DuboisM. Tolerance of COVID-19 vaccination in patients with systemic lupus erythematosus: the international VACOLUP study.Lancet Rheumatol.202139e613e61510.1016/S2665‑9913(21)00221‑6 34312612
     [Google Scholar]
  13. BartelsL.E. AmmitzbøllC. AndersenJ.B. Local and systemic reactogenicity of COVID-19 vaccine BNT162b2 in patients with systemic lupus erythematosus and rheumatoid arthritis.Rheumatol. Int.202141111925193110.1007/s00296‑021‑04972‑7 34476603
     [Google Scholar]
  14. CurreliS. WongB.S. LatinovicO. KonstantopoulosK. StamatosN.M. Class 3 semaphorins induce F-actin reorganization in human dendritic cells: Role in cell migration.J. Leukoc. Biol.201610061323133410.1189/jlb.2A1114‑534R 27406993
     [Google Scholar]
  15. Fernandez-RuizR. ParedesJ.L. NiewoldT.B. COVID-19 in patients with systemic lupus erythematosus: Lessons learned from the inflammatory disease.Transl. Res.2021232133610.1016/j.trsl.2020.12.007 33352298
     [Google Scholar]
  16. UrowitzM.B. GladmanD.D. IbañezD. Evolution of disease burden over five years in a multicenter inception systemic lupus erythematosus cohort.Arthritis Care Res.201264113213710.1002/acr.20648 21954226
     [Google Scholar]
  17. Abo-AliA. Abdel-HafezM. El-BendaryA. AbdelnabiH. Serum interleukins 2 and 10 in juvenile systemic lupus erythematosus: relation to disease activity.Egypt. J. Pediatr. Allergy Immunol.2021192899510.21608/ejpa.2021.58451.1018
     [Google Scholar]
  18. FavaA. PetriM. Systemic lupus erythematosus: Diagnosis and clinical management.J. Autoimmun.20199611310.1016/j.jaut.2018.11.001 30448290
     [Google Scholar]
  19. AltoL.T. TermanJ.R. Semaphorins and their signaling mechanisms.Methods Mol. Biol.2017149312510.1007/978‑1‑4939‑6448‑2_1 27787839
     [Google Scholar]
  20. XuR. Semaphorin 3A.Cell Adhes. Migr.20148151010.4161/cam.27752 24589620
     [Google Scholar]
  21. WatsonL. LeoneV. PilkingtonC. Disease activity, severity, and damage in the UK juvenile‐onset systemic lupus erythematosus cohort.Arthritis Rheum.20126472356236510.1002/art.34410 22294381
     [Google Scholar]
  22. MassiasJ.S. SmithE.M.D. Al-AbadiE. Clinical and laboratory characteristics in juvenile-onset systemic lupus erythematosus across age groups.Lupus202029547448110.1177/0961203320909156 32233733
     [Google Scholar]
  23. EesaN.N. Abdel NabiH. OwaidyR.E. Systemic lupus erythematosus children in Egypt: Homeland spectrum amid the global situation.Lupus202130132135214310.1177/09612033211043010 34528835
     [Google Scholar]
  24. AvarP.O. ShanJ. BrunnerH.I. MitsnefesM.M. Blood pressure control over time in childhood-onset systemic lupus erythematous.Lupus201827465766410.1177/0961203317751061 29301473
     [Google Scholar]
  25. AggarwalA. PhatakS. SrivastavaP. LawrenceA. AgarwalV. MisraR. Outcomes in juvenile onset lupus: Single center cohort from a developing country.Lupus201827111867187510.1177/0961203318791046 30071768
     [Google Scholar]
  26. CostagliolaG. MoscaM. MiglioriniP. ConsoliniR. Pediatric systemic lupus erythematosus: Learning from longer follow up to adulthood.Front Pediatr.2018614410.3389/fped.2018.00144 29868531
     [Google Scholar]
  27. LuL.J. WallaceD.J. IshimoriM.L. ScofieldR.H. WeismanM.H. Review: Male systemic lupus erythematosus: A review of sex disparities in this disease.Lupus2010192119129
     [Google Scholar]
  28. ChiewchengcholD. MurphyR. EdwardsS.W. BeresfordM.W. Mucocutaneous manifestations in juvenile-onset systemic lupus erythematosus: A review of literature.Pediatr. Rheumatol. Online J.201513110.1186/1546‑0096‑13‑1
     [Google Scholar]
  29. SmithE.M.D. LythgoeH. HedrichC.M. Vasculitis in juvenile-onset systemic lupus erythematosus.Front Pediatr.2019714910.3389/fped.2019.00149 31143758
     [Google Scholar]
  30. LevyD.M. KamphuisS. Systemic lupus erythematosus in children and adolescents.Pediatr. Clin. North Am.201259234536410.1016/j.pcl.2012.03.007 22560574
     [Google Scholar]
  31. ChangJ.C. XiaoR. Mercer-RosaL. KnightA.M. WeissP.F. Child-onset systemic lupus erythematosus is associated with a higher incidence of myopericardial manifestations compared to adult-onset disease.Lupus201827132146215410.1177/0961203318804889 30318995
     [Google Scholar]
  32. SozeriB. DeveciM. DincelN. MirS. The early cardiovascular changes in pediatric patients with systemic lupus erythematosus.Pediatr. Nephrol.201328347147610.1007/s00467‑012‑2342‑2 23135607
     [Google Scholar]
  33. NandiM. MondalR. Renal involvement in childhood lupus: A study from Kolkata, India.Saudi J. Kidney Dis. Transpl.201223487187510.4103/1319‑2442.98194 22805413
     [Google Scholar]
  34. SönmezH.E. KarhanA.N. BatuE.D. Gastrointestinal system manifestations in juvenile systemic lupus erythematosus.Clin. Rheumatol.20173671521152610.1007/s10067‑017‑3571‑3 28204893
     [Google Scholar]
  35. SuleS.D. MoodalbailD.G. BurnhamJ. FivushB. FurthS.L. Predictors of arthritis in pediatric patients with lupus.Pediatr. Rheumatol. Online J.20151330
     [Google Scholar]
  36. ChenY.J. LinY.J. GuoM.M.H. Pediatric lupus presenting as pulmonary hypertension, myocarditis, and massive pericardial effusion in an 11-year-old girl: A case report and literature review.Front Pediatr.20221077242210.3389/fped.2022.772422 35155304
     [Google Scholar]
  37. SuY.J. ChengT.T. ChenC.J. The association among leukocyte apoptosis, autoantibodies and disease severity in systemic lupus erythematosus.J. Transl. Med.201311126110.1186/1479‑5876‑11‑261 24138706
     [Google Scholar]
  38. DossybayevaK. BexeitovY. MukushevaZ. Analysis of peripheral blood basophils in pediatric systemic lupus erythematosus.Diagnostics2022127170110.3390/diagnostics12071701 35885605
     [Google Scholar]
  39. PinheiroS.V.B. DiasR.F. FabianoR.C.G. AraujoS.A. SilvaA.C.S. Pediatric lupus nephritis.J. Bras. Nefrol.201941225226510.1590/2175‑8239‑jbn‑2018‑0097 30465590
     [Google Scholar]
  40. AttarS.M. Pediatric systemic lupus erythematosus. Retrospective analysis of clinico-laboratory parameters and their association with systemic lupus erythematosus disease activity index score.Saudi Med. J.20183910106010.15537/smj.2018.10.23625 30284593
     [Google Scholar]
  41. AfzaliP. IsaeianA. SadeghiP. Complement deficiency in pediatric-onset systemic lupus erythematosus.J. Lab. Physicians201810223223610.4103/JLP.JLP_171_17 29692593
     [Google Scholar]
  42. RodsawardP. ChottawornsakN. SuwanchoteS. The clinical significance of antinuclear antibodies and specific autoantibodies in juvenile and adult systemic lupus erythematosus patients.Asian Pac. J. Allergy Immunol.2021394279286 31012595
     [Google Scholar]
  43. VadaszZ. ToubiE. Semaphorin 3A a marker for disease activity and a potential putative disease-modifying treatment in systemic lupus erythematosus.Lupus201221121266127010.1177/0961203312456753 22875653
     [Google Scholar]
  44. WangL. SongY. YiX. Semaphorin 7A accelerates the inflammatory osteolysis of periapical lesions.J. Endod.2022485641649.e210.1016/j.joen.2022.01.020 35218761
     [Google Scholar]
  45. GaoH. MaX.X. GuoQ. Expression and clinical significance of semaphorin 3A in serum and mononuclear cells in patients with systemic lupus erythematosus.Zhonghua Yi Xue Za Zhi2017975370374 28219195
     [Google Scholar]
  46. Abdel KaderM.S.E.M. Abd ElazizM.M. AhmedD.H. Role of serum anti-C1q antibodies as a biomarker for nephritis activity in pediatric and adolescent Egyptian female patients with SLE.Expert Opin. Med. Diagn.20126648949810.1517/17530059.2012.715632 23480832
     [Google Scholar]
  47. RaupovR. SuspitsinE. KalashnikovaE. IFN-I score and rare genetic variants in children with systemic lupus erythematosus.Biomedicines2024126124410.3390/biomedicines12061244
     [Google Scholar]
  48. SprowG. DanJ. MerolaJ.F. WerthV.P. Emerging therapies in cutaneous lupus erythematosus.Front. Med.2022996832310.3389/fmed.2022.968323 35899214
     [Google Scholar]
  49. ChoY.M. FurieR. The development of litifilimab (BIIB 059) for cutaneous and systemic lupus erythematosus.Immunotherapy2024161152010.2217/imt‑2023‑0086 37877249
     [Google Scholar]
/content/journals/crr/10.2174/0115733971304540240710094833
Loading
A Study on Semaphorin 3A Level in Juvenile-onset Systemic Lupus Erythematosus Patients
Curr. Rheumatol. Rev. 21, 288 (2025); https://doi.org/10.2174/0115733971304540240710094833
/content/journals/crr/10.2174/0115733971304540240710094833
/content/journals/crr/10.2174/0115733971304540240710094833
Loading

Data & Media loading...


  • Article Type:     Research Article
Keyword(s): cross-sectional research; immune regulation; immunity; Juvenile-Onset; Lupus Erythematosus; Semaphorin 3A

Most Cited Most Cited RSS feed

This is a required field
Please enter a valid email address
Approval was a Success
Invalid data
An Error Occurred
Approval was partially successful, following selected items could not be processed due to error
Please enter a valid_number test