DOI:

10.37988/1811-153X_2022_3_112

Squamous cell carcinoma antigen is a biomarker in determining the prognosis of lichen planus of the oral mucosa

Downloads

Authors

  • E.A. Gorbatova 1, PhD in Medical sciences, associate professor of the Dentistry Department
    ORCID ID: 0000-0002-7729-7979
  • M.V. Kozlova 1, PhD in Medical Sciences, full professor of the Dentistry Department
    ORCID ID: 0000-0002-3066-206X
  • E.S. Gerstein 2, PhD in Biological Sciences, professor of the Clinical biochemistry Laboratory
    ORCID ID: 0000-0002-3321-801X
  • N.E. Kushlinskii 2, Academician of the Russian Academy of Sciences, PhD in Medical Sciences, full professor of Clinical biochemistry Laboratory
    ORCID ID: 0000-0002-3898-4127
  • L.S. Dzikovitskaya 1, PhD in Medical sciences, associate professor of the Dentistry Department
    ORCID ID: 0000-0002-9899-6672
  • 1 Central State Medical Academy of Department of Presidential affairs, 121359, Moscow, Russia
  • 2 N.N. Blokhin Russian Cancer Research Center, 115522, Moscow, Russia

Abstract

Lichen planus refers to chronic dermatoses with manifestation on the oral mucosa, the clinical manifestations of which are based on a violation of the balance of the immune system. The determination of biomarkers in blood and saliva makes it possible to detect predictors of clinical significance in the diagnosis and assessment of the prognosis of diseases of the oral mucosa. Squamous cell carcinoma (SCC) antigen is considered one of these markers. There are no studies in the open literature on the concentration of SCC in mixed saliva in patients with precancerous conditions of the oral mucosa, which determined the purpose of this study. . 47 women aged 35-70 years with a clinical diagnosis of “lichen planus of the oral mucosa” (L43 according to ICD) were examined. Depending on the form of lichen planus (with a low and potential possibility of tumor transformation) and the treatment protocol, patients were divided into 3 groups: I - 10 patients with a typical form of lichen planus of the oral mucosa; II - 14 patients with exudative hyperemic lichen planus; III - 23 patients with erosive and ulcerative form of lichen planus on the mucous membranes of the mouth. Local treatment of typical and exudative hyperemic forms of lichen planus consisted in the use of oral baths of an oil solution of natural origin based on a complex of biologically active substances from pumpkin seeds. Patients with erosive and ulcerative form of lichen planus were added mouthwash with antiseptic solution, application of calcineurin inhibitor ointment. The duration of the course of therapy was 2 weeks. Monitoring was carried out at the diagnostic stage, after 14 and 90 days. At the first visit and after treatment, unstimulated mixed saliva was collected on an empty stomach and the concentration of SCC was determined by enzyme immunoassay. . Before treatment, the median SCC concentration in group I patients was 468 μg/mL (Q1-Q3=299-505 μg/mL), which was twice that in the control group 232 μg/mL. In group II, the median SCC concentration was 489 μg/mL (Q1-Q3=293-784 μg/mL) and in group III it was 527 μg/mL (Q1-Q3=260-1340 μg/mL). After treatment, SCC values decreased to 365, 460, and 811 μg/mL in groups I, II, and III, respectively. Discussion. The content of SCC has a direct relationship with the concentration of interleukins IL-4 and IL-13 in the oral fluid. Activation of SCC-1 occurs due to an increase in IL-4, which in turn interacts with mast cells that secrete TNF-α, which causes the destruction of the basal cell membranes and the development of an inflammatory reaction. The second form of SCC is induced by IL-13, which has similar biological activity to IL-4 and is produced by differentiated cytotoxic T-lymphocytes, activated B-lymphocytes and mast cells. These immunocompetent cells are present in the active phase of lichen planus disease. In addition, a high level of SCC may indicate the severity of an allergic and autoimmune component in the etiopathogenesis of lichen planus. The dynamics of SCC concentration in the oral fluid is closely related to the degree of severity of inflammatory phenomena of the oral mucosa. A decrease in the concentration of SCC in mixed saliva after treatment relative to the initial values of the marker confirms a long period of remission, and its increase, on the contrary, indicates a relapse of the disease after 90 days. . At the diagnostic stage, the concentration of SCC <500 μg/ml and its decrease after treatment is characteristic of a benign course and susceptibility to therapy. The concentration of SCC >500 μg/ml and its increase indicates a severe recurrent nature of the disease and low effectiveness of drug therapy. Determination of SCC concentration in oral fluid expands the scope of biomarkers in assessing the prognosis, clinical course and effectiveness of therapy for lichen planus of the oral mucosa.

Key words:

oral lichen planus, oral fluid biomarkers, squamous cell carcinoma antigen

For Citation

[1]
Gorbatova E.A., Kozlova M.V., Gerstein E.S., Kushlinskii N.E., Dzikovitskaya L.S. Squamous cell carcinoma antigen is a biomarker in determining the prognosis of lichen planus of the oral mucosa. Clinical Dentistry (Russia).  2022; 25 (3): 112—119. DOI: 10.37988/1811-153X_2022_3_112

References

  1. Antonov A.R., Tihonova E.V., Nacharov Yu.V., Nemchaninova O.B. Cytokine profile modification by reaferon-es-lipintom of the patients with lichen acuminatus. Fundamental research. 2006; 9: 55 (In Russ.). eLIBRARY ID: 10435686
  2. Gileva O.S., Koshkin S.V., Libik T.V., Gorodilova E.A., Khalyavina I.N. Periodontal aspects of oral mucosal diseases: lichen planus. Parodontologiya. 2017; 3 (84): 9—14 (In Russ.). eLIBRARY ID: 30060549
  3. Fedotova K.Iu., Zhukova O.V., Kruglova L.S., Ptashinskiĭ R.I. Lichen ruber planus: etiology, pathogenesis, clinical entities, histological pattern and the main treatment principles. Russian Journal of Clinical Dermatology and Venereology. 2014; 6: 9—20 (In Russ.). eLIBRARY ID: 23047241
  4. Udzhukhu V.Yu., Korotky N.G., Vasilyeva E.S., Kubylinsky A.A., Shemshuk M.I., Medvedeva A.S. Clinical immunological aspects of lichen planus development. Russian Journal of Skin and Venereal Diseases. 2015; 1: 18—21 (In Russ.). eLIBRARY ID: 22968821
  5. Tarasenko S.V., Shatokhin A.I., Umbetova K.T., Stepanov M.A. T-cells immunity in oral lichen planus pathogenesis. Stomatology. 2014; 1: 60—63 (In Russ.). eLIBRARY ID: 21218166
  6. Chuykin S.V., Akmalova G.M. Oral mucosa lichen planus: clinical forms, treatment. Kazan Medical Journal. 2014; 5: 680—687 (In Russ.). eLIBRARY ID: 22255377
  7. Perlamutrov Iu.N., Glazkova Iu.P., Tereshchenko A.V., Vikha G.V. Evaluation of efficiency and tolerability of immunosuppressive therapy for the combined treatment of lichen rubber planus affecting oral cavity mucosa. Russian Journal of Clinical Dermatology and Venereology. 2010; 4: 40—44 (In Russ.). eLIBRARY ID: 19011069
  8. Fedotova Y.M., Firsova I.V., Makedonova Y.A., Poroyskiy S.V., Mikhalchenko V.F. Clinical and immunological estimation of efficiency of application of modern biodheasive preparations in the scheme of integrated treatment of red plane. Modern Problems of Science and Education. 2018; 3: 24 (In Russ.). eLIBRARY ID: 35166837
  9. Fitzpatrick S.G., Hirsch S.A., Gordon S.C. The malignant transformation of oral lichen planus and oral lichenoid lesions: a systematic review. J Am Dent Assoc. 2014; 145 (1): 45—56. PMID: 24379329
  10. Sugerman P.B., Savage N.W., Walsh L.J., Zhao Z.Z., Zhou X.J., Khan A., Seymour G.J., Bigby M. The pathogenesis of oral lichen planus. Crit Rev Oral Biol Med. 2002; 13 (4): 350—65. PMID: 12191961
  11. Agha-Hosseini F., Khalili M., Rohani B. Immunohistochemistry analysis of P53 and Ki-67 proteins in oral lichen planus and normal oral mucosa. Iranian Journal of Public Health. 2009; 38 (2): 37—43.
  12. Kotowicz B., Fuksiewicz M., Jonska-Gmyrek J., Bidzinski M., Kowalska M. The assessment of the prognostic value of tumor markers and cytokines as SCCAg, CYFRA 21.1, IL-6, VEGF and sTNF receptors in patients with squamous cell cervical cancer, particularly with early stage of the disease. Tumour Biol. 2016; 37 (1): 1271—8. PMID: 26289850
  13. Chen I.H., Liao C.T., Wang H.M., Huang J.J., Kang C.J., Huang S.F. Using SCC antigen and CRP levels as prognostic biomarkers in recurrent oral cavity squamous cell carcinoma. PLoS One. 2014; 9 (7): e103265. PMID: 25061977
  14. Ryu H.K., Baek J.S., Kang W.D., Kim S.M. The prognostic value of squamous cell carcinoma antigen for predicting tumor recurrence in cervical squamous cell carcinoma patients. Obstet Gynecol Sci. 2015; 58 (5): 368—76. PMID: 26430661
  15. Lekskul N., Charakorn C., Lertkhachonsuk A.A., Rattanasiri S., Israngura Na Ayudhya N. The Level of Squamous Cell Carcinoma Antigen and Lymph Node Metastasis in Locally Advanced Cervical Cancer. Asian Pac J Cancer Prev. 2015; 16 (11): 4719—22. PMID: 26107230
  16. Yoon S.M., Shin K.H., Kim J.Y., Seo S.S., Park S.Y., Moon S.H., Cho K.H. Use of serum squamous cell carcinoma antigen for follow-up monitoring of cervical cancer patients who were treated by concurrent chemoradiotherapy. Radiat Oncol. 2010; 5: 78. PMID: 20840788
  17. Boldrup L., Troiano G., Gu X., Coates P., Fåhraeus R., Wilms T., Norberg-Spaak L., Wang L., Nylander K. Evidence that circulating proteins are more promising than miRNAs for identification of patients with squamous cell carcinoma of the tongue. Oncotarget. 2017; 8 (61): 103437—103448. PMID: 29262574
  18. Mineev V.N., Sorokina L.N., Trofimov V.I., Nyoma M.A., Ivanov V.A. Interleukin-4 and interleukin-13 receptors: structure, function and genetic polymorphism. Russian Pulmonology. 2010; 3: 113—119 (In Russ.). eLIBRARY ID: 14932287
  19. Liu Z., Shi H. Prognostic Role of Squamous Cell Carcinoma Antigen in Cervical Cancer: A Meta-analysis. Dis Markers. 2019; 2019: 6710352. PMID: 31275450
  20. Imai R., Takenaka Y., Yasui T., Nakahara S., Yamamoto Y., Hanamoto A., Takemoto N., Fukusumi T., Cho H., Yamamoto M., Inohara H. Prognostic significance of serum squamous cell carcinoma antigen in patients with head and neck cancer. Acta Otolaryngol. 2015; 135 (3): 295—301. PMID: 25622661
  21. Choi K.H., Yu M., Jeong S., Lee J.H. Can serial evaluation of serum SCC-Ag-level predict tumor recurrence and patient survival in squamous-cell carcinoma of uterine cervix treated with definitive chemoradiotherapy? A multi-institutional analysis. Int J Clin Oncol. 2020; 25 (7): 1405—1411. PMID: 32221801
  22. D.E. Paz D., Young C.K., Chien H.T., Tsao C.K., Fok C.C., Fan K.H., Liao C.T., Wang H.M., Kang C.J., Chang J.T., Huang S.F. Prognostic roles of SCC antigen, CRP and CYFRA 21-1 in oral cavity squamous cell carcinoma. Anticancer Res. 2019; 39 (4): 2025—2033. PMID: 30952746
  23. Charakorn C., Thadanipon K., Chaijindaratana S., Rattanasiri S., Numthavaj P., Thakkinstian A. The association between serum squamous cell carcinoma antigen and recurrence and survival of patients with cervical squamous cell carcinoma: A systematic review and meta-analysis. Gynecol Oncol. 2018; 150 (1): 190—200. PMID: 29606483
  24. Travassos D.C., Fernandes D., Massucato E.M.S., Navarro C.M., Bufalino A. Squamous cell carcinoma antigen as a prognostic marker and its correlation with clinicopathological features in head and neck squamous cell carcinoma: Systematic review and meta-analysis. J Oral Pathol Med. 2018; 47 (1): 3—10. PMID: 28600896
  25. Smriti K., Pai K.M., Ravindranath V., Gadicherla S., Pentapati K.C. Salivary Glucose as a Diagnostic Marker for Diabetes Mellitus. J Diabetes Sci Technol. 2016; 10 (4): 991—992. PMID: 26961976
  26. Gutiérrez-Corrales A., Campano-Cuevas E., Castillo-Dalí G., Torres-Lagares D., Gutiérrez-Pérez J.L. Ability of salivary biomarkers in the prognostic of systemic and buccal inflammation. J Clin Exp Dent. 2017; 9 (5): e716-e722. PMID: 28512552
  27. Hema Shree K., Ramani P., Sherlin H., Sukumaran G., Jeyaraj G., Don K.R., Santhanam A., Ramasubramanian A., Sundar R. Saliva as a diagnostic tool in oral squamous cell carcinoma a systematic review with meta analysis. Pathol Oncol Res. 2019; 25 (2): 447—453. PMID: 30712193
  28. Bel’skaya L.V., Sarf E.A., Kosenok V.K. Correlation interrelations between the composition of saliva and blood plasmain norm. Russian Clinical Laboratory Diagnostics. 2018; 8: 477—482 (In Russ.). eLIBRARY ID: 35785230
  29. Al Johani K.A., Hegarty A.M., Porter S.R., Fedele S. Calcineurin inhibitors in oral medicine. J Am Acad Dermatol. 2009; 61 (5): 829—40. PMID: 19836643

Downloads

Received

June 6, 2022

Accepted

July 15, 2022

Published on

October 30, 2022