Genetic polymorphism of TNF-α and its implications in previewing the course of pathologies, including oral diseases

Luciano Barreto  Silva; Rodolfo Scavuzzi Caneiro da Cunha; Gabriel Henrique De Oliveira  Queiroz; Guilherme Marinho  Sampaio; Hadassa Fonsêca da  Silva; Sandra Sayão  Maia; Paulo Melo Júnior; Edleine Dellalibera; Ana Paula Veras  Sobral

doi:10.33448/rsd-v10i11.18521

Autores/as

Luciano Barreto Silva Faculdade de Odontologia do Recife https://orcid.org/0000-0002-1508-4812
Rodolfo Scavuzzi Caneiro da Cunha Faculdade de Odontologia do Recife https://orcid.org/0000-0001-7110-848X
Gabriel Henrique De Oliveira Queiroz Faculdade de Odontologia do Recife https://orcid.org/0000-0002-7795-3964
Guilherme Marinho Sampaio Faculdade de Odontologia do Recife https://orcid.org/0000-0003-4441-7601
Hadassa Fonsêca da Silva Faculdade de Odontologia do Recife https://orcid.org/0000-0002-9432-9522
Sandra Sayão Maia Faculdade de Odontologia do Recife https://orcid.org/0000-0001-6808-9775
Paulo Melo Júnior Faculdade de Odontologia do Recife https://orcid.org/0000-0001-9926-5348
Edleine Dellalibera Centro Universitário Maurício de Nassau https://orcid.org/0000-0002-8943-183X
Ana Paula Veras Sobral Universidade de Pernambuco https://orcid.org/0000-0002-0801-9385

DOI:

https://doi.org/10.33448/rsd-v10i11.18521

Palabras clave:

Ácidos nucleicos libres de células; Polymorphisme génétique; Polimorfismo de nucleótido simple; Periodontitis.

Resumen

Objetivo: el objetivo de este trabajo fue explicar las implicaciones del perfil genético (polimorfismos en la región-308 del TNF-α) en la evolución de diferentes patologías; y explicar cómo se obtiene este perfil en el laboratorio. Metodología: La técnica de salting out, según Miller et al. (1988) se utilizó para explicar al lector cómo se obtiene el perfil genético de TNF-α para prever el resultado de patologías que son moduladas por esta citoquina. Resultados: Se obtuvo, fotografió y explicó al lector el producto de la digestión amplificada de los genes TNF-α. Conclusiones: el perfil genético puede ser útil como predictor del desenlace de diferentes patologías, de modo que médicos y odontólogos puedan elegir la mejor terapia para cada paciente.

Citas

Abbas, A. K., Lichtman, A. H., Pillai, S. Cytokines. In: Abbas, A. K., Lichtman, A. H., Pillai, S. Cellular and molecular immunology. Saunders/Elsevier, 2010. 267-302.

Aggarwal, B. B. (2000) Tumour necrosis factors receptor associated signalling molecules and their role in activation of apoptosis, JNK and NF-kappaB. Ann Rheum Dis 59: i6-i16.

ALAM (2003). Lymphocytes. Allergy and Clinic. Immunol. 2003 February, 111(2).

Allen Reish, H. E., & Standaert, D. G. Role of α-synuclein in inducing innate and adaptive immunity in Parkinson disease. Journal of Parkinson’s disease, 5, 1-19.

Balasubramanian, S. P. et al.Candidate gene polymorphisms in solid cancers. Eur J SurgOncol, 30, 593-601.

Cabrera, M. et al. Polymorphism in tumor necrosis factor genes associated with mucocutaneousleishmaniasis. J Exp Med., 182, 1259-64.

Carswell, E. A., Old, L. J., Kassel, R. L., Green, S., Fiore, N., et al. (1975) An endotoxin-induced serum factor that causes necrosis of tumors. Proc Natl Acad Sci U S A 72: 3666-3670.

Chaplin, D. D. Overview of the immune response. J Allergy ClinImmunol, 111, 5430-5.

Chen, H., Xiao, L., Zhang, H., Liu, N., Liu, T., et al. (2011) The involvement of beta-actin in the signaling of transmembrane TNF-alpha-mediated cytotoxicity. J Leukoc Biol 89: 917-926.

Deo, V., & Bhongade, M. L. Pathogenesis of periodontitis:role of cytokines in host response. DentToday, 29(9), 60-2, 64-6

Garg, U. C. et al. Simple and Rapid Method for Extraction of DNA from fresh and Cryopreserved Clotted Human Blood. Clinical Chemistry 42:647-648.

Hu, X., Li, B., Li, X., Zhao, X., Wan, L., et al. (2014) Transmembrane TNF-alpha promotes suppressive activities of myeloid-derived suppressor cells via TNFR2. J Immunol 192: 1320-1331.

Kannarkat, G., Boss, J. M., & Tansey, M. G. The role of innate and adaptive immunity in Parkinson´s disease. Journal of Parkinson´s Disease, 3(4), 493-514.

Kinane, D. F., Shiba, H., & Hart, T. C. The genetic basis of periodontitis. Periodontol 2000, 39, 91-117.

Laine, M. L, Farré, M. A, Crucius, B. A, Winkelhoff, A. V, & Peña, S. J. Periodontol. 2000. https://doi.org/10.1902/jop.2000.71.8.1315.

Li, Q., Li, L., Shi, W., Jiang, X., Xu, Y., et al. (2006) Mechanism of action differences in the antitumor effects of transmembrane and secretory tumor necrosis factor-alpha in vitro and in vivo. Cancer Immunol Immunother 55: 1470-1479.

Löe, H, Theilade E, & Jansen B. Experimental gingivitis in man. Lic. Odont. May 1965. https://doi.org/10.1902/jop.1965.36.3.177.

Miller, S. A., Dykes, D. D., & Polesky, H. F. A simple salting out procedure for extracting DNA from human nucleated cells. Nucleic Acids Research., 16(3), 1215.

Moran, Y. et al..Distribución de polimorfismos genéticos de interlequina-1 enindividuos de laregióncentrooccidental de Venezuela. ActaBiolColomb., 14(1), 185-94.

Morsani J. M. et al. Genetic predisposition to persistent apical periodontitis. J Endod., 37(4), 455-9.

Offenbacher, S., Barros, S. P., & Beck, J. D. Rethinking periodontal inflammation. J Periodontol., 79(8), 1577-84.

Pennica, D., Nedwin, G. E., Hayflick, J. S., Seeburg, P. H., Derynck, R., Palladino, M. A., et al. Human tumour necrosis factor: precursor structure, expression and homology to lymphotoxin. Nature. 1984,312(5996):724-9.

Petersdorf, E. W., Malkki, M., Hsu, K., et al, International Histocompatibility Working Group in Hematopoietic Cell Transplantation. 16th IHIW: international histocompatibility working group in hematopoietic cell transplantation. Int J Immunogenet 2013,40(1):2-10. PubMedGoogle Scholar Petersdorf EW,

Price, A. L., Spencer, C. C. A., & Donnelly, P. Progress and promise in understanding the genetic basis of common diseases. Proc R Soc B., 282(20151684), 1-10, 2015.

Qidwai, K. (2011). Tumour Necrosis Factor Gene Polymorphism and Disease Prevalence. Scandinavian Journal of Immunology, 74(6), 522–547.

Rankinen, T., Perusse, L., Gagnon, J., Chagnon, Y. C., Leon, A. C., Skinner, J. S., et al. Angiotensin-converting enzyme ID polymorphism and fitness phenotype in the HERITAGE Family Study. J Appl Physiol. 2000,88:1029-35.

Salmond, R. J., & Zamoyska, R. The influence of mTOR on T helper cell differentiation and dendritic cell function. Eur J Immunol., 41, 2137-41.

Seckinger, P, Isaaz, S, & Day, J. M. Purification and Biologic Characterization of a Specific Tumor Necrosis Factor a Inhibitor. The Journal of Biological Chemistry. 264(20), 11966-11973.

Shlomchik, M. J., & Weisel, F. Germinal center selection and the development of memory B and plasma cells. Immunol Rev., 247(1), 52-63.

Silva, L. Stem Cells in the Oral Cavity. Glob J Stem Cell Biol Transplant., 1(1), 12-6, 2015.

Stanulla, M., Chhalliyil, P., Jani-Sait, S. N., & Aplan, P. D. Mechanisms of MLL gene rearrangement: site-specific DNA cleavage within the breakpoint cluster region is independent of chromosomal context.Hum Mol Genet. 10(22), 2481-91.

Varmus, H. Getting ready for gene-based medicine. N Engl J Med., 347(19), 1526-7.

Polimorfismo Genético del TNF-α y sus implicaciones en la visión previa del curso de las patologías, incluidas las enfermedades orales

Autores/as

DOI:

Palabras clave:

Resumen

Citas

Descargas

Publicado

Cómo citar

Número

Sección

Licencia

JOURNAL METRICS

Idioma

Enviar un artículo