Efectos y mecanismos de acción de la metiltioadenosima en las enfermedades autoinmunes

  1. MORENO BRUNA, BEATRIZ
Supervised by:
  1. Pablo Villoslada Diaz Director
  2. Matias Antonio Ávila Zaragozá Co-director

Defence university: Universidad de Navarra

Fecha de defensa: 15 December 2005

Committee:
  1. Valentín Ceña Callejo Chair
  2. Fernando J. Corrales Secretary
  3. Xavier Montalbán Gairín Committee member
  4. Ignacio Melero Bermejo Committee member
  5. José María Frade López Committee member
Department:
  1. (FM) Medicina Interna

Type: Thesis

Teseo: 300937 DIALNET

Abstract

TITULO: EFECTOS Y MECANISMOS DE ACCIÓN DE LA METILTIOADENOSIMA EN LAS ENFERMEDADES AUTOINMUNES RESUMEN: EFFECTS AND MECHANISMS OF ACTION OF METHYLTHIOADENOSINE IN AUTOIMMUNE DISEASES Objective: to assess the immunomodulatory activity of methylthioadenosine (mta) in rodent models of autoimmune diseases (Experimental autoimmune encephalomyelitis, col1agen induced arthritis and autoimmune diabetes) and patients of Multiple Sclerosis (MS).Methods: we study the effect of intraperitoneal MTA in the acute and chronic ease, arthritis and autoimmune diabetes models by quantifying clinical and histological scores and by performing immunohistochemistry stains of the brain and spinal cord. we study the immunomodulatory effect of MTA in lymphocytes from eae animáis, and in pbmc from healthy controls and MS patients by assessing the proliferation assay, cytokine gene expression by real-time pcr and nf-κb modulation by western-blot. Results: we found that MTA prevenís acute EAE and, more importantly, reverses chronic-relapsing eae. This compound also has a partial protection in the arthritis and autoimmune diabetes models. MTA treatment markedly inhibited brain inflammation and reduced brain damage. Administration of MTA suppressed T cell activation in vivo and in vitro, likely through a blockade in T cell signalling resulting in the prevention of innibitor of kappa b (iκb-a) degradation and in the impaired activation of nuclear factor kappa b (NF-κb) transcription factor. Indeed, MTA suppressed the production of pro-inflammatory genes and cytokines (interferon-gamma, tumor necrosis factor-α and inducible ni trie oxide synthase) and increased the production of anti-inflammatory cytokines (interleukin- 10).Conclusion: MTA has a remarkable immunomodulatory activity and may be beneficial for MS and other autoimmune diseases