Autoanticuerpos anti-galectina-8 en pacientes con lupus eritematoso sistémico / Antibodies against galectin-8 in patients with systemic lupus erythematosus

Background: The family of lectins known as galectins (galectins 1-14) are involved in the regulation of the immune system and in oncogenesis. During a search for antigens recognized by antibodies produced by a patient with systemic lupus erythematosus (SLE) we found reactivity against galectin-8, for which autoantibodies have not been previously described. Aim: To determine the frequency of autoantibodies against galectin-8 in lupus patients compared with healthy controls. Patients and Methods: Galectin-8 was purified from a bacterial expression system and used in immunoblot assays as antigen to screen the sera of 55 SLE patients and matched controls. Disease activity was evaluated using the Mexican Modification of the Systemic Lupus Erythematosus Disease Activity Index (MEX-SLEDAI). Results: Reactivity against galectin-8 was detected in 30% of SLE patients, compared to 7% of controls (p=0.003). We could not detect any particular SLE manifestation associated to the presence of these autoantibodies. Conclusions: This is the first description of autoantibodies against galectin-8. Its higher frequency in patients with SLE suggests a pathogenic role. Further studies are needed to determine their clinical relevance.

Interacción entre proteínas y glicanos en la regulación fisiológica de las células T / How do protein-glycan interactions regulate T-cell physiology?

Recent evidence indicates that protein-glycan interactions play a critical role in different events associated with the physiology of T-cell responses including thymocyte maturation, T-cell activation, lymphocyte migration and T-cell apoptosis. Glycans decorating T-cell surface glycoproteins can modulate T-cell physiology by specifically interacting with endogenous lectins including selectins and galectins. These endogenous lectins are capable of recognizing sugar structures localized on T-cell surface glycoproteins and trigger different signal transduction pathways leading to differentiation, proliferation, cell cycle regulation or apoptosis. Protein-carbohydrate interactions may be controlled at different levels, including regulated expression of lectins during T-cell maturation and differentiation and the spatio-temporal regulation of glycosyltransferases and glycosidases, which create and modify sugar structures present in T-cell surface glycoproteins. This article briefly reviews the mechanisms by which protein-carbohydrate interactions modulate immunological processes such as T-cell activation, migration and apoptosis.

Las interacciones entre proteínas y glicanos juegan un papel fundamental en numerosos eventos de la regulación de la fisiología del sistema inmune, como maduración tímica, activación, migración y apoptosis de células T. Los carbohidratos son capaces de modular la fisiología linfocitaria a través de la interacción específica con lectinas endógenas como selectinas y galectinas. Estas lectinas endógenas son capaces de reconocer estructuras sacarídicas localizadas en glicoproteínas de la superficie celular y regular procesos tan diversos como proliferación, diferenciación y ciclo celular. Existen diversos niveles de control de la interacción entre lectinas y azúcares; en primer lugar podemos mencionar la expresión regulada de estas lectinas durante el desarrollo de una respuesta inmune, y en segundo lugar la regulación espacio-temporal de la actividad de glicosiltranferasas y glicosidasas cuya función es crear y modificar los azúcares específicos para estas lectinas. Existen evidencias de que la expresión y actividad de estas enzimas se regulan en forma positiva o negativa durante diferentes eventos del desarrollo, ejecución y finalización de la respuesta inmune. En este artículo se analizarán los mecanismos a través de los cuales las interacciones entre lectinas con sus carbohidratos específicos modulan en forma específica diversos procesos fisiológicos, como maduración de timocitos, migración linfocitaria, activación y diferenciación de células T y apoptosis.