Study of protein haptenation by amoxicillin through the use of a biotinylated antibiotic.

Allergic reactions towards β-lactam antibiotics pose an important clinical problem. The ability of small molecules, such as a β-lactams, to bind covalently to proteins, in a process known as haptenation, is considered necessary for induction of a specific immunological response. Identification of th...

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Detalles Bibliográficos
Autores: Ariza, Adriana, Collado, Daniel, Vida, Yolanda, Montañez, María I, Pérez-Inestrosa, Ezequiel, Blanca, Miguel, Torres, María José, Cañada, F Javier, Pérez-Sala, Dolores
Tipo de recurso: artículo
Fecha de publicación:2014
País:España
Institución:Instituto de Salud Carlos III (ISCIII)
Repositorio:Repisalud
Idioma:inglés
OAI Identifier:oai:repisalud.isciii.es:20.500.12105/17060
Acceso en línea:http://hdl.handle.net/20.500.12105/17060
Access Level:acceso abierto
Palabra clave:Animales
Antibacterianos
Biotinilación
Butilaminas
Haptenos
Hipersensibilidad
Amoxicilina
Inmunoglobulina E
Macrófagos
Estructura molecular
Beta-lactamas
Animals
Anti-Bacterial Agents
Binding, Competitive
Biotinylation
Butylamines
Haptens
Humans
Hypersensitivity
Immunoglobulin E
Macrophages
Mice
Microscopy, Confocal
Molecular Structure
Serum Albumin
beta-Lactams
Amoxicillin
Descripción
Sumario:Allergic reactions towards β-lactam antibiotics pose an important clinical problem. The ability of small molecules, such as a β-lactams, to bind covalently to proteins, in a process known as haptenation, is considered necessary for induction of a specific immunological response. Identification of the proteins modified by β-lactams and elucidation of the relevance of this process in allergic reactions requires sensitive tools. Here we describe the preparation and characterization of a biotinylated amoxicillin analog (AX-B) as a tool for the study of protein haptenation by amoxicillin (AX). AX-B, obtained by the inclusion of a biotin moiety at the lateral chain of AX, showed a chemical reactivity identical to AX. Covalent modification of proteins by AX-B was reduced by excess AX and vice versa, suggesting competition for binding to the same targets. From an immunological point of view, AX and AX-B behaved similarly in RAST inhibition studies with sera of patients with non-selective allergy towards β-lactams, whereas, as expected, competition by AX-B was poorer with sera of AX-selective patients, which recognize AX lateral chain. Use of AX-B followed by biotin detection allowed the observation of human serum albumin (HSA) modification by concentrations 100-fold lower that when using AX followed by immunological detection. Incubation of human serum with AX-B led to the haptenation of all of the previously identified major AX targets. In addition, some new targets could be detected. Interestingly, AX-B allowed the detection of intracellular protein adducts, which showed a cell type-specific pattern. This opens the possibility of following the formation and fate of AX-B adducts in cells. Thus, AX-B may constitute a valuable tool for the identification of AX targets with high sensitivity as well as for the elucidation of the mechanisms involved in allergy towards β-lactams.