INVESTIGADORES
SANTOS Javier
artículos
Título:
An arsenic fluorescent compound as a novel probe to study arsenic-binding proteins.
Autor/es:
FEMIA AL; TEMPRANA CF; SANTOS J; CARBAJAL ML; AMOR MS; GRASSELLI M; ALONSO SDEL V
Revista:
PROTEIN JOURNAL
Editorial:
SPRINGER
Referencias:
Año: 2012 p. 656 - 666
ISSN:
1572-3887
Resumen:
Arsenic-binding proteins are under continuous research. Their
identification and the elucidation of arsenic/protein interaction
mechanisms are important because the biological effects of these
complexes may be related not only to arsenic but also to the
arsenic/protein structure. Although many proteins bearing a CXXC motif
have been found to bind arsenic in vivo, new tools are necessary to
identify new arsenic targets and allow research on protein/arsenic
complexes. In this work, we analyzed the performance of the fluorescent
compound APAO-FITC (synthesized from p-aminophenylarsenoxide, APAO, and
fluorescein isothiocyanate, FITC) in arsenic/protein binding assays
using thioredoxin 1 (Trx) as an arsenic-binding protein model. The
Trx-APAO-FITC complex was studied through different spectroscopic
techniques involving UV-Vis, fluorescence, atomic absorption, infrared
and circular dichroism. Our results show that APAO-FITC binds
efficiently and specifically to the Trx binding site, labeling the
protein fluorescently, without altering its structure and activity. In
summary, we were able to study a protein/arsenic complex model, using
APAO-FITC as a labeling probe. The use of APAO-FITC in the
identification of different protein and cell targets, as well as in in
vivo biodistribution studies, conformational studies of arsenic-binding
proteins, and studies for the design of drug delivery systems for
arsenic anti-cancer therapies, is highly promising.