Immunotoxicological effects of arsenic bioaccumulation on spatial metallomics and cellular enzyme response in the spleen of male Wistar rats after oral intake

SORIA, ELIO A.; PÉREZ, ROBERTO D.; QUERALT, IGNASI; PÉREZ, CARLOS A.; BONGIOVANNI, GUILLERMINA A.

TOXICOLOGY LETTERS

ELSEVIER IRELAND LTD

Año: 2017 vol. 266 p. 65 - 73

0378-4274

Arsenic (As) is a worldwide environmental contaminant, which compromises immunity and causes various associated disorders. To further investigate its immunotoxicity, male Wistar rats were exposed to 100 ppm of sodium arsenite (inorganic AsIII) in drinking water for 2 months. Given that metals are significant immune regulators, their content and distribution were analysed in spleen tissues, to then evaluate subsequent changes of redox enzyme responses in spleen parenchyma cells (splenocytes). X-ray fluorescence spectrometry demonstrated As accumulation in both white and red pulps (p < 0.005), and As-related pulp-dependent modifications of the content of Cu, Ca, Zn and Fe (p < 0.01). Correlational path analysis revealed direct effects of As on their spatial distribution (Cu: −0.76, Ca: −0.61, Zn: 0.38; p < 0.02). As-exposed splenocytes showed ɣ-glutamyltranspeptidase inhibition, peroxidase induction, and variable responses of nitric oxide synthase (p < 0.05). Concanavalin A-treated splenocytes (T cell mitogen) were more susceptible in vitro to these As-related enzymatic changes than those treated with lipopolysaccharide (B cell mitogen) (p < 0.05). The study thus established the impact of As bioaccumulation on metallic spatial homeostasis in the spleen, and then identified enzymatic dysfunctions in splenocytes. This suggested that arsenic disrupts biometal-dependent immune pathways and redox homeostasis, with mitogen exposure modifying the toxicological response.