Arsenic toxicity in mammals and aquatic animals: A comparative biochemical approach

Abstract

Arsenic(As)is a wide spread pollutant in the world and its toxicity is related to its chemical form,with inorganic forms being considered more toxic than the organic form, and huge differences ineffects and processes ofmetabolism.This paper reviews the potential biochemical mechanisms of up take o farsenic by aquaporins,capacity for metabolism and cellular efflux of As. It is known that As can affect signaling pathways since it can activate proteins such as ERK2, p38 and JNK,as shown in mammals.Acomparison between phosphorylation sites of these proteins is presented in order to determine whether the same effect triggered by As in mammals might be observed in aquatic animals.The toxicity resulting from As exposure is considered to be linked to an imbalance between pro-oxidant and antioxidant homeostasis that results in oxidative stress.So,present review analyzes examples of oxidative stress generation by arsenic.Biotransformation of As is a process where firstly the arsenate is converted into arsenite and then transformed into mono-,di-, and trimethylated products. In the methylation process,the role of the omega isoform of glutathione-S-transferase(GST)is discussed. In addition, a phylogenetic tree was constructed for aquaporin proteins of different species, including aquatica nimals,taking into account their importance in trivalent arsenic uptake