Since it has been shown that after toxic stimuli activation of NOX enzymes can induce damage of astrocytes we measured the level of nitrites in the cerebelum and subcortical structures of exposed to arsenic and control mice. Our results show a trend towards increased nitrite levles, a sign of increased NOX enzyme activation after exposure to arsenic and in conjunction with the decreased GFAP staining. These data suggest a mechnaism of increased nitrite generation leading to astrocyte death. It is interesting to mention, that in some AD animal models inhibition of NOX enzymes and decreased levels of nitrites improved behavioral deficits. Consistent with this we find a negative correlation between nitrite levels in mice epxosed to arsenic and their cognitve performance in novel object recognition test. Arsenic exposure at concentrations greater than the drinking water standard of 10 mg/L from both natural and man-made sources is a prevalent global issue. Epidemiological studies have linked low to moderate level of exposure to a host of disease states including cancer and cardiovascular disease in adults. In children, levels of exposure negatively correlate to IQ when measured by multiple matrixes. While studies looking at toxic levels of arsenic in individuals demonstrated direct links to various diseases, and in most of the studies the results were adjusted for confounding factors such as length of exposure, diet, education, smoking, and levels of other water contaminants, a direct causality of low arsenic exposure to a certain disease has not been revealed. To date most animal studies examining arsenic exposure and disease outcomes have focused on either prenatal exposure, or very high level exposure to arsenic. These extreme levels are linked to a host of symptoms indicating toxicity, such as loss of weight and increased mortality, and do not reflect accurately effects of environmental levels of arsenic exposure in humans where such symptoms of LEE011 toxicity are absent. Here, we report that by using environmentally relevant levels of arsenic exposure in adult mice we can explore disease outcomes and mechanisms associated with natural arsenic exposure in drinking water. Importantly, in our study with the low to moderate level used, we did not find any evidence of overt toxicity or mortality and the weight of exposed adult animals was unchanged. It is clearly evident, however, that mice exposed to low levels of arsenic for a relatively short period of time demonstrate cognitive impairment in a battery of behavioral tests. A recent study with a rat model for prenatal exposure has demonstrated a poor performance in fear conditioning paradigm if animals were continuously exposed to environmentally relevant arsenic doses from gestation until 4 months of age. The methylation pattern of two genes considered important for memory formation �C reelin and ABT-199 protein phosphatase 1, however, was unchanged. Earlier and very recent studies reported by Luo et al. demonstrated that arsenic exposure, at doses almost 700 times higher than those used in our study, initiated a pronounced inhibitory effect on the expression of NR2A subunit of NMDA. NR2A is a nonobligatory subunit of the NMDA heteromeric complex, its incorporation increases after birth and similar to NR1A/Grin1 is important for Ca2+ influx and its downstream effects on Erk1/2 mediated signal transduction pathways.