Bistable equilibrium points of mercury body burden
Abstract
In the last century mercury levels in the global environment have tripled as a result of increased pollution from industrial, occupational, medicinal and domestic uses BaMe03. Glutathione is known to be the main agent responsible for the excretion of mercury (we refer to Thim05, ZalBar99 and Lyn02). It has also been shown that mercury inhibits glutathione synthetase (an enzyme acting in the synthesization of Glutathione), therefore leading to decreased glutathione levels (we refer to Thim05, GeGe05, GeGe06 and RDeth04). Mercury also interferes with the production of heme in the porphyrin pathway WoMaEc93. Heme is needed for biological energy production and ability to detox organic toxins via the P450 enzymes Boy06. The purpose of this paper is to show that body's response to mercury exposure is hysteretic, i.e. when this feedback of mercury on its main detoxifying agents is strong enough then mercury body burden has two points of equilibrium: one with normal abilities to detoxify and low levels of mercury and one with inhibited abilities to detoxify and high levels of mercury. Furthermore, a small increase of body's mercury burden may not be sufficient to trigger observable neurotoxic effects but it may be sufficient to act as a switch leading to an accumulation of mercury in the body through environmental exposure until its toxicity becomes manifest.
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