Nitrite is a natural component of t

Nitrite is a natural component of the nitrogen
cycle in ecosystems, and its presence in the environment
is a potential problem, because nitrite has
a well-documented toxicity to animals (e.g. Lewis
and Morris, 1986). Even though it is toxic, nitrite
is a natural constituent in animal tissues, albeit at low concentrations. Nitrite is endogenously produced
as an oxidative metabolite of the physiological
messenger molecule nitric oxide that is
produced by the endothelium, nerve cells and
activated macrophages. Circulating plasma nitrite
levels are 0.2–0.5 mM in healthy humans and may
increase slightly in response to inflammation or
infection (Ellis et al., 1998; Gladwin et al., 2000;
Lauer et al., 2001). Toxic effects of nitrite in man
and other terrestrial animals mainly relate to the
intake via food and drinking water of nitrite and
nitrate (which can be reduced to nitrite in the
gastrointestinal tract), and prime focus has been
on the ability of nitrite to form methaemoglobin (metHb) and potential mutagenic and carcinogenic
N-nitroso compounds (Kiese, 1974; Hotchkiss et
al., 1992). Aquatic animals are more at risk
towards nitrite intoxication, because nitrite in the
ambient water can be taken up across the gill
epithelium and accumulated to very high concentrations
in the body fluids. Studies on fish and
crustaceans have revealed that nitrite induces a
large variety of physiological disturbances, many
of which contribute to toxicity (Jensen, 1995).
Fish accordingly appear a good animal model for
disclosing the physiology that underlies the toxicology
of nitrite. The purpose of the present paper
is to survey current knowledge on the interaction
of nitrite with ion regulatory, respiratory, endocrine
and excretory processes and to pinpoint relevant
topics for future research. The prime focus will be
on fish, but other animals are included when
appropriate for overall synthesis of information.