Worldwide use of anticoagulant rodenticides (ARs) for rodents control has frequently led
to secondary poisoning of non-target animals, especially raptors. In spite of the
occurrence of many incidents of primary or secondary AR-exposure and poisoning of
non-target animals, these incidents have been reported only for individual countries, and
there has been no comprehensive worldwide study or review. Furthermore, the AR exposure
pathway in raptors has not yet been clearly identified. The aim of this review is
therefore to comprehensively analyze the global incidence of primary and secondary
AR-exposure in non-target animals, and to explore the exposure pathways. We reviewed the
published literature, which reported AR residues in the non-target animals between 1998
and 2015, indicated that various raptor species had over 60% AR- detection rate and have a
risk of AR poisoning. According to several papers studied on diets of raptor species,
although rodents are the most common diets of raptors, some raptor species prey mainly on
non-rodents. Therefore, preying on targeted rodents does not necessarily explain all
causes of secondary AR-exposure of raptors. Since AR residue-detection was also reported
in non-target mammals, birds, reptiles and invertebrates, which are the dominant prey of
some raptors, AR residues in these animals, as well as in target rodents, could be the
exposure source of ARs to raptors.
Vitamin K epoxide reductase (VKOR) is a target enzyme for anticoagulants, such as warfarin, that are used as medicines or rodenticides. Assessing VKOR activity is required to ensure the proper usage of these drugs. Dithiothreitol (DTT) is a typical disulfide reductant that is used as a substrate for
in vitro
VKOR assays. However, DTT is considered problematic because of its side effects. Tris(3-hydroxypropyl)phosphine (THP) has been found to be a reliable alternative to DTT, as shown by kinetic analyses of the VKOR with them. THP showed significantly lower
V
max
and
K
m
values than those of DTT; however, there was no significant difference in their
V
max
/
K
m
and IC
50
for warfarin.
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