Local context and environment as risk factors for acute poisoning in animals in northwest Italy.

Animal and bait poisoning data for northwest Italy collected between 2012 and 2017 were described and analyzed to estimate the risk of exposure to hazardous substances by animals. In about 4% of animals necropsied (n = 356/9512), the cause of death was poisoning and domestic pets (9.5%) and synanthropic animals (12.2%) appear to be the most involved. Furthermore, 294 out of 728 baits (40.4%) were positive for toxic substances and/or inert hazardous material. Application of a mixed-effects Poisson regression model and local cluster analysis evidenced increased risk of exposure to poisoning with altimetry (>600 m.a.s.l.) and municipality (PR = 1.6, 95%CI 1.2-2.1 for poisoning, PR = 2.2, 95%CI 1.2-4.2 for poisoning by insecticides and PR = 2.9, 95%CI 1.4-6.2 for poisoning by metaldehyde). Since the mountainous areas in the region are mostly devoted to pasture and extensive farming, the high frequency of animal and bait poisoning events may be related to farmers' need to protect their livestock and crops against foxes, wolves, rodents or wild boars. Summarizing, the type of land use and context may influence the frequency and type of toxin chosen to kill animals considered a nuisance for hunting, farming, agriculture and apiculture. Despite bans and limitations, the use of harmful substances is not perceived as an environmental threat but rather as routine pest control. Animal and bait poisoning constitute a public health concern because it is potentially harmful to humans and the environment. Our findings may inform risk communication strategies, as well as prevention and control measures for the reduction of illegal and non-targeted species poisoning.

Death and resurrection of the human IRGM gene.

Immunity-related GTPases (IRG) play an important role in defense against intracellular pathogens. One member of this gene family in humans, IRGM, has been recently implicated as a risk factor for Crohn's disease. We analyzed the detailed structure of this gene family among primates and showed that most of the IRG gene cluster was deleted early in primate evolution, after the divergence of the anthropoids from prosimians ( about 50 million years ago). Comparative sequence analysis of New World and Old World monkey species shows that the single-copy IRGM gene became pseudogenized as a result of an Alu retrotransposition event in the anthropoid common ancestor that disrupted the open reading frame (ORF). We find that the ORF was reestablished as a part of a polymorphic stop codon in the common ancestor of humans and great apes. Expression analysis suggests that this change occurred in conjunction with the insertion of an endogenous retrovirus, which altered the transcription initiation, splicing, and expression profile of IRGM. These data argue that the gene became pseudogenized and was then resurrected through a series of complex structural events and suggest remarkable functional plasticity where alleles experience diverse evolutionary pressures over time. Such dynamism in structure and evolution may be critical for a gene family locked in an arms race with an ever-changing repertoire of intracellular parasites.