Mercury (Hg) biomonitoring of pinnipeds increasingly utilizes nonlethally collected tissues such as hair and blood. The relationship between total Hg concentrations ([THg]) in these tissues is not well understood for marine mammals, but it can be important for interpretation of tissue concentrations with respect to ecotoxicology and biomonitoring. We examined [THg] in blood and hair in multiple age classes of four pinniped species. For each species, we used paired blood and hair samples to quantify the ability of [THg] in hair to predict [THg] in blood at the time of sampling and examined the influence of varying ontogenetic phases and life history of the sampled animals. Overall, we found that the relationship between [THg] in hair and blood was affected by factors including age class, weaning status, growth, and the time difference between hair growth and sample collection. Hair [THg] was moderately to strongly predictive of current blood [THg] for adult female Steller sea lions (Eumetopias jubatus), adult female California sea lions (Zalophus californianus), and adult harbor seals (Phoca vitulina), whereas hair [THg] was poorly predictive or not predictive (different times of year) of blood [THg] for adult northern elephant seals (Mirounga angustirostris). Within species, except for very young pups, hair [THg] was a weaker predictor of blood [THg] for prereproductive animals than for adults likely due to growth, variability in foraging behavior, and transitions between ontogenetic phases. Our results indicate that the relationship between hair [THg] and blood [THg] in pinnipeds is variable and that ontogenetic phase and life history should be considered when interpreting [THg] in these tissues.
Varying concentrations of the highly conserved acute phase response protein, haptoglobin, can indicate changes to the health and disease status of mammals, including the Steller sea lion ( Eumetopias jubatus; SSL). To better understand factors relating to acute phase response in SSLs, circulating haptoglobin concentrations (Hp) were quantified in plasma collected from 1,272 individuals sampled near rookeries and haulouts off the coast of Alaska. We compared Hp in SSLs between sexes and among different age classes (young pups, young-of-the-year, yearlings, subadults, and adults) sampled within distinct regions in Alaska (Aleutian Islands, Gulf of Alaska, Southeast Alaska). Regional and age-related differences were observed, particularly in younger SSLs. No sex-related differences were detected. We identified weakly significant relationships between Hp and hematology measurements including white blood cell counts (WBC) and hematocrit (Hct) in young pups from the Aleutian Islands and Southeast Alaska. No relationship between Hp and body condition was found. Lastly, a nonlinear relationship of plasma Hp and whole blood total mercury concentrations (THg) was observed in SSLs from the endangered western distinct population segment in Alaska. These results demonstrated that regional variation in Hp, especially in younger SSLs, may reflect regional differences in health and circulating THg.
The mechanisms by which innate immune receptors mediate self-nonself discrimination are unclear. In this study, we found species-specific molecular determinants of self-DNA reactivity by cyclic guanosine monophosphate–adenosine monophosphate (GMP–AMP) synthase (cGAS). Human cGAS contained a catalytic domain that was intrinsically self-DNA reactive and stimulated interferon responses in diverse cell types. This reactivity was prevented by an upstream amino (N)-terminal domain. The cGAS proteins from several nonhuman primate species exhibited a similar pattern of self-DNA reactivity in cells, but chimpanzee cGAS was inactive even when its amino-terminal domain was deleted. In contrast, the N terminus of mouse cGAS promoted self-DNA reactivity. When expressed within tumors, only self-DNA–reactive cGAS proteins protected mice from tumor-induced lethality. In vitro studies of DNA- or chromatin-induced cGAS activation did not reveal species-specific activities that correlate with self-DNA reactivity observed in macrophages. Cell biological analysis revealed that self-DNA reactivity by human cGAS, but not mouse cGAS, correlated with localization to mitochondria. We found that epitope tag positions affected self-DNA reactivity in cells and that DNA present in cell lysates undermines the reliability of cGAS biochemical fractionations. These studies reveal species-specific diversity of cGAS functions, even within the primate lineage, and highlight experimental considerations for the study of this innate immune receptor.
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