Michele M. Skopec

Captivity results in disparate loss of gut microbial diversity in closely related hosts

We compared microbial community structure in two rodent species before and after captivity. One species lost a greater proportion of diversity in captivity, which was not rescued when they were returned to their natural diet. Mothers effectively transmitted microbiota to their offspring. These results have implications for captive breeding programs.

Application of Pharmacological Approaches to Plant-Mammal Interactions

The dominant theory in the field of mammalian herbivore–plant interactions is that intake, and therefore tolerance, of plant secondary metabolites (PSMs) is regulated by mechanisms that reduce absorption and increase detoxification of PSMs. Methods designed by pharmacologists to measure detoxification enzyme activity, metabolite excretion, and most recently, drug absorption, have been successfully applied by ecologists to study PSM intake in a variety of mammalian study systems. Here, we describe several pharmacological and molecular techniques used to investigate the fate of drugs in human that have potential to further advance knowledge of mammalian herbivore–plant interactions.

Differential hepatic gene expression of a dietary specialist (Neotoma stephensi) and generalist (Neotoma albigula) in response to juniper (Juniperus monosperma) ingestion

Dietary specialization is thought to be rare in mammalian herbivores because of limitations of their detoxification system in processing large doses of a single type of plant secondary compound (PSC). Therefore, in order to specialize on a single species of plant, mammalian herbivores must have a highly efficient detoxification system for the particular types of PSCs they ingest. Using microarray technology, we looked at the expression of hepatic genes of a dietary specialist, Neotoma stephensi, and a sympatric generalist, Neotoma albigula, in response to diets containing different levels of one-seeded juniper (Juniperus monosperma). We found large between species differences in gene expression, as well as large within species differences when specialists fed a low juniper diet (25% juniper) were compared to specialists fed their ecologically relevant level of juniper (70% juniper). We also tested the hypothesis that the specialist relies on less costly phase I detoxification enzymes more than phase II compared to the generalist. Although we found that the specialist had higher cumulative as well as average expression of phase I versus phase II enzymes, the generalist had a similar pattern of expression for phase I versus phase II enzymes.

Flavonoids Have Differential Effects on Glucose Absorption in Rats ( Rattus norvegicus ) and American Robins ( Turdis migratorius )

Mounting evidence suggests that small birds rely largely on non-mediated intestinal absorption of glucose through the paracellular pathway, while non-flying mammals rely on mediated absorption across the enterocyte membranes by using glucose transporters SGLT-1 and GLUT-2. Relying on non-mediated transport of glucose may decrease its absorption rate at low glucose concentrations but may release small birds from the effects of glucose transport inhibitors. We evaluated transport by using flavonoids known to inhibit glucose transport in vitro. Quercetin, isoquercetrin, and phloridzin were tested in rats (Rattus norvegicus) and robins (Turdis migratirius), and naringenin, naringenin-7-glucoside, genistein, epigallocatechin gallate (EGCG), and phloretin were used only in rats. By using a pharmacokinetic approach that involves serial blood collection and area under the curve calculations, we determined the bioavailability of 3-0-methyl D-glucose, the non-metabolized analogue of D-glucose. Six of the eight flavonoids tested in rats significantly decreased the absorption of 3-0-methyl D-glucose, while none of the flavonoids tested in robins significantly decreased the bioavailability of 3-0-methyl D-glucose. We conclude that flavonoids effectively decrease glucose absorption in rats, which rely on mediated absorption of glucose, but that flavonoids do not have an effect in robins, which rely on non-mediated absorption of glucose.

An In Vivo Assay for Elucidating the Importance of Cytochromes P450 for the Ability of a Wild Mammalian Herbivore (Neotoma lepida) to Consume Toxic Plants

An in vivo assay using the cytochrome P450 (P450) suicide inhibitor 1-aminobenzotriazole (ABT) and 24-h food intake was developed to determine the relative importance of P450s in two populations of Neotoma lepida with respect to biotransformation of plant secondary compounds in the animals’ natural diets. The efficacy of ABT as a P450 inhibitor was first validated using hypnotic-state assays with and without pretreatment with ABT. Pretreatment with 100 mg/kg ABT by gavage increased hexobarbital sleep times 3–4-fold in both populations, showing effective inhibition of P450s in woodrats. Next, the Great Basin population was fed a terpene-rich juniper diet, and the Mojave population was fed a phenolic-rich creosote diet, with rabbit chow serving as the control diet in each group. Treatment with ABT inhibited food intake in the Great Basin population fed the juniper diet to a greater extent (35%) than the Great Basin population fed the control diet (19%) or the Mojave population fed the creosote diet (16%). The food intake of the Mojave population fed the control diet was not significantly inhibited by ABT. The findings suggest that the biotransformation of terpenes in juniper relies more heavily on P450s than that of phenolics in creosote. This assay provides an inexpensive and noninvasive method to explore the relative importance of P450s in the biotransformation strategies of wild mammalian herbivores.

Differential expression and activity of catechol-O-methyl transferase (COMT) in a generalist (Neotoma albigula) and juniper specialist (Neotoma stephensi) woodrat.

Mammalian herbivores, particularly dietary specialists must have an efficient means to metabolize the high doses of plant secondary compounds they consume. We found previously that Neotoma stephensi, a juniper specialist, upregulated catechol-O-methyl transferase (COMT) mRNA almost seven fold in response to an ecologically relevant diet (70% juniper). To further investigate the relevance of this enzyme with respect to juniper metabolism, we compared the protein expression, activity and kinetics of the two forms of COMT, soluble (S-COMT) and membrane bound (MB-COMT), in the blood, kidneys and liver of N. stephensi on its natural juniper diet to that of N. stephensi fed an experimental diet of 70% juniper as well as a non-toxic control diet under laboratory conditions. In addition, we compared these results to that of Neotoma albigula, a generalist species, which consumes a diet of 25% juniper in the wild. The specialist consuming juniper under both field and laboratory conditions had increased S-COMT expression and activity in their livers and kidneys, and increased S-COMT activity in their blood compared to the specialist and generalist fed the control diet. The specialist showed expression and activity of S-COMT in their kidneys that was as high as or higher than that in their livers. The generalist had an elevated V(max) for MB-COMT compared to the specialist that resulted in higher activity for MB-COMT than the specialist despite lower expression of MB-COMT in the generalists livers and kidneys. This high activity MB-COMT may be in part responsible for differences in the behaviors of the generalist compared to the specialist. We conclude that S-COMT is important in the specialists ability to consume high levels of juniper.

HABITAT SELECTION BY THE PYGMY RABBIT (BRACHYLAGUS IDAHOENSIS) IN NORTHEASTERN UTAH

Abstract. The pygmy rabbit (Brachylagus idahoensis), the worlds smallest rabbit, has a limited distribution due to its year round dependence on sagebrush (Artemisia tridentata) for food and shelter. Due to accelerating habitat loss from fragmentation, development, and fire, understanding the pygmy rabbits ecology has become increasingly important. In 2010, we initiated a study of the status of a pygmy rabbit population and its habitat requirements on U.S. Bureau of Land Management (BLM) land near Woodruff in northeastern Utah. We first observed and recorded the presence of the rabbit and its use of the area, and then measured sagebrush height, density, cover, and major and minor crown widths at active burrow and potential burrow sites. We also compared understory characteristics and soil texture at active, recently abandoned, and potential burrow sites. Pellets and sagebrush samples were also analyzed to determine dietary patterns. The height, as well as the major and minor crown widths of the sagebrush, and 2 cover measurements were significantly greater at active burrow sites than at potential burrow sites (P < 0.001). Total grass and forb biomass differed between the sites, with active burrow sites having higher total biomass in the spring compared to abandoned and potential burrow sites (P < 0.05) and higher total biomass in the fall compared to abandoned sites (P < 0.05). The principle component of the soil at all sites was sand, with small amounts of silt and clay. The pygmy rabbits annual diet consisted of 80.7% sagebrush, and the sagebrush chosen for consumption was higher in crude protein and lower in fiber than nonforaged sagebrush. Our results suggest that maintaining stands of large mature sagebrush will provide pygmy rabbits in this area with preferred burrow and foraging sites that are vital to the persistence of populations in this region.

Biotransformation enzyme expression in the nasal epithelium of woodrats

When herbivores come in contact with volatile plant secondary compounds (PSC) that enter the nasal passages the only barrier between the nasal cavity and the brain is the nasal epithelium and the biotransformation enzymes present there. The expression of two biotransformation enzymes Cytochrome P450 2B (CYP2B) and glutathione-S-transferase (GST) was investigated in the nasal epithelia and livers of three populations of woodrats. One population of Neotoma albigula was fed juniper that contains volatile terpenes. Juniper caused upregulation of CYP2B and GST in the nasal epithelium and the expression of CYP2B and GST in the nasal epithelium was correlated to liver expression, showing that the nasal epithelia responds to PSC and the response is similar to the liver. Two populations of Neotoma bryanti were fed creosote that contains less volatile phenolics. The creosote naive animals upregulated CYP2B in their nasal epithelia while the creosote experienced animals upregulated GST. There was no correlation between CYP2B and GST expression in the nasal epithelia and livers of either population. The response of the nasal epithelium to PSC seems to be an evolved response that is PSC and experience dependent.