perfringens strains were observed between healthy cats and cats with diarrhea [60]. Protein-rich diets www.selleckchem.com/products/CP-673451.html may increase the presence of Clostridium cluster I in pet cats and dogs and induce a shift towards a higher prevalence of proteolytic bacterial species [16, 61]. A similar dietary influence has also been reported in other carnivores. Clostridium cluster I and XI prevailed in polar bears feeding on seals and fish [45] and captive grizzly bears feeding on a regular diet containing up to 31% protein [49]. The latter study indicated that captive grizzly bears consuming a protein-based diet were
more prone to carry C. perfringens than wild grizzly bears consuming a more plant-based diet. These results suggest a positive correlation between the prevalence of Clostridium clusters I and XI and dietary protein content. In the present study, both cheetahs included in our study were fed a protein-rich diet with minimal dietary fibre i.e. boneless horsemeat. Therefore, the high proportions of Clostridium cluster I and XI in the faecal microbiota of captive cheetahs may be a reflection of their dietary habits. Common bacterial
communities classified in the phylum Actinobacteria harbored solely species belonging Peptide 17 to the genus Collinsella within the Coriobacteriaceae. This family is a frequent resident of the feline gut microbiota [62]. No members were identified of the Bifidobacteriaceae, a group of fibre-fermenting gut bacteria that largely selleck screening library contribute to cross-feeding mechanisms leading to the production of butyrate [63, 64].
Also in two other studies both using 16S rRNA gene clone libraries to study the faecal microbiota of wild wolves [40] and pet cats [50], no Bifidobacteriaceae were encountered. In contrast, other studies have reported the presence of Bifidobacteriaceae in the feline faecal microbiota using alternative techniques such as culturing [65], FISH [56] and a chaperonin 60 gene-based clone library [66]. This suggests that differences in methodologies may, at least to some extent, explain the observed differences between studies. In fact, it has been shown that Bifidobacteriaceae may be underrepresented in 16S rRNA gene-based studies, possibly due to the use of universal primers that may underestimate the GC-rich Actinobacteria. Therefore, the combined use of universal and genus-specific primers has been suggested to characterize check details Bifidobacterium spp. in intestinal microbiota [43, 67, 68]. In the present study, real-time PCR enumeration of Bifidobacterium revealed a low mean log10 number of 4.43 (data not shown). On the one hand, this illustrates the inability of the clone library approach to detect low levels of Bifidobacterium in the cheetah faecal samples. On the other hand, the finding of a significantly higher mean log10 Bifidobacterium concentration of 9.13 in faecal samples of five domestic cats with the same real-time PCR protocol (Becker et al.