Staphylococcus caledonicus sp. nov. and Staphylococcus canis sp. nov. isolated from healthy domestic dogs.

Two strains, H8/1T and H16/1AT, of Gram-stain-positive, coagulase-negative staphylococci were isolated from separate healthy domestic dogs in Scotland. Both strains were genome sequenced and their inferred DNA-DNA hybridisation indicates that H8/1T and H16/1AT represent two novel species of the genus Staphylococcus. On the basis of the results of genome sequence analysis (genome blast distance phylogeny and single nucleotide polymorphism analysis) H8/1T is most closely related to Staphylococcus devriesei and H16/1AT most closely related to Staphylococcus felis. Also, average nucleotide identity distinguished H8/1T and H16/1AT from S. devriesei and S. felis as did minor phenotypic differences. On the basis of these results, it is proposed that H8/1T and H16/1AT represent novel species with the respective names Staphylococcus caledonicus and Staphylococcus canis. The type strain of S. caledonicus is H8/1T (=NCTC 14452T=CCUG 74789T). The type strain of S. canis is H16/1AT (=NCTC 14451T=CCUG 74790T).

A second KRT71 allele in curly coated dogs.

Major characteristics of coat variation in dogs can be explained by variants in only a few genes. Until now, only one missense variant in the KRT71 gene, p.Arg151Trp, has been reported to cause curly hair in dogs. However, this variant does not explain the curly coat in all breeds as the mutant 151 Trp allele, for example, is absent in Curly Coated Retrievers. We sequenced the genome of a Curly Coated Retriever at 22× coverage and searched for variants in the KRT71 gene. Only one protein-changing variant was present in a homozygous state in the Curly Coated Retriever and absent or present in a heterozygous state in 221 control dogs from different dog breeds. This variant, NM_001197029.1:c.1266_1273delinsACA, was an indel variant in exon 7 that caused a frameshift and an altered and probably extended C-terminus of the KRT71 protein NP_001183958.1:p.(Ser422ArgfsTer?). Using Sanger sequencing, we found that the variant was fixed in a cohort of 125 Curly Coated Retrievers and segregating in five of 14 additionally tested breeds with a curly or wavy coat. KRT71 variants cause curly hair in humans, mice, rats, cats and dogs. Specific KRT71 variants were further shown to cause alopecia. Based on this knowledge from other species and the predicted molecular consequence of the newly identified canine KRT71 variant, it is a compelling candidate causing a second curly hair allele in dogs. It might cause a slightly different coat phenotype than the previously published p.Arg151Trp variant and could potentially be associated with follicular dysplasia in dogs.

Clinical and pathological features of hair coat abnormalities in curly coated retrievers from UK and Sweden.

OBJECTIVES: To gain information on hair loss amongst curly coated retrievers by questionnaire and to define the clinical and pathological features of hair coat abnormalities in affected dogs in the United Kingdom and Sweden. MATERIALS AND METHODS: Questionnaires were completed by members of the Curly Coated Retriever Clubs. Fourteen dogs (six in the United Kingdom, eight in Sweden) were clinically examined and skin/hair samples collected for microscopy and histopathology. Blood was collected for haematological, biochemical and endocrine assays. RESULTS: Of 90 dogs surveyed, 39 had current or previous episodes of symmetrical, non-pruritic alopecia and or frizzy coat changes, usually affecting caudal thighs, axillae, dorsum and neck before 18 months of age; 23 dogs had a waxing/waning course. Examined dogs generally matched the pattern described in questionnaires. Hair shaft anomalies comprised occasional distorted anagen bulbs (10 dogs) and transverse fractures (8 dogs). Vertical histopathological sections showed infundibular hyperkeratosis (28 of 30 sections) and low-grade pigment clumping (17 of 30). Subtle telogenisation of hair follicles was unequivocally confirmed by transverse histomorphometric analyses. CLINICAL SIGNIFICANCE: The follicular dysplasia of curly coated retriever reported here is similar to that of Irish water spaniels and Chesapeake Bay retrievers but distinct from that of Portuguese water dogs. The genetic basis requires further assessment.

Ciclosporin modulates the responses of canine progenitor epidermal keratinocytes (CPEK) to toll-like receptor agonists.

Toll-like receptor (TLR) 2 dependent pathways have an important role in the antimicrobial defense of human keratinocytes, and various factors and compounds have been shown to affect those pathways. Investigating Toll-like receptor function in canine keratinocytes and the potential for their modulation is of similar relevance in dogs due to the frequency of staphylococcal skin infections in this species, particularly in the context of canine atopic dermatitis. This pilot study hypothesized that ciclosporin would have a modulatory effect on the cytokine and TLR mRNA expression of canine progenitor epidermal keratinocytes in response to TLR2 agonists. No detectable up-regulation of TLR2, TLR4, IL-8 and TNF-α mRNA was detected following exposure to FSL-1, Pam3CSK4 and staphylococcal peptidoglycan (PGN). Ciclosporin alone did not alter the expression levels of these transcripts but in the presence of ciclosporin, TNF-α mRNA expression was upregulated in response to all three agonists and both TNF-α and IL-8 transcript abundance was increased in response to Pam3CSK4. The enhanced responsiveness of canine keratinocytes to TLR2 agonists in response to ciclosporin may imply that administration of this drug might enhance the innate immune barrier of skin.