Molecular epidemiological investigation of Cryptococcus spp. carried by captive koalas (Phascolarctos cinereus) in Japan.

Cryptococcus neoformans and Cryptococcus gattii cause cryptococcosis, a systemic mycosis that infects a wide range of species. Recent molecular biological investigations have allowed for the genotyping of these species, providing more detailed information on their pathogenicity and infection routes. Koalas (Phascolarctos cinereus) are frequently colonized by Cryptococcus spp., but molecular epidemiological studies have yet to be conducted in Japan. Here, we conducted multi-locus sequence typing (MLST) analysis on Cryptococcus spp. colonization isolates obtained from all koalas kept in seven parks across Japan. Out of 46 koalas examined, 10 (22%) were positive for C. gattii and 3 (6.5%) were positive for C. neoformans. All C. gattii isolates belonged to molecular type VGI and were either sequence type (ST) 51 or a novel ST, and all C. neoformans isolates belonged to molecular type VNI and ST23. Despite the frequent movement of koalas between parks, the STs were relatively park-specific, suggesting that the floor of the rearing barns is a source of infection and may act as a reservoir. MLST analysis confirmed that C. gattii was transported, established, and spread by koalas in areas where C. gattii was not originally present. MLST analysis is considered useful in assessing the pathogenicity and tracing the transmission routes of Cryptococcus spp. carried by koalas.IMPORTANCEThis is the first study to conduct a multi-locus sequence typing analysis on Cryptococcus spp. carried by captive koalas in Japan. Cryptococcosis remains a globally high-fatality fungal infection in humans, and captive koalas are known to carry a high percentage of Cryptococcus spp. Through this research, the molecular types and transmission routes of Cryptococcus spp. carried by koalas have been elucidated, revealing the potential role of enclosure flooring as a reservoir. It has been confirmed that Cryptococcus gattii, which is not endemic in Japan, has become established through koalas and is spreading to new individuals in Japan. This study is believed to provide valuable insights into koala conservation and contribute to the One Health approach for Cryptococcosis, a zoonotic infection.

Case report: First isolation of Exophiala dermatitidis from subcutaneous phaeohyphomycosis in a cat.

Phaeohyphomycosis, which is caused by the opportunistic black yeast-like fungus Exophiala dermatitidis, has been reported in humans and dogs. However, no previous studies describing E. dermatitidis infections in cats have been published. Herein, we report a case of subcutaneous phaeohyphomycosis caused by E. dermatitidis. A 12-year-old, castrated male Japanese domestic short-haired cat presented with a solitary subcutaneous abscess on the left side of the neck, where an esophageal tube for force-feeding had been placed previously. The cat was diagnosed with hepatitis and was treated with prednisolone. The subcutaneous abscess was incised using a scalpel blade and the pus was excreted. The cytology of the pus revealed hyphae with neutrophil and macrophage infiltration. Although the cat was treated with oral itraconazole or an infusion of topical ketoconazole cream applied to the lesion, it died. The fungal culture of the pus specimen developed dark-green, waxy, smooth, yeast-like colonies. Sequencing of the internal transcribed spacer 1-4 regions of the ribosomal DNA of the pus specimen showed 100% identity with that of the standard strains of E. dermatitidis. Based on these results, the cat was diagnosed with subcutaneous phaeohyphomycosis caused by E. dermatitidis. The antifungal susceptibility test revealed that the fungus showed low or moderate susceptibility to the antifungal drugs examined, except for amphotericin B, which exhibited high in vitro antifungal activity. This is the first case report to provide definitive evidence of E. dermatitidis infection in cats and antifungal susceptibility test results against clinically isolated E. dermatitidis.

Multiple intra-abdominal fungal granulomas caused by Scedosporium apiospermum effectively treated with voriconazole in a Golden Retriever.

Scedosporium apiospermum is a saprophytic filamentous fungus that is pathogenic to dogs. This report describes a case of S. apiospermum infection that caused multiple large peritoneal fungal granulomas in a dog with a history of jejunojejunostomy. The lesions were firmly attached to multiple organs and could not be surgically removed. In such cases, no precedent for the response to the treatment of this disease exists, and all affected dogs have died. This is the first report of an effective medical treatment for multiple intra-abdominal fungal granulomas using voriconazole.

Molecular diversity of the faecal microbiota of Toy Poodles in Japan.

The intestinal microbiota was revealed with the recent advances in molecular techniques, such as high-throughput sequencing analysis. As a result, the microbial changes are thought to influence the health of humans and animals and such changes are affected by several factors including diet, genetics, age, sex, and diseases. Similar studies are being conducted in dogs, and the knowledge of intestinal microbiota in dogs is expanding. Nonetheless, basic information on intestinal microbiota in dogs is less than that of humans. Our aim was to study toy poodles (n=21), a popular companion dog, in terms of basic characteristics of the faecal microbiota by 16S rRNA gene barcoding analysis. In the faecal microbiota, Firmicutes, Bacteroidetes, Proteobacteria, and Fusobacteria were the dominant phyla (over 93.4% of faecal microbiota) regardless of the attributes of the dogs. In family level, Enterobacteriaceae, Bacteroidaceae, and Lachnospiraceae were most prevalent. In case of a dog with protein-losing enteropathy, the diversity of faecal microbiota was different between before and after treatment. This study provides basic information for studying on faecal microbiota in toy poodles.

Molecular characteristics and prevalence of small ruminant lentiviruses in goats in Japan.

Small ruminant lentiviruses (SRLVs), which comprise caprine arthritis-encephalitis virus (CAEV) and maedi-visna virus (MVV), are prevalent in goats and sheep worldwide, including in Japan. However, little is known about the molecular characteristics of goat lentiviruses in Japan. In this study, a molecular and phylogenetic analysis of the long gag region was performed. The phylogenic tree demonstrated that all samples belonged to SRLV subtype B1. Two clusters were identified, with one cluster distinct from previously reported strains of subtype B1. In addition, several alterations in the amino acid sequence were detected in immunodominant epitopes of the gag region. To gain a deeper understanding of the genetic diversity of SRLVs in Japan, it will be necessary to increase the sample size and conduct a broader survey. The present report is important for establishing baseline information on the prevalence of SRLV in Japan and providing data to develop a new, more sensitive diagnostic test for effective control of SRLV.

Identification of an RNA element for specific coordination of A-to-I RNA editing on HTR2C pre-mRNA.

Adenosine-to-Inosine (A-to-I) RNA editing is an intracellular mechanism in which inosine is specifically substituted against adenosine by the action of adenosine deaminases acting on RNA (ADARs). Serotonin 2C receptor (HTR2C) is encoded through combinatorial A-to-I RNA editing at recoding sites (A - E site) on its pre-mRNA. Although the efficiency of RNA editing at particular sites is known to be critical for modulating the serotonin signaling, the mechanistic details of site-specific editing on HTR2C pre-mRNA are not fully understood. Toward complete understanding of this mechanism, we discovered an RNA element, which coordinates site-specific RNA editing on HTR2C pre-mRNA by an in vitro editing assay and secondary structural analysis of mutant HTR2C RNA fragments. Our results showed that HTR2C pre-mRNA forms a characteristic structure, which was restricted by the internal loop and Watson-Crick base-pair interaction on site E, for intrinsic editing. We suggest that the internal loop would contribute toward adjusting the relative distance and/or geometry between the editing sites and the scaffold for ADAR.