Are dogs and cats a reservoir of resistant and virulent Enterococcus faecalis strains and a potential threat to public health?

AIMS: The aim of the study was to assess resistance and virulence of Enterococcus faecalis isolated from the gastrointestinal tract of dogs and cats, analyse their genotypic variability and estimate the correlation between the occurrence of antimicrobial resistance, virulence determinants and genotypic profiles. METHODS AND RESULTS: The susceptibility of E. faecalis to penicillin, ampicillin, vancomycin, erythromycin, tetracycline, ciprofloxacin, gentamicin, streptomycin and kanamycin was determined by the broth microdilution method. The isolates were tested for the presence of selected genes encoding resistance to macrolides, tetracyclines, aminoglycosides and glycopeptides as well as genes encoding virulence factors. Genotyping was performed using the ADSRRS-fingerprinting method. The highest percentage of resistant strains was observed in relation to erythromycin (96%), ciprofloxacin (93%) and tetracycline (82%). High percentage of strains resistant to high-level aminoglycosides was noted (kanamycin-33%, gentamicin-29%, streptomycin-24%), as well as multidrug-resistant (78%). The genotypic analysis of E. faecalis showed high heterogeneity of genotypic profiles (37) correlating with some resistance profiles. The most common virulence genes amongst E. faecalis were efaAfs (93%), cpd, ccf and cob (86%). SIGNIFICANCE AND IMPACT OF THE STUDY: The results of this study confirm that companion animals should be considered as a reservoir of E. faecalis carrying resistance and virulence determinants.

A global view on fungal infections in humans and animals: infections caused by dimorphic fungi and dermatophytoses.

Fungal infections are still underappreciated and their prevalence is underestimated, which renders them a serious public health problem. Realistic discussions about their distribution, symptoms, and control can improve management and diagnosis and contribute to refinement of preventive actions using currently available tools. This article represents an overview of dermatophytes and endemic fungi that cause infections in humans and animals. In addition, the impact of climate change on the fungal spread is discussed. The endemic fungal infections characterized in this article include coccidioidomycosis, histoplasmosis, blastomycosis, lobomycosis, emergomycosis and sporotrichosis. Moreover the geographic distribution of these fungi, which are known to be climate sensitive and/or limited to endemic tropical and subtropical areas, is highlighted. In turn, dermatophytes cause superficial fungal infections of skin, hairs and nails, which are the most prevalent mycoses worldwide with a high economic burden. Therefore, the possibility of causing zoonoses and reverse zoonoses by dermatophytes is highly important. In conclusion, the article illustrates the current issues of the epidemiology and distribution of fungal diseases, emphasizing the lack of public programmes for prevention and control of these types of infection.

A global view on fungal infections in humans and animals: opportunistic infections and microsporidioses.

After cardiovascular diseases, infectious diseases are the second most common cause of death worldwide. Although these infections are caused mainly by viruses or bacteria, a systematically growing prevalence of human and animal opportunistic fungal infections is noticeable worldwide. More attention is being paid to this problem, especially due to the growing frequency of recalcitrant and recurrent mycoses. The latter are classically divided into superficial, which are the most common type, subcutaneous, and systemic. This work discusses opportunistic fungal pathogens without proven horizontal transmission between different animal species including humans and microsporidia as spore-forming unicellular parasites related to fungi; however, with a yet undetermined taxonomic position. The review also mentions aetiological agents, risk factors, epidemiology, geographical distribution, and finally symptoms characteristic for individual disease entities. This paper provides insight into fungal infections from a global perspective and simultaneously draws attention to emerging pathogens, whose prevalence is continuously increasing. Finally, this work also takes into consideration the correct nomenclature of fungal disease entities and the importance of secondary metabolites in the pathogenesis of fungal infections.

Detection and identification of dermatophytes based on currently available methods - a comparative study.

AIMS: Accurate identification of dermatophytes is essential for implementing appropriate antifungal treatment and epidemiological analysis. However, the limitations of conventional diagnostics are a frequently discussed topic, and new diagnostic techniques are constantly expanding. In this study, we assess the suitability of conventional diagnostic techniques in comparison to the real-time PCR assay and MALDI-TOF MS in detection and identification of dermatophytes. METHODS AND RESULTS: Strains included in this study were obtained from human and animals with symptomatic, and asymptomatic infection. A direct examination revealed that 31·7 and 60·9% of samples from symptomatic patients, and 25·7 and 60% from asymptomatic animals were positive, as shown by light and fluorescence microscopy respectively. In turn, dermatophytes were isolated from 90·2 and 71·4% of these samples. The pan-dermatophyte primers in real-time PCR assay facilitated detection in 85·3 and 82·9% of the symptomatic and asymptomatic dermatophytoses respectively. Additionally, species-specific PCR assays were positive in 70·7 and 37·1% of these samples. The MALDI-TOF MS analysis yielded positive results consistent with conventional techniques in 97·2 and 72% of symptomatic and asymptomatic infections respectively. CONCLUSIONS: Our study revealed that there is no universal diagnostic method that would be ideal in each of the cases considered. Nonetheless, conventional techniques are still the most effective and reliable tools for mycological diagnostics. SIGNIFICANCE AND IMPACT OF THE STUDY: Dermatologists and veterinarians have difficulties in making a diagnosis of dermatophytoses based only on observed symptoms of fungal infections, as they mimic symptoms of other dermatoses. In this context, a comparative analysis of the results of diagnostics performed using conventional methods and new technologies are crucial for implementing these pioneer methods into routine laboratory practice.

Assessment of the subtilisin gene profile in Trichophyton verrucosum isolated from human and animal dermatophytoses in two-stage multiplex PCR.

AIMS: Keratin is a fibrous and recalcitrant structural protein and the third most abundant polymer in nature after cellulose and chitin. Subtilisin-like proteases (SUB) are a group of serine endoproteases, coded by seven genes (SUB1-7), which decompose keratin structures and have been isolated from dermatophytes. Herein, we identified the SUB genes in 30 clinical isolates of Trichophyton verrucosum obtained from human and animal dermatophytosis as well as asymptomatic animal carriers. METHODS AND RESULTS: We designed and proposed a two-stage multiplex PCR technique to detect all seven genes encoding serine proteases in dermatophytes. The analysis revealed the presence SUB1 and SUB2 amplicons in all strains regardless of the host. In the group of isolates obtained from humans, all seven subtilisin genes were shown in 40% of the strains. In T. verrucosum from asymptomatic animals, none of the isolates showed the presence of all seven subtilisin genes, and only 30% had six genes. In turn, 10% of the isolates from symptomatic animals demonstrated all seven subtilisins amplicons. CONCLUSIONS: In conclusion, the severity of infection and ability of T. verrucosum to cause dermatophytosis in humans may not be related to specific genes but their accumulation and synergistic effects of their products. SIGNIFICANCE AND IMPACT OF THE STUDY: Dermatophytes are pathogenic filamentous fungi with capacity to attack keratinized structures such as skin, hair and nails, causing cutaneous superficial infections. Indeed, a biological characteristic of dermatophytes is their ability to invade keratin-rich tissues by producing enzymes. Various degrees of inflammatory responses can be induced exactly by the enzymes. Subtilisin-like proteases are endoproteases, which decompose keratin structures. Our study identifies SUB genes in clinical isolates of T. verrucosum obtained from human and animal dermatophytosis as well as asymptomatic animal carriers.

Major challenges and perspectives in the diagnostics and treatment of dermatophyte infections.

Dermatophytes are the aetiological factors of a majority of superficial fungal infections. What distinguishes them from other pathogenic filamentous fungi is their unique ability to degrade keratin. The remarkable ability of this group of fungi to survive in different ecosystems results from their morphological and ecological diversity as well as high adaptability to changing environmental conditions. Paradoxically, despite the progress in medicine, the prevalence of dermatophyte infections is increasing from year to year. At the beginning of the third millennium, practical diagnostic and therapeutic options are still very limited. This review focuses on understanding the major problems in this aspect of dermatophyte infections and indicates future strategies and perspectives for novel approaches to identification and drugs for elimination of dermatophytes. Particular importance is placed on development of a strategy for a diagnostic pathway and implementation of rapid and reliable diagnostics methods designed by international teams. Furthermore, among compounds that currently arouse great interest, representatives of terpenoids, alkaloids, saponins, flavonoids and essential oils deserve attention. Many of these compounds are undergoing clinical trials as potential antifungal agents, and future research should focus on attempts at determination of the applicability of tested substances. Finally, the advantages and disadvantages in implementation of new diagnostic paths and medicinal substances for routine use are indicated.

Phenotypic characterization of enzymatic activity of clinical dermatophyte isolates from animals with and without skin lesions and humans.

AIMS: The pathogenesis of dermatophytoses is associated with the secretion of enzymes degrading the infected tissue components. Although many studies on enzymatic activity of dermatophytes have been conducted over the years, there have been no concrete proposals on the construction of the profile of enzymes characteristic of individual species, genus or ecological types of dermatophytes. The aim of this study was to assess the capability of clinical dermatophyte isolates from both symptomatic and asymptomatic animals and humans to produce different enzymes. METHODS AND RESULTS: Clinical isolates of 234 dermatophyte strains collected during routine examination of animal health were used in this study. The enzymatic production of keratinase, elastase, phospholipase, lipase, protease, DNase and gelatinase as well as the haemolytic activity were evaluated using specific test media. The overall degree of enzymatic activity of the analysed clinical isolates of the dermatophytes was 67%. All tested clinical isolates of different species of dermatophytes showed keratinase activity and 96% additionally exhibited phospholipase activity. The weakest activity among the tested enzymes was demonstrated for elastase and gelatinase. 83% of the isolates of the dermatophytes showed haemolytic activity. CONCLUSION: Our data indicate that clinical isolates of dermatophytes from different species produce enzymes with different levels of activities. SIGNIFICANT AND IMPACT OF THE STUDY: Profile of enzymes characteristic of individual species, genus or ecological types of dermatophytes is possibly dependent upon factors related to the host. The relationship between each enzyme and the occurrence of skin lesions in animals and humans or asymptomatic animal carriers varies on whether the infection is caused by Trichophyton mentagrophytes, Trichophyton verrucosum or Microsporum canis. Interestingly, only keratinase seems to be correlated with the appearance of dermatophyte infections, irrespective of the pathogen species, and elastase is a characteristic enzyme for dermatophyte strains infecting humans. Haemolysis seems to be dependent on host factors and is more common in the case of human dermatophyte isolates.