Incidence of keratinophilic fungi in the soil of primary schools and public parks of Madras City, India

Dermatophytosis caused by Nannizzia nana (Microsporum nanum): a comprehensive review on a novel pathogen

Keratinophilic fungi are mostly soil-inhabiting organisms with occasional infections in humans and animals. Even though most dermatophytes are host-adapted, cross-species infections are common by zoophilic and geophilic dermatophytes. N. nana is considered an etiological agent of ringworm in pigs but has also been isolated from other animals, including humans. However, it also possesses many characteristics of geophilic dermatophytes including the ability to grow in soil. N. nana produces characteristic pear-shaped macroconidia and usually exhibits an ectothrix pattern of hair infection. It has been isolated from dermatitis lesions as well as from soil. N. nana infections in pigs are not of much concern as far as economy or health is concerned. But it has been associated with onychomycosis and gonathritis in humans, which are significant in human medicine. The shift in the predominance of dermatophytes in humans and the ability to evolve into a potential tinea pathogen necessitates more understanding of the physiology and genetics of N. nana. In this review, we have attempted a detailed analysis of the studies about N. nana, emphasizing growth and cultural characters, physiology, isolation, infection in humans and animals, molecular characterization and antifungal susceptibility.

Drug Discovery – A New Bioactive Compounds Isolated from Natural Sources

"A rise in mortality due to fungal infections in an immunocompromised population has been observed lately. Nowadays, due to increased fungal infections, the limitations encountered in their treatment like resistance, side-effects, and high toxicity, the rising prescription and overuse of conventional antifungals all stimulate a search for alternative natural drugs therefore we are in dire need of natural newer strategies that involve reliable agents for the treatment of fungal diseases such as essential oils are known for their anti-microbial properties and are multi-component. Materials & Methods: Soil samples (66 samples) were collected from different agricultural fields and animals habitat of Saharanpur (U.P.) Isolation of keratinophilic fungi was carried out by the hair-baiting technique. Extraction of Mentha piperita & Cinnamonum vernum essential oil was carried out by hydrodistillation method and the chemical composition of both extracted essential oils was determined by Gas ChromatographyMass Spectrophotometry. Antimycotic studies of essential oils were done by the standard disc diffusion method. Results & Discussion: In the present study, the antifungal potential of Mentha piperita & Cinnamonum vernum essential oils were evaluated against three human pathogenic fungi isolated from the soil of agricultural field and animals habitat of Saharanpur (U.P.) i.e Trichophyton mentagrophytes, T.tonsurans, and T.equinum. The chemical composition of Mentha piperita & Cinnamonum vernum EO was analyzed by GC-MS. Menthol (53.28%) was the major compound of the Mentha piperita EO followed by Menthyl acetate (15.1%) and Menthofuran (11.18%). Major constituents of Cinnamonum vernum EO were linalool (8%), (E)- cinnamaldehyde (7.2%), β-caryophyllene (7.4%), eucalyptol (6.4%), and eugenol (5.6%). Conclusion: Essential oils of Mentha piperita & Cinnamonum vernum have been found to have remarkable & excellent antifungal activity against these pathogenic fungi. Present findings conclude that natural products like plant-derived EOs instead of chemotherapy and the emergence of resistance to antifungal drugs can be regarded as an environmental safety mode of disease control against pathogens. "

In vitro antidermatophytic activity of bioactive compounds from selected medicinal plants

Fungal infections are among the most difficult diseases to manage in humans. Eukaryotic fungal pathogens share many similarities with their host cells, which impairs the development of antifungal compounds. Therefore, it is desirable to harness the pharmaceutical potential of medicinal plants for antifungal drug discovery. In this study, the antifungal activity of sixteen plant extracts was investigated against selected dermatophytic fungi. Of the sixteen plants, the cladode (leaf) of Asparagus racemosus, and seed extract of Cassia occidentalis showed antifungal activity against Microsporum gypseum, Microsporum nanum, Trichophyton mentagrophytes and Trichophyton terrestre. The plant antifungal compounds were located by direct bioassay against Cladosporium herbarum. IR and NMR spectrometry analyses of these compounds identified the presence of saponin (in A. racemosus) and hydroxy anthraquinone (in C. occidentalis) in these antifungal compounds. The antidermatophytic activity of plant anthraquinone and saponins with reports of little or no hemolytic activity, makes these compounds ideal for alternative antifungal therapy and warrants further in-depth investigation in vivo.

Children's public health: Danger of exposure to pathogenic fungi in recreational places in the middle-west region of Brazil

BACKGROUND

Dermatophytes are keratinophilic fungi, considered etiological agents of cutaneous mycoses in man and animals. The objective of this work was to isolate dermatophytic and non-dermatophytic fungi in recreational sandboxes (rainy and dry periods) in public day-care centers located in the city of Cuiabá-MT (Middle-west of Brazil).

METHODS

Samples (n=200) were collected from the superficial layer of the sandboxes at a depth of 2-5cm in 10 public nurseries in Cuiabá-MT. Hair baits measuring 1-2cm were autoclaved and dispersed in 50g of the sample in sterile plates, incubated at 28°C, moistened with chloramphenicol solution (50mg/L). After 6 weeks the baits were inoculated on Sabouraud agar plus 50mg/L chloramphenicol and 500mg/L cycloheximide. The fungi were identified according to macroscopic and micromorphological characteristics.

RESULTS

From the collected sand samples, 1318 colonies and 56 species of fungi belonging to 22 genera were isolated. The most important genera were Paecilomyces spp. (30.42%), Penicillium spp. (19.12%), Fusarium spp. (11.46%) and Aspergillus spp. (11.15%). Dermatophytes were recovered in 50% of day-care centers in a total of 29 identified colonies, the Trichophyton genus (86.2%) being the most frequently isolated.

CONCLUSIONS

The dermatophytes in the recreational areas of day-care centers can pose a risk to the health of its users, especially for children and the employees. Work with this profile is very important to guide actions related to health surveillance.

Distribution of Species of Dermatophyte Among Patients at a Dermatology Centre of Nghean Province, Vietnam, 2015-2016

INTRODUCTION

Vietnam is a tropical country so fungal diseases including dermatophytosis may be prevalent, but epidemiological profiles of agents responsible for the infection have rarely been reported.

OBJECTIVE

To find out the distribution of dermatophytes among patients living in a central province of Vietnam.

METHODS

We examined dermatophyte infections in patients with lesions suspected of dermatophytosis referred to the Nghean provincial leprosy and dermatology centre from August 2015 to August 2016. The speciation of dermatophyte was performed by conventional and molecular approaches.

RESULTS

One hundred and thirty-six patients (90 males and 46 females) were included. Those aged from 11 to 30 contribute 59.1%. The most common agent found was Trichophyton rubrum (66.9%), followed by T. interdigitale (12.5%), T. tonsurans (9.6%), Microsporum incurvatum (8.1%), and the less frequent species were M. canis (2.2%) and T. violaceum (0.7%). Epidermophyton floccosum was not reported. T. rubrum were more common in men (74.4%) than in women (52.2%), while T. interdigitale and M. incurvatum were more common in women (21.7 and 15.2%) than in men (7.8 and 4.4%). Patients infected with Microsporum spp. had small-sized lesions for only 3 months, while those affected by Trichophyton spp. had large-sized lesions with longer duration.

CONCLUSION

Trichophyton species are the predominant agents of infection in Nghean province, while Epidermophyton species is absent. Additional investigations are required to clarify the epidemiological profile of dermatophytes in Vietnam.

Fungal Succession on Keratinous Hair and Nail Baits of Human Origin

Mycologically, succession is more precisely the sequential occupation of the same site by thalli (normally mycelia) either of different fungi or of different associations of fungi. For the study of fungal succession on hair bait, different soil samples were collected from different habitats of Jaipur. The fungal growth isolated from soil samples was observed macroscopically and microscopically for the appearance of fungi at regular interval of 15 days for more than 6 months. Regular microscopic examination of fungi of soil samples baited with hair showed a successional colonization of non-keratinophilic and keratinophilic fungi. In the first phase of 30-day incubation, five non-keratinophilic fungi appeared. After 45 days, three non-keratinophilic fungi appeared together and three keratinophilic fungi viz. Geotrichum spp., Coccidiodes immitis and Aspergillus niger. In third phase of 60 days, growth of only one Fusarium spp. as non-keratinophilic fungi and four keratinophilic fungi viz. Geotrichum spp. Chrysosporium spp., Chrysosporium indicum and Microsporum gypseum was observed. During the study, Fusarium spp. showed persistent growth from initial phase to third phase of incubation. After 75 days, all the non-keratinophilic fungi disappeared fully and seven fungi viz. Geotrichum spp., Chrysosporium tropicum, Chrysosporium evolceanui, C. indicum, Trichophyton simii, Trichophyton terrestre and M. gypseum were observed as keratinophilic fungi. In the last phase of 90-day incubation, three keratinophilic fungi viz. Geotrichum spp., C. evolceanui and M. gypseum were also disappeared and four keratinophilic fungi like C. tropicum, T. simii, C. indicum and T. terrestre were found to be more persistent fungi.

Biotechnological Aspects and Perspective of Microbial Keratinase Production

Keratinases are proteolytic enzymes predominantly active when keratin substrates are available that attack disulfide bridges in the keratin to convert them from complex to simplified forms. Keratinases are essential in preparation of animal nutrients, protein supplements, leather manufacture, textile processing, detergent formulation, feather meal processing for feed and fertilizer, the pharmaceutical and biomedical industries, and waste management. Accordingly, it is necessary to develop a method for continuous production of keratinase from reliable sources that can be easily managed. Microbial keratinase is less expensive than conventionally produced keratinase and can be obtained from fungi, bacteria, and actinomycetes. In this overview, the expansion of information about microbial keratinases and important considerations in keratinase production are discussed.

Isolation of keratinophilic fungi from selected soils of Sanjay Gandhi National Park, Mumbai (India)

One hundred and twenty-five samples were collected from eight different sites in the vicinity of Sanjay Gandhi National Park (SGNP) and screened for the presence of keratinophilic fungi using hair baiting technique for isolation. Seventy-three isolates were recovered and identified. The cultures were identified using macro- and micro-morphological features. Their identification was also confirmed by the BLAST search of sequences of the ITS1-5.8S-ITS2 rDNA region against the NCBI/Genbank data and compared with deposited sequences for identification purpose. Thirteen species of nine genera were isolated viz. Aphanoascus durus (2.4%), Arthroderma corniculatum (1.6%), Auxarthron umbrinum (0.8%), Chrysosporium evolceanui (1.6%), Chrysosporium indicum (16.0%), Chrysosporium tropicum (2.4%), Chrysosporium zonatum (4.0%), Chrysosporium states of Arthroderma tuberculatum (0.8%), Chrysosporium state of Ctenomyces serratus (11.2%), Gymnascella dankaliensis (3.2%), Microsporum gypseum (12.0%), Myriodontium keratinophilum (0.8%) and Trichophyton mentagrophytes (1.6%). Representative of all thirteen species can release the protein in the range of 152.2-322.4 μg/mL in liquid media when grown on human hair in shake flask culture and also decompose 18.4-40.2% of human hair after four weeks of incubation. This study indicates that the soils of SGNP, Mumbai may be significant reservoirs of certain keratinophilic fungi. The keratinolytic activity of these fungi may be playing significant role in superficial infections to man and animals and recycling of keratinic material of this environment.

Isolation and molecular identification of keratinophilic fungi from public parks soil in Shiraz, Iran

Introduction. Keratinophilic fungi are an important group of fungi that live in soil. The aim of this study was to isolate and identify keratinophilic fungi from the soil of different parks in Shiraz. Materials and Methods. A total of 196 soil samples from 43 parks were collected. Isolation of the fungi was performed by hair bait technique. The isolated colonies were identified by morphologic feature of macro- and microconidia and molecular method, using DNA sequence analysis. ITS region of ribosomal DNA was amplified and the PCR products were sequenced. Results. 411 isolates from 22 genera were identified. Fusarium (23.8%), Chrysosporium (13.13%), Acremonium (12.65%), Penicillium (12.39%), Microsporum gypseum (1.94%), Bionectria ochroleuca (1.21%), Bipolaris spicifera (1.21%), Scedosporium apiospermum (0.82%), Phialophora reptans (0.82%), Cephalosporium curtipes (0.49%), Scedosporium dehoogii (0.24%), Ochroconis constricta (0.24%), Nectria mauritiicola (0.49%), Chaetomium (0.49%), Scopulariopsis (0.24%), Malbranchea (0.24%), and Tritirachium (0.24%) were the most important isolates. Most of the fungi were isolated from the soils with the PH range of 7 to 8. Conclusion. Our study results showed that many keratinophilic fungi isolated from the parks soil are important for public health and children are an important group at a high risk of being exposed to these fungi.

Profile of dermatophytic and other fungal infections in jaipur

The common cause of skin infections are dermatophytes and opportunistic fungi. Aim of present study is to find predominant etiological agent of dermatophytoses and to isolate various fungal agents from clinical samples of patients with different mycoses and Clinical samples from 260 patients were subjected to potassium hydroxide (KOH) examination and culture isolation; causative agents were identified macroscopically and microscopically. One hundred sixty three (62.7%) were found to be positive by KOH examination while 132 (50.8%) were culture positive. Dermatophytes were isolated in 90/140 (64.3%) specimens. Trichophyton rubrum (75.5%) was the commonest isolate among the patients suffering from dermatophytoses. Candida spp. and Malassezia furfur were isolated from patient suffering from candidiasis and pityriasis versicolor.

Distribution of dermatophytes and other related fungi in Jaipur city, with particular reference to soil pH

Screening of 217 soil samples of different habitats, such as PG study centre, garden, farmhouse, nursery, roadside, hostel, animal habitat, bird habitat, marriage garden, temple, vegetable market and house dust, was carried out for the presence of dermatophytes and related fungi in relation to soil pH. A total of 461 isolates belonging to 26 genera and 34 species were recorded. Soil pH values vary from 3 to 10.5. Trichophyton verrucosum, Microsporum audouinii and M. canis were isolated for the first time in Jaipur from pH range 7.0 to 9.0. Chrysosporium tropicum (46.08%) was the most predominant fungus isolated from pH range 6.5 to 9.5. Trichophyton mentagrophytes (24.88%) was the second most common fungal species isolated from pH 6.5 to 9.5. Most of the keratinophilic fungi were isolated from pH 6.5 to 8.5. Only one isolate of Fusarium moniliforme was reported from a highly acidic site at pH 3. Roadside and garden soils were found to be the most suitable sites for almost all keratinophilic fungi.

Secretion of keratinolytic enzymes and keratinolysis by Scopulariopsis brevicaulis and Trichophyton mentagrophytes: regression analysis

A survey on keratinophilic fungi from poultry-farm soils at Namakkal and from feather dumping soils at Chennai, India, revealed the existence of 34 species of fungi. Most of the fungi exhibited variable efficiency in producing extracellular keratinase when grown in plates with chicken feathers as the sole carbon and nitrogen source. The fungi Aspergillus flavus, Aspergillus niger, Aspergillus versicolor, Chrysosporium state of Arthroderma tuberculatum, Paecilomyces carneus, Scopulariopsis brevicaulis, Trichoderma viride, and Trichophyton mentagrophytes were efficient candidates to degrade the feathers. However, when cultivating the strains in submerged conditions in a medium containing chicken feathers as the sole nutrients source, Aspergillus glaucus, Chrysosporium keratinophilum, Curvularia lunata, Fusarium solani, and Penicillium citrinum also proved to be potent. Among all species, S. brevicaulis and Trichophyton mentagrophytes produced higher amounts of keratinase in both methods. Conditions for keratinase production were optimized by statistical design and surface plots. The highest keratinase activity was estimated by S. brevicaulis (3.2 KU/mL) and Trichophyton mentagrophytes (2.7 KU/mL) in the culture medium with chicken feathers and shows (79% and 72.2% of degrading ability, respectively).

Keratinophilic fungi isolated from hospital dust and soils of public places at Gulbarga, India

Keratinophilic fungi were isolated from corridor dust of 11 hospitals and soils of 21 public places using a hair baiting technique. A total of 41 species belonging to 24 genera were recovered. Among the dermatophytes and related species, Microsporum gypseum was predominant, followed by Chrysosporium keratinophilum, Trichophyton mentagrophytes, M. nanum and Ch. tropicum. Other species were represented by 32 species belonging to 21 genera. Most of the species isolated are known to be agents of human and animal infection or have been isolated from human and animal lesions. The fungi observed here are discussed in relation to their global distribution.

Keratinophilic fungi of poultry farm and feather dumping soil in Tamil Nadu, India

Soils of 10 poultry farms from Namakkal and 12 feather dumping sites from Chennai were studied for the presence of keratinophilic fungi. A total of 34 species belonging to 19 genera and one non-sporulating fungus were recovered. Sixteen species of fungi and one non-sporulating fungi were common to both sites, eight species were specific to Namakkal and nine species were specific to Chennai. Dermatophytes and closely related fungi were represented by six species belonging to five genera. Fungal species commonly found in the soil samples included Chrysosporium keratinophilum (73%), Trichophyton mentagrophytes (68.2%), Microsporum gypseum (64%), Myceliopthora vellerea (32%), Chrysosporium state of Arthroderma tuberculatum (27.3%) and Geomyces pannorum (23%). Non-dermatophyte fungi were represented by 28 species belonging to 14 genera and one non-sporulating fungus.

Optimization of an extracellular protease of Chrysosporium keratinophilum and its potential in bioremediation of keratinic wastes

Chrysosporium keratinophilum IMI 338142 isolated from a waste site containing organopollutants was studied for its ability to produce extracellular proteases on glucose-gelatin medium. Fungus was observed to be a potent producer of such enzymes. Enzyme secretion was best at 15 days of incubation period at pH 8 and temperature 40 degrees C. Asparagine was repressive to protease expression. No relationship existed between the enzyme yield and increase in biomass. Exogenous sugars suppressed enzyme production in the descending order as follows: glucose > arabinose > maltose > mannose > fructose. The enzyme released showed the ability to decompose two keratin substrates tested. Buffalo skin was the most actively degraded substrate when exogenous glucose was absent. Presence of glucose suppressed both enzyme production and degradation of keratin. However, the rate of keratin degradation was independent of enzyme production.

Incidence of keratinophilic fungi from selected soils of Kerala state (India)

One hundred and fifty-eight soil samples were collected from various areas of four districts of Kerala and screened for prevalence of keratinophilic fungi and related dermatophytes. From the positive samples (60.75%), a total of eight genera with 15 species were isolated viz., Arthroderma simii (0.63%), Chrysosporium indicum (20.25%), C. keratinophilum (6.96%). C. lobatum (1.26%), C. pannicola (1.26%), C. tropicum (5.06%), Chrysosporium state of Arthroderma cuniculi (1.26%), Chrysosporium state of Ctenomyces serratus (2.53%), Gymnascella hyalinospora (1.26%), Malbranchea aurantiaca (0.63%) M. fulva (1.26%), Microsporum gypseum complex (12.65%), Pseudogymnoascus roseus (1.26%), Trichophyton mentragrophytes (1.26%), and T. terrestre (3.16%).

Isolation of dermatophytes and other keratinophilic fungi from soils of Jammu, India

A total of 112 soil samples collected from various areas of Jammu, India, were screened for the prevalence of keratinophilic fungi and related dermatophytes. From 65 positive samples (58.1%), a total of six genera with 13 species were isolated.