Mycobiome profiling of nasopharyngeal region of SARS-CoV-2 infected individuals

The present cross-sectional study aims to understand the fungal community composition of the nasopharyngeal region of SARS-CoV-2 infected individuals and how the infection influences the mycobiome therein. The infection significantly (p < 0.05) influenced the alpha diversity. Interestingly, a higher abundance of Cladosporium and Alternaria was noted in the infected individuals and inter-individual variation in mycobiome composition was well supported by beta dispersion analysis (p < 0.05). Moreover, decrease in Aspergillus abundance was observed in infected patients across the four age groups. This study provides insight into the alteration in mycobiome during the viral disease progression and demands continuous investigation to monitor fungal infections.     

Evaluation of Probiotic Diversity from Soybean (<Emphasis Type="Italic">Glycine max</Emphasis>) Seeds and Sprouts Using Illumina-Based Sequencing Method

There is increasing interest in the use of plant probiotics as environmental-friendly and healthy biofertilizers. The study aimed at selecting for novel probiotic candidates of soybean (Glycine max). The bacteriome and mycobiome of soybean sprouts and seeds were analyzed by Illumina-based sequencing. Seeds contained more diverse bacteria than those in sprouts. The seeds contained similar fungal diversity with sprouts. Total 15 bacterial OTUs and 4 fungal OTUs were detected in seeds and sprouts simultaneously, suggesting that the sprouts contained bacterial and fungal taxa transmitted from seeds. The Halothiobacillus was the most dominant bacterial genus observed and coexisted in seeds and sprouts. The OTUs belonged to Ascomycota were the most dominant fungal taxa observed in seeds and sprouts. Halothiobacillus was firstly identified as endophytic probiotics of soybean. The results suggested that sprouts might contain diverse plant probiotics of mature plants and Illumina-based sequencing can be used to screen for probiotic candidates.     

Cross-phytogroup assessment of foliar epiphytic mycobiomes

The foliar surface forms one of the largest aboveground habitats on Earth and maintains plant-fungus relationships that greatly affect ecosystem functioning. Despite many studies with particular plant species, the foliar epiphytic mycobiome has not been studied across a large number of plant species from different taxa. Using high-throughput sequencing, we assessed epiphytic mycobiomes on leaf surfaces of 592 plant species in a botanical garden. Plants of angiosperms, gymnosperms, and pteridophytes were involved. Plant taxonomy, leaf side, growing environment, and evolutionary relationships were considered. We found that pteridophytes showed the higher fungal species diversity, stronger mutualistic fungal interactions, and a greater percentage of putative pathogens than gymnosperms and angiosperms. Plant taxonomic group, leaf side, and growing environment were significantly associated with the foliar epiphytic mycobiome, but the similarity of the mycobiomes among plants was not directly related to the distance of the host evolutionary tree. Our results provide a general understanding of the foliar fungal mycobiomes from pteridophytes to angiosperms. These findings will facilitate our understanding of foliar fungal epiphytes and their roles in plant communities and ecosystems.     

Early diagnosis of invasive fungal infections caused by Aspergillus and other emerging mycelial fungi

The usefulness of surrogate markers in the diagnosis of invasive fungal infections caused by Aspergillus and other emerging mycelial fungi is based on the ability of surrogate markers to detect the infection caused by different species of mycelial fungi. Conventional microbiological methods for diagnosis of fungal disease are slow and insensitive. Antigen based assays or measurement of (1-3)-beta-D-glucan in blood have been developed and validated in clinical laboratories. We review these diagnostic contemporary tools, their clinical application and impact.     

The mycobiome of Australian tree hollows in relation to the Cryptococcus gattii and C. neoformans species complexes

Cryptococcosis is a fungal infection caused by members of the Cryptococcus gattii and C. neoformans species complexes. The C. gattii species complex has a strong environmental association with eucalypt hollows (particularly Eucalyptus camaldulensis), which may present a source of infection. It remains unclear whether a specific mycobiome is required to support its environmental survival and growth. Conventional detection of environmental Cryptococcus spp. involves culture on differential media, such as Guizotia abyssinica seed agar. Next‐generation sequencing (NGS)‐based culture‐independent identification aids in contextualising these species in the environmental mycobiome. Samples from 23 Australian tree hollows were subjected to both culture‐ and amplicon‐based metagenomic analysis to characterize the mycobiome and assess relationships between Cryptococcus spp. and other fungal taxa. The most abundant genera detected were Coniochaeta, Aspergillus, and Penicillium, all being commonly isolated from decaying wood. There was no correlation between the presence of Cryptococcus spp. in a tree hollow and the presence of any other fungal genus. Some differences in the abundance of numerous taxa were noted in a differential heat tree comparing samples with or without Cryptococcus‐NGS reads. The study expanded the known environmental niche of the C. gattii and C. neoformans species complexes in Australia with detections from a further five tree species. Discrepancies between the detection of Cryptococcus spp. using culture or NGS suggest that neither is superior per se and that, rather, these methodologies are complementary. The inherent biases of amplicon‐based metagenomics require cautious interpretation of data through consideration of its biological relevance.     

Implementation of a Pan-Genomic Approach to Investigate Holobiont-Infecting Microbe Interaction: A Case Report of a Leukemic Patient with Invasive Mucormycosis

Disease can be conceptualized as the result of interactions between infecting microbe and holobiont, the combination of a host and its microbial communities. It is likely that genomic variation in the host, infecting microbe, and commensal microbiota are key determinants of infectious disease clinical outcomes. However, until recently, simultaneous, multiomic investigation of infecting microbe and holobiont components has rarely been explored. Herein, we characterized the infecting microbe, host, micro- and mycobiomes leading up to infection onset in a leukemia patient that developed invasive mucormycosis. We discovered that the patient was infected with a strain of the recently described Mucor velutinosus species which we determined was hypervirulent in a Drosophila challenge model and has a predisposition for skin dissemination. After completing the infecting M. velutinosus genome and genomes from four other Mucor species, comparative pathogenomics was performed and assisted in identifying 66 M. velutinosus-specific putatively secreted proteins, including multiple novel secreted aspartyl proteinases which may contribute to the unique clinical presentation of skin dissemination. Whole exome sequencing of the patient revealed multiple non-synonymous polymorphisms in genes critical to control of fungal proliferation, such as TLR6 and PTX3. Moreover, the patient had a non-synonymous polymorphism in the NOD2 gene and a missense mutation in FUT2, which have been linked to microbial dysbiosis and microbiome diversity maintenance during physiologic stress, respectively. In concert with host genetic polymorphism data, the micro- and mycobiome analyses revealed that the infection developed amid a dysbiotic microbiome with low α-diversity, dominated by staphylococci. Additionally, longitudinal mycobiome data showed that M. velutinosus DNA was detectable in oral samples preceding disease onset. Our genome-level study of the host-infecting microbe-commensal triad extends the concept of personalized genomic medicine to the holobiont-infecting microbe interface thereby offering novel opportunities for using synergistic genetic methods to increase understanding of infectious diseases pathogenesis and clinical outcomes.     

The needle mycobiome of Picea glauca – A dynamic system reflecting surrounding environment and tree phenological traits

Fungi play a crucial role in terrestrial Arctic ecosystems as symbionts of vascular plants and nutrient recyclers in soil, with many species persistently or temporarily inhabiting the phyllosphere of the vegetation.In this study we apply high-throughput sequencing to investigate the mycobiome of 172 samples of fresh (current year) and aged (3 year old) needles of Picea glauca from three sites over a distance of 500 km in Alaska (USA). We analysed Illumina-generated ITS2 sequences to relate mycobiome data with phenotypic tree traits, measures of genetic variation and climate variables obtained from long-term monitoring of the sites.Alpha-diversity declined with increasing environmental stress/climate harshness. Fungal communities differed in richness and taxonomic composition between sites, with a pronounced difference in the relative abundance of OTUs assigned to species of the rust genus Chrysomyxa, plant pathogens which seem to have been in an outbreak at two sites at the time of sampling.Beside climate parameters, needle age was the second strongest explanatory variable of the mycobiome composition, whereas we found no effect of tree genetic variation, indicating that environmental and tree trait specific variables mainly determined individual white spruce mycobiomes at Alaska's treelines.     

Diversity and ecology of soil fungal communities: increased understanding through the application of molecular techniques

Fungi fulfil a range of important ecological functions, yet current understanding of fungal biodiversity in soil is limited. Direct DNA extraction from soil, coupled with polymerase chain reaction amplification and community profiling techniques, has proved successful in investigations of bacterial ecology and shows great promise for elucidating the taxonomic and functional characteristics of soil fungal communities. These community profiling techniques include denaturing gradient gel electrophoresis (DGGE), temperature gradient gel electrophoresis (TGGE), single-strand conformation polymorphism (SSCP), terminal restriction fragment length polymorphism (T-RFLP), amplified rDNA restriction analysis (ARDRA), amplified ribosomal intergenic spacer analysis (ARISA) and cloning, and are generally coupled with DNA sequencing. The techniques and their potential limitations are discussed, along with recent advances that have been made possible through their application in soil fungal ecology. It is unlikely that a single approach will be universally applicable for assessing fungal diversity in all soils or circumstances. However, judicious selection of the methodology, keeping the experimental aims in mind, and the exploitation of emerging technologies will undoubtedly increase our understanding of soil fungal communities in the future.     

Harnessing Whole Genome Sequencing in Medical Mycology

Purpose of Review

Comparative genome sequencing studies of human fungal pathogens enable identification of genes and variants associated with virulence and drug resistance. This review describes current approaches, resources, and advances in applying whole genome sequencing to study clinically important fungal pathogens.

Recent Findings

Genomes for some important fungal pathogens were only recently assembled, revealing gene family expansions in many species and extreme gene loss in one obligate species. The scale and scope of species sequenced is rapidly expanding, leveraging technological advances to assemble and annotate genomes with higher precision. By using iteratively improved reference assemblies or those generated de novo for new species, recent studies have compared the sequence of isolates representing populations or clinical cohorts. Whole genome approaches provide the resolution necessary for comparison of closely related isolates, for example, in the analysis of outbreaks or sampled across time within a single host.

Summary

Genomic analysis of fungal pathogens has enabled both basic research and diagnostic studies. The increased scale of sequencing can be applied across populations, and new metagenomic methods allow direct analysis of complex samples.

     

Mycobiome of the Bat White Nose Syndrome Affected Caves and Mines Reveals Diversity of Fungi and Local Adaptation by the Fungal Pathogen Pseudogymnoascus (Geomyces) destructans

Current investigations of bat White Nose Syndrome (WNS) and the causative fungus Pseudogymnoascus (Geomyces) destructans (Pd) are intensely focused on the reasons for the appearance of the disease in the Northeast and its rapid spread in the US and Canada. Urgent steps are still needed for the mitigation or control of Pd to save bats. We hypothesized that a focus on fungal community would advance the understanding of ecology and ecosystem processes that are crucial in the disease transmission cycle. This study was conducted in 2010–2011 in New York and Vermont using 90 samples from four mines and two caves situated within the epicenter of WNS. We used culture-dependent (CD) and culture-independent (CI) methods to catalogue all fungi (‘mycobiome’). CD methods included fungal isolations followed by phenotypic and molecular identifications. CI methods included amplification of DNA extracted from environmental samples with universal fungal primers followed by cloning and sequencing. CD methods yielded 675 fungal isolates and CI method yielded 594 fungal environmental nucleic acid sequences (FENAS). The core mycobiome of WNS comprised of 136 operational taxonomic units (OTUs) recovered in culture and 248 OTUs recovered in clone libraries. The fungal community was diverse across the sites, although a subgroup of dominant cosmopolitan fungi was present. The frequent recovery of Pd (18% of samples positive by culture) even in the presence of dominant, cosmopolitan fungal genera suggests some level of local adaptation in WNS-afflicted habitats, while the extensive distribution of Pd (48% of samples positive by real-time PCR) suggests an active reservoir of the pathogen at these sites. These findings underscore the need for integrated disease control measures that target both bats and Pd in the hibernacula for the control of WNS.     

An Approach to Suspected Invasive Fungal Infection in Patients with Hematologic Malignancy and HCT Recipients with Persistent Neutropenic Fever Despite Mold-Active Prophylaxis

Purpose of Review

This review offers an approach to managing suspected invasive fungal infection (IFI) in a febrile neutropenic patient with hematologic malignancy or hematopoietic cell transplantation (HCT) while on mold-active prophylaxis. We take into consideration host characteristics, new diagnostic tools, and available therapeutics.

Recent Findings

Despite use of anti-Aspergillus prophylactic agents, invasive aspergillosis is the most commonly reported IFI breaking through common prophylactic agents including the newest azole, isavuconazole. While more fungal diagnostic modalities are available, how to best incorporate them in the work-up of IFI remains unclear, while sensitivity of any particular fungal biomarker or molecular test is low.

Summary

In a febrile neutropenic patient with hematologic malignancy or HCT and suspected IFI, consider particularly invasive aspergillosis, regardless of the mold-active prophylactic agent. Early diagnosis and intervention are especially important to a favorable outcome; treatment is directed based on the suspected IFI syndrome and suspected organism. Switching azoles, consideration of combination therapy, and reducing immunosuppression are proposed strategies for the management of breakthrough IFI, while surgical debridement remains crucial for Mucormycoses. More study is needed into the optimal antifungal approach in these clinical scenarios. Meanwhile, therapeutic drug monitoring and attention to drug-drug interactions are encouraged.

     

Oral Colonization of Fungi

Opportunistic microbes are able to exist as commensals or pathogens depending on local environmental conditions. The bacterial microbiome at mucosal sites (gut, oral and vaginal) has been well characterized but there has been less focus on the fungal component of the microbiome, the “mycobiome”, especially of the oral mucosa. Genomic characterization studies have shown that Candida species are the most prevalent fungal species in the mycobiomes of the murine gut and human oral cavity, with C. albicans being the most abundant fungal species in the oral cavity. In this review, we outline recent advances in the characterization of the oral mycobiome, how different Candida species colonize, invade and infect the oral cavity, and how epithelial surfaces play a key role in antifungal activity and discriminate between commensal and pathogenic Candida.     

Menacing Mold: Recent Advances in Aspergillus Pathogenesis and Host Defense

The genus Aspergillus is ubiquitous in the environment and contains a number of species, primarily A. fumigatus, that cause mold-associated disease in humans. Humans inhale several hundred to several thousand Aspergillus conidia (i.e., vegetative spores) daily and typically clear these in an asymptomatic manner. In immunocompromised individuals, Aspergillus conidia can germinate into tissue-invasive hyphae, disseminate, and cause invasive aspergillosis. In this review, we first discuss novel concepts in host defense against Aspergillus infections and emphasize new insights in fungal recognition and signaling, innate immune activation, and fungal killing. Second, the review focuses on novel concepts of Aspergillus pathogenesis and highlights emerging knowledge regarding fungal strain heterogeneity, stress responses, and metabolic adaptations on infectious outcomes. Mechanistic insight into the host–pathogen interplay is thus critical to define novel druggable fungal targets and to exploit novel immune-based strategies to improve clinical outcomes associated with aspergillosis in vulnerable patient populations.     

Clinicopathological and Radiological Features of Chronic Rhinosinusitis with Eosinophilic Mucin in Chungcheong Province of Korea

Background

Chronic rhinosinusitis (CRS) with eosinophilic mucin is considered rare in Korea. The object of this study was to categorize CRS patients with eosinophilic mucin into several groups and compared the groups based on their clinicopathological and radiological features.

Methods

In total, 105 CRS patients with eosinophilic mucin from four tertiary medical centers which are located at Chungcheong province of Korea were included for this study. The patients were divided into four groups for analysis, based on the presence or absence of an allergy (A) to a fungus or fungal element (F) in the mucin. The following were the four groups: allergic fungal rhinosinusitis (AFRS, A+F+), AFRS-like sinusitis (A+F?), eosinophilic fungal rhinosinusitis (EFRS, A?F+), and eosinophilic mucin rhinosinusitis (EMRS, A?F?). Their clinical manifestation, the presence of associated disease, radiological finding, treatment, and treatment outcome were reviewed and compared.

Results

There were no patients in the AFRS-like sinusitis group, 47 patients were assigned to the AFRS group, 27 to the EFRS group, and 41 to the EMRS group. Patients of AFRS group showed a significantly higher association with allergic rhinitis than did the other groups. The mean total serum IgE level in the AFRS patients was significantly higher than in the EFRS and EMRS patients. In the AFRS group and EFRS group, 67.6% and 74.1% had unilateral disease, respectively, in contrast to the EMRS group (4.9%). The mean Hounsfield unit values of the area of high attenuation in the AFRS patients were significantly higher than those in the other groups.

Conclusions

Significant clinicopathological differences existed among the subgroups of CRS with eosinophilic mucin. AFRS tends to be an allergic response to colonizing fungi in atopic individuals. In EFRS, local allergies to fungi might play a role in the disease. EMRS is thought to be unconnected with fungal allergies, and it showed different form compared with the AFRS and EFRS groups.

     

Fungal Eye Infections: New Hosts,Novel Emerging Pathogens but No New Treatments?

Purpose of Review

We sought to explore the current incidence and associated risk factors associated with fungal eye infections. We also reviewed new diagnostic strategies and recent clinical studies exploring the use of topical and oral antifungal agents.

Recent Findings

Incidence and associated risks continue to vary with geographic region, and access to timely healthcare. Nosocomial fungal endophthalmitis can result from minor surgical procedures to the eye. Molecular methods offer increasing diagnostic utility. Clinical treatment studies have mainly focussed on the treatment of fungal keratitis and have been conducted in South Asia. Topical natamycin remains superior to topical reconstituted voriconazole and remains the preferred therapy including for Fusarium eye infections. Neither adjunctive oral ketoconazole nor oral voriconazole has been shown to have added clear benefit to topical treatment.

Summary

Larger international studies with more heterogenous populations are required for future clinical studies which should include patients with contact lens fungal keratitis and those with fungal endophthalmitis. Basic science studies exploring the immunology of fungal eye infections and drug levels to understand the differences in clinical outcomes are encouraged.

     

Applications of sequencing technology in clinical microbial infection

Infectious diseases are a type of disease caused by pathogenic microorganisms. Although the discovery of antibiotics changed the treatment of infectious diseases and reduced the mortality of bacterial infections, resistant bacterial strains have emerged. Anti‐infective therapy based on aetiological evidence is the gold standard for clinical treatment, but the time lag and low positive culture rate of traditional methods of pathogen diagnosis leads to relative difficulty in obtaining the evidence of pathogens. Compared with traditional methods of pathogenic diagnosis, next‐generation and third‐generation sequencing technologies have many advantages in the detection of pathogenic microorganisms. In this review, we mainly introduce recent progress in research on pathogenic diagnostic technology and the applications of sequencing technology in the diagnosis of pathogenic microorganisms. This review provides new insights into the application of sequencing technology in the clinical diagnosis of microorganisms.     

Genomes, free radicals and plant cell invasion: recent developments in plant pathogenic fungi

This review describes current advances in our understanding of fungal-plant interactions. The widespread application of whole genome sequencing to a diverse range of fungal species has allowed new insight into the evolution of fungal pathogenesis and the definition of the gene inventories associated with important plant pathogens. This has also led to functional genomic approaches to carry out large-scale gene functional analysis. There has also been significant progress in understanding appressorium-mediated plant infection by fungi and its underlying genetic basis. The nature of biotrophic proliferation of fungal pathogens in host tissue has recently revealed new potential mechanisms for cell-to-cell movement by invading pathogens.     

Biochemical and Molecular Basis of Pesticide Degradation by Microorganisms

Abstract

Fungal arachidonic acid (ARA)-rich oil is an important microbial oil that affects diverse physiological processes that impact normal health and chronic disease. In this article, the historic developments and technological achievements in fungal ARA-rich oil production in the past several years are reviewed. The biochemistry of ARA, ARA-rich oil synthesis and the accumulation mechanism are first introduced. Subsequently, the fermentation and downstream technologies are summarized. Furthermore, progress in the industrial production of ARA-rich oil is discussed. Finally, guidelines for future studies of fungal ARA-rich oil production are proposed in light of the current progress, challenges and trends in the field.     

Proteomics in cardiovascular disease: recent progress and clinical implication and implementation

Introduction: Although multiple efforts have been initiated to shed light into the molecular mechanisms underlying cardiovascular disease, it still remains one of the major causes of death worldwide. Proteomic approaches are unequivocally powerful tools that may provide deeper understanding into the molecular mechanisms associated with cardiovascular disease and improve its management.

Areas covered: Cardiovascular proteomics is an emerging field and significant progress has been made during the past few years with the aim of defining novel candidate biomarkers and obtaining insight into molecular pathophysiology. To summarize the recent progress in the field, a literature search was conducted in PubMed and Web of Science. As a result, 704 studies from PubMed and 320 studies from Web of Science were retrieved. Findings from original research articles using proteomics technologies for the discovery of biomarkers for cardiovascular disease in human are summarized in this review.

Expert commentary: Proteins associated with cardiovascular disease represent pathways in inflammation, wound healing and coagulation, proteolysis and extracellular matrix organization, handling of cholesterol and LDL. Future research in the field should target to increase proteome coverage as well as integrate proteomics with other omics data to facilitate both drug development as well as clinical implementation of findings.