Evaluation of an in-house Pan-Malassezia quantitative PCR in human clinical samples.

Althought Malassezia spp. have been involved in various pathologies, they are integral part of the cutaneous, gut, oral, ears, nose and throat (ENT) mycobiota. Since Malassezia are difficult to grow in culture, unexhaustive molecular biology methods have been developed to detect them. The aim of the study was to evaluate an in-house pan-Malassezia quantitative PCR (panM-qPCR) on various clinical human samples and determine Malassezia burden in various human mycobiota. The panM-qPCR was designed to target the repeated 28S rDNA gene from all Malassezia species. We used the assay to quantify the Malassezia burden on 361 samples from 161 subjects (80 skin swabs from 10 healthy volunteers (HV), 13 samples from 2 seborrheic dermatitis patients (SD), 90 skin samples from 19 burned patients, 119 stools samples from 89 immunocompromised patients, 59 ENT samples from 41 patients). For HV, the amount of Malassezia was different according to the swabbed areas. Cq in SD are lower than in HV. In burned patients, Cq was significantly lower compared to HV. In stool samples, 6.7% were positive for Malassezia spp. with a high Cq. For the ENT area, a higher proportion of positive specimens were detected in ears samples than in nose samples. Our findings emphasized the importance of qPCR, confirming elevated Malassezia spp. levels on individuals' faces and scapls, increased burden in SD patients and in severely burnt patients than in HV. The pan-MqPCR appears to be a promising tool for studying Malassezia in various human mycobiota.

Malassezia species are ubiquitous members of various human mycobiomes, including cutaneous and mucosal sites. While these fungi have been implicated in several pathologies, their presence as commensals complicates their study, especially due to difficulties in culturing them in vitro. This has necessitated the development of molecular techniques to detect and quantify Malassezia species directly from clinical samples.

[Interests of clinical metagenomic in infectious diseases]. / Intérêts de la métagénomique clinique en infectiologie.

INTERESTS OF CLINICAL METAGENOMICS IN INFECTIOUS DISEASES. Clinical metagenomics (CM) is a cutting-edge molecular biology technique that is now a valuable diagnostic tool for microbiologists. It enables the detection of all microorganisms present in a sample, without any prior assumption or bias. The CM approach can be applied to various types of samples and involves multiple steps, such as extraction, library preparation, Next Generation Sequencing, and bioinformatics analysis. CM has been implemented in the diagnosis of various conditions, including infections of the central nervous system, respiratory, digestive, ocular, skin infection, and sepsis. Moreover, CM provides a comprehensive analysis of the microbiome present in the sample, microbial transcripts, and the host response in a single analysis. However, further studies are necessary to determine its place in the diagnostic algorithm. Besides diagnosis, CM has proven useful in identifying resistance to antimicrobial treatments and in epidemiology. Although the cost of CM is still higher than conventional methods, the emergence of more affordable sequencers and commercial tests will enable its implementation in a larger number of laboratories in the future.

INTÉRÊTS DE LA MÉTAGÉNOMIQUE CLINIQUE EN INFECTIOLOGIE. La métagénomique clinique (MgC) est un nouvel outil de biologie moléculaire dans l'arsenal diagnostique des microbiologistes. Elle permet de détecter sans a priori tous les micro-organismes présents. Utilisable sur tous types de prélèvements, elle nécessite plusieurs étapes (extraction, préparation des banques, séquençage par next generation sequencing, analyses bio-informatiques). Son utilisation en diagnostic a été décrite dans différentes pathologies (infections du système nerveux central, infections respiratoires, digestives, oculaires, cutanées et en cas de sepsis). En une seule analyse, la MgC permet également d'étudier le microbiome présent dans le prélèvement, d'analyser les transcrits microbiens et d'étudier la réponse de l'hôte. Sa place dans l'algorithme diagnostique doit faire l'objet d'études supplémentaires. En sus du diagnostic, la MgC a démontré son utilité dans la recherche de résistance aux traitements antimicrobiens, mais également en épidémiologie. Malgré les progrès visant à réduire les coûts, la MgC reste encore à l'heure actuelle plus coûteuse que les méthodes conventionnelles. La mise sur le marché de séquenceurs plus accessibles ainsi que le développement de tests commerciaux permettront l'utilisation de la MgC dans un plus grand nombre de laboratoires dans les années futures.

Zanamivir and baloxavir combination to cure persistent influenza and coronavirus infections after hematopoietic stem cell transplant.

OBJECTIVES: Immunocompromised patients may experience prolonged shedding of influenza virus potentially leading to severe infections. Alternatives to monotherapy with neuraminidase inhibitors should be evaluated to entirely suppress viral replication and prevent drug-resistant mutations. METHODS: We investigated the clinical and virological evolution in a case of persistent influenza A and human coronavirus OC43 (HCoV-OC43) coinfection in a hematopoietic stem cell transplant recipient after different therapeutic strategies. RESULTS: Successive oseltamivir and zanamivir monotherapies failed to control both infections, with positive results persisting for over 110 days each. This led to the emergence of highly resistant oseltamivir strains due to neuraminidase mutations (E119V and R292K) followed by a deletion (del245-248), while maintaining sensitivity to zanamivir. The intra-host viral diversity data showed that the treatments impacted viral diversity of influenza virus, but not of HCoV-OC43. Considering the patient's underlying condition and the impact of prolonged viral shedding on pulmonary function, eradicating the influenza virus was necessary. A 10-day regimen combining zanamivir and baloxavir-marboxil effectively controlled influenza virus replication and was associated with the clearance of HCoV-OC43, finally resulting in comprehensive respiratory recovery. CONCLUSION: These observations underscore the importance of further investigating combination treatments as the primary approach to achieve influenza eradication in immunocompromised patients.

Release of infectious virus and cytokines in nasopharyngeal swabs from individuals infected with non-alpha or alpha SARS-CoV-2 variants: an observational retrospective study.

BACKGROUND: The dynamics of SARS-CoV-2 alpha variant shedding and immune responses at the nasal mucosa remain poorly characterised. METHODS: We measured infectious viral release, antibodies and cytokines in 426 PCR+ nasopharyngeal swabs from individuals harboring non-alpha or alpha variants. FINDINGS: With both lineages, viral titers were variable, ranging from 0 to >106 infectious units. Rapid antigenic diagnostic tests were positive in 94% of samples with infectious virus. 68 % of individuals carried infectious virus within two days after onset of symptoms. This proportion decreased overtime. Viable virus was detected up to 14 days. Samples containing anti-spike IgG or IgA did not generally harbor infectious virus. Ct values were slightly but not significantly lower with alpha. This variant was characterized by a fast decrease of infectivity overtime and a marked release of 13 cytokines (including IFN-b, IP-10 and IL-10). INTERPRETATION: The alpha variant displays modified viral decay and cytokine profiles at the nasopharyngeal mucosae during symptomatic infection. FUNDING: This retrospective study has been funded by Institut Pasteur, ANRS, Vaccine Research Institute, Labex IBEID, ANR/FRM and IDISCOVR, Fondation pour la Recherche Médicale.