Distinct proteomes and allergen profiles appear across the life-cycle stages of Alternaria alternata.

BACKGROUND: Alternaria alternata is associated with allergic respiratory diseases, which can be managed with allergen extract-based diagnostics and immunotherapy. It is not known how spores and hyphae contribute to allergen content. Commercial allergen extracts are manufactured by extracting proteins without separating the different forms of the fungus. OBJECTIVE: We sought to determine differences between spore and hyphae proteomes and how allergens are distributed in Aalternata. METHODS: Data-independent acquisition mass spectrometry was used to quantitatively compare the proteomes of asexual spores (nongerminating and germinating) with vegetative hyphae. RESULTS: We identified 4515 proteins in nongerminating spores, germinating spores, and hyphae; most known allergens are more abundant in nongerminating spores. On comparing significant protein fold-change differences between nongerminating spores and hyphae, we found that 174 proteins were upregulated in nongerminating spores and 80 proteins in hyphae. Among the spore proteins are ones functionally involved in cell wall synthesis, responding to cellular stress, and maintaining redox balance and homeostasis. On comparing nongerminating and germinating spores, 25 proteins were found to be upregulated in nongerminating spores and 54 in germinating spores. Among the proteins specific to germinating spores were proteases known to be virulence factors. One of the most abundant proteins in the spore proteome is sialidase, which has not been identified as an allergen but may be important in the pathogenicity of this fungus. Major allergen Alt a 1 is present at low levels in spores and hyphae and appears to be largely secreted into growth media. CONCLUSIONS: Spores and hyphae express overlapping but distinct proteomes. Most known allergens are found more abundantly in nongerminating spores.

[Evaluation of Toll-Like Receptor Gene Expressions in Encephalitozoon intestinalis Infection]. / Encephalitozoon intestinalis Enfeksiyonunda Toll-Like Reseptör Gen Ekspresyonlarinin Degerlendirilmesi.

Microsporidia are obligate intracellular pathogens that can infect many vertebrate and invertebrate hosts. While the Microsporidia phylum was defined as protozoa until the 1990s, it has been associated with fungi in line with the data obtained as a result of phylogenetic and molecular analyzes in recent years. Although approximately 200 genera and 1400 Microsporidia species related to these genera have been reported to date, only 14 species are known to cause infection in humans. Encephalitozoon intestinalis is one of the most frequently detected species in humans and causes serious clinical conditions in immunosuppressed individuals. Little information is available about the immunology of this infection. This study was aimed to investigate the changes in Toll-Like receptor (TLR) gene expressions in Madin-Darby canine kidney (MDCK) cells treated with E.intestinalis spores. Three groups were formed in the study. In the first group, only the medium prepared for E.intestinalis was added to the MDCK cells. In the second group, 108 live spores waiting at +4 °C were added. In the third group, 108 heat-inactivated spores were added. All three groups were incubated at 37ºC with 5% CO2 . RNA isolation and cDNA synthesis were performed from samples taken from these groups at the 1st, 3rd, 6th, 12th and 24th hours. Expression of TLR1-10 genes from the obtained cDNAs was evaluated by real-time polymerase chain reaction (Rt-PCR). GAPDH and ACTB genes were used as housekeeping genes in the study. Target genes were normalized by taking the average of these two genes and statistical analysis was performed by applying the 2-ΔΔCt formula. Genes detected above the threshold value (threshold 1) were considered to have increased expression. Genes detected below the threshold value were considered to have decreased expression. The growth of the live and inactive spores were followed simultaneously with the experimental groups. Approximately two weeks after the start of the culture, it was observed that E.intestinalis grew in the culture with live spore, but did not grow in the culture with inactivated spores. No statistically significant change was observed in gene expressions in the inactivated spore group. In the live spore group, a significant increase was seen in the expression of only two genes. These genes were TLR3 and TLR4. It was observed that there was a significant increase in TLR3 gene expression at the first hour (1.6-fold of control group) but the expression level started to decrease at the third hour (1.4-fold of control group) and returned to the control level at the sixth hour. It was observed that TLR4 gene expression continued parallel to the control until the 24th hour and increased significantly (2.1-fold of control group) at the 24th hour. In conclusion, this study is the f irst report in which the changes in ten different TLR gene expressions were evaluated at different times in MDCK cells stimulated with E.intestinalis and the change in TLR3 gene expression.

[Identification and sensitization to environmental fungal spores in Lima City, Peru]. / Identificación y sensibilización a hongos ambientales en Lima, Perú.

OBJECTIVE: To identify and registry the most important fungal spores trapped in our aerobiology station, as well as to report the prevalence of skin sensitization to these allergens. METHODS: The pollen counts were made according to standardized technique with a Burkard seven days spore trap, following the American Academy of Allergy, Asthma and Immunology (AAAAI) through National Allergy Bureau (NAB) recommendations. The trap was installed on the roof of Clinica SANNA, El GOLF, San Isidro, which is 20 m high, 12°5'54"S 77°3'6"W in the west-south of the Lima urban area. The sampling period was performed from September 2020 to October 2021. Skin prick tests were carried out according to the recommendations of the Spanish Society of Allergology and Clinical Immunology (SEAIC) in 200 patients (18 to 60 years old) with symptoms of rhinoconjunctivitis and/or asthma, who were evaluated in the Allergology Service of Clinica SANNA el Golf. Allergenic extracts were applied, dust mites (Dermatophagoides pteronyssinus, Dermatophagoides farinae, Blomia tropicalis), cat and dog danders, cockroach (Periplaneta americana), grass 6 mix, weed mix, molds (Cladosporium herbarum, Alternaria alternata, Aspergillus fumigatus, Penicillium notatum, Nigrospora spp.), INMUNOTEK-Spain provided the extracts. We also tested other fungal allergens such as Fusarium spp, Stemphylium spp, Curvularia spp, a mixture of Helmintosporum/Dreschlera spp. from the DIATER-Argentina laboratory. RESULTS: We identified spores of Alternaria alternata, Cladosporium spp., Nigrospora spp., Stemphylium spp., Fusarium spp., Curvularia spp., Dreschlera/Helmintosporum spp. The patients showed sensitization to Cladosporium herbarum (14%), Fusarium spp. (13,5%), Nigrospora spp. (8%), Alternaria Alternata (7%), Stemphylium (6%), Dreschlera/Helmintosporium spp. (5,5%), Curvularia spp. (3%), Aspergillus fumigatus (2,5%). CONCLUSIONS: The inhabitants of the south-western area of the urban city of Lima are exposed to different fungal spores with allergenic potential, with a higher concentration being identified during the summer/autumn months. Cutaneous sensitization is demonstrated in variable percentages to the fungal spores identified in this aerobiological sampling. The results of this study should be expanded and compared with data in the forthcoming years, identify seasonal and annual fluctuations and extend the traps to other locations in Lima.

OBJETIVO: Identificar y registrar las esporas de hongos más importantes captadas en nuestra estación de aerobiología, además reportar la prevalencia de sensibilización cutánea a estos alérgenos. MÉTODOS: La identificación y los conteos de esporas de hongos se realizaron según la técnica estandarizada con un equipo colector Burkard Spore Trap For Seven Days, siguiendo las recomendaciones de la National Allergy Bureau (NAB), de la American Academy Allergy Asthma and Immunology (AAAAI). El equipo se instaló a 20 m de altura desde el nivel del suelo, en la azotea de la Clínica SANNA El Golf, distrito de San Isidro, (12°5'54"S 77°3'6"O), en la zona sur-oeste del área urbana de Lima. El periodo de captación se llevó a cabo entre septiembre de 2020 y octubre de 2021. Se realizaron estudios de pruebas cutáneas (skin prick-test), según recomendaciones de la Sociedad Española de Alergología e Inmunología Clínica (SEAIC), en 200 pacientes (entre 18 y 60 años), con sintomatología de rinoconjuntivitis y/o asma. Fueron evaluados en el servicio de Alergología de la Clínica SANNA El Golf. Se aplicaron extractos alergénicos de ácaros del polvo (Dermatophagoides pteronyssinus, Dermatophagoides farinae, Blomia tropicalis), epitelios de gato y perro, Periplaneta americana, mezclas de seis gramíneas, mezclas de malezas, hongos ambientales (Cladosporium herbarum, Alternaria alternata, Aspergillus fumigatus, Penicillium notatum, Nigrospora spp.), extractos del laboratorio INMUNOTEK-España. Además, testeamos otros alérgenos fúngicos de Fusarium spp, Stemphylium spp, Curvularia spp, una mezcla de Helmintosporum/Dreschlera spp. del laboratorio DIATER-Argentina. RESULTADOS: Identificamos esporas de Alternaria alternata, Cladosporium spp., Nigrospora spp., Stemphylium spp., Fusarium spp., Curvularia spp., Dreschlera/Helmintosporum spp. Los pacientes mostraron sensibilización a Cladosporium herbarum (14%), Fusarium spp. (13,5%), Nigrospora spp. (8%), Alternaria Alternata (7%), Stemphylium (6%), Dreschlera/Helmintosporium spp. (5,5%), Curvularia spp. (3%) y Aspergillus fumigatus (2,5%). CONCLUSIONES: Los habitantes de la zona sur-oeste de la ciudad urbana de Lima están expuestos a distintas esporas de hongos con potencial alergénico, identificándose mayor concentración durante los meses de verano y otoño. Se demuestra sensibilización cutánea en porcentajes variables a las esporas fúngicas identificadas en este muestreo aerobiológico. Los resultados de este estudio deberían ampliarse y ser comparados con data en los años siguientes, identificar fluctuaciones estacionales y anuales y extender los captadores a otras locaciones en Lima.

New developments in Aspergillus fumigatus and host reactive oxygen species responses.

Aspergillus fumigatus is a filamentous fungus abundant in the environment and the most common causative agent of a spectrum of human diseases collectively termed aspergillosis. Invasive pulmonary aspergillosis is caused by deficiencies in innate immune function that result in the inability of the host to clear inhaled Aspergillus conidia that then germinate and form invasive hyphae. Myeloid cells, and their ability to generate reactive oxygen species (ROS), are essential for conidia clearance from the host. To combat ROS, A. fumigatus employs an expansive antioxidant system, though how these canonical antioxidant mechanisms contribute to infection initiation and disease progression remain to be fully defined. Recent research has identified noncanonical pathways in the A. fumigatus ROS response and new host populations with ROS deficiencies that are at-risk for invasive aspergillosis. Here, we highlight recent developments in the understanding of ROS at the interface of the dynamic A. fumigatus-host interaction.

The Inflammatory Response Induced by Aspergillus fumigatus Conidia Is Dependent on Complement Activation: Insight from a Whole Blood Model.

INTRODUCTION: We aimed to elucidate the inflammatory response of Aspergillus fumigatus conidia in a whole-blood model of innate immune activation and to compare it with the well-characterized inflammatory reaction to Escherichia coli. METHODS: Employing a human lepirudin whole-blood model, we analyzed complement and leukocyte activation by measuring the sC5b-9 complex and assessing CD11b expression. A 27-multiplex system was used for quantification of cytokines. Selective cell removal from whole blood and inhibition of C3, C5, and CD14 were also applied. RESULTS: Our findings demonstrated a marked elevation in sC5b-9 and CD11b post-A. fumigatus incubation. Thirteen cytokines (TNF, IL-1ß, IL-1ra, IL-4, IL-6, IL-8, IL-17, IFNγ, MCP-1, MIP-1α, MIP-1ß, FGF-basic, and G-CSF) showed increased levels. A generally lower level of cytokine release and CD11b expression was observed with A. fumigatus conidia than with E. coli. Notably, monocytes were instrumental in releasing all cytokines except MCP-1. IL-1ra was found to be both monocyte and granulocyte-dependent. Pre-inhibiting with C3 and CD14 inhibitors resulted in decreased release patterns for six cytokines (TNF, IL-1ß, IL-6, IL-8, MIP-1α, and MIP-1ß), with minimal effects by C5-inhibition. CONCLUSION: A. fumigatus conidia induced complement activation comparable to E. coli, whereas CD11b expression and cytokine release were lower, underscoring distinct inflammatory responses between these pathogens. Complement C3 inhibition attenuated cytokine release indicating a C3-level role of complement in A. fumigatus immunity.

Interplay between host humoral pattern recognition molecules controls undue immune responses against Aspergillus fumigatus.

Pentraxin 3 (PTX3), a long pentraxin and a humoral pattern recognition molecule (PRM), has been demonstrated to be protective against Aspergillus fumigatus, an airborne human fungal pathogen. We explored its mode of interaction with A. fumigatus, and the resulting implications in the host immune response. Here, we demonstrate that PTX3 interacts with A. fumigatus in a morphotype-dependent manner: (a) it recognizes germinating conidia through galactosaminogalactan, a surface exposed cell wall polysaccharide of A. fumigatus, (b) in dormant conidia, surface proteins serve as weak PTX3 ligands, and (c) surfactant protein D (SP-D) and the complement proteins C1q and C3b, the other humoral PRMs, enhance the interaction of PTX3 with dormant conidia. SP-D, C3b or C1q opsonized conidia stimulated human primary immune cells to release pro-inflammatory cytokines and chemokines. However, subsequent binding of PTX3 to SP-D, C1q or C3b opsonized conidia significantly decreased the production of pro-inflammatory cytokines/chemokines. PTX3 opsonized germinating conidia also significantly lowered the production of pro-inflammatory cytokines/chemokines while increasing IL-10 (an anti-inflammatory cytokine) released by immune cells when compared to the unopsonized counterpart. Overall, our study demonstrates that PTX3 recognizes A. fumigatus either directly or by interplaying with other humoral PRMs, thereby restraining detrimental inflammation. Moreover, PTX3 levels were significantly higher in the serum of patients with invasive pulmonary aspergillosis (IPA) and COVID-19-associated pulmonary aspergillosis (CAPA), supporting previous observations in IPA patients, and suggesting that it could be a potential panel-biomarker for these pathological conditions caused by A. fumigatus.

Contagem de esporos de Alternaria na atmosfera de Curitiba / Count of Alternaria spores in atmospheric of Curitiba

Foi verificada a presença de esporos de Alternaria durante um período de 12 meses, porém em concentraçöes atmosféricas muito baixas e sem caráter estacional, sendo considerada desprezível