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1.
BMC Infect Dis ; 24(1): 519, 2024 May 23.
Article in English | MEDLINE | ID: mdl-38783176

ABSTRACT

BACKGROUND: Targeting mucosal immunity of the gut, which is known to provide antigen processing, while avoiding excessive or unnecessary inflammation, was tested as a way to modulate COVID-19 severity. METHODS: Randomized open-label trial in 204 adults hospitalized with non-critical COVID-19 who received for 14 days in addition to standard of care (SOC) degalactosylated bovine glycoproteins formulations of either MAF capsules (MAF group) or M capsules (M group) or SOC only (control group). RESULTS: Median recovery time when patients did not require supplemental oxygen was 6 days in both study groups compared to 9 days in the control (MAF vs. control; P = 0.020 and M vs. control; P = 0.004). A greater reduction in mortality was seen in the MAF group compared to the control by day 14 (8.3% vs. 1.6%; P = 0.121) and by day 29 (15.3% vs. 3.2%; P = 0.020), and similarly in the M group by day 14 (8.3% vs. 2.9%; P = 0.276) and by day 29 (15.3% vs. 2.9%; P = 0.017). The proportion of those who had baseline absolute lymphocyte count (ALC) lower than 0.8 × 109/L was 13/63 (20.6%), 17/69 (24.6%), and 18/72 (25.0%) of patients in MAF, M, and control group respectively. Day 29 mortality among these lymphopenic patients was three times higher than for the intent-to-treat population (21% vs. 7%) and consisted in above subgroups: 2/13 (15%), 2/17 (12%), and 6/18 (33%) of patients. The decreased mortality in both study subgroups correlated with greater ALC restoration above 0.8 × 109/L level seen on day 14 in 91% (11/12) and 87.5% (14/16) of survivors in MAF and M subgroups respectively compared to 53.3% (8/15) of survivors in control subgroup. Incidences of any ALC decrease below the baseline level on day 14 occurred in 25.4% of patients in the MAF group and 29.0% of patients in the M group compared to 45.8% in control and ALC depletion by ≥ 50% from the baseline level consisted of 7.9%, 5.8%, and 15.3% of cases in these groups respectively. CONCLUSION: This study showed that both study agents prevented ALC depletion and accelerated its restoration, which is believed to be one of the mechanisms of improved crucial clinical outcomes in hospitalized COVID-19 patients. TRIAL REGISTRATION: The trial was registered after the trial start in ClinicalTrials.gov NCT04762628, registered 21/02/2021, https://www. CLINICALTRIALS: gov/ct2/show/NCT04762628 .


Subject(s)
COVID-19 , Glycoproteins , Lymphopenia , SARS-CoV-2 , Humans , Male , Female , Middle Aged , COVID-19/mortality , COVID-19/immunology , COVID-19/therapy , SARS-CoV-2/immunology , Aged , Glycoproteins/immunology , Glycoproteins/therapeutic use , Treatment Outcome , COVID-19 Drug Treatment , Cattle , Animals , Adult , Hospitalization/statistics & numerical data , Capsules
2.
Org Biomol Chem ; 20(13): 2636-2642, 2022 03 30.
Article in English | MEDLINE | ID: mdl-35293930

ABSTRACT

2-Azahypoxanthine (AHX) was first isolated from the culture broth of the fungus Lepista sordida as a fairy ring-inducing compound. It has since been found that a large number of plants and mushrooms produce AHX endogenously and that AHX has beneficial effects on plant growth. The AHX molecule has an unusual, nitrogen-rich 1,2,3-triazine moiety of unknown biosynthetic origin. Here, we establish the biosynthetic pathway for AHX formation in L. sordida. Our results reveal that the key nitrogen sources that are responsible for the 1,2,3-triazine formation are reactive nitrogen species (RNS), which are derived from nitric oxide (NO) produced by NO synthase (NOS). Furthermore, RNS are also involved in the biochemical conversion of 5-aminoimidazole-4-carboxamide-1-ß-D-ribofuranosyl 5'-monophosphate (AICAR) to AHX-ribotide (AHXR), suggesting that a novel biosynthetic route that produces AHX exists in the fungus. These findings demonstrate a physiological role for NOS in AHX biosynthesis as well as in biosynthesis of other natural products containing a nitrogen-nitrogen bond.


Subject(s)
Agaricales , Triazines , Agaricales/metabolism , Hypoxanthines , Marasmius , Nitrogen , Triazines/metabolism
3.
Sci Rep ; 9(1): 5888, 2019 04 10.
Article in English | MEDLINE | ID: mdl-30971747

ABSTRACT

Circular patterns called "fairy rings" in fields are a natural phenomenon that arises through the interaction between basidiomycete fungi and plants. Acceleration or inhibition of plant vegetative growth and the formation of mushroom fruiting bodies are both commonly observed when fairy rings form. The gene of an enzyme involved in the biosynthesis of these regulators was recently isolated in the fairy ring-forming fungus, Lepista sordida. To identify other genes involved in L. sordida fairy ring formation, we used previously generated sequence data to produce a more complete draft genome sequence for this species. Finally, we predicted the metabolic pathways of the plant growth regulators and 29 candidate enzyme-coding genes involved in fairy-ring formation based on gene annotations. Comparisons of protein coding genes among basidiomycete fungi revealed two nitric oxide synthase gene candidates that were uniquely encoded in genomes of fairy ring-forming fungi. These results provide a basis for the discovery of genes involved in fairy ring formation and for understanding the mechanisms involved in the interaction between fungi and plants. We also constructed a new web database F-RINGS ( http://bioinf.mind.meiji.ac.jp/f-rings/ ) to provide the comprehensive genomic information for L. sordida.


Subject(s)
Agaricales/genetics , Fruiting Bodies, Fungal/genetics , Genome, Fungal , Plants/microbiology , Agaricales/enzymology , Databases, Genetic , Enzymes/chemistry , Enzymes/genetics , Fruiting Bodies, Fungal/metabolism , Hypoxanthines/metabolism , Metabolic Networks and Pathways/genetics , Nitric Oxide Synthase/chemistry , Nitric Oxide Synthase/genetics , Plant Growth Regulators/metabolism , Plants/genetics , Plants/metabolism , Sequence Analysis, DNA
5.
Sci Rep ; 6: 39087, 2016 12 19.
Article in English | MEDLINE | ID: mdl-27991529

ABSTRACT

"Fairy rings" resulting from fungus-stimulated plant growth occur all over the world. In 2010, 2-azahypoxanthine (AHX) from a fungus Lepista sordida was identified as the "fairy" that stimulates plant growth. Furthermore, 2-aza-8-oxohypoxanthine (AOH) was isolated as a common metabolite of AHX in plants, and the endogenous existence of AHX and AOH in plants was proved. The structure of AHX allowed us to hypothesize that AHX was derived from 5-aminoimidazole-4-carboxamide ribonucleotide (AICAR). Thus, we performed a feeding experiment that supplied AICAR to L. sordida. Consumption of AICAR and accumulation of AHX were observed after feeding. The mycelia extract had enzymatic activity of adenine/5-aminoimidazole-4-carboxamide phosphoribosyltransferase (APRT). APRT gene of L. sordida revealed its structural characteristics in homology modeling and showed transcriptional enhancement after feeding. These results support that AHX was synthesized from AICAR and AHX biosynthesis was transcriptionally controlled by AICAR, indicating the presence of novel purine metabolic pathway in L. sordida.


Subject(s)
Adenine Phosphoribosyltransferase/genetics , Agaricales/enzymology , Hypoxanthines/metabolism , Adenine Phosphoribosyltransferase/chemistry , Adenine Phosphoribosyltransferase/metabolism , Agaricales/genetics , Agaricales/metabolism , Aminoimidazole Carboxamide/analogs & derivatives , Aminoimidazole Carboxamide/chemistry , Aminoimidazole Carboxamide/metabolism , Biosynthetic Pathways , Cloning, Molecular , Fungal Proteins/chemistry , Fungal Proteins/genetics , Fungal Proteins/metabolism , Hypoxanthines/chemistry , Protein Conformation , Ribonucleotides/chemistry , Ribonucleotides/metabolism
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