Your search keyword '"Mannan"' showing total 4,110 results

1. Evaluation of outbreak persistence caused by multidrug-resistant and echinocandin-resistant Candida parapsilosis using multidimensional experimental and epidemiological approaches

Author

Daneshnia, Farnaz, Floyd, Daniel J, Ryan, Adam P, Ghahfarokhy, Pegah Mosharaf, Ebadati, Arefeh, Jusuf, Sebastian, Munoz, Julieta, Jeffries, Nathan Elias, Yvanovich, Emma Elizabeth, Apostolopoulou, Anna, Perry, Austin M, Lass-Flörl, Cornelia, Birinci, Asuman, Hilmioğlu-Polat, Süleyha, Ilkit, Macit, Butler, Geraldine, Nobile, Clarissa J, Arastehfar, Amir, and Mansour, Michael K

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Microbiology, Clinical Sciences, Medical Microbiology, Infectious Diseases, Emerging Infectious Diseases, Clinical Research, Antimicrobial Resistance, Women's Health, Biodefense, 2.1 Biological and endogenous factors, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, Animals, Mice, Humans, Candida parapsilosis, Antifungal Agents, Drug Resistance, Fungal, Echinocandins, Disease Outbreaks, Microbial Sensitivity Tests, Multidrug resistance, echinocandin resistance, mannan, chitin, Beta-glucan, Β-glucan, Clinical sciences, Epidemiology

Abstract

Candida parapsilosis is known to cause severe and persistent outbreaks in clinical settings. Patients infected with multidrug-resistant C. parapsilosis (MDR Cp) isolates were identified in a large Turkish hospital from 2017-2020. We subsequently identified three additional patients infected with MDR Cp isolates in 2022 from the same hospital and two echinocandin-resistant (ECR) isolates from a single patient in another hospital. The increasing number of MDR and ECR isolates contradicts the general principle that the severe fitness cost associated with these phenotypes could prevent their dominance in clinical settings. Here, we employed a multidimensional approach to systematically assess the fitness costs of MDR and ECR C. parapsilosis isolates. Whole-genome sequencing revealed a novel MDR genotype infecting two patients in 2022. Despite severe in vitro defects, the levels and tolerances of the biofilms of our ECR and MDR isolates were generally comparable to those of susceptible wild-type isolates. Surprisingly, the MDR and ECR isolates showed major alterations in their cell wall components, and some of the MDR isolates consistently displayed increased tolerance to the fungicidal activities of primary human neutrophils and were more immunoevasive during exposure to primary human macrophages. Our systemic infection mouse model showed that MDR and ECR C. parapsilosis isolates had comparable fungal burden in most organs relative to susceptible isolates. Overall, we observed a notable increase in the genotypic diversity and frequency of MDR isolates and identified MDR and ECR isolates potentially capable of causing persistent outbreaks in the future.

Published

2024

2. Saccharomyces cerevisiae CellWall Remodeling in the Absence of Knr4 and Kre6 Revealed by Nano-FourierTransform Infrared Spectroscopy

Author

Bakir, Gorkem, Dahms, Tanya ES, Martin-Yken, Helene, Bechtel, Hans A, and Gough, Kathleen M

Subjects

Biochemistry and Cell Biology, Biological Sciences, beta-Glucans, Cell Wall, Chitin, Glucans, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, Spectroscopy, Fourier Transform Infrared, ATR, Cell wall integrity, attenuated total reflection, chitin, far-field infrared spectroscopy, glucan, knr4Δ, kre6Δ, mannan, synchrotron infrared nanospectroscopy, Analytical Chemistry, Physical Chemistry (incl. Structural), Mechanical Engineering

Abstract

The cell wall integrity (CWI) signaling pathway regulates yeast cell wall biosynthesis, cell division, and responses to external stress. The cell wall, comprised of a dense network of chitin, β-1,3- and β-1,6- glucans, and mannoproteins, is very thin,

Published

2024

3. Functional β-mannooligosaccharides: Sources, enzymatic production and application as prebiotics.

Author

Rana, Monika, Jassal, Sunena, Yadav, Richa, Sharma, Anupama, Puri, Neena, Mazumder, Koushik, and Gupta, Naveen

Subjects

*SHORT-chain fatty acids, *EVIDENCE gaps, *GUT microbiome, *IN vivo studies, *FUNCTIONAL foods

Abstract

One of the emerging non-digestible oligosaccharide prebiotics is β-mannooligosaccharides (β-MOS). β-MOS are β-mannan derived oligosaccharides, they are selectively fermented by gut microbiota, promoting the growth of beneficial microorganisms (probiotics), whereas the growth of enteric pathogens remains unaffected or gets inhibited in their presence, along with production of metabolites such as short-chain fatty acids. β-MOS also exhibit several other bioactive properties and health-promoting effects. Production of β-MOS using the enzymes such as β-mannanases is the most effective and eco-friendly approach. For the application of β-MOS on a large scale, their production needs to be standardized using low-cost substrates, efficient enzymes and optimization of the production conditions. Moreover, for their application, detailed in-vivo and clinical studies are required. For this, a thorough information of various studies in this regard is needed. The current review provides a comprehensive account of the enzymatic production of β-MOS along with an evaluation of their prebiotic and other bioactive properties. Their characterization, structural-functional relationship and in-vivo studies have also been summarized. Research gaps and future prospects have also been discussed, which will help in conducting further research for the commercialization of β-MOS as prebiotics, functional food ingredients and therapeutic agents. [ABSTRACT FROM AUTHOR]

Published

2024

4. Ancient Origin of Acetyltransferases Catalyzing O-acetylation of Plant Cell Wall Polysaccharides.

Author

Zhong, Ruiqin, Adams, Earle R, and Ye, Zheng-Hua

Subjects

*PLANT cell walls, *POLYSACCHARIDES, *RECOMBINANT proteins, *GREEN algae, *ACETYLTRANSFERASES, *PECTINS

Abstract

Members of the domain of unknown function 231/trichome birefringence–like (TBL) family have been shown to be O -acetyltransferases catalyzing the acetylation of plant cell wall polysaccharides, including pectins, mannan, xyloglucan and xylan. However, little is known about the origin and evolution of plant cell wall polysaccharide acetyltransferases. Here, we investigated the biochemical functions of TBL homologs from Klebsormidium nitens , a representative of an early divergent class of charophyte green algae that are considered to be the closest living relatives of land plants, and Marchantia polymorpha , a liverwort that is an extant representative of an ancient lineage of land plants. The genomes of K. nitens and Marchantia polymorpha harbor two and six TBL homologs, respectively. Biochemical characterization of their recombinant proteins expressed in human embryonic kidney 293 cells demonstrated that the two K. nitens TBLs exhibited acetyltransferase activities acetylating the pectin homogalacturonan (HG) and hence were named KnPOAT1 and KnPOAT2. Among the six M. polymorpha TBLs, five (MpPOAT1 to 5) possessed acetyltransferase activities toward pectins and the remaining one (MpMOAT1) catalyzed 2- O - and 3- O -acetylation of mannan. While MpPOAT1,2 specifically acetylated HG, MpPOAT3,4,5 could acetylate both HG and rhamnogalacturonan-I. Consistent with the acetyltransferase activities of these TBLs, pectins isolated from K. nitens and both pectins and mannan from M. polymorpha were shown to be acetylated. These findings indicate that the TBL genes were recruited as cell wall polysaccharide O -acetyltransferases as early as in charophyte green algae with activities toward pectins and they underwent expansion and functional diversification to acetylate various cell wall polysaccharides during evolution of land plants. [ABSTRACT FROM AUTHOR]

Published

2024

5. Yeast polysaccharides: The environmentally friendly polysaccharides with broad application potentials.

Author

Dong, Wenjing, Li, Yichen, Xue, Shurong, Wen, Fengge, Meng, Demei, Zhang, Yuyu, and Yang, Rui

Subjects

PACKAGING film, BEER industry, CHEMICAL properties, THICKENING agents, FOOD packaging, CHITIN, POLYSACCHARIDES

Abstract

Yeast cell wall (YCW) polysaccharides, including β‐glucans, mannans, chitins, and glycogens, can be extracted from the waste of beer industry. They are environmentally friendly, abundant, inexpensive raw materials, and have shown broad biological activities and application potentials. The exploitation of yeast polysaccharides is of great importance for environmental protection and resource utilization. This paper reviews the structural features and preparation of YCW polysaccharides. The solubility and emulsification of yeast polysaccharides and the properties of binding metal ions are presented. In addition, biological activities such as blood glucose and lipid lowering, immune regulation, antioxidant, promotion of intestinal health, and promotion of wound healing are proposed, highlighting the beneficial effects of yeast polysaccharides on human health. Through modification, the physical and chemical properties of yeast polysaccharides are changed, which emphasizes the promotion of their biological activities and properties. In addition, the food applications of yeast polysaccharides, including the food packaging film, emulsifier, thickening agent, and fat alternatives, are focused and discussed. [ABSTRACT FROM AUTHOR]

Published

2024

6. Enteric fungi protect against intestinal ischemia–reperfusion injury via inhibiting the SAA1-GSDMD pathway

Author

Yihui Chen, Ben Han, Xu Guan, Guangsheng Du, Baifa Sheng, Xiaoqi Tang, Quanchao Zhang, Huichao Xie, Xianhong Jiang, Qianshan Tan, Shuaishuai Chen, Jian Wang, Wei Chen, and Weidong Xiao

Subjects

Enteric fungi, Intestinal ischemia–reperfusion injury, Mannan, Antifungal therapy, Pyroptosis, Medicine (General), R5-920, Science (General), Q1-390

Abstract

Introduction: Prophylactic antifungal therapy has been widely used for critical patients, but it has failed to improve patient prognosis and has become a hot topic. This may be related to disruption of fungal homeostasis, but the mechanism of fungi action is not clear. As a common pathway in critical patients, intestinal ischemia–reperfusion (IIR) injury is fatal and regulated by gut microbiota. However, the exact role of enteric fungi in IIR injury remains unclear. Objectives: This is a clinical study that aims to provide new perspectives in clarifying the underlying mechanism of IIR injury and propose potential strategies that could be relevant for the prevention and treatment of IIR injury in the near future. Methods: ITS sequencing was performed to detect the changes in fungi before and after IIR injury. The composition of enteric fungi was altered by pretreatment with single-fungal strains, fluconazole and mannan, respectively. Intestinal morphology and function impairment were evaluated in the IIR injury mouse model. Intestinal epithelial MODE-K cells and macrophage RAW264.7 cells were cultured for in vitro tests. Results: Fecal fungi diversity revealed the obvious alteration in IIR patients and mice, accompanied by intestinal epithelial barrier dysfunction. Fungal colonization and mannan supplementation could reverse intestinal morphology and function impairment that were exacerbated by fluconazole via inhibiting the expression of SAA1 from macrophages and decreasing pyroptosis of intestinal epithelial cells. Clodronate liposomes were used to deplete the number of macrophages, and it was demonstrated that the protective effect of mannan was dependent on macrophage involvement. Conclusion: This finding firstly validates that enteric fungi play a crucial role in IIR injury. Preventive antifungal treatment should consider damaging fungal balance. This study provides a novel clue to clarify the role of enteric fungi in maintaining intestinal homeostasis.

Published

2024

7. Plant Cell Wall Polysaccharide O -Acetyltransferases.

Author

Zhong, Ruiqin, Zhou, Dayong, Chen, Lirong, Rose, John P., Wang, Bi-Cheng, and Ye, Zheng-Hua

Subjects

PLANT cell walls, POLYSACCHARIDES, DISEASE resistance of plants, CELLULAR evolution, PLANT proteins, XYLANS, HEMICELLULOSE, PECTINS

Abstract

Plant cell walls are largely composed of polysaccharide polymers, including cellulose, hemicelluloses (xyloglucan, xylan, mannan, and mixed-linkage β-1,3/1,4-glucan), and pectins. Among these cell wall polysaccharides, xyloglucan, xylan, mannan, and pectins are often O-acetylated, and polysaccharide O-acetylation plays important roles in cell wall assembly and disease resistance. Genetic and biochemical analyses have implicated the involvement of three groups of proteins in plant cell wall polysaccharide O-acetylation: trichome birefringence-like (TBL)/domain of unknown function 231 (DUF231), reduced wall acetylation (RWA), and altered xyloglucan 9 (AXY9). Although the exact roles of RWAs and AXY9 are yet to be identified, members of the TBL/DUF231 family have been found to be O-acetyltransferases responsible for the O-acetylation of xyloglucan, xylan, mannan, and pectins. Here, we provide a comprehensive overview of the occurrence of O-acetylated cell wall polysaccharides, the biochemical properties, structural features, and evolution of cell wall polysaccharide O-acetyltransferases, and the potential biotechnological applications of manipulations of cell wall polysaccharide acetylation. Further in-depth studies of the biochemical mechanisms of cell wall polysaccharide O-acetylation will not only enrich our understanding of cell wall biology, but also have important implications in engineering plants with increased disease resistance and reduced recalcitrance for biofuel production. [ABSTRACT FROM AUTHOR]

Published

2024

8. Grass pollen allergoids conjugated with mannan for subcutaneous and sublingual immunotherapy: a dose-finding study.

Author

Ojeda, Pedro, Concepción Barjau, María, Subiza, Javier, Moreno, Antonio, Ojeda, Isabel, Solano, Emilio, Alonso, Alicia, Caballero, Raquel, Del Pozo, Sandra, Gómez-Perosanz, Marta, Luis Sánchez-Trincado, José, Benito-Villalvilla, Cristina, Angelina, Alba, Soria, Irene, Reche, Pedro A., Palomares, Oscar, Luis Subiza, José, and Casanovas, Miguel

Subjects

SUBLINGUAL immunotherapy, REGULATORY T cells, ALLERGY desensitization, POLLEN, ORCHARD grass

Abstract

Background: Polymerized allergoids conjugated with mannan represent a novel approach of allergen immunotherapy targeting dendritic cells. In this study, we aimed to determine the optimal dose of mannan-allergoid conjugates derived from grass pollen (Phleum pratense and Dactylis glomerata) administered via either the subcutaneous or sublingual route. Methods: A randomized, double-blind, placebo-controlled trial with a doubledummy design was conducted, involving 162 participants across 12 centers in Spain. Subjects were randomly allocated to one of nine different treatment groups, each receiving either placebo or active treatment at doses of 500, 1,000, 3,000, or 5,000 mTU/mL over four months. Each participant received five subcutaneous (SC) doses of 0.5 mL each, every 30 days, and a daily sublingual (SL) dose of 0.2 mL. Participants who received active treatment through SC, received placebo through SL. Participants who received active treatment through SL, received placebo SC. One Group, as control, received bot SC and SL placebo. The primary efficacy outcome was the improvement in titrated nasal provocation tests (NPT) at the end of the study compared to baseline. Secondary outcomes included specific antibody (IgG4, IgE) and cellular (IL-10 producing and regulatory T cell) responses. All adverse events and side reactions were recorded and assessed. Results: Post-treatment, the active groups showed improvements in NPT ranging from 33% to 53%, with the highest doses showing the greatest improvements regardless of the administration route. In comparison, the placebo group showed a 12% improvement. Significant differences over placebo were observed at doses of 3,000 mTU/mL (p=0.049 for SL, p=0.015 for SC) and 5,000 mTU/mL (p=0.011 for SL, p=0.015 for SC). A dose-dependent increase in IgG4 was observed following SC administration, and an increase in IL-10 producing cells for both routes of administration. No serious systemic or local adverse reactions were recorded, and no adrenaline was required. Conclusion: Grass pollen immunotherapy with mannan-allergoid conjugates was found to be safe and efficacious in achieving the primary outcome, whether administered via the subcutaneous or sublingual routes, at doses of 3,000 and 5,000 mTU/mL. [ABSTRACT FROM AUTHOR]

Published

2024

9. 甘露聚糖的理化特性, 制备, 测定和代谢途径及其应用的研究进展.

Author

王子源, 李浩然, 甄玉国, 王 涛, 张学峰, 秦贵信, and 孙 喆

Abstract

Mannan is a kind of natural polysaccharide, which is widely distributed in yeast and plant tis‐ sues. As a feed additive, mannan can enhance humoral and cellular immunity, maintain intestinal bal‐ ance of nature and improve rumen function. In this paper, the physicochemical properties, preparation, determination, metabolic pathway and application of mannan were summarized, which provided reference value for the development and application of mannan. [ABSTRACT FROM AUTHOR]

Published

2024

10. Enteric fungi protect against intestinal ischemia–reperfusion injury via inhibiting the SAA1-GSDMD pathway.

Author

Chen, Yihui, Han, Ben, Guan, Xu, Du, Guangsheng, Sheng, Baifa, Tang, Xiaoqi, Zhang, Quanchao, Xie, Huichao, Jiang, Xianhong, Tan, Qianshan, Chen, Shuaishuai, Wang, Jian, Chen, Wei, and Xiao, Weidong

Subjects

*INTESTINAL injuries, *REPERFUSION injury, *FUNGAL colonies, *FUNGI, *EPITHELIAL cells, *ANTIFUNGAL agents, *HOMEOSTASIS, *REPERFUSION

Abstract

[Display omitted] • Enteric fungi diversity was markedly altered in IIR injury. • Fungal colonization or mannan could alleviate IIR injury by decreasing GSDMD-mediated pyroptosis of IECs. • The protective role of fungi in IIR injury depends on macrophage involvement. • Single-fungal strains and mannan both alleviate GSDMD cleavage induced by reducing SAA1 expression of macrophages. Prophylactic antifungal therapy has been widely used for critical patients, but it has failed to improve patient prognosis and has become a hot topic. This may be related to disruption of fungal homeostasis, but the mechanism of fungi action is not clear. As a common pathway in critical patients, intestinal ischemia–reperfusion (IIR) injury is fatal and regulated by gut microbiota. However, the exact role of enteric fungi in IIR injury remains unclear. This is a clinical study that aims to provide new perspectives in clarifying the underlying mechanism of IIR injury and propose potential strategies that could be relevant for the prevention and treatment of IIR injury in the near future. ITS sequencing was performed to detect the changes in fungi before and after IIR injury. The composition of enteric fungi was altered by pretreatment with single-fungal strains, fluconazole and mannan, respectively. Intestinal morphology and function impairment were evaluated in the IIR injury mouse model. Intestinal epithelial MODE-K cells and macrophage RAW264.7 cells were cultured for in vitro tests. Fecal fungi diversity revealed the obvious alteration in IIR patients and mice, accompanied by intestinal epithelial barrier dysfunction. Fungal colonization and mannan supplementation could reverse intestinal morphology and function impairment that were exacerbated by fluconazole via inhibiting the expression of SAA1 from macrophages and decreasing pyroptosis of intestinal epithelial cells. Clodronate liposomes were used to deplete the number of macrophages, and it was demonstrated that the protective effect of mannan was dependent on macrophage involvement. This finding firstly validates that enteric fungi play a crucial role in IIR injury. Preventive antifungal treatment should consider damaging fungal balance. This study provides a novel clue to clarify the role of enteric fungi in maintaining intestinal homeostasis. [ABSTRACT FROM AUTHOR]

Published

2024

11. Immunogenicity of mannan derived from Mycobacterium bovis as a promising adjuvant in vaccine BCG.

Author

Mardani, Rajab, Alavi, Ariana, Mousavi Nasab, Seyed Dawood, Ahmadi, Nayebali, Hossein Tehrani, Mohammad Javad, Shahali, Maryam, and Doroud, Delaram

Subjects

*MYCOBACTERIUM bovis, *BCG vaccines, *IMMUNE response, *CELL membranes, *INTERLEUKIN-12, *IMMUNOGLOBULIN M, *CONTROL groups

Abstract

Background and Objectives: Lipoarabinomannan is one of the components of the significant structural cell surfaces of mycobacteria and serves as an immunostimulatory factor. TNF-a and IL-12 are two examples of the anti-bacterial inflammatory cytokines that are activated and induced during infection. Materials and Methods: In this study, mannan was extracted and processed, and then Bulb/c female mice were used in three groups, one group was given BCG vaccine, the other group was given BCG vaccine with mannan adjuvant, and a non-injected group was used as a control group. Inflammatory factors interleukin-12, TNF-a, IgG and IgM were measured in mouse serum. Results: The levels of the inflammatory factors interleukin-12 and TNF-a in the serum isolated from mice receiving the BCG vaccine with mannan adjuvant showed a significant difference compared to the group that received only the BCG vaccine and the control group [IL-12] and, with P=0.05. The examination of the level of IgG immune factors in these three groups revealed a significant difference. The group that received the BCG vaccine with mannan adjuvant showed a marked contrast compared to the group that received only the BCG vaccine and the control group, with P=0.05. The level of IgM was higher in the group that received the BCG vaccine alone compared to the adjuvant vaccine group and the control group, with P=0.05. Conclusion: Our results indicated that mice receiving the BCG vaccine with mannan adjuvant had significantly higher serum levels of IL-12, TNF-a, and IgG than the group receiving BCG alone. [ABSTRACT FROM AUTHOR]

Published

2024

12. Myelin Oligodendrocyte Glycoprotein (MOG)35–55 Mannan Conjugate Induces Human T-Cell Tolerance and Can Be Used as a Personalized Therapy for Multiple Sclerosis.

Author

Rodi, Maria, de Lastic, Anne-Lise, Panagoulias, Ioannis, Aggeletopoulou, Ioanna, Kelaidonis, Kostas, Matsoukas, John, Apostolopoulos, Vasso, and Mouzaki, Athanasia

Subjects

*T cells, *MYELIN oligodendrocyte glycoprotein, *IMMUNOLOGIC memory, *MULTIPLE sclerosis, *REGULATORY T cells, *CELL culture, *T cell receptors, *CELL populations

Abstract

We have previously performed preclinical studies with the oxidized mannan-conjugated peptide MOG35–55 (OM-MOG35–55) in vivo (EAE mouse model) and in vitro (human peripheral blood) and demonstrated that OM-MOG35–55 suppresses antigen-specific T cell responses associated with autoimmune demyelination. Based on these results, we developed different types of dendritic cells (DCs) from the peripheral blood monocytes of patients with multiple sclerosis (MS) or healthy controls presenting OM-MOG35–55 or MOG-35–55 to autologous T cells to investigate the tolerogenic potential of OM-MOG35–55 for its possible use in MS therapy. To this end, monocytes were differentiated into different DC types in the presence of IL-4+GM-CSF ± dexamethasone (DEXA) ± vitamin D3 (VITD3). At the end of their differentiation, the DCs were loaded with peptides and co-cultured with T cells +IL-2 for 4 antigen presentation cycles. The phenotypes of the DC and T cell populations were analyzed using flow cytometry and the secreted cytokines using flow cytometry or ELISA. On day 8, the monocytes had converted into DCs expressing the typical markers of mature or immature phenotypes. Co-culture of T cells with all DC types for 4 antigen presentation cycles resulted in an increase in memory CD4+ T cells compared to memory CD8+ T cells and a suppressive shift in secreted cytokines, mainly due to increased TGF-β1 levels. The best tolerogenic effect was obtained when patient CD4+ T cells were co-cultured with VITD3-DCs presenting OM-MOG35–55, resulting in the highest levels of CD4+PD-1+ T cells and CD4+CD25+Foxp3+ Τ cells. In conclusion, the tolerance induction protocols presented in this work demonstrate that OM-MOG35–55 could form the basis for the development of personalized therapeutic vaccines or immunomodulatory treatments for MS. [ABSTRACT FROM AUTHOR]

Published

2024

13. Mannan-rich Holocellulose nanofibers mechanically isolated from spent coffee grounds: Structure and properties

Author

Noriko Kanai, Kohei Yamada, Chika Sumida, Miyu Tanzawa, Yuto Ito, Toshiki Saito, Risa Kimura, Miwako Saito-Yamazaki, Toshiyuki Oyama, Akira Isogai, and Izuru Kawamura

Subjects

Holocellulose, Holocellulose nanofibers, Mannan, Spent coffee grounds, Biochemistry, QD415-436

Abstract

Spent coffee grounds (SCGs) contain abundant polysaccharides consisting of mannose (29 %), galactose (11 %), and glucose (11 %) and are a promising source of holocellulose nanofibers (HCNFs). In this study, the mannan-rich HCNFs were isolated from the SCG holocellulose in the yield of 52 % SCGs using an ultrahigh-pressure wet jet mill. The HCNF was refined by passing the suspension through a high-pressure homogenizer with a 95 μm nozzle 1–15 times. The 5-pass HCNFs were 2.4 nm wide and 0.7 μm long with 143 viscosity-average degrees of polymerization and contained mannan I crystals (5–10 nm in size) on cellulose microfibrils. The delignification process in water at 75 °C based on the Wise method allowed recrystallization of mannan on a cellulose microfibril substrate. The once-freeze-dried HCNFs had 30–50 nm widths and were not fully nanofibrillated in water when shaking the HCNF/water suspensions but exhibited comparable viscosities to those prepared by mechanical milling. The SCGs-derived HCNFs have a high potential for application in the food industry.

Published

2024

14. Evaluation of outbreak persistence caused by multidrug-resistant and echinocandin-resistant Candida parapsilosis using multidimensional experimental and epidemiological approaches

Author

Farnaz Daneshnia, Daniel J. Floyd, Adam P. Ryan, Pegah Mosharaf Ghahfarokhy, Arefeh Ebadati, Sebastian Jusuf, Julieta Munoz, Nathan Elias Jeffries, Emma Elizabeth Yvanovich, Anna Apostolopoulou, Austin M. Perry, Cornelia Lass-Flörl, Asuman Birinci, Süleyha Hilmioğlu-Polat, Macit Ilkit, Geraldine Butler, Clarissa J. Nobile, Amir Arastehfar, and Michael K. Mansour

Subjects

Multidrug resistance, echinocandin resistance, mannan, chitin, Β-glucan, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

ABSTRACTCandida parapsilosis is known to cause severe and persistent outbreaks in clinical settings. Patients infected with multidrug-resistant C. parapsilosis (MDR Cp) isolates were identified in a large Turkish hospital from 2017–2020. We subsequently identified three additional patients infected with MDR Cp isolates in 2022 from the same hospital and two echinocandin-resistant (ECR) isolates from a single patient in another hospital. The increasing number of MDR and ECR isolates contradicts the general principle that the severe fitness cost associated with these phenotypes could prevent their dominance in clinical settings. Here, we employed a multidimensional approach to systematically assess the fitness costs of MDR and ECR C. parapsilosis isolates. Whole-genome sequencing revealed a novel MDR genotype infecting two patients in 2022. Despite severe in vitro defects, the levels and tolerances of the biofilms of our ECR and MDR isolates were generally comparable to those of susceptible wild-type isolates. Surprisingly, the MDR and ECR isolates showed major alterations in their cell wall components, and some of the MDR isolates consistently displayed increased tolerance to the fungicidal activities of primary human neutrophils and were more immunoevasive during exposure to primary human macrophages. Our systemic infection mouse model showed that MDR and ECR C. parapsilosis isolates had comparable fungal burden in most organs relative to susceptible isolates. Overall, we observed a notable increase in the genotypic diversity and frequency of MDR isolates and identified MDR and ECR isolates potentially capable of causing persistent outbreaks in the future.

Published

2024

15. A Comparative Study of Composition and Soluble Polysaccharide Content between Brewer's Spent Yeast and Cultured Yeast Cells.

Author

Lee, Hyun Ji, Park, Bo-Ram, and Chewaka, Legesse Shiferaw

Subjects

POLYSACCHARIDES, YEAST, BETA-glucans, SUPEROXIDE dismutase, SACCHARIDES, GALACTOMANNANS, GLUCANS

Abstract

Yeast, crucial in beer production, holds great potential owing to its ability to transform into a valuable by-product resource, known as brewer's spent yeast (BSY), with potentially beneficial physiological effects. This study aimed to compare the composition and soluble polysaccharide content of Brewer's spent yeast with those of cultured yeast strains, namely Saccharomyces cerevisiae (SC) and S. boulardii (SB), to facilitate the utilization of BSY as an alternative source of functional polysaccharides. BSY exhibited significantly higher carbohydrate content and lower crude protein content than SC and SB cells. The residues recovered through autolysis were 53.11%, 43.83%, and 44.99% for BSY, SC, and SB, respectively. Notably, the polysaccharide content of the BSY residue (641.90 μg/mg) was higher than that of SC (553.52 μg/mg) and SB (591.56 μg/mg). The yields of alkali-extracted water-soluble polysaccharides were 33.62%, 40.76%, and 42.97% for BSY, SC, and SB, respectively, with BSY comprising a comparable proportion of water-soluble saccharides made with SC and SB, including 49.31% mannan and 20.18% β-glucan. Furthermore, BSY demonstrated antioxidant activities, including superoxide dismutase (SOD), ABTS, and DPPH scavenging potential, suggesting its ability to mitigate oxidative stress. BSY also exhibited a significantly higher total phenolic compound content, indicating its potential to act as an effective functional food material. [ABSTRACT FROM AUTHOR]

Published

2024

16. Characterization of the fiber-like cortical cells in moss gametophytes.

Author

Chernova, Tatyana, Ageeva, Marina, Ivanov, Oleg, Lev-Yadun, Simcha, and Gorshkova, Tatyana

Subjects

GAMETOPHYTES, MOSSES, VASCULAR plants, GENITALIA, CELL morphology, POLYMER structure, PLANT fibers, CELL culture

Abstract

Main conclusion: Fiber-like cells with thickened cell walls of specific structure and polymer composition that includes (1 → 4)-β-galactans develop in the outer stem cortex of several moss species gametophytes. The early land plants evolved several specialized cell types and tissues that did not exist in their aquatic ancestors. Of these, water-conducting elements and reproductive organs have received most of the research attention. The evolution of tissues specialized to fulfill a mechanical function is by far less studied despite their wide distribution in land plants. For vascular plants following a homoiohydric trajectory, the evolutionary emergence of mechanical tissues is mainly discussed starting with the fern-like plants with their hypodermal sterome or sclerified fibers that have xylan and lignin-based cell walls. However, mechanical challenges were also faced by bryophytes, which lack lignified cell-walls. To characterize mechanical tissues in the bryophyte lineage, following a poikilohydric trajectory, we used six wild moss species (Polytrichum juniperinum, Dicranum sp., Rhodobryum roseum, Eurhynchiadelphus sp., Climacium dendroides, and Hylocomium splendens) and analyzed the structure and composition of their cell walls. In all of them, the outer stem cortex of the leafy gametophytic generation had fiber-like cells with a thickened but non-lignified cell wall. Such cells have a spindle-like shape with pointed tips. The additional thick cell wall layer in those fiber-like cells is composed of sublayers with structural evidence for different cellulose microfibril orientation, and with specific polymer composition that includes (1 → 4)-β-galactans. Thus, the basic cellular characters of the cells that provide mechanical support in vascular plant taxa (elongated cell shape, location at the periphery of a primary organ, the thickened cell wall and its peculiar composition and structure) also exist in mosses. [ABSTRACT FROM AUTHOR]

Published

2024

17. Thermophilic β-mannanases from bacteria: production, resources, structural features and bioengineering strategies.

Author

Sadaqat, Beenish, Dar, Mudasir A., Sha, Chong, Abomohra, Abdelfatah, Shao, Weilan, and Yong, Yang-Chun

Abstract

β-mannanases are pivotal enzymes that cleave the mannan backbone to release short chain mannooligosaccharides, which have tremendous biotechnological applications including food/feed, prebiotics and biofuel production. Due to the high temperature conditions in many industrial applications, thermophilic mannanases seem to have great potential to overcome the thermal impediments. Thus, structural analysis of thermostable β-mannanases is extremely important, as it could open up new avenues for genetic engineering, and protein engineering of these enzymes with enhanced properties and catalytic efficiencies. Under this scope, the present review provides a state-of-the-art discussion on the thermophilic β-mannanases from bacterial origin, their production, engineering and structural characterization. It covers broad insights into various molecular biology techniques such as gene mutagenesis, heterologous gene expression, and protein engineering, that are employed to improve the catalytic efficiency and thermostability of bacterial mannanases for potential industrial applications. Further, the bottlenecks associated with mannanase production and process optimization are also discussed. Finally, future research related to bioengineering of mannanases with novel protein expression systems for commercial applications are also elaborated. [ABSTRACT FROM AUTHOR]

Published

2024

18. Novel adjuvants in allergen-specific immunotherapy: where do we stand?

Author

Yen-Ju Lin, Zimmermann, Jennifer, and Schülke, Stefan

Subjects

VIRUS-like particles, IMMUNOTHERAPY, IMMUNE response, ALUMINUM hydroxide, FLAGELLIN

Abstract

Type I hypersensitivity, or so-called type I allergy, is caused by Th2-mediated immune responses directed against otherwise harmless environmental antigens. Currently, allergen-specific immunotherapy (AIT) is the only disease-modifying treatment with the potential to re-establish clinical tolerance towards the corresponding allergen(s). However, conventional AIT has certain drawbacks, including long treatment durations, the risk of inducing allergic side effects, and the fact that allergens by themselves have a rather low immunogenicity. To improve AIT, adjuvants can be a powerful tool not only to increase the immunogenicity of co-applied allergens but also to induce the desired immune activation, such as promoting allergen-specific Th1- or regulatory responses. This review summarizes the knowledge on adjuvants currently approved for use in human AIT: aluminum hydroxide, calcium phosphate, microcrystalline tyrosine, and MPLA, as well as novel adjuvants that have been studied in recent years: oil-in-water emulsions, virus-like particles, viral components, carbohydrate-based adjuvants (QS-21, glucans, and mannan) and TLR-ligands (flagellin and CpG-ODN). The investigated adjuvants show distinct properties, such as prolonging allergen release at the injection site, inducing allergen-specific IgG production while also reducing IgE levels, as well as promoting differentiation and activation of different immune cells. In the future, better understanding of the immunological mechanisms underlying the effects of these adjuvants in clinical settings may help us to improve AIT. [ABSTRACT FROM AUTHOR]

Published

2024

19. Plasma‐induced formation of coatings on vegetable ivory microparticles immersed in silicone oil: Enhancing surface coverage using natural products.

Author

Ferreira da Silva, Yuri, Almeida, Giana, Veiga, Anderson Thiago Vasconcelos, Oliveira, Renata Nunes, Perré, Patrick, and Simao, Renata A.

Subjects

*NATURAL products, *POROUS materials, *PLASMA jets, *IVORY, *IMMERSION in liquids, *SILICONE rubber, *DEGLUTITION

Abstract

Aiming to enhance the potential applications of bioproducts, we developed an innovative approach for their hydrophobization using plasma activation of liquids. In this study, microparticles of vegetable ivory, a porous hygroscopic material, were treated by an air plasma jet while immersed in silicone oil. The in‐liquid plasma treatment formed coatings that reduced particle water vapor sorption. Pore surface coverage and sorption reduction were enhanced by mixing silicone oil with copaiba oil‐resin (Copaifera spp.). Mulateiro extract (Calycophyllum spruceanum) was not as effective, owing to a lower affinity with silicone oil. For the first time, we demonstrate the plasma‐induced coating formation on particles immersed in liquid mixtures, a process in which liquid–liquid interfacial properties play a fundamental role. [ABSTRACT FROM AUTHOR]

Published

2024

20. Immunogenicity of mannan derived from Mycobacterium bovis as a promising adjuvant in vaccine BCG

Author

Rajab Mardani, Ariana Alavi, Seyed Dawood Mousavi Nasab, Nayebali Ahmadi, Mohammad Javad Hossein Tehrani, Maryam Shahali, and Delaram Doroud

Subjects

Mycobacterium bovis, Adjuvant, Mannan, Immunity, Microbiology, QR1-502

Abstract

Background and Objectives: Lipoarabinomannan is one of the components of the significant structural cell surfaces of mycobacteria and serves as an immunostimulatory factor. TNF-α and IL-12 are two examples of the anti-bacterial inflammatory cytokines that are activated and induced during infection. Materials and Methods: In this study, mannan was extracted and processed, and then Bulb/c female mice were used in three groups, one group was given BCG vaccine, the other group was given BCG vaccine with mannan adjuvant, and a non-injected group was used as a control group. Inflammatory factors interleukin-12, TNF-α, IgG and IgM were measured in mouse serum. Results: The levels of the inflammatory factors interleukin-12 and TNF-α in the serum isolated from mice receiving the BCG vaccine with mannan adjuvant showed a significant difference compared to the group that received only the BCG vaccine and the control group [IL-12] and , with P≤0.05.The examination of the level of IgG immune factors in these three groups revealed a significant difference. The group that received the BCG vaccine with mannan adjuvant showed a marked contrast compared to the group that received only the BCG vaccine and the control group, with P≤0.05. The level of IgM was higher in the group that received the BCG vaccine alone compared to the adjuvant vaccine group and the control group, with P≤0.05. Conclusion: Our results indicated that mice receiving the BCG vaccine with mannan adjuvant had significantly higher serum levels of IL-12, TNF-α, and IgG than the group receiving BCG alone.

Published

2024

21. Grass pollen allergoids conjugated with mannan for subcutaneous and sublingual immunotherapy: a dose-finding study

Author

Pedro Ojeda, María Concepción Barjau, Javier Subiza, Antonio Moreno, Isabel Ojeda, Emilio Solano, Alicia Alonso, Raquel Caballero, Sandra Del Pozo, Marta Gómez-Perosanz, José Luis Sánchez-Trincado, Cristina Benito-Villalvilla, Alba Angelina, Irene Soria, Pedro A. Reche, Oscar Palomares, José Luis Subiza, and Miguel Casanovas

Subjects

clinical trial, polymerized, allergoid, mannan, immunotherapy, grass pollen, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundPolymerized allergoids conjugated with mannan represent a novel approach of allergen immunotherapy targeting dendritic cells. In this study, we aimed to determine the optimal dose of mannan-allergoid conjugates derived from grass pollen (Phleum pratense and Dactylis glomerata) administered via either the subcutaneous or sublingual route.MethodsA randomized, double-blind, placebo-controlled trial with a double-dummy design was conducted, involving 162 participants across 12 centers in Spain. Subjects were randomly allocated to one of nine different treatment groups, each receiving either placebo or active treatment at doses of 500, 1,000, 3,000, or 5,000 mTU/mL over four months. Each participant received five subcutaneous (SC) doses of 0.5 mL each, every 30 days, and a daily sublingual (SL) dose of 0.2 mL. Participants who received active treatment through SC, received placebo through SL. Participants who received active treatment through SL, received placebo SC. One Group, as control, received bot SC and SL placebo. The primary efficacy outcome was the improvement in titrated nasal provocation tests (NPT) at the end of the study compared to baseline. Secondary outcomes included specific antibody (IgG4, IgE) and cellular (IL-10 producing and regulatory T cell) responses. All adverse events and side reactions were recorded and assessed.ResultsPost-treatment, the active groups showed improvements in NPT ranging from 33% to 53%, with the highest doses showing the greatest improvements regardless of the administration route. In comparison, the placebo group showed a 12% improvement. Significant differences over placebo were observed at doses of 3,000 mTU/mL (p=0.049 for SL, p=0.015 for SC) and 5,000 mTU/mL (p=0.011 for SL, p=0.015 for SC). A dose-dependent increase in IgG4 was observed following SC administration, and an increase in IL-10 producing cells for both routes of administration. No serious systemic or local adverse reactions were recorded, and no adrenaline was required.ConclusionGrass pollen immunotherapy with mannan-allergoid conjugates was found to be safe and efficacious in achieving the primary outcome, whether administered via the subcutaneous or sublingual routes, at doses of 3,000 and 5,000 mTU/mL.Clinical trial registrationhttps://www.clinicaltrialsregister.eu/ctr-search (EudraCT), identifier 2014–005471–88; https://www.clinicaltrials.gov, identifier NCT02654223.

Published

2024

22. Histone deacetylase Sir2 promotes the systemic Candida albicans infection by facilitating its immune escape via remodeling the cell wall and maintaining the metabolic activity

Author

Chen Yang, Guanglin Li, Qiyue Zhang, Wenhui Bai, Qingiqng Li, Peipei Zhang, and Jiye Zhang

Subjects

C. albicans pathogenicity, histone deacetylase Sir2, cell wall remodeling, adhesion, β-glucan, mannan, Microbiology, QR1-502

Abstract

ABSTRACT Histone deacetylation affects Candida albicans (C. albicans) pathogenicity by modulating virulence factor expression and DNA damage. The histone deacetylase Sir2 is associated with C. albicans plasticity and maintains genome stability to help C. albicans adapt to various environmental niches. However, whether Sir2-mediated chromatin modification affects C. albicans virulence is unclear. The purpose of our study was to investigate the effect of Sir2 on C. albicans pathogenicity and regulation. Here, we report that Sir2 is required for C. albicans pathogenicity, as its deletion affects the survival rate, fungal burden in different organs and the extent of tissue damage in a mouse model of disseminated candidiasis. We evaluated the impact of Sir2 on C. albicans virulence factors and revealed that the Sir2 null mutant had an impaired ability to adhere to host cells and was more easily recognized by the innate immune system. Comprehensive analysis revealed that the disruption of C. albicans adhesion was due to a decrease in cell surface hydrophobicity rather than the differential expression of adhesion genes on the cell wall. In addition, Sir2 affects the distribution and exposure of mannan and β-glucan on the cell wall, indicating that Sir2 plays a role in preventing the immune system from recognizing C. albicans. Interestingly, our results also indicated that Sir2 helps C. albicans maintain metabolic activity under hypoxic conditions, suggesting that Sir2 contributes to C. albicans colonization at hypoxic sites. In conclusion, our findings provide detailed insights into antifungal targets and a useful foundation for the development of antifungal drugs.IMPORTANCECandida albicans (C. albicans) is the most common opportunistic fungal pathogen and can cause various superficial infections and even life-threatening systemic infections. To successfully propagate infection, this organism relies on the ability to express virulence-associated factors and escape host immunity. In this study, we demonstrated that the histone deacetylase Sir2 helps C. albicans adhere to host cells and escape host immunity by mediating cell wall remodeling; as a result, C. albicans successfully colonized and invaded the host in vivo. In addition, we found that Sir2 contributes to carbon utilization under hypoxic conditions, suggesting that Sir2 is important for C. albicans survival and the establishment of infection in hypoxic environments. In summary, we investigated the role of Sir2 in regulating C. albicans pathogenicity in detail; these findings provide a potential target for the development of antifungal drugs.

Published

2024

23. The antibiofilm activity of purified and characterized mannan from Saccharomyces cerevisiae against multidrug-resistant Escherichia coli

Author

Naam Fadhil Abbas Al-Helli and Jehan Abdul Sattar Salman

Subjects

biofilm inhibition, mannan, baker's yeast, fe-sem, ft-ir, antibacterial activity, Microbiology, QR1-502

Abstract

Biofilm formation by Escherichia coli presents a major challenge in the clinical settings, resulting in persistent infections and treatment failures. These bacterial communities, protected by a matrix, resist antibiotics and immune responses, thus causing a prolonged challenge to treat such infections. Developing effective strategies against E. coli biofilms is crucial for improving the patient outcomes and reducing the burden on the healthcare systems. This study aimed to extract, purify, and characterize mannan from Saccharomyces cerevisiae, then its antibiofilm activity was evaluated against the multi-drug resistant E. coli (MDR-E. coli) isolates obtained from various clinical sources (i.e., urine, stool, wound, and catheter). Using a standardized protocol with slight modifications, the crude mannan extraction yielded 37.6 %, and subsequent purification achieved an efficiency of 99.6 %. Characterization assays of the purified mannan included FT-IR; FE-SEM, carbohydrate content estimation, solubility, and melting point tests, which revealed the presence of α-1,6 and α-1,2 linked sugars; crystalline nature, high porosity (80 %) carbohydrate content, high solubility in water, and a melting point of 248 °C. The purified mannan exhibited a substantial ability to inhibit biofilm formation (37.50 %) and degrade the existing MDR-E. coli biofilms (37.43 %). These findings underscore the potential of S. cerevisiae mannan as an effective antibiofilm agent for the clinical applications. Further exploration and optimization of the mannan's therapeutic potential are essential to fully leverage its efficacy in combating the biofilm-associated infections caused by MDR-E. coli.

Published

2023

24. Antigenic Relatedness between Mannans from Coccidioides immitis and Coccidioides posadasii Spherules and Mycelia.

Author

Burnham-Marusich, Amanda R., Zayac, Kathleen R., Galgiani, John N., Lewis, Lourdes, and Kozel, Thomas R.

Subjects

*MANNANS, *MYCOSES, *POLYSACCHARIDES, *COCCIDIOIDOMYCOSIS, *IMMUNOASSAY

Abstract

Immunoassays for cell wall mannans that are excreted into serum and urine have been used as an aid in the diagnosis of many disseminated fungal infections, including coccidioidomycosis. Antigen-detection immunoassays are critically dependent on the detection of an analyte, such as mannan, by antibodies that are specific to the analyte. The goal of this study was to evaluate the extent of cross-reactivity of polyclonal antibodies raised against Coccidioides spp. Analysis of antigenic relatedness between mannans from C. posadasii and C. immitis spherules and mycelia showed complete relatedness when evaluated by the method of Archetti and Horsfall, which was originally used to study the antigenic relationships between Influenzae virus isolates. In a further effort to validate the suitability of the antigenic relatedness calculation methodology for polysaccharide antigens, we also applied the method of Archetti and Horsfall to published results that had previously identified the major capsular serotypes of Cryptococcus species. The results of this analysis showed that Archetti and Horsfall's antigenic relatedness calculation correctly identified the major cryptococcal serotypes. Together, these results suggest that the method is applicable to polysaccharide antigens, and that immunoassays that detect Coccidioides mannans are likely to have good reactivity across Coccidioides species (inclusivity) due to the species' high level of antigenic relatedness. [ABSTRACT FROM AUTHOR]

Published

2024

25. Biochemical, Histopathological, and Immunological Effects of Mannan and/or Chitosan Oligosaccharides in Broilers intoxicated with Aflatoxins.

Author

EL-Habashy, AL-Zahraa, El-Adl, Mohamed, El Dayem, Ghada Abd, and EL-Sherbini, EL-Said

Subjects

*AFLATOXINS, *OLIGOSACCHARIDES, *CHITOSAN, *FOOD additives, *HISTOPATHOLOGY, *BROILER chickens

Abstract

Food additives such as carboxy methyl chitosan (CMC) and mannan (MOS) may have detoxification effect on aflatoxins (AFs). The current study aimed to investigate the role of chitosan and/or mannan in reducing the toxicity of AFs in broiler chickens (cobb500), through improving biochemical, hematological, oxidative stress, and antioxidant parameters. Furthermore, we investigated the impact on histopathological parameters and immune gene expression analysis (caspase 3 and interleukin 1-β). Five equal groups of 50 broilers each were selected (n=10); (G1) given the basal diet, (G2) basal diet intoxicated with 100 ppb AFs kg-1diet; (G3) given as basal diet intoxicated with 100 ppb AFs kg-1diet and supplemented with MAN (1 g kg-1 diet); (G4) given basal diet intoxicated with 100 ppb AFs kg-1diet and supplemented with CMC (0.5 g kg-1 diet) ; and (G5) given basal diet intoxicated with 100 ppb AFs kg-1diet and supplemented with MAN (1 g kg-1 diet)and CMC (0.5 g kg-1 diet). The current study's findings showed that the administration of both MAN and CMC brought hematological parameters back to the level of control. Chicks treated with MAN and/or CMC after being intoxicated with aflatoxins showed a considerable improvement in both renal and hepatic indicators with a notable improvement in antioxidant indicators in the groups receiving CMC and MAN supplements after being exposed to aflatoxicosis. Additionally, chicks treated with MAN and/or COS after being intoxicated with aflatoxins showed a considerable improvement in the gene expression of Caspase-3 and IL-1β. Furthermore, supplemental MAN and/or CMC decreased aflatoxin accumulation in the tissues of the muscles, liver, and kidneys. The groups G3, G4, and G5 showed notable improvements in the hepatic parenchymal architecture in their liver sections. The results of this study confirmed the hypothesis that adding natural additives such mannan and chitosan might enhance the antioxidant capacity and vital parameters of broilers exposed to 100 ppb aflatoxins. [ABSTRACT FROM AUTHOR]

Published

2024

26. Effects of Prebiotic Yeast Mannan on Gut Health and Sleep Quality in Healthy Adults: A Randomized, Double-Blind, Placebo-Controlled Study.

Author

Tanihiro, Reiko, Yuki, Masahiro, Sasai, Masaki, Haseda, Akane, Kagami-Katsuyama, Hiroyo, Hirota, Tatsuhiko, Honma, Naoyuki, and Nishihira, Jun

Abstract

Human gut health is closely related to sleep. We aimed to evaluate the efficacy of yeast mannan (YM) in improving bowel habits and sleep quality, along with metabolomics in fecal samples. A total of 40 healthy adults (age range, 22–64 years) with discomfort in defecation were enrolled and randomly allocated to receive either YM (n = 20; 1.1 g/day) or placebo (n = 20) for four weeks. Participants recorded their defecation habits throughout the test periods. Sleep electroencephalogram (EEG) recording using an EEG device and fecal sampling were performed pre- and post-treatment. The YM group significantly increased defecation frequency and stool volumes compared to the placebo group. After 4 weeks of treatment, the non-REM sleep stage 3 (N3) duration in the YM group was significantly higher than that in the placebo group. YM ingestion significantly lengthened total time in bed (TIB) and significantly shortened N3 latency compared to placebo intake during the trial. The metabolomics analysis found a total of 20 metabolite differences between the YM and placebo groups. As a result of stepwise linear regression, changes in fecal propionate and gamma-aminobutyric acid (GABA) levels were identified as the primary factors explaining changes in TIB and N3 latency, respectively. Our findings suggest that the prebiotic YM could be beneficial to gut health and sleep quality. [ABSTRACT FROM AUTHOR]

Published

2024

27. Discovery of α-(1→6)-linked mannan structures resembling yeast N-glycan outer chains in Aspergillus fumigatus mycelium

Author

Chihiro Kadooka, Yutaka Tanaka, Rintaro Kishida, Daisuke Hira, and Takuji Oka

Subjects

mannosyltransferase, cell wall, outer chain, mannan, Aspergillus fumigatus, Microbiology, QR1-502

Abstract

ABSTRACT The cellular surface of the pathogenic filamentous fungus Aspergillus fumigatus is enveloped in a mannose layer, featuring well-established fungal-type galactomannan and O-mannose-type galactomannan. This study reports the discovery of cell wall component in A. fumigatus mycelium, which resembles N-glycan outer chains found in yeast. The glycosyltransferases involved in its biosynthesis in A. fumigatus were identified, with a focus on two key α-(1→2)-mannosyltransferases, Mnn2 and Mnn5, and two α-(1→6)-mannosyltransferases, Mnn9 and Van1. In vitro examination revealed the roles of recombinant Mnn2 and Mnn5 in transferring α-(1→2)-mannosyl residues. Proton nuclear magnetic resonance (1H-NMR) analysis of cell wall extracts from the ∆mnn2∆mnn5 strain indicated the existence of an α-(1→6)-linked mannan backbone in the A. fumigatus mycelium, with Mnn2 and Mnn5 adding α-(1→2)-mannosyl residues to this backbone. The α-(1→6)-linked mannan backbone was absent in strains where mnn9 or van1 was disrupted in the parental ∆mnn2∆mnn5 strain in A. fumigatus. Mnn9 and Van1 functioned as α-(1→6)-linked mannan polymerases in heterodimers when co-expressed in Escherichia coli, indicating their crucial role in biosynthesizing the α-(1→6)-linked mannan backbone. Disruptions of these mannosyltransferases did not affect fungal-type galactomannan biosynthesis. This study provides insights into the complexity of fungal cell wall architecture and a better understanding of mannan biosynthesis in A. fumigatus.IMPORTANCEThis study unravels the complexities of mannan biosynthesis in A. fumigatus, a key area for antifungal drug discovery. It reveals the presence of α-(1→6)-linked mannan structures resembling yeast N-glycan outer chains in A. fumigatus mycelium, offering fresh insights into the fungal cell wall’s design. Key enzymes, Mnn2, Mnn5, Mnn9, and Van1, are instrumental in this process, with Mnn2 and Mnn5 adding specific mannose residues and Mnn9 and Van1 assembling the α-(1→6)-linked mannan structures. Although fungal-type galactomannan’s presence in the cell wall is known, the existence of an α-(1→6)-linked mannan adds a new dimension to our understanding. This intricate web of mannan biosynthesis opens avenues for further exploration and enhances our understanding of fungal cell wall dynamics, paving the way for targeted drug development.

Published

2024

28. Yeast cell wall mannan structural features, biological activities, and production strategies

Author

Kwang-Rim Baek, Sudha Rani Ramakrishnan, Soo-Jung Kim, and Seung-Oh Seo

Subjects

Mannan, Yeast, Biological activities, Engineering, Overproduction, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Mannan and outer structural yeast cell wall polysaccharides have recently garnered attention for their health defense and cosmetic applications. In addition, many studies have confirmed that yeast cell wall mannans exhibit various biological activities, such as antioxidant, immune regulation, reducing hyperlipidemia, and gut health promotion. This paper elucidates yeast cell wall mannan structural features, biological activities, underlying molecular mechanisms, and biosynthesis. Moreover, mannan-overproducing strategies through yeast strain engineering are emphasized and discussed. This review will provide a scientific basis for yeast cell wall mannan research and industrial applications.

Published

2024

29. Plant Cell Wall Polysaccharide O-Acetyltransferases

Author

Ruiqin Zhong, Dayong Zhou, Lirong Chen, John P. Rose, Bi-Cheng Wang, and Zheng-Hua Ye

Subjects

acetyltransferase, cell wall, mannan, pectin, TBL, xylan, Botany, QK1-989

Abstract

Plant cell walls are largely composed of polysaccharide polymers, including cellulose, hemicelluloses (xyloglucan, xylan, mannan, and mixed-linkage β-1,3/1,4-glucan), and pectins. Among these cell wall polysaccharides, xyloglucan, xylan, mannan, and pectins are often O-acetylated, and polysaccharide O-acetylation plays important roles in cell wall assembly and disease resistance. Genetic and biochemical analyses have implicated the involvement of three groups of proteins in plant cell wall polysaccharide O-acetylation: trichome birefringence-like (TBL)/domain of unknown function 231 (DUF231), reduced wall acetylation (RWA), and altered xyloglucan 9 (AXY9). Although the exact roles of RWAs and AXY9 are yet to be identified, members of the TBL/DUF231 family have been found to be O-acetyltransferases responsible for the O-acetylation of xyloglucan, xylan, mannan, and pectins. Here, we provide a comprehensive overview of the occurrence of O-acetylated cell wall polysaccharides, the biochemical properties, structural features, and evolution of cell wall polysaccharide O-acetyltransferases, and the potential biotechnological applications of manipulations of cell wall polysaccharide acetylation. Further in-depth studies of the biochemical mechanisms of cell wall polysaccharide O-acetylation will not only enrich our understanding of cell wall biology, but also have important implications in engineering plants with increased disease resistance and reduced recalcitrance for biofuel production.

Published

2024

30. Enzymatic biodegradation of a mannan and galactoglucomannan extracted from African rose wood and Agba wood by hemicellulase from Bacillus trypoxylicola

Author

Onyema, Victoria Ezinne, Ezugwu, Arinze Linus, Ezike, Tobechukwu Christian, and Chilaka, Ferdinand Chiemeka

Published

2024

31. ASCA-related antibodies in the blood sera of healthy donors and patients with colorectal cancer: characterization with oligosaccharides related to Saccharomyces cerevisiae mannan

Author

Vadim B. Krylov, Anton N. Kuznetsov, Alina V. Polyanskaya, Pavel V. Tsarapaev, Dmitry V. Yashunsky, Nikolay E. Kushlinskii, and Nikolay E. Nifantiev

Subjects

mannan, Saccharomyces cerevisiae, Candida albicans, fungi, antibodies, IgG, Biology (General), QH301-705.5

Abstract

Mannans are polysaccharide antigens expressed on the cell wall of different fungal species including Saccharomyces cerevisiae and Candida spp. These fungi are components of the normal intestinal microflora, and the presence of antibodies to fungal antigens is known to reflect the features of the patient’s immune system. Thus, titers of IgG and IgA antibodies against Saccharomyces cerevisiae mannan (ASCA) are markers for clinical diagnostics of inflammatory bowel diseases. The complex organization and heterogeneity of cell-wall mannans may reduce the quality and reproducibility of ELISA results due to interference by different antigenic epitopes. In this research, we analyzed the levels of IgG antibodies in the sera of healthy donors and patients with colorectal cancer using an array of synthetic oligosaccharides related to distinct fragments of fungal mannan. This study aimed to establish the influence of oligosaccharide structure on their antigenicity. Variations in the structure of the previously established ASCA epitope (changing type of linkage, chain length, and the presence of branches) significantly modified the ability of ligands to bind to circulating antibodies in blood sera. The study showed that surface presentation density of the ligand critically affects the results of enzyme immunoassay. The transition from natural coating antigens to their corresponding synthetic mimetics with a defined structure opens new opportunities for improving existing ELISA test systems, as well as developing diagnostic kits with new properties.

Published

2023

32. The role of the Candida biofilm matrix in drug and immune protection

Author

Sumita Roy and Neil A.R. Gow

Subjects

AFR, Biofilm, β-1, 3 glucan, Mannan, Persister cell, Cytology, QH573-671

Published

2023

33. Towards an understanding of the enzymatic degradation of complex plant mannan structures.

Author

Mafa, Mpho Stephen and Malgas, Samkelo

Subjects

*LIGNOCELLULOSE, *PLANT anatomy, *PLANT cell walls, *GLYCOSIDASES, *POLYSACCHARIDES

Abstract

Plant cell walls are composed of a heterogeneous mixture of polysaccharides that require several different enzymes to degrade. These enzymes are important for a variety of biotechnological processes, from biofuel production to food processing. Several classical mannanolytic enzyme functions of glycoside hydrolases (GH), such as β-mannanase, β-mannosidase and α-galactosidase activities, are helpful for efficient mannan hydrolysis. In this light, we bring three enzymes into the model of mannan degradation that have received little or no attention. By linking their three-dimensional structures and substrate specificities, we have predicted the interactions and cooperativity of these novel enzymes with classical mannanolytic enzymes for efficient mannan hydrolysis. The novel exo-β-1,4-mannobiohydrolases are indispensable for the production of mannobiose from the terminal ends of mannans, this product being the preferred product for short-chain mannooligosaccharides (MOS)-specific β-mannosidases. Second, the side-chain cleaving enzymes, acetyl mannan esterases (AcME), remove acetyl decorations on mannan that would have hindered backbone cleaving enzymes, while the backbone cleaving enzymes liberate MOS, which are preferred substrates of the debranching and sidechain cleaving enzymes. The nonhydrolytic expansins and swollenins disrupt the crystalline regions of the biomass, improving their accessibility for AcME and GH activities. Finally, lytic polysaccharide monooxygenases have also been implicated in promoting the degradation of lignocellulosic biomass or mannan degradation by classical mannanolytic enzymes, possibly by disrupting adsorbed mannan residues. Modelling effective enzymatic mannan degradation has implications for improving the saccharification of biomass for the synthesis of value-added and upcycling of lignocellulosic wastes. [ABSTRACT FROM AUTHOR]

Published

2023

34. Competitive ELISA for the identification of 35–55 myelin oligodendrocyte glycoprotein immunodominant epitope conjugated with mannan.

Author

Gkika, Areti, Androutsou, Maria‐Eleni, Aletras, Alexios J., and Tselios, Theodore

Abstract

Analogs of immunodominant myelin peptides involved in multiple sclerosis (MS: the most common autoimmune disease) have been extensively used to modify the immune response over the progression of the disease. The immunodominant 35–55 epitope of myelin oligodendrocyte glycoprotein (MOG35–55) is an autoantigen appearing in MS and stimulates the encephalitogenic T cells, whereas mannan polysaccharide (Saccharomyces cerevisiae) is a carrier toward the mannose receptor of dendritic cells and macrophages. The conjugate of mannan‐MOG35–55 has been extensively studied for the inhibition of chronic experimental autoimmune encephalomyelitis (EAE: an animal model of MS) by inducing antigen‐specific immune tolerance against the clinical symptoms of EAE in mice. Moreover, it presents a promising approach for the immunotherapy of MS under clinical investigation. In this study, a competitive enzyme‐linked immunosorbent assay (ELISA) was developed to detect the MOG35–55 peptide that is conjugated to mannan. Intra‐ and inter‐day assay experiments proved that the proposed ELISA methodology is accurate and reliable and could be used in the following applications: (i) to identify the peptide (antigen) while it is conjugated to mannan and (ii) to adequately address the alterations that the MOG35–55 peptide may undergo when it is bound to mannan during production and stability studies. [ABSTRACT FROM AUTHOR]

Published

2023

35. Hyphaene thebaica (Areceaeae) as a Promising Functional Food: Extraction, Analytical Techniques, Bioactivity, Food, and Industrial Applications.

Author

Saber, Fatema R., Aly, Shaza H., Khallaf, Moustafa Ali, El-Nashar, Heba A. S., Fahmy, Nouran M., El-Shazly, Mohamed, Radha, Radha, Prakash, Suraj, Kumar, Manoj, Taha, Doaue, Bouyahya, Abdelhakim, and Sharifi-Rad, Javad

Abstract

Hyphaene thebaica, also known as doum, is a wild plant growing in Egypt, Sudan, and other African countries. It is usually used to prepare nutritive diets, tasty beverages, and other food products. This review aimed to highlight the phytochemical composition of the doum plant using NMR, GC–MS, HPLC, and UPLC/Qtof/MS. The reported active constituents are also described, with flavonoids, phenolic acids, and saponins being the most dominant components. Extraction methods, both conventional and non-conventional, and their existing parameters were summarized. The in vitro and in vivo studies on the extracts and active constituents were also reported. We focused on different applications of doum in functional food products, animal feeding systems, and pharmaceutical applications. Doum is considered a promising dietary and therapeutic candidate to be applied on a wider scale. Proteomic analysis of doum and clinical assessment are still lacking and warrant further investigations in the future. [ABSTRACT FROM AUTHOR]

Published

2023

36. Integrated genome-wide differentiation and association analyses identify causal genes underlying breeding-selected grain quality traits in japonica rice.

Author

Yoshida, Hideki, Okada, Satoshi, Wang, Fanmiao, Shiota, Shohei, Mori, Masaki, Kawamura, Mayuko, Zhao, Xue, Wang, Yiqiao, Nishigaki, Naho, Kobayashi, Asako, Miura, Kotaro, Yoshida, Shinya, Ikegami, Masaru, Ito, Akitoshi, Huang, Lin-Tzu, Caroline Hsing, Yue-Ie, Yamagata, Yoshiyuki, Morinaka, Yoichi, Yamasaki, Masanori, and Kotake, Toshihisa

Abstract

Improving grain quality is a primary objective in contemporary rice breeding. Japanese modern rice breeding has developed two different types of rice, eating and sake-brewing rice, with different grain characteristics, indicating the selection of variant gene alleles during the breeding process. Given the critical importance of promptly and efficiently identifying genes selected in past breeding for future molecular breeding, we conducted genome scans for divergence, genome-wide association studies, and map-based cloning. Consequently, we successfully identified two genes, OsMnS and OsWOX9D , both contributing to rice grain traits. OsMnS encodes a mannan synthase that increases the white core frequency in the endosperm, a desirable trait for sake brewing but decreases the grain appearance quality. OsWOX9D encodes a grass-specific homeobox-containing transcription factor, which enhances grain width for better sake brewing. Furthermore, haplotype analysis revealed that their defective alleles were selected in East Asia, but not Europe, during modern improvement. In addition, our analyses indicate that a reduction in grain mannan content during African rice domestication may also be caused a defective OsMnS allele due to breeding selection. This study not only reveals the delicate balance between grain appearance quality and nutrition in rice but also provides a new strategy for isolating causal genes underlying complex traits, based on the concept of "breeding-assisted genomics" in plants. Japanese rice breeding has produced two different types of rice: one for eating and one for brewing sake, each with unique grain characteristics. By comparing the genome sequence of modern rice varieties for eating and sake brewing, as well as landraces, we found two genes, OsMnS and OsWOX9D , that play a role in creating the differences in their grain quality. [ABSTRACT FROM AUTHOR]

Published

2023

37. ß-D-Glucan Assay in the Cerebrospinal Fluid for the Diagnosis of Non-cryptococcal Fungal Infection of the Central Nervous System: A Retrospective Multicentric Analysis and a Comprehensive Review of the Literature.

Author

Bigot, Jeanne, Leroy, Jordan, Chouaki, Taieb, Cholley, Laurence, Bigé, Naïke, Tabone, Marie-Dominique, Brissot, Eolia, Thorez, Sophie, Maizel, Julien, Dupont, Hervé, Sendid, Boualem, Hennequin, Christophe, and Guitard, Juliette

Subjects

*BIOMARKERS, *RESEARCH, *ACADEMIC medical centers, *CONFIDENCE intervals, *RETROSPECTIVE studies, *COMPARATIVE studies, *BETA-glucans, *MYCOSES, *DESCRIPTIVE statistics, *SENSITIVITY & specificity (Statistics), *DIAGNOSTIC errors, *BACTERIAL diseases, *EVALUATION, CENTRAL nervous system infections

Abstract

Background Except for cryptococcosis, fungal infection of the central nervous system (FI-CNS) is a rare but severe complication. Clinical and radiological signs are non-specific, and the value of conventional mycological diagnosis is very low. This study aimed to assess the value of β1,3-D-glucan (BDG) detection in the cerebrospinal fluid (CSF) of non-neonatal non-cryptococcosis patients. Methods Cases associated with BDG assay in the CSF performed in 3 French University Hospitals over 5 years were included. Clinical, radiological, and mycological results were used to classify the episodes as proven/highly probable, probable, excluded, and unclassified FI-CNS. Sensitivity and specificity were compared to that calculated from an exhaustive review of the literature. Results In total, 228 episodes consisting of 4, 7, 177, and 40 proven/highly probable, probable, excluded, and unclassified FI-CNS, respectively, were analysed. The sensitivity of BDG assay in CSF to diagnose proven/highly probable/probable FI-CNS ranged from 72.7% [95% confidence interval {CI}: 43.4%‒90.2%] to 100% [95% CI: 51%‒100%] in our study and was 82% in the literature. For the first time, specificity could be calculated over a large panel of pertinent controls and was found at 81.8% [95% CI: 75.3%‒86.8%]. Bacterial neurologic infections were associated with several false positive results Conclusions Despite its sub-optimal performance, BDG assay in the CSF should be added to the diagnostic armamentarium for FI-CNS. [ABSTRACT FROM AUTHOR]

Published

2023

38. The TaCslA12 gene expressed in the wheat grain endosperm synthesizes wheat-like mannan when expressed in yeast and Arabidopsis.

Author

Verhertbruggen, Yves, Bouder, Axelle, Vigouroux, Jacqueline, Alvarado, Camille, Geairon, Audrey, Guillon, Fabienne, Wilkinson, Mark D, Stritt, Fabian, Pauly, Markus, Lee, Mi Yeon, Mortimer, Jenny C, Scheller, Henrik V, Mitchell, Rowan AC, Voiniciuc, Cătălin, Saulnier, Luc, and Chateigner-Boutin, Anne-Laure

Subjects

Saccharomyces cerevisiae, Plants, Genetically Modified, Arabidopsis, Triticum, Tobacco, Mannans, Genes, Plant, Endosperm, Edible Grain, Cell walls, Developing endosperm, Heterologous expression, Mannan, Wheat grain, Plant Biology, Crop and Pasture Production, Plant Biology & Botany

Abstract

Mannan is a class of cell wall polysaccharides widespread in the plant kingdom. Mannan structure and properties vary according to species and organ. The cell walls of cereal grains have been extensively studied due to their role in cereal processing and to their beneficial effect on human health as dietary fiber. Recently, we showed that mannan in wheat (Triticum aestivum) grain endosperm has a linear structure of β-1,4-linked mannose residues. The aim of this work was to study the biosynthesis and function of wheat grain mannan. We showed that mannan is deposited in the endosperm early during grain development, and we identified candidate mannan biosynthetic genes expressed in the endosperm. The functional study in wheat was unsuccessful therefore our best candidate genes were expressed in heterologous systems. The endosperm-specificTaCslA12 gene expressed in Pichia pastoris and in an Arabidopsis thaliana mutant depleted in glucomannan led to the production of wheat-like linear mannan lacking glucose residues and with moderate acetylation. Therefore, this gene encodes a mannan synthase and is likely responsible for the synthesis of wheat endosperm mannan.

Published

2021

39. Myelin Oligodendrocyte Glycoprotein (MOG)35–55 Mannan Conjugate Induces Human T-Cell Tolerance and Can Be Used as a Personalized Therapy for Multiple Sclerosis

Author

Maria Rodi, Anne-Lise de Lastic, Ioannis Panagoulias, Ioanna Aggeletopoulou, Kostas Kelaidonis, John Matsoukas, Vasso Apostolopoulos, and Athanasia Mouzaki

Subjects

peptides, MOG35–55, mannan, vitamin D, dendritic cells, cytokines, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

We have previously performed preclinical studies with the oxidized mannan-conjugated peptide MOG35–55 (OM-MOG35–55) in vivo (EAE mouse model) and in vitro (human peripheral blood) and demonstrated that OM-MOG35–55 suppresses antigen-specific T cell responses associated with autoimmune demyelination. Based on these results, we developed different types of dendritic cells (DCs) from the peripheral blood monocytes of patients with multiple sclerosis (MS) or healthy controls presenting OM-MOG35–55 or MOG-35–55 to autologous T cells to investigate the tolerogenic potential of OM-MOG35–55 for its possible use in MS therapy. To this end, monocytes were differentiated into different DC types in the presence of IL-4+GM-CSF ± dexamethasone (DEXA) ± vitamin D3 (VITD3). At the end of their differentiation, the DCs were loaded with peptides and co-cultured with T cells +IL-2 for 4 antigen presentation cycles. The phenotypes of the DC and T cell populations were analyzed using flow cytometry and the secreted cytokines using flow cytometry or ELISA. On day 8, the monocytes had converted into DCs expressing the typical markers of mature or immature phenotypes. Co-culture of T cells with all DC types for 4 antigen presentation cycles resulted in an increase in memory CD4+ T cells compared to memory CD8+ T cells and a suppressive shift in secreted cytokines, mainly due to increased TGF-β1 levels. The best tolerogenic effect was obtained when patient CD4+ T cells were co-cultured with VITD3-DCs presenting OM-MOG35–55, resulting in the highest levels of CD4+PD-1+ T cells and CD4+CD25+Foxp3+ Τ cells. In conclusion, the tolerance induction protocols presented in this work demonstrate that OM-MOG35–55 could form the basis for the development of personalized therapeutic vaccines or immunomodulatory treatments for MS.

Published

2024

40. A Comparative Study of Composition and Soluble Polysaccharide Content between Brewer’s Spent Yeast and Cultured Yeast Cells

Author

Hyun Ji Lee, Bo-Ram Park, and Legesse Shiferaw Chewaka

Subjects

brewer’s spent yeast, cell residue, soluble polysaccharides, mannan, β-glucan, superoxide dismutase, Chemical technology, TP1-1185

Abstract

Yeast, crucial in beer production, holds great potential owing to its ability to transform into a valuable by-product resource, known as brewer’s spent yeast (BSY), with potentially beneficial physiological effects. This study aimed to compare the composition and soluble polysaccharide content of Brewer’s spent yeast with those of cultured yeast strains, namely Saccharomyces cerevisiae (SC) and S. boulardii (SB), to facilitate the utilization of BSY as an alternative source of functional polysaccharides. BSY exhibited significantly higher carbohydrate content and lower crude protein content than SC and SB cells. The residues recovered through autolysis were 53.11%, 43.83%, and 44.99% for BSY, SC, and SB, respectively. Notably, the polysaccharide content of the BSY residue (641.90 μg/mg) was higher than that of SC (553.52 μg/mg) and SB (591.56 μg/mg). The yields of alkali-extracted water-soluble polysaccharides were 33.62%, 40.76%, and 42.97% for BSY, SC, and SB, respectively, with BSY comprising a comparable proportion of water-soluble saccharides made with SC and SB, including 49.31% mannan and 20.18% β-glucan. Furthermore, BSY demonstrated antioxidant activities, including superoxide dismutase (SOD), ABTS, and DPPH scavenging potential, suggesting its ability to mitigate oxidative stress. BSY also exhibited a significantly higher total phenolic compound content, indicating its potential to act as an effective functional food material.

Published

2024

41. Evaluation of the mannan antigen assay in neonates with or without Candida albicans colonization.

Author

Bourika, Vasiliki, Siahanidou, Tania, Theodoridou, Kalliopi, Tsakris, Athanasios, Vrioni, Georgia, and Michos, Athanasios

Abstract

Mannan antigen (MA) in neonates as a marker of invasive candidemia is not well studied, although 4% of all neonatal intensive care unit admissions are attributed to Candida spp. infections. The aim of this case-control study was to evaluate the performance of MA (Platelia™ Candida AgPluskit, Bio-Rad) in neonates who had rectal Candida colonization or in non-colonized controls. We cultured 340 rectal swabs of neonates and MA was negative in 24/25 C. albicans colonized (96% specificity) and in 30/30 non-colonized neonates (100% specificity). The results indicate a high specificity of the assay, which could be useful in neonates with possible candidemia. [ABSTRACT FROM AUTHOR]

Published

2024

42. MICROWAVE AND ULTRASONIC TREATMENT AS A PRELIMINARY STAGE OF OBTAINING WATER-SOLUBLE MANNAN FROM COFFEE SLUDGE

Author

K. Naumenko, A. Kapustian, and L. Gural

Subjects

polysaccharides, mannan, coffee sludge, functional and physiological ingredients, Agriculture, Technology

Abstract

In recent years, interest in immunocorrectors of natural origin has increased significantly. Among them is a group of polysaccharides such as mannans. Mannans are polysaccharides composed of D-mannose residues as the main chain. They possess a number of properties: immunomodulatory, cancer-protective, antimicrobial, and normalize blood cholesterol levels. Mannans are present in a number of plants, algae and microorganisms. One of the promising sources of mannans can be coffee sludge, which is accumulated on an industrial scale at instant coffee companies. This article describes a biotechnological method for the production of water-soluble mannan from coffee sludge and investigates the possibility of increasing the yield of water-soluble low-molecular-weight mannan with the maximum content of physiologically active fractions by pretreating the raw material with ultrasound and ultrahigh-frequency radiation. The sludge was pretreated in an aqueous medium using ultrasound at 25, 35 and 40 kHz for 15 minutes and treatment in a 2.45 GHz ultra-high-frequency electric field with a power of 300 W, 600 W and 800 W for 5 minutes. Next, the physical disintegrate was treated with an enzyme preparation with beta-mannanase activity and centrifuged. The resulting water-soluble products were characterized by gel chromatography to determine the molecular weight distribution of the fractions of each sample. It was found that the pretreatment with ultrasound is expedient, since the total amount of fractions with a molecular weight of less than 20 kDa is almost 80%. The treatment of raw materials with microwave rays is inefficient and leads to an increase in fractions of molecular weight less than 1 kDa. Thus, varying the conditions of the preliminary physical treatment of coffee sludge allows to regulate the molecular weight distribution of water-soluble enzymolysis products and obtain products with the required range of molecular weight values.

Published

2023

43. MICROWAVE AND ULTRASONIC TREATMENT AS A PRELIMINARY STAGE OF OBTAINING WATER-SOLUBLE MANNAN FROM COFFEE SLUDGE.

Author

Naumenko, K., Kapustian, A., and Gural, L.

Subjects

*INSTANT coffee, *BLOOD cholesterol, *COFFEE, *MOLE fraction, *MOLECULAR weights, *GALACTOMANNANS

Abstract

In recent years, interest in immunocorrectors of natural origin has increased significantly. Among them is a group of polysaccharides such as mannans. Mannans are polysaccharides composed of D-mannose residues as the main chain. They possess a number of properties: immunomodulatory, cancer-protective, antimicrobial, and normalize blood cholesterol levels. Mannans are present in a number of plants, algae and microorganisms. One of the promising sources of mannans can be coffee sludge, which is accumulated on an industrial scale at instant coffee companies. This article describes a biotechnological method for the production of water-soluble mannan from coffee sludge and investigates the possibility of increasing the yield of water-soluble low-molecularweight mannan with the maximum content of physiologically active fractions by pretreating the raw material with ultrasound and ultrahigh-frequency radiation. The sludge was pretreated in an aqueous medium using ultrasound at 25, 35 and 40 kHz for 15 minutes and treatment in a 2.45 GHz ultra-high-frequency electric field with a power of 300 W, 600 W and 800 W for 5 minutes. Next, the physical disintegrate was treated with an enzyme preparation with beta-mannanase activity and centrifuged. The resulting water-soluble products were characterized by gel chromatography to determine the molecular weight distribution of the fractions of each sample. It was found that the pretreatment with ultrasound is expedient, since the total amount of fractions with a molecular weight of less than 20 kDa is almost 80%. The treatment of raw materials with microwave rays is inefficient and leads to an increase in fractions of molecular weight less than 1 kDa. Thus, varying the conditions of the preliminary physical treatment of coffee sludge allows to regulate the molecular weight distribution of water-soluble enzymolysis products and obtain products with the required range of molecular weight values. [ABSTRACT FROM AUTHOR]

Published

2023

44. Targeting the Mannose Receptor with Functionalized Fucoidan/Chitosan Nanoparticles Triggers the Classical Activation of Macrophages.

Author

Serrasqueiro, Filipa, Barbosa, Ana Isabel, Lima, Sofia A. Costa, and Reis, Salette

Subjects

*MACROPHAGE activation, *MANNOSE, *NANOPARTICLE size, *NANOPARTICLES, *ZETA potential, *NANOMEDICINE

Abstract

Understanding how nanoparticles' properties influence their cellular interactions is a bottleneck for improving the design of carriers. Macrophage polarization governs their active role in solving infections or tissue repair. To unravel the effect of carbohydrate-targeting mannose receptors on the macrophage surface, drug-free fucoidan/chitosan nanoparticles were functionalized using mannose (M) and mannan (Mn). Polyelectrolyte complex nanoparticles were obtained upon chitosan self-assembly using fucoidan. The functionalized nanoparticles were characterized in terms of their physicochemical characteristics, chemical profile, and carbohydrate orientation. The nanoparticles varied in size from 200 to 400 nm, were monodisperse, and had a stable negative zeta potential with a low aggregation tendency. The nonfunctionalized and functionalized nanoparticles retained their properties for up to 12 weeks. Cell viability and internalization studies were performed for all the designed nanoparticles in the THP-1 monocytes and THP-1-differentiated macrophages. The expression of the mannose receptor was verified in both immune cells. The carbohydrate-functionalized nanoparticles led to their activation and the production of pro-inflammatory cytokines interleukin (IL)-1β, IL-6, and tumour necrosis factor (TNF)-α. Both M- and Mn-coated nanoparticles modulate macrophages toward an M1-polarized state. These findings demonstrate the tailoring of these nanoplatforms to interact and alter the macrophage phenotype in vitro and represent their therapeutic potential either alone or in combination with a loaded drug for future studies. [ABSTRACT FROM AUTHOR]

Published

2023

45. Encapsulation of Polyphenolic Compounds Based on Hemicelluloses to Enhance Treatment of Inflammatory Bowel Diseases and Colorectal Cancer.

Author

Caban, Miłosz and Lewandowska, Urszula

Subjects

*INFLAMMATORY bowel diseases, *COLORECTAL cancer, *VASCULAR endothelial growth factors, *PLANT polyphenols, *HEMICELLULOSE, *MATRIX metalloproteinases

Abstract

Inflammatory bowel diseases (IBD) and colorectal cancer (CRC) are difficult to cure, and available treatment is associated with troubling side effects. In addition, current therapies have limited efficacy and are characterized by high costs, and a large segment of the IBD and CRC patients are refractive to the treatment. Moreover, presently used anti-IBD therapies in the clinics are primarily aimed on the symptomatic control. That is why new agents with therapeutic potential against IBD and CRC are required. Currently, polyphenols have received great attention in the pharmaceutical industry and in medicine due to their health-promoting properties. They may exert anti-inflammatory, anti-oxidative, and anti-cancer activity, via inhibiting production of pro-inflammatory cytokines and enzymes or factors associated with carcinogenesis (e.g., matrix metalloproteinases, vascular endothelial growth factor), suggesting they may have therapeutic potential against IBD and CRC. However, their use is limited under both processing conditions or gastrointestinal interactions, reducing their stability and hence their bioaccessibility and bioavailability. Therefore, there is a need for more effective carriers that could be used for encapsulation of polyphenolic compounds. In recent years, natural polysaccharides have been proposed for creating carriers used in the synthesis of polyphenol encapsulates. Among these, hemicelluloses are particularly noteworthy, being characterized by good biocompatibility, biodegradation, low immunogenicity, and pro-health activity. They may also demonstrate synergy with the polyphenol payload. This review discusses the utility and potential of hemicellulose-based encapsulations of polyphenols as support for treatment of IBD and CRC. [ABSTRACT FROM AUTHOR]

Published

2023

46. Disruption of a DUF247 Containing Protein Alters Cell Wall Polysaccharides and Reduces Growth in Arabidopsis.

Author

Wannitikul, Pitchaporn, Wattana-Amorn, Pakorn, Sathitnaitham, Sukhita, Sakulkoo, Jenjira, Suttangkakul, Anongpat, Wonnapinij, Passorn, Bassel, George W., Simister, Rachael, Gomez, Leonardo D., and Vuttipongchaikij, Supachai

Subjects

PLANT cell walls, POLYSACCHARIDES, ARABIDOPSIS, GLYCANS, PLANT size, CELL anatomy

Abstract

Plant cell wall biosynthesis is a complex process that requires proteins and enzymes from glycan synthesis to wall assembly. We show that disruption of At3g50120 (DUF247-1), a member of the DUF247 multigene family containing 28 genes in Arabidopsis, results in alterations to the structure and composition of cell wall polysaccharides and reduced growth and plant size. An ELISA using cell wall antibodies shows that the mutants also exhibit ~50% reductions in xyloglucan (XyG), glucuronoxylan (GX) and heteromannan (HM) epitopes in the NaOH fraction and ~50% increases in homogalacturonan (HG) epitopes in the CDTA fraction. Furthermore, the polymer sizes of XyGs and GXs are reduced with concomitant increases in short-chain polymers, while those of HGs and mHGs are slightly increased. Complementation using 35S:DUF247-1 partially recovers the XyG and HG content, but not those of GX and HM, suggesting that DUF247-1 is more closely associated with XyGs and HGs. DUF247-1 is expressed throughout Arabidopsis, particularly in vascular and developing tissues, and its disruption affects the expression of other gene members, indicating a regulatory control role within the gene family. Our results demonstrate that DUF247-1 is required for normal cell wall composition and structure and Arabidopsis growth. [ABSTRACT FROM AUTHOR]

Published

2023

47. Fluorescence activated cell sorting and fermentation analysis to study rumen microbiome responses to administered live microbials and yeast cell wall derived prebiotics.

Author

Klassen, Leeann, Reintjes, Greta, Meiying Li, Long Jin, Amundsen, Carolyn, Xiaohui Xing, Dridi, Lharbi, Castagner, Bastien, Alexander, Trevor W., and Abbott, D. Wade

Abstract

Rapid dietary changes, such as switching from high-forage to high-grain diets, can modify the rumen microbiome and initiate gastrointestinal distress, such as bloating. In such cases, feed additives, including prebiotics and live microbials, can be used to mitigate these negative consequences. Bio-Mos® is a carbohydrate-based prebiotic derived from yeast cells that is reported to increase livestock performance. Here, the responses of rumen bacterial cells to Bio-Mos® were quantified, sorted by flow cytometry using fluorescently-labeled yeast mannan, and taxonomically characterized using fluorescence in situ hybridization and 16S rRNA sequencing. Further, to evaluate the effects of bovine-adapted Bacteroides thetaiotaomicron administration as a live microbial with and without Bio-Mos® supplementation, we analyzed microbial fermentation products, changes to carbohydrate profiles, and shifts in microbial composition of an in vitro rumen community. Bio-Mos® was shown to be an effective prebiotic that significantly altered microbial diversity, composition, and fermentation; while addition of B. thetaiotaomicron had no effect on community composition and resulted in fewer significant changes to microbial fermentation. When combined with Bio-Mos®, there were notable, although not significant, changes to major bacterial taxa, along with increased significant changes in fermentation end products. These data suggest a synergistic effect is elicited by combining Bio-Mos® and B. thetaiotaomicron. This protocol provides a new in vitro methodology that could be extended to evaluate prebiotics and probiotics in more complex artificial rumen systems and live animals. [ABSTRACT FROM AUTHOR]

Published

2023

48. Comparative studies on mannan and imiquimod induced experimental plaque psoriasis inflammation in inbred mice.

Author

Wu, Huimei, Ou, Jiaxin, Li, Kangxin, Wang, Tingting, and Nandakumar, Kutty Selva

Subjects

*IMIQUIMOD, *PSORIASIS, *T cells, *COMPARATIVE studies, *IMMUNE response

Abstract

Psoriasis is a genetically determined, environmentally triggered, immune system-mediated autoimmune disease. Different animal models are needed to investigate the complex pathological mechanisms underlying this disease. Therefore, we established mannan-induced psoriasis model and compared with the most commonly used imiquimod-induced psoriasis in terms of disease, induction of innate immune cells, expression of cytokines, and the effect of dexamethasone treatment. Mannan significantly induced more severe psoriasis with better disease relapsing feature than imiquimod (IMQ). As determined by immunohistochemistry, IMQ induced significantly more infiltration of CD11c+ and F4/80+ cells than mannan in the skin. However, cytometric analysis showed a significant increase in the percentage of Gr-1+ neutrophils in the spleen and lymph nodes as well as F4/80+ macrophages in the spleen after mannan exposure. Variation in the percentage of significantly increased Vγ4 T cells was also found to be dependent on the lymphoid organs tested. However, there is a clear difference between these models in terms of expression of certain cytokine genes: IL-22, IL-23, IL-17E, and IL-17F were expressed more predominantly in mannan-induced inflammation, while IL-6 and IL-17A expressions were significantly higher in IMQ model. Interestingly, dexamethasone treatment strongly reduced epidermal thickness and histological scores induced by mannan than IMQ. Despite inducing psoriasis-like inflammation, certain differences and similarities were observed in the immune responses induced by mannan and IMQ. However, mannan-induced psoriasis model is relatively more simple, economical and less harmful to mice with an increased possibility to develop a chronic psoriasis model by exposing mice to mannan. [ABSTRACT FROM AUTHOR]

Published

2023

49. Galactomannan utilization by Cellvibrio japonicus relies on a single essential α‐galactosidase encoded by the aga27A gene.

Author

Novak, Jessica K. and Gardner, Jeffrey G.

Subjects

*GALACTOMANNANS, *GALACTOSIDASES, *SYSTEMS biology, *GENE expression, *GENES, *GRAM-negative bacteria, *MONOSACCHARIDES

Abstract

Plant mannans are a component of lignocellulose that can have diverse compositions in terms of its backbone and side‐chain substitutions. Consequently, the degradation of mannan substrates requires a cadre of enzymes for complete reduction to substituent monosaccharides that can include mannose, galactose, and/or glucose. One bacterium that possesses this suite of enzymes is the Gram‐negative saprophyte Cellvibrio japonicus, which has 10 predicted mannanases from the Glycoside Hydrolase (GH) families 5, 26, and 27. Here we describe a systems biology approach to identify and characterize the essential mannan‐degrading components in this bacterium. The transcriptomic analysis uncovered significant changes in gene expression for most mannanases, as well as many genes that encode carbohydrate active enzymes (CAZymes) when mannan was actively being degraded. A comprehensive mutational analysis characterized 54 CAZyme‐encoding genes in the context of mannan utilization. Growth analysis of the mutant strains found that the man26C, aga27A, and man5D genes, which encode a mannobiohydrolase, α‐galactosidase, and mannosidase, respectively, were important for the deconstruction of galactomannan, with Aga27A being essential. Our updated model of mannan degradation in C. japonicus proposes that the removal of galactose sidechains from substituted mannans constitutes a crucial step for the complete degradation of this hemicellulose. [ABSTRACT FROM AUTHOR]

Published

2023

50. C-Type Lectin Receptor Mediated Modulation of T2 Immune Responses to Allergens.

Author

Angelina, Alba, Martín-Cruz, Leticia, de la Rocha-Muñoz, Andrés, Lavín-Plaza, Begoña, and Palomares, Oscar

Abstract

Purpose of Review: Allergic diseases represent a major health problem of increasing prevalence worldwide. In allergy, dendritic cells (DCs) contribute to both the pathophysiology and the induction of healthy immune responses to the allergens. Different studies have reported that some common allergens contain glycans in their structure. C-type lectin receptors (CLRs) expressed by DCs recognize carbohydrate structures and are crucial in allergen uptake, presentation, and polarization of T cell responses. This review summarizes the recent literature regarding the role of CLRs in the regulation of type 2 immune responses to allergens. Recent Findings: In this review, we highlight the capacity of CLRs to recognize carbohydrates in common allergens triggering different signaling pathways involved in the polarization of CD4+ T cells towards specific Th2 responses. Under certain conditions, specific CLRs could also promote tolerogenic responses to allergens, which might well be exploited to develop novel therapeutic approaches of allergen-specific immunotherapy (AIT), the single treatment with potential disease-modifying capacity for allergic disease. At this regard, polymerized allergens conjugated to non-oxidized mannan (allergoid-mannan conjugated) are next-generation vaccines targeting DCs via CLRs that promote regulatory T cells, thus favoring allergen tolerance both in preclinical models and clinical trials. Summary: A better understanding of the role of CLRs in the development of allergy and in the induction of allergen tolerance might well pave the way for the design of novel strategies for allergic diseases. [ABSTRACT FROM AUTHOR]

Published

2023