6,165 results on '"DEFENSINS"'
Search Results
2. Chlamydomonas reinhardtii-derived triple Oh-defensin inhibits the growth of bacteria by disrupting cell membrane integrity.
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Sun, Sheng-Nan, Fan, Lindsay L., Diao, Aipo, and Fan, Zhen-Chuan
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BACTERIAL cell membranes , *ANTIMICROBIAL peptides , *BACTERIAL cell walls , *CHLAMYDOMONAS reinhardtii , *BACTERIAL growth , *PEPTIDE antibiotics , *DEFENSINS - Abstract
Oh-defensin, an antimicrobial peptide, extracted from the venom of Ornithoctonus hainana , potently inhibited fungi and Gram-negative bacteria but showed limited antibacterial potency against Gram-positive bacteria via an unknown mechanism. In this study, a recombinant peptide termed as 3×Oh-defensin-HA-6×His composed of three repeats of Oh-defensin followed by hemagglutinin (HA) and six histidine (6×His) double tags was expressed in Chlamydomonas reinhardtii. The bacteriostatic activity of 3×Oh-defensin-HA-6×His certified against both Gram-negative and Gram-positive bacteria was confirmed, with minimum inhibitory concentration (MIC) between 10 and 80 µg/mL. The minimum bactericidal concentration (MBC) was determined to range from 1× to 2×MIC. In addition, 3×Oh-defensin-HA-6×His exhibited resistance to temperature shocks, extreme pH, and proteinase digestion and it was biologically safe because it displayed low cytotoxicity and hemolysis. In addition, scanning electron microscopy (SEM) and propidium iodide (PI) staining revealed that 3×Oh-defensin-HA-6×His caused the destruction of the bacterial cell membrane, which effectively inhibited bacterial growth. In summary, our findings suggest that green algae-derived 3×Oh-defensin-HA-6×His holds significant promise as a potential alternative to conventional antibiotics in the future. [Display omitted] • A triple Oh-defensin (3×Oh-defensin-HA-6×His) was stably expressed in green algae. • 3×Oh-defensin-HA-6×His inhibits the growth of a broad-spectrum bacteria. • 3×Oh-defensin-HA-6×His is thermostable and resists on extreme pH and proteinase digestion. • 3×Oh-defensin-HA-6×His is biologically safe. • 3×Oh-defensin-HA-6×His inhibits bacterial growth by disrupting the bacterial cell membrane. [ABSTRACT FROM AUTHOR]
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- 2024
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3. Effect of dietary vitamin D3 on growth performance and functional homeostasis of particular intestinal segments in grass carp fingerlings.
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Sun, Hao, Ge, Pei, Liu, Jiaxi, Xiong, Dan, Zhu, Mingjun, and Zhou, Hong
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NUCLEAR factor E2 related factor , *ANTIMICROBIAL peptides , *FINGERLINGS (Fish) , *CTENOPHARYNGODON idella , *HEMATOXYLIN & eosin staining , *DEFENSINS , *DIGESTIVE enzymes - Abstract
The intestine is the principal digestive organ which is generally divided into three segments as the proximal intestine (PI), the mid intestine (MI), and the distal intestine (DI) in fish. In this study, the role of dietary vitamin D3 (VD3) in regulating the function and health of different intestinal segments was evaluated in grass carp (Ctenopharyngodon idella) fingerlings through the supplementation with the increasing levels of dietary VD3 (0, 500, 1000, 1500, 2000, and 2500 IU/kg). The results showed that VD3 supplementation (1000–2000 IU/kg) significantly enhanced the fish growth performance, and the correlation analysis suggested that this effect was positively correlated with intestinal somatic index (ISI) and intestinal length index (ILI) of MI and DI except PI. In support of this finding, dietary VD3 enhanced the activities of digestive and brush border enzymes in the fish mainly in MI and DI rather than PI. Furthermore, the intestinal microbiota analysis revealed that VD3 increased the abundance of intestinal flora at the genus level rather than the phylum level. Meanwhile, hematoxylin and eosin staining presented that VD3 supplementation reduced epithelial goblet cell hyperplasia and lamina propria edema compared with the VD3 deficiency group in the MI and DI. Further studies showed that feeding VD3 decreased malondialdehyde levels but increased total antioxidant capacity, glutathione levels, and total superoxidase activity in MI or DI but not PI, suggesting the antioxidant potential of VD3 in two intestinal segments. Moreover, in MI and DI but not PI, dietary VD3 suppressed pro-inflammatory cytokine (il1 β and tnf α ) but enhanced antimicrobial peptide (hepcidin and βdefensin) mRNA levels and increased the activities of immune-related enzymes (lysozyme and acid phosphatase), highlighting the ability to improve fish immunity. Corresponding to these effects, dietary VD3 was able to mediate NF-E2-related factor 2 (Nrf2) and NF-κB pathways in MI and DI. Finally, quadratic regression models based on weight gain (PWG), feed efficiency (PE), ISI, and ILI suggested that the appropriate VD3 requirements for grass carp fingerlings were 1233.70–1387.11 IU/kg. Taken together, our findings strengthened the potential of dietary VD3 in managing the functions and health of particular intestinal segments and provided valuable reference data for VD3 requirements of fingerling fish. [ABSTRACT FROM AUTHOR]
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- 2024
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4. Epithelial Antimicrobial Peptide/Protein and Cytokine Expression Profiles Obtained from Nasopharyngeal Swabs of SARS-CoV-2-Infected and Non-Infected Subjects.
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Gambichler, Thilo, Goesmann, Silke, Skrygan, Marina, Susok, Laura, Schütte, Christian, Hamdani, Nahza, and Schmidt, Wolfgang
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ANTIMICROBIAL peptides , *GENE expression , *COVID-19 , *COVID-19 pandemic , *NATURAL immunity , *DEFENSINS - Abstract
Immune responses of the epithelia of the upper respiratory tract are likely crucial in early inhibition of the viral replication and finally clearance of SARS-CoV-2. We aimed to compare the expression profiles of antimicrobial peptides/proteins (AMPs) and related cytokines observed in the nasopharynx of SARS-CoV-2-infected patients and non-infected controls and to assess the associations between these parameters and COVID-19 patients' outcomes. We included 45 subjects who had tested positive for SARS-CoV-2 and 22 control subjects who had tested negative for SARS-CoV-2. Biomaterial for SARS-CoV-2 detection, as well as gene and protein expression studies, was obtained from all subjects using nasopharyngeal swabs which were performed a maximum of 7 days before inclusion in the study. Univariable and multivariable statistics were performed. When compared to the controls, the mRNA expression levels of human β-defensin 1 (hBD-1), LL-37, and trappin-2 were significantly higher in specimens of nasopharyngeal swabs from COVID-19 patients. Protein expression of hBD-1 was also increased in the COVID-19 group. mRNA expression levels of interferon-ɣ (IFN-ɣ), tumor necrosis factor- ɑ (TNF-ɑ), and interleukin-6 (IL-6) measured in SARS-CoV-2-infected patients were significantly higher than those observed in the controls, which could also be confirmed in the protein levels of IFN-ɣ and IL-6. A significant correlation between mRNA and protein levels could be observed only for IL-6. Univariable analysis revealed that low IFN-ɣ mRNA levels were associated with severe/fatal outcomes. The occurrence of COVID-19 pneumonia was significantly associated with lower expression levels of IL-6 mRNA, IFN-ɣ mRNA, and TNF-ɑ mRNA. Concerning the severe/fatal outcomes, the multivariable logistic regression model revealed that none of the aforementioned parameters remained significant in the model. However, the logistic regression model revealed that higher TNF-ɑ mRNA expression was a significant independent predictor of absence of pneumonia [odds ratio: 0.35 (95% CI 0.14 to 0.88, p = 0.024)]. In conclusion, nasopharyngeal expression of AMPs (hBD-1, LL-37, and trappin-2) and cytokines (IL-6, IFN-ɣ, and TNF-ɑ) is upregulated in response to early SARS-CoV-2 infection, indicating that these AMPs and cytokines play a role in the local host defense against the virus. Upregulated nasopharyngeal TNF-ɑ mRNA expression during the early phase of SARS-CoV-2 infection was a significant independent predictor of the absence of COVID-19 pneumonia. Hence, high TNF-ɑ mRNA expression in the nasopharynx appears to be a protective factor for lung complications in COVID-19 patients. [ABSTRACT FROM AUTHOR]
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- 2024
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5. Reduced expression of central innate defense molecules in pancreatic biopsies from subjects with Type 1 diabetes.
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Tegehall, Angie, Ingvast, Sofie, Krogvold, Lars, Dahl-Jørgensen, Knut, and Korsgren, Olle
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TYPE 1 diabetes , *PANCREATITIS , *ORGANS (Anatomy) , *NATURAL immunity , *DEFENSINS - Abstract
Aims/Hypothesis: Defensins play a crucial role in the innate immune system's first defense against microbial threats. However, little is known about the defensin system in the pancreas, especially in relation to Type 1 diabetes. We explore the expression of defensins in different disease stages of Type 1 diabetes and correlated obtained findings to the degree of inflammation, providing new insights into the disease and the innate immune system. Material and methods: Pancreases from non-diabetic human organ donors of different age groups and donors with Type 1 diabetes with different disease duration were examined. Sections from head, body and tail of the pancreas were stained for eight different defensins and for immune cells; CD3+, CD45+, CD68+ and NES+ (granulocytes). Results: In non-diabetic adult controls the level of expression for defensins Beta-1,Alpha-1, Cathelicidin and REG3A correlated with the level of inflammation. In contrast, individuals with Type 1 diabetes exhibit a reduction or absence of several central defensins regardless of the level of inflammation in their pancreas. The expression of Cathelicidin is present in neutrophils and macrophages but not in T-cells in subjects with Type 1 diabetes. Conclusions: Obtained findings suggest a pancreatic dysfunction in the innate immune system and the bridging to the adaptive system in Type 1 diabetes. Further studies on the role of the local innate immune system in Type 1 diabetes is needed. [ABSTRACT FROM AUTHOR]
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- 2024
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6. Expression of defensin genes across house fly (Musca domestica) life history gives insight into immune system subfunctionalization.
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Asgari, Danial, Purvis, Tanya, Pickens, Victoria, Saski, Christopher, Meisel, Richard P., and Nayduch, Dana
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HOUSEFLY , *AMINO acid sequence , *ANTIMICROBIAL peptides , *LIFE history theory , *DEFENSINS - Abstract
Animals encounter diverse microbial communities throughout their lifetime, which exert varying selection pressures. Antimicrobial peptides (AMPs), which lyse or inhibit microbial growth, are a first line of defense against some of these microbes. Here we examine how developmental variation in microbial exposure has affected the evolution of expression and amino acid sequences of Defensins (an ancient class of AMPs) in the house fly (Musca domestica). The house fly is a well-suited model for this work because it trophically associates with varying microbial communities throughout its life history and its genome contains expanded families of AMPs, including Defensins. We identified two subsets of house fly Defensins: one expressed in larvae or pupae, and the other expressed in adults. The amino acid sequences of these two Defensin subsets form distinct monophyletic clades, and they are located in separate gene clusters in the genome. The adult-expressed Defensins evolve faster than larval/pupal Defensins, consistent with different selection pressures across developmental stages. Our results therefore suggest that varied microbial communities encountered across life history can shape the evolutionary trajectories of immune genes. [ABSTRACT FROM AUTHOR]
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- 2024
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7. Porcine beta defensin 2 attenuates inflammatory responses in IPEC-J2 cells against Escherichia coli via TLRs-NF-κB/MAPK signaling pathway.
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Shen, Xiaoyang, Gu, Mingke, Zhan, Fengting, Cai, Hanfang, Zhang, Kun, Wang, Kejun, and Li, Chunli
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ESCHERICHIA coli , *CELLULAR signal transduction , *INFLAMMATION , *TOLL-like receptors , *DEFENSINS - Abstract
Background: Porcine beta defensin 2 (pBD2) is one of the porcine beta defensins that has antibacterial activity, and plays an important role in the immunomodulatory activity that protects cells from pathogens. It has been reported that pBD2 plays their immunomodulatory functions related to the TLR4-NF-κB signal pathways. However, it is not completely clear how pBD2 reduces the inflammatory response caused by pathogens. Results: In this study, the effect of pBD2 on the expression of genes in the TLRs signaling pathway was investigated after IPEC-J2 cells were challenged with E. coli. The results showed that pBD2 decreased the expression of IL-8 induced by E. coli (P < 0.05), and pBD2 significantly decreased the expression of TLR4, TLR5 and TLR7 (P < 0.05), as well as the key downstream genes p38 and JNK which activated by E. coli (P < 0.05). In addition, pBD2 inhibited the p-p65, p-p38 and p-JNK which were up-regulated by E. coli. Conclusions: pBD2 could reduce the inflammatory response induced by E. coli perhaps by inhibiting the TLRs-TAK1-NF-κB/MAPK signaling pathway which was activated by E. coli in IPEC-J2 cells. Our study further reveals the immunomodulatory activity of recombinant pBD2 against E. coli, and provides insights into the molecular mechanisms that protect cells from E. coli infection. [ABSTRACT FROM AUTHOR]
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- 2024
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8. Defensins: Exploring Their Opposing Roles in Colorectal Cancer Progression.
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Sabit, Hussein, Pawlik, Timothy M., Abdel-Ghany, Shaimaa, and Arneth, Borros
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CANCER invasiveness , *CATHELICIDINS , *CELL physiology , *COLORECTAL cancer , *ANTIMICROBIAL peptides , *CELLULAR signal transduction , *CELL lines , *METASTASIS , *GENE expression , *INFLAMMATION , *DISEASE progression , *IMMUNITY - Abstract
Simple Summary: This review explores the potential of human defensins, particularly HBD-1, in combating colorectal cancer (CRC) initiation and progression. Highlighting the need for early detection and novel CRC therapies, it examines HBD-1's ability to inhibit the mTOR pathway, a key regulator of cell growth, positioning defensin-based treatments as a promising approach with evidence for suppressing cancer cell proliferation and tumor growth. Colorectal cancer (CRC) represents a significant global healthcare burden, with a particularly concerning rising incidence among younger adults. This trend may highlight potential links between diet, gut microbiome, and CRC risk. Novel therapeutic options have been increasingly based on the understanding of molecular mechanisms and pathways. The PI3K/AKT/mTOR pathway, a crucial cell growth regulator, offers a promising target for CRC therapy. mTOR, a key component within this pathway, controls cell growth, survival, and metabolism. Understanding the specific roles of defensins, particularly human β-Defensin 1 (HBD-1), in CRC is crucial. HBD-1 exhibits potent antimicrobial activity and may influence CRC development. Deciphering defensin expression patterns in CRC holds the promise of improved understanding of tumorigenesis, which may pave the way for improved diagnostics and therapies. This article reviews recent advances in understanding regarding how HBD-1 influences CRC initiation and progression, highlighting the molecular mechanisms by which it impacts CRC. Further, we describe the interaction between defensins and mTOR pathway in CRC. [ABSTRACT FROM AUTHOR]
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- 2024
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9. New Insights into Involvement of Low Molecular Weight Proteins in Complex Defense Mechanisms in Higher Plants.
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Ruszczyńska, Magdalena and Sytykiewicz, Hubert
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PLANT proteins , *PLANT defenses , *DEHYDRINS , *DEFENSINS , *REACTIVE oxygen species , *ANTHOCYANINS , *BIOPESTICIDES , *HEAT shock proteins - Abstract
Dynamic climate changes pose a significant challenge for plants to cope with numerous abiotic and biotic stressors of increasing intensity. Plants have evolved a variety of biochemical and molecular defense mechanisms involved in overcoming stressful conditions. Under environmental stress, plants generate elevated amounts of reactive oxygen species (ROS) and, subsequently, modulate the activity of the antioxidative enzymes. In addition, an increase in the biosynthesis of important plant compounds such as anthocyanins, lignin, isoflavonoids, as well as a wide range of low molecular weight stress-related proteins (e.g., dehydrins, cyclotides, heat shock proteins and pathogenesis-related proteins), was evidenced. The induced expression of these proteins improves the survival rate of plants under unfavorable environmental stimuli and enhances their adaptation to sequentially interacting stressors. Importantly, the plant defense proteins may also have potential for use in medical applications and agriculture (e.g., biopesticides). Therefore, it is important to gain a more thorough understanding of the complex biological functions of the plant defense proteins. It will help to devise new cultivation strategies, including the development of genotypes characterized by better adaptations to adverse environmental conditions. The review presents the latest research findings on selected plant defense proteins. [ABSTRACT FROM AUTHOR]
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- 2024
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10. Strategies of plants to overcome abiotic and biotic stresses.
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Du, Baoguo, Haensch, Robert, Alfarraj, Saleh, and Rennenberg, Heinz
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VOLATILE organic compounds , *ABIOTIC stress , *DEFENSINS , *EXUDATION (Botany) , *METABOLITES , *SESSILE organisms , *CHEMICAL plants - Abstract
In their environment, plants are exposed to a multitude of abiotic and biotic stresses that differ in intensity, duration and severity. As sessile organisms, they cannot escape these stresses, but instead have developed strategies to overcome them or to compensate for the consequences of stress exposure. Defence can take place at different levels and the mechanisms involved are thought to differ in efficiency across these levels. To minimise metabolic constraints and to reduce the costs of stress defence, plants prioritise first‐line defence strategies in the apoplastic space, involving ascorbate, defensins and small peptides, as well as secondary metabolites, before cellular processes are affected. In addition, a large number of different symplastic mechanisms also provide efficient stress defence, including chemical antioxidants, antioxidative enzymes, secondary metabolites, defensins and other peptides as well as proteins. At both the symplastic and the apoplastic level of stress defence and compensation, a number of specialised transporters are thought to be involved in exchange across membranes that still have not been identified, and information on the regeneration of different defence compounds remains ambiguous. In addition, strategies to overcome and compensate for stress exposure operate not only at the cellular, but also at the organ and whole‐plant levels, including stomatal regulation, and hypersensitive and systemic responses to prevent or reduce the spread of stress impacts within the plant. Defence can also take place at the ecosystem level by root exudation of signalling molecules and the emission of volatile organic compounds, either directly or indirectly into the rhizosphere and/or the aboveground atmosphere. The mechanisms by which plants control the production of these compounds and that mediate perception of stressful conditions are still not fully understood. Here we summarise plant defence strategies from the cellular to ecosystem level, discuss their advantages and disadvantages for plant growth and development, elucidate the current state of research on the transport and regeneration capacity of defence metabolites, and outline insufficiently explored questions for further investigation. [ABSTRACT FROM AUTHOR]
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- 2024
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11. The Roles of a Multidrug-Resistant Klebsiella pneumoniae High-Risk Clone and Its Resistance Plasmids on the Gastrointestinal Colonization and Host-Defense Effectors in the Gut.
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Stercz, Balazs, Domokos, Judit, Dunai, Zsuzsanna A., Makra, Nora, Juhasz, Janos, Ostorhazi, Eszter, Kocsis, Bela, and Szabo, Dora
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ESCHERICHIA coli ,COLONIZATION (Ecology) ,MOLECULAR cloning ,GUT microbiome ,GASTROINTESTINAL system ,KLEBSIELLA pneumoniae - Abstract
The asymptomatic gastrointestinal colonization of multidrug-resistant (MDR) bacteria can lead to difficult-to-treat infections. We investigated the role of host factors influencing colonization in an orogastrical murine infection model using a CTX-M-15- and OXA-162-producing Klebsiella pneumoniae ST15 (MDR-KP) strain, as well as Escherichia coli J53 (EC) and E. coli transconjugants with an IncFII(K) plasmid carrying CTX-M-15 (EC-CTXM), and with an IncL plasmid carrying OXA-162 (EC-OXA) genes. The fecal bacterial count in colony-forming unit/gram stool (CFU/g) was determined by cultivation, IgA and defensin levels by ELISA, and gut microbiota by 16S rRNA analysis. The CFU was the lowest in EC, followed by EC-OXA and EC-CTXM, and the highest in the MDR-KP group. The IgA level in feces increased in MDR-KP, EC-CTXM, and EC-OXA, and did not change in EC. The beta-defensin 3 level markedly increased in all groups, with the highest values in MDR-KP and EC-CTXM. Alpha-defensin-5 increased in all groups especially in EC. In microbiota, the Bacteroidota phylum was dominant in MDR-KP, EC-CTXM, and EC-OXA, whereas Proteobacteria was dominant in EC. The Muribaculaceae family was significantly more common in the MDR-KP and EC-OXA groups, while the Lachnospiraceae family was dominant in the EC group. While fecal IgA levels positively correlated with colonizing bacterial CFU, the alpha-defensin 5 levels inversely correlated with CFUs and IgA levels. The presence of the IncFII(K) plasmid induced beta-defensin 3 production. The amounts of the Muribaculaceae family members exhibited a correlation with the IncL plasmid. The detected amounts of the Lachnospiraceae family indicated the protective role against the high-risk clone and the resistance plasmids' dissemination. Our results suggest that not only the MDR-KP clone itself but also the resistance plasmids play a primary role in the colonization rate in the gastrointestinal tract. Both the MDR-KP clone as well as the IncFII(K) and IncL resistance plasmids provide survival and colonization benefits in the gut. [ABSTRACT FROM AUTHOR]
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- 2024
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12. Systemic Factors Effecting Human Beta-Defensins in Oral Cavity.
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Atalay, Nur, Balci, Nur, Gürsoy, Mervi, and Gürsoy, Ulvi Kahraman
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ANTIMICROBIAL peptides ,PERIODONTAL disease ,VITAMIN D ,RETINOIDS ,DEFENSINS - Abstract
Human beta-defensins are host defense peptides with broad antimicrobial and inflammatory functions. In the oral cavity, these peptides are produced mainly by the keratinocytes of the epithelium; however, fibroblasts, monocytes, and macrophages also contribute to oral human beta-defensin expressions. The resident and immune cells of the oral cavity come into contact with various microbe-associated molecular patterns continuously and simultaneously. The overall antimicrobial cellular response is highly influenced by local and environmental factors. Recent studies have produced evidence showing that not only systemic chronic diseases but also systemic factors like hyperglycemia, pregnancy, the long-term use of certain vitamins, and aging can modulate oral cellular antimicrobial responses against microbial challenges. Therefore, the aim of this narrative review is to discuss the role of systemic factors on oral human beta-defensin expressions. [ABSTRACT FROM AUTHOR]
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- 2024
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13. Transcriptome analysis of the allotetraploids of the Dilatata group of Paspalum (Poaceae): effects of diploidization on the expression of defensin and Snakin/GASA genes.
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Rodríguez-Decuadro, Susana, Ramos, Stefani, Rodríguez-Ustra, María José, Marques, André, Smircich, Pablo, and Vaio, Magdalena
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ANTIMICROBIAL peptides , *GENE silencing , *POLYPLOIDY , *DEFENSINS , *GENOMES - Abstract
Plant Snakin/GASA and defensin peptides are cysteine-rich molecules with a wide range of biological functions. They are included within the large family of plant antimicrobial peptides (AMPs), characterized by their structural stability, broad spectrum of activity, and diverse mechanisms of action. The Dilatata group of Paspalum includes five allotetraploids that share an equivalent genomic formula IIJJ. From RNA-seq data of seedling tissues, we performed an in silico characterization of the defensin and Snakin/GASA genes in these species and diploids with a II and JJ genome formula and studied the evolutionary consequences of polyploidy on the expression of the two AMPs families. A total of 107 defensins (distributed in eight groups) and 145 Snakin/GASA (grouped in three subfamilies) genes were identified. Deletions, duplications and/or gene silencing seem to have mediated the evolution of these genes in the allotetraploid species. In defensin genes, the IIJJ allopolyploids retained the I subgenome defensin copies in some of the identified groups supporting the closeness of their nuclear genome with the I subgenome species. In both AMPs families, orthologous genes in tetraploids exhibit higher similarity to each other than with diploids. This data supports the theory of a single origin for the allotetraploids. Several copies of both defensin and Snakin/GASA genes were detected in the five polyploids which could have arisen due to duplication events occurring independently during the diploidization processes in the allotetraploid taxa. [ABSTRACT FROM AUTHOR]
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- 2024
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14. Exploring Fish Antimicrobial Peptides (Amps): Classification, Biological Activities, and Mechanisms of Action.
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Akhavan-Bahabadi, Mohammad, Shekarbi, Seyed Pezhman Hosseini, Sharifinia, Moslem, and Khanjani, Mohammad Hossein
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Background: Despite the growing productivity of aquaculture, economic losses due to infectious diseases, environmental pollution, and human safety concerns related to antibiotic resistance are limiting its growth. Therefore, research is intensively focused on alternative strategies for controlling infectious diseases. Purpose: Antimicrobial peptides (AMPs) are short, usually cationic, amphipathic, germline-encoded endogenous peptides possessing molecular weight less than 13 kDa, which show an extended variety of different families of highly conserved peptides found widely throughout Nature, which play a crucial role in molecular and cellular host defense towards pathogens (bacteria, viruses, parasites, and fungi), tissue damage, and infection. Results: They emerge as a promising antibiotic alternative due to their unique and multidimensional properties, including their low potential for developing antimicrobial resistance, minimal cytotoxicity to mammalian cells, high selective cytotoxicity against bacteria, low residual flesh, and ability to modulate host immune responses. Also, their ability to act even in extremely high salt concentrations, makes them suitable potential targets for development as therapeutic antimicrobials. AMPs are induced by various elements, including dietary ingredients and specific molecules also known as pathogen-associated molecular patterns (PAMPs), which may activate downstream signals to initiate transcription of AMP genes. Fish are an excellent origin of the peptides, as they express all major AMP families, including defensins, cathelicidins, hepcidins, histone-derived peptides, and a fish-specific class, called piscidins. Given their increasing attention in research, this review investigates various fish AMPs, their biological activities, and mechanisms of action. Conclusion: The findings suggest that fish can serve as sources of unique peptides with a broad range of biological activities, thereby offering a novel class of antibiotics. [ABSTRACT FROM AUTHOR]
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- 2024
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15. A novel family of defensin-like peptides from Hermetia illucens with antibacterial properties
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Leila Fahmy, Tomas Generalovic, Youssif M. Ali, David Seilly, Kesavan Sivanesan, Lajos Kalmar, Miha Pipan, Graham Christie, and Andrew J Grant
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AlphaFold ,Antimicrobial peptides ,Antibiotics ,Black soldier fly larvae ,Defensins ,Hermetia illucens ,Microbiology ,QR1-502 - Abstract
Abstract Background The world faces a major infectious disease challenge. Interest in the discovery, design, or development of antimicrobial peptides (AMPs) as an alternative approach for the treatment of bacterial infections has increased. Insects are a good source of AMPs which are the main effector molecules of their innate immune system. Black Soldier Fly Larvae (BSFL) are being developed for large-scale rearing for food sustainability, waste reduction and as sustainable animal and fish feed. Bioinformatic studies have suggested that BSFL have the largest number of AMPs identified in insects. However, most AMPs identified in BSF have not yet undergone antimicrobial evaluation but are promising leads to treat critical infections. Results Jg7197.t1, Jg7902.t1 and Jg7904.t1 were expressed into the haemolymph of larvae following infection with Salmonella enterica serovar Typhimurium and were predicted to be AMPs using the computational tool ampir. The genes encoding these proteins were within 2 distinct clusters in chromosome 1 of the BSF genome. Following removal of signal peptides, predicted structures of the mature proteins were superimposed, highlighting a high degree of structural conservation. The 3 AMPs share primary sequences with proteins that contain a Kunitz-binding domain; characterised for inhibitory action against proteases, and antimicrobial activities. An in vitro antimicrobial screen indicated that heterologously expressed SUMO-Jg7197.t1 and SUMO-Jg7902.t1 did not show activity against 12 bacterial strains. While recombinant SUMO-Jg7904.t1 had antimicrobial activity against a range of Gram-negative and Gram-positive bacteria, including the serious pathogen Pseudomonas aeruginosa. Conclusions We have cloned and purified putative AMPs from BSFL and performed initial in vitro experiments to evaluate their antimicrobial activity. In doing so, we have identified a putative novel defensin-like AMP, Jg7904.t1, encoded in a paralogous gene cluster, with antimicrobial activity against P. aeruginosa.
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- 2024
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16. Effect of Spag11a gene knockout on the epididymis in mice: A histopathological and molecular analyses.
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Aisha, Jamil, Sangeeta, Kumari, and Yenugu, Suresh
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DNA adducts , *GENE knockout , *KNOCKOUT mice , *MALE reproductive organs , *SMALL interfering RNA , *HISTOPATHOLOGY - Abstract
The sperm‐associated antigen 11a (Spag11a) gene is exclusively expressed in the caput epididymis. Our previous studies demonstrated that small interfering RNA (siRNA)‐mediated ablation of this gene resulted in increased proliferation of epididymal epithelial cells. Further, active immunization‐mediated ablation of SPAG11A protein increased the susceptibility of male reproductive tract tissues to diethylnitrosamine (DEN)‐induced tumorigenesis. In this study, we report that the caput epididymis of Spag11a knockout mice displayed hyperplasia and inflammation, while the caput epididymis of wild‐type mice exhibited normal anatomical structure. Global transcriptome analyses in the caput epididymis of knockout mice indicated differential expression of genes involved in a variety of cellular processes. The Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analyses suggested that the absence of Spag11a may activate microRNAs associated with cancer, chemical carcinogenesis‐receptor activation, and chemical carcinogenesis‐DNA adducts pathways; which may contribute to the promotion of tumorigenesis in the epididymis. The susceptibility of caput epididymis to chemically induced carcinogenesis in Spag11a knockout mice was analyzed. Histological analyses indicated that while the epididymis of wild‐type mice did not show any signs of tumorigenesis, knockout mice displayed hyperplasia, anaplasia, dysplasia, neoplasia, and inflammation in the caput epididymis. Our results provide concrete evidence that deletion of Spag11a induces histopathological and molecular changes that contribute to tumorigenesis. It is possible that the expression of Spag11a gene could be one of the reasons for the rarity of epididymal cancers. The involvement of an epididymal gene in tumorigenesis is being demonstrated for the first time. Significance statement: Epididymal cancers are rare, and it was proposed that a large number of factors that are specifically expressed in the epididymis contribute to this unique property. The Spag11a gene is specifically expressed in the epididymis. We demonstrated that ablation of Spag11a gene in epididymal primary cells induced proliferation, while overexpression in an immortalized caput‐derived cell line inhibited proliferation. We also demonstrated that ablation of SPAG11A protein by active immunization rendered the microenvironment of the epididymis favorable for tumorigenesis. We propose that Spag11a gene could be one of the factors that renders the epididymis resistant to tumorigenesis. In‐depth analysis on the role of this gene could provide strategies to address tumorigenesis in other organ systems as well. [ABSTRACT FROM AUTHOR]
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- 2024
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17. The Antimicrobial Activity of Human Defensins at Physiological Non-Permeabilizing Concentrations Is Caused by the Inhibition of the Plasma Membrane H + -ATPases.
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Andrés, María T., Fierro, Patricia, Antuña, Victoria, and Fierro, José F.
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DEFENSINS , *CELL membranes , *LACTOFERRIN , *CELL respiration , *ANTI-infective agents , *ADENOSINE triphosphatase , *ANTIMICROBIAL peptides - Abstract
Human defensins are cysteine-rich peptides (Cys-rich peptides) of the innate immune system. Defensins contain an ancestral structural motif (i.e., γ-core motif) associated with the antimicrobial activity of natural Cys-rich peptides. In this study, low concentrations of human α- and β-defensins showed microbicidal activity that was not associated with cell membrane permeabilization. The cell death pathway was similar to that previously described for human lactoferrin, also an immunoprotein containing a γ-core motif. The common features were (1) cell death not related to plasma membrane (PM) disruption, (2) the inhibition of microbicidal activity via extracellular potassium, (3) the influence of cellular respiration on microbicidal activity, and (4) the influence of intracellular pH on bactericidal activity. In addition, in yeast, we also observed (1) partial K+-efflux mediated via Tok1p K+-channels, (2) the essential role of mitochondrial ATP synthase in cell death, (3) the increment of intracellular ATP, (4) plasma membrane depolarization, and (5) the inhibition of external acidification mediated via PM Pma1p H+-ATPase. Similar features were also observed with BM2, an antifungal peptide that inhibits Pma1p H+-ATPase, showing that the above coincident characteristics were a consequence of PM H+-ATPase inhibition. These findings suggest, for the first time, that human defensins inhibit PM H+-ATPases at physiological concentrations, and that the subsequent cytosolic acidification is responsible for the in vitro microbicidal activity. This mechanism of action is shared with human lactoferrin and probably other antimicrobial peptides containing γ-core motifs. [ABSTRACT FROM AUTHOR]
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- 2024
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18. Peptide derived from plant defensins: A promising 68Ga radiolabelled agent for diagnostic of infection foci in PET.
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Osorio, Jessica, Rosas, Roberto Castro, Vega, Mariana Barraco, Reyes, Ana Laura, Paolino, Andrea, Menéndez, Florencia, Vega‐Teijido, Mauricio, Savio, Eduardo, Giglio, Javier, Cecchetto, Gianna, and Terán, Mariella
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PEPTIDES , *DEFENSINS , *RADIOCHEMICAL purification , *ANTIMICROBIAL peptides , *CHELATING agents , *POSITRON emission tomography - Abstract
The development of new radiopharmaceuticals for the detection of hidden infection foci has great relevance for early detection and the selection of the correct treatment, particularly in immunosuppressed patients. In that sense, the labelling of antimicrobial peptides (AMPs) that are capable of binding specifically to the pathogenic microorganism which causes the infection, should provide a sufficiently specific agent, able to distinguish an infection from a sterile inflammation. Defensins are particularly interesting molecules with antimicrobial activity, the EcgDf1 defensin was identified from the genome of a Uruguayan native plant, Erythrina crista‐galli, the 'Ceibo' tree. Our group has previously reported a synthetic biologically active short analogue EcgDf21 (ERFTGGHCRGFRRRCFCTKHC) successfully labelled with 99mTc. Herein we present a shorter analogue which also preserves the γ‐core domain, as a pharmacophore for a potential infection detection agent. This peptide was derivatized with the bifunctional chelating agent 1,4,7‐triazacyclononane‐1,4,7‐triacetic acid (NOTA) through a lysine linker in the amino‐terminal group (NOTA‐KGHCRGFRRRC) and radiolabelled with 68Ga ([68Ga]Ga‐NOTA‐K‐EcgDf1(10)). The [68Ga]Ga‐NOTA‐K‐EcgDf1(10) labelling procedure rendered a product with high radiochemical purity and stability in the labelling milieu. The Log P value indicated that the complex has a hydrophilic behaviour, confirmed by the biodistribution profile. The [68Ga]Ga‐NOTA‐K‐EcgDf1(10) complex demonstrated specific binding to cultures of Candida albicans and Aspergillus niger. Its biodistribution showed renal elimination and low accumulation in the rest of the body. It was possible to successfully differentiate sterile inflammation from infection by PET images in nude mice with a target/non‐target ratio of 3.3 for C. albicans and 3.7 for A. niger, respectively. [ABSTRACT FROM AUTHOR]
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- 2024
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19. Defensin‐like peptides from Capsicum chinense induce increased ROS, loss of mitochondrial functionality, and reduced growth of the fungus Colletotrichum scovillei.
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Resende, Larissa Maximano, de Oliveira Mello, Érica, Zeraik, Ana Eliza, Oliveira, Arielle Pinheiro Bessiati Fava, Souza, Thaynã Amanda Melo, Taveira, Gabriel Bonan, Moreira, Felipe Figueiroa, Seabra, Sérgio Henrique, Ferreira, André Teixeira, Perales, Jonas, de Oliveira Carvalho, André, Rodrigues, Rosana, and Gomes, Valdirene Moreira
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ANTHRACNOSE ,DEFENSINS ,FUNGAL growth ,PEPPERS ,HIGH performance liquid chromatography ,PEPTIDES ,COLLETOTRICHUM - Abstract
In the present study, we identified and characterized two defensin‐like peptides in an antifungal fraction obtained from Capsicum chinense pepper fruits and inhibited the growth of Colletotrichum scovillei, which causes anthracnose. AMPs were extracted from the pericarp of C. chinense peppers and subjected to ion exchange, molecular exclusion, and reversed‐phase in a high‐performance liquid chromatography system. We investigated the endogenous increase in reactive oxygen species (ROS), the loss of mitochondrial functioning, and the ultrastructure of hyphae. The peptides obtained from the G3 fraction through molecular exclusion chromatography were subsequently fractionated using reverse‐phase chromatography, resulting in the isolation of fractions F1, F2, F3, F4, and F5. The F1‐Fraction suppressed C. scovillei growth by 90, 70.4, and 44% at 100, 50, and 25 μg mL−1, respectively. At 24 h, the IC50 and minimum inhibitory concentration were 21.5 μg mL−1 and 200 μg mL−1, respectively. We found an increase in ROS, which may have resulted in an oxidative burst, loss of mitochondrial functioning, and cytoplasm retraction, as well as an increase in autophagic vacuoles. MS/MS analysis of the F1‐Fraction indicated the presence of two defensin‐like proteins, and we were able to identify the expression of three defensin sequences in our C. chinense fruit extract. The F1‐Fraction was also found to inhibit the activity of insect α‐amylases. In summary, the F1‐Fraction of C. chinense exhibits antifungal activity against a major pepper pathogen that causes anthracnose. These defensin‐like compounds are promising prospects for further research into antifungal and insecticide biotechnology applications. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]
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- 2024
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20. Chemically Peptide Synthesis and Role of Arginine and Lysine in the Antimicrobial and Antiviral Activity of Synthetic Peptides: A Comprehensive Review.
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Sunar, Selin Zeynep, Acar, Tayfun, and Sahin, Fikrettin
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PEPTIDOMIMETICS , *PEPTIDE synthesis , *ANTIMICROBIAL peptides , *ANTI-infective agents , *LYSINE , *MELITTIN , *DEFENSINS - Abstract
ABSTRACT This review examines the potential applications of peptides in biotechnology, medicine, and pharmacy, while highlighting the important antibacterial and antiviral properties of peptides. Peptides and chemical peptide synthesis have become a field of study that is gaining great momentum today. Some of the main reasons for this are high specificity, biodegradability and versatility of peptides. Peptides also have some specific properties that make them attractive for pharmaceutical development. As a case study, it can be used to create peptides that can be used to replace or fix damaged proteins in the body by mimicking the action of naturally occurring proteins. Delivering drugs or other therapeutic agents to specific cells or tissues is another method that can help increase the effectiveness of treatment and reduce unwanted effects. Various types of antimicrobial peptides (AMPs), such as defensins and cathelicidins, and their anti‐infective properties are also discussed. Finally, peptides (melittin, lactoferricin, etc.) can be used to trigger an immune response against certain infections, such as COVID‐19 and Zika virus, by acting as vaccines. In our study, a comprehensive review was made on antiviral and AMPs, and especially peptides containing arginine and lysine were mentioned. The properties of these peptides, examples of these peptides and their developments in the pharmaceutical field are emphasized. [ABSTRACT FROM AUTHOR]
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- 2024
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21. Histone demethylase JMJD2D protects against enteric bacterial infection via up-regulating colonic IL-17F to induce β-defensin expression.
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Zhang, Yong, Li, Bei, Hong, Yilin, Luo, Ping, Hong, Zaifa, Xia, Xiaochun, Mo, Pingli, Yu, Chundong, and Chen, Wenbo
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DEFENSINS , *GENE expression , *INTESTINAL infections , *BACTERIAL diseases , *CATHELICIDINS , *HEDGEHOG signaling proteins , *DEMETHYLASE - Abstract
Histone demethylase JMJD2D (also known as KDM4D) can specifically demethylate H3K9me2/3 to activate its target gene expression. Our previous study has demonstrated that JMJD2D can protect intestine from dextran sulfate sodium (DSS)-induced colitis by activating Hedgehog signaling; however, its involvement in host defense against enteric attaching and effacing bacterial infection remains unclear. The present study was aimed to investigate the role of JMJD2D in host defense against enteric bacteria and its underlying mechanisms. The enteric pathogen Citrobacter rodentium (C. rodentium) model was used to mimic clinical colonic infection. The responses of wild-type and JMJD2D-/- mice to oral infection of C. rodentium were investigated. Bone marrow chimeric mice were infected with C. rodentium. JMJD2D expression was knocked down in CMT93 cells by using small hairpin RNAs, and Western blot and real-time PCR assays were performed in these cells. The relationship between JMJD2D and STAT3 was studied by co-immunoprecipitation and chromatin immunoprecipitation. JMJD2D was significantly up-regulated in colonic epithelial cells of mice in response to Citrobacter rodentium infection. JMJD2D-/- mice displayed an impaired clearance of C. rodentium, more body weight loss, and more severe colonic tissue pathology compared with wild-type mice. JMJD2D-/- mice exhibited an impaired expression of IL-17F in the colonic epithelial cells, which restricts C. rodentium infection by inducing the expression of antimicrobial peptides. Accordingly, JMJD2D-/- mice showed a decreased expression of β-defensin-1, β-defensin-3, and β-defensin-4 in the colonic epithelial cells. Mechanistically, JMJD2D activated STAT3 signaling by inducing STAT3 phosphorylation and cooperated with STAT3 to induce IL-17F expression by interacting with STAT3 and been recruited to the IL-17F promoter to demethylate H3K9me3. Our study demonstrates that JMJD2D contributes to host defense against enteric bacteria through up-regulating IL-17F to induce β-defensin expression. Author summary: Our study aimed to unravel the role of JMJD2D, a histone demethylase also known as KDM4D, in the host's defense against enteric bacterial infections and explore the underlying mechanisms. While we had previously demonstrated JMJD2D's protective effect in DSS-induced colitis by activating Hedgehog signaling, its involvement in defending against enteric attaching and effacing bacterial infections remained unexplored. To address this, we employed a Citrobacter rodentium (C. rodentium) infection model to mimic colonic infections in a clinical context. In response to C. rodentium infection, there was a notable increase in JMJD2D expression within the colonic epithelial cells of mice. Our investigation compared the responses of wild-type mice with those lacking JMJD2D (JMJD2D-/-) following oral C. rodentium infection. Notably, JMJD2D-/- mice exhibited impaired C. rodentium clearance, greater body weight loss, and more severe colonic tissue damage compared to their wild-type counterparts. Subsequent analysis revealed that JMJD2D deficiency resulted in reduced IL-17F expression in colonic epithelial cells. IL-17F is a known regulator that restricts C. rodentium infection by promoting the expression of antimicrobial peptides. Consequently, JMJD2D-/- mice showed diminished expression of critical antimicrobial peptides, including β-defensin-1, β-defensin-3, and β-defensin-4, in their colonic epithelial cells. Mechanistically, we discovered that JMJD2D played a pivotal role in activating STAT3 signaling by enhancing STAT3 phosphorylation. Moreover, JMJD2D collaborated with STAT3 to induce IL-17F expression. This cooperation involved JMJD2D physically interacting with STAT3 and binding to the IL-17F promoter, where it demethylated H3K9me3. In summary, our research reveals that JMJD2D contributes significantly to the host's defense against enteric bacterial infections by up-regulating IL-17F, which in turn induces the expression of antimicrobial peptides such as β-defensins. Our findings provide valuable insights into the molecular mechanisms governing host defense against enteric bacterial infections, emphasizing the potential therapeutic relevance of targeting JMJD2D in such contexts. [ABSTRACT FROM AUTHOR]
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- 2024
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22. Arboviruses antagonize insect Toll antiviral immune signaling to facilitate the coexistence of viruses with their vectors.
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Jia, Dongsheng, Luo, Guozhong, Guan, Heran, Yu, Tingting, Sun, Xinyan, Du, Yu, Wang, Yiheng, Chen, Hongyan, and Wei, Taiyun
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DEFENSINS , *UBIQUITIN ligases , *ARBOVIRUSES , *VIRAL proteins , *ADAPTOR proteins , *PEPTIDES , *VIRAL transmission - Abstract
Many plant arboviruses are persistently transmitted by piercing-sucking insect vectors. However, it remains largely unknown how conserved insect Toll immune response exerts antiviral activity and how plant viruses antagonize it to facilitate persistent viral transmission. Here, we discover that southern rice black-streaked dwarf virus (SRBSDV), a devastating planthopper-transmitted rice reovirus, activates the upstream Toll receptors expression but suppresses the downstream MyD88-Dorsal-defensin cascade, resulting in the attenuation of insect Toll immune response. Toll pathway-induced the small antibacterial peptide defensin directly interacts with viral major outer capsid protein P10 and thus binds to viral particles, finally blocking effective viral infection in planthopper vector. Furthermore, viral tubular protein P7-1 directly interacts with and promotes RING E3 ubiquitin ligase-mediated ubiquitinated degradation of Toll pathway adaptor protein MyD88 through the 26 proteasome pathway, finally suppressing antiviral defensin production. This virus-mediated attenuation of Toll antiviral immune response to express antiviral defensin ensures persistent virus infection without causing evident fitness costs for the insects. E3 ubiquitin ligase also is directly involved in the assembly of virus-induced tubules constructed by P7-1 to facilitate viral spread in planthopper vector, thereby acting as a pro-viral factor. Together, we uncover a previously unknown mechanism used by plant arboviruses to suppress Toll immune response through the ubiquitinated degradation of the conserved adaptor protein MyD88, thereby facilitating the coexistence of arboviruses with their vectors in nature. Author summary: Many devastating plant viral pathogens are persistently transmitted by arthropod insects without causing evident insect fitness costs. However, how Toll pathway plays an antiviral role and how viruses antagonize Toll antiviral immune response are still poorly understood. Here, we report that the planthopper defensin, a type of antibacterial peptide induced by Toll pathway, directly binds to viral particles of an important rice reovirus, thus exerting antiviral activity. However, the virus-encoded protein promotes the ubiquitinated degradation of the conserved Toll pathway adaptor protein MyD88, finally suppressing defensin production. Such process finally ensures persistent virus transmission by insect vectors. Our findings provide insights into how viruses have evolved the novel strategies to evade and even exploit insect Toll antiviral immune response to facilitate persistent viral transmission. [ABSTRACT FROM AUTHOR]
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- 2024
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23. Novel BRICHOS-related Defensin-like Antimicrobial Peptide from the Marine Polychaeta Arenicola marina.
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Safronova, V. N., Panteleev, P. V., Kruglikov, R. N., Bolosov, I. A., Finkina, E. I., and Ovchinnikova, T. V.
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ANTIMICROBIAL peptides , *AMINO acid residues , *PROTEIN precursors , *PEPTIDES , *PEPTIDE antibiotics , *BACTERIAL cell walls , *DEFENSINS - Abstract
Objective: To date, polychaetes remain a poorly studied class of invertebrate animals in terms of the features of functioning of their immune system and, in particular, the biodiversity of antimicrobial peptides (AMPs). AMPs also known as host defense peptides play a key role in host protection from various pathogens and regulation of the species composition of symbiotic microbes. A study of the biosynthesis of AMPs in polychaetes resulted in the discovery of the so-called BRICHOS domain in the structure of the precursor proteins of a number of such peptides. The conserved structure of this domain makes possible the bioinformatic search for AMP precursors in polychaete transcriptomes. In this work, we found and studied a novel BRICHOS-related AMP from the lugworm Arenicola marina, representing a previously undiscovered in polychaetes a structural family of defensin-like peptides stabilized by four disulfide bonds. Methods: The peptide, designated as AmBRI-44a and containing 44 amino acid residues, was obtained by heterologous expression in Escherichia coli. The peptide secondary structure was investigated by CD spectroscopy in water and dodecylphosphocholine (DPC) micelles. The minimum inhibitory concentrations (MICs) against a wide range of bacterial pathogens were assessed using the two-fold serial dilutions method. Cytotoxicity of AmBRI-44a was studied in vitro on human erythrocytes or adherent cell line HEK293T using the hemoglobin release assay or the MTT test, respectively. The AMBRI-44a potential target was discovered by successive daily subculturing of the AmBRI-44a resistant strain followed by whole-genome sequencing. Results and Discussion: According to CD data, AmBRI-44a is a predominantly β-structured peptide. AmBRI-44a was shown to have a specific activity against a narrow spectrum of Gram-positive bacteria and pronounced cytotoxic effects on the eukaryotic cell line HEK293T. The proposed mechanism of the antibacterial action of this peptide is associated with the inhibition of bacterial cell wall biosynthesis, as indicated by the genetic and phenotypic analysis of selected AmBRI-44a-resistant bacteria Bacillus licheniformis B-511. Conclusions: The resulting data allow us to consider the discovered peptide AmBRI-44a as a candidate compound for the development of an antibiotic agent that could potentially be effective in the treatment of infectious diseases mediated by multidrug-resistant Gram-positive bacteria. [ABSTRACT FROM AUTHOR]
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- 2024
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24. Antifungal Plant Defensins as an Alternative Tool to Combat Candidiasis.
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Finkina, Ekaterina I., Shevchenko, Olga V., Fateeva, Serafima I., Tagaev, Andrey A., and Ovchinnikova, Tatiana V.
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DEFENSINS ,CANDIDIASIS ,MYCOSES ,ANTIMICROBIAL peptides ,IMMUNOCOMPROMISED patients - Abstract
Currently, the spread of fungal infections is becoming an urgent problem. Fungi of the Candida genus are opportunistic microorganisms that cause superficial and life-threatening systemic candidiasis in immunocompromised patients. The list of antifungal drugs for the treatment of candidiasis is very limited, while the prevalence of resistant strains is growing rapidly. Therefore, the search for new antimycotics, including those exhibiting immunomodulatory properties, is of great importance. Plenty of natural compounds with antifungal activities may be extremely useful in solving this problem. This review evaluates the features of natural antimicrobial peptides, namely plant defensins as possible prototypes of new anticandidal agents. Plant defensins are important components of the innate immune system, which provides the first line of defense against pathogens. The introduction presents a brief summary regarding pathogenic Candida species, the pathogenesis of candidiasis, and the mechanisms of antimycotic resistance. Then, the structural features of plant defensins, their anticandidal activities, their mechanisms of action on yeast-like fungi, their ability to prevent adhesion and biofilm formation, and their combined action with conventional antimycotics are described. The possible mechanisms of fungal resistance to plant defensins, their cytotoxic activity, and their effectiveness in in vivo experiments are also discussed. In addition, for the first time for plant defensins, knowledge about their immunomodulatory effects is also presented. [ABSTRACT FROM AUTHOR]
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- 2024
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25. The ncRNA-mediated regulatory networks of defensins and lysozymes in Riptortus pedestris: involvement in response to gut bacterial disturbances.
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Yipeng Ren, Siying Fu, Wenhao Dong, Juhong Chen, Huaijun Xue, and Wenjun Bu
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CIRCULAR RNA ,DEFENSINS ,COMPETITIVE endogenous RNA ,LINCRNA ,LYSOZYMES ,GENE expression ,NON-coding RNA - Abstract
Insects depend on humoral immunity against intruders through the secretion of antimicrobial peptides (AMPs) and immune effectors via NF-κB transcription factors, and their fitness is improved by gut bacterial microbiota. Although there are growing numbers of reports on noncoding RNAs (ncRNAs) involving in immune responses against pathogens, comprehensive studies of ncRNA-AMP regulatory networks in Riptortus pedestris, which is one of the widely distributed pests in East Asia, are still not well understood under feeding environmental changes. The objective of this study employed the whole-transcriptome sequencing (WTS) to systematically identify the lncRNAs (long noncoding RNA) and circRNAs (circular RNA) and to obtain their differential expression from the R. pedestris gut under different feeding conditions. Functional annotation indicated that they were mainly enriched in various biological processes with the GO and KEGG databases, especially in immune signaling pathways. Five defensin (four novel members) and eleven lysozyme (nine novel members) family genes were identified and characterized from WTS data, and meanwhile, phylogenetic analysis confirmed their classification. Subsequently, the miRNA-mRNA interaction network of above two AMPs and lncRNA-involved ceRNA (competing endogenous RNA) regulatory network of one lysozyme were predicted and built based on bioinformatic prediction and calculation, and the expression patterns of differentially expressed (DE) defensins, and DE lysozymes and related DE ncRNAs were estimated and selected among all the comparison groups. Finally, to integrate the analyses of WTS and previous 16S rRNA amplicon sequencing, we conducted the Pearson correlation analysis to reveal the significantly positive or negative correlation between above DE AMPs and ncRNAs, as well as most changes in the gut bacterial microbiota at the genus level of R. pedestris. Taken together, the present observations provide great insights into the ncRNA regulatory networks of AMPs in response to rearing environmental changes in insects and uncover new potential strategies for pest control in the future. [ABSTRACT FROM AUTHOR]
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- 2024
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26. The evolutionary novelty of insect defensins: from bacterial killing to toxin neutralization.
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Gao, Bin and Zhu, Shunyi
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DEFENSINS , *BACTERIAL toxins , *GRAM-positive bacterial infections , *STAPHYLOCOCCUS aureus infections , *MICROBIAL toxins , *GENE expression - Abstract
Insect host defense comprises two complementary dimensions, microbial killing-mediated resistance and microbial toxin neutralization-mediated resilience, both jointly providing protection against pathogen infections. Insect defensins are a class of effectors of innate immunity primarily responsible for resistance to Gram-positive bacteria. Here, we report a newly originated gene from an ancestral defensin via genetic deletion following gene duplication in Drosophila virilis, which confers an enhanced resilience to Gram-positive bacterial infection. This gene encodes an 18-mer arginine-rich peptide (termed DvirARP) with differences from its parent gene in its pattern of expression, structure and function. DvirARP specifically expresses in D. virilis female adults with a constitutive manner. It adopts a novel fold with a 310 helix and a two CXC motif-containing loop stabilized by two disulfide bridges. DvirARP exhibits no activity on the majority of microorganisms tested and only a weak activity against two Gram-positive bacteria. DvirARP knockout flies are viable and have no obvious defect in reproductivity but they are more susceptible to the DvirARP-resistant Staphylococcus aureus infection than the wild type files, which can be attributable to its ability in neutralization of the S. aureus secreted toxins. Phylogenetic distribution analysis reveals that DvirARP is restrictedly present in the Drosophila subgenus, but independent deletion variations also occur in defensins from the Sophophora subgenus, in support of the evolvability of this class of immune effectors. Our work illustrates for the first time how a duplicate resistance-mediated gene evolves an ability to increase the resilience of a subset of Drosophila species against bacterial infection. [ABSTRACT FROM AUTHOR]
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- 2024
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27. Endotypes of Chronic Rhinosinusitis with Primary and Recurring Nasal Polyps in the Latvian Population.
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Viksne, Rudolfs Janis, Sumeraga, Gunta, and Pilmane, Mara
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NASAL polyps , *SINUSITIS , *ADENOMATOUS polyps , *HIERARCHICAL clustering (Cluster analysis) , *CLUSTER analysis (Statistics) , *INTERLEUKIN-1 - Abstract
Chronic rhinosinusitis (CRS) is a complex syndrome with various inflammatory mechanisms resulting in different patterns of inflammation that correlate with the clinical phenotypes of CRS. Our aim was to use detected IL-1, IL-4, IL-6, IL-7, IL-8, IL-10, IL-12, Ki 67, HBD-2, HBD-3, and LL-37 to classify specific inflammatory endotypes in chronic rhinosinusitis with the tissue of nasal polyps (CRSwNP). Samples from 35 individuals with primary and recurrent CRSwNP were taken during surgery. The tissues were stained for the previously mentioned biomarkers immunohistochemically. A hierarchical cluster analysis was performed. The clinical parameters were compared between clusters. Five clusters had significantly different biomarkers between groups. There were no significant differences in the clinical parameters, except for the Lund–Mackay score, which was significantly higher in cluster 4 compared to that of cluster 1 (p = 0.024). Five endotypes of (CRSwNP) are characterized by different combinations of type 1, type 2, and type 3 tissue inflammation patterns. In the Latvian population, endotypes associated with neutrophilic inflammation or a combination of neutrophilic inflammation and type 2 inflammation are predominant. Increased proliferation marker Ki 67 values are not associated with more severe inflammation in the tissue samples of chronic rhinosinusitis with nasal polyps. [ABSTRACT FROM AUTHOR]
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- 2024
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28. A novel family of defensin-like peptides from Hermetia illucens with antibacterial properties.
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Fahmy, Leila, Generalovic, Tomas, Ali, Youssif M., Seilly, David, Sivanesan, Kesavan, Kalmar, Lajos, Pipan, Miha, Christie, Graham, and Grant, Andrew J
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HERMETIA illucens , *DEFENSINS , *SALMONELLA enterica serovar typhimurium , *PEPTIDE antibiotics , *SIGNAL peptides , *PEPTIDES , *ANTIMICROBIAL peptides - Abstract
Background: The world faces a major infectious disease challenge. Interest in the discovery, design, or development of antimicrobial peptides (AMPs) as an alternative approach for the treatment of bacterial infections has increased. Insects are a good source of AMPs which are the main effector molecules of their innate immune system. Black Soldier Fly Larvae (BSFL) are being developed for large-scale rearing for food sustainability, waste reduction and as sustainable animal and fish feed. Bioinformatic studies have suggested that BSFL have the largest number of AMPs identified in insects. However, most AMPs identified in BSF have not yet undergone antimicrobial evaluation but are promising leads to treat critical infections. Results: Jg7197.t1, Jg7902.t1 and Jg7904.t1 were expressed into the haemolymph of larvae following infection with Salmonella enterica serovar Typhimurium and were predicted to be AMPs using the computational tool ampir. The genes encoding these proteins were within 2 distinct clusters in chromosome 1 of the BSF genome. Following removal of signal peptides, predicted structures of the mature proteins were superimposed, highlighting a high degree of structural conservation. The 3 AMPs share primary sequences with proteins that contain a Kunitz-binding domain; characterised for inhibitory action against proteases, and antimicrobial activities. An in vitro antimicrobial screen indicated that heterologously expressed SUMO-Jg7197.t1 and SUMO-Jg7902.t1 did not show activity against 12 bacterial strains. While recombinant SUMO-Jg7904.t1 had antimicrobial activity against a range of Gram-negative and Gram-positive bacteria, including the serious pathogen Pseudomonas aeruginosa. Conclusions: We have cloned and purified putative AMPs from BSFL and performed initial in vitro experiments to evaluate their antimicrobial activity. In doing so, we have identified a putative novel defensin-like AMP, Jg7904.t1, encoded in a paralogous gene cluster, with antimicrobial activity against P. aeruginosa. [ABSTRACT FROM AUTHOR]
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- 2024
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29. Mycobacterium tuberculosis suppresses host antimicrobial peptides by dehydrogenating L-alanine.
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Peng, Cheng, Cheng, Yuanna, Ma, Mingtong, Chen, Qiu, Duan, Yongjia, Liu, Shanshan, Cheng, Hongyu, Yang, Hua, Huang, Jingping, Bu, Wenyi, Shi, Chenyue, Wu, Xiangyang, Chen, Jianxia, Zheng, Ruijuan, Liu, Zhonghua, Ji, Zhe, Wang, Jie, Huang, Xiaochen, Wang, Peng, and Sha, Wei
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MYCOBACTERIUM tuberculosis ,ANTIMICROBIAL peptides ,DEFENSINS ,TUBERCULOSIS ,IMMUNOMODULATORS ,MYCOBACTERIA ,ALANINE - Abstract
Antimicrobial peptides (AMPs), ancient scavengers of bacteria, are very poorly induced in macrophages infected by Mycobacterium tuberculosis (M. tuberculosis), but the underlying mechanism remains unknown. Here, we report that L-alanine interacts with PRSS1 and unfreezes the inhibitory effect of PRSS1 on the activation of NF-κB pathway to induce the expression of AMPs, but mycobacterial alanine dehydrogenase (Ald) Rv2780 hydrolyzes L-alanine and reduces the level of L-alanine in macrophages, thereby suppressing the expression of AMPs to facilitate survival of mycobacteria. Mechanistically, PRSS1 associates with TAK1 and disruptes the formation of TAK1/TAB1 complex to inhibit TAK1-mediated activation of NF-κB pathway, but interaction of L-alanine with PRSS1, disables PRSS1-mediated impairment on TAK1/TAB1 complex formation, thereby triggering the activation of NF-κB pathway to induce expression of AMPs. Moreover, deletion of antimicrobial peptide gene β-defensin 4 (Defb4) impairs the virulence by Rv2780 during infection in mice. Both L-alanine and the Rv2780 inhibitor, GWP-042, exhibits excellent inhibitory activity against M. tuberculosis infection in vivo. Our findings identify a previously unrecognized mechanism that M. tuberculosis uses its own alanine dehydrogenase to suppress host immunity, and provide insights relevant to the development of effective immunomodulators that target M. tuberculosis. In this work, authors mechanistically investigate the reduced induction of antimicrobial peptides in Mycobacterium tuberculosis infected macrophages. [ABSTRACT FROM AUTHOR]
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- 2024
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30. Revolutionizing orthopedic healthcare: a systematic review unveiling recombinant antimicrobial peptides.
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Pennone, Vincenzo, Rosini, Elena, Mascheroni, Elena, Gianola, Silvia, Castellini, Greta, Bargeri, Silvia, and Lovati, Arianna B.
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ANTIMICROBIAL peptides ,ARTHROPLASTY ,DRUG resistance in bacteria ,PEPTIDES ,ORTHOPEDIC surgery ,DEFENSINS - Abstract
The increasing demand for orthopedic surgeries, including joint replacements, is driven by an aging population and improved diagnosis of joint conditions. Orthopedic surgeries carry a risk of infection, especially in patients with comorbidities. The rise of antibiotic resistance exacerbates this issue, necessitating alternatives like in vitro bioengineered antimicrobial peptides (AMPs), offering broad-spectrum activity and multiple action mechanisms. This review aimed to assess the prevalence of antimicrobial potential and the yield after purification among recombinant AMP families. The antimicrobial potential was evaluated using the Minimum Inhibitory Concentration (MIC) values against the most common bacteria involved in clinical infections. This systematic review adhered to PRISMA guidelines, focusing on in vitro studies of recombinant AMPs. The search strategy was run on PubMed, Scopus and Embase up to 30th March 2023. The Population, Exposure and Outcome model was used to extract the data from studies and ToxRTool for the risk of bias analysis. This review included studies providing peptide production yield data and MIC values against pathogenic bacteria. Non-English texts, reviews, conference abstracts, books, studies focusing solely on chemical synthesis, those reporting incomplete data sets, using non-standard MIC assessment methods, or presenting MIC values as ranges rather than precise concentrations, were excluded. From 370 publications, 34 studies on AMPs were analyzed. These covered 46 AMPs across 18 families, with Defensins and Hepcidins being most common. Yields varied from 0.5 to 2,700 mg/L. AMPs were tested against 23 bacterial genera, with MIC values ranging from 0.125 to >1,152 µg/mL. Arenicins showed the highest antimicrobial activity, particularly against common orthopedic infection pathogens. However, AMP production yields varied and some AMPs demonstrated limited effectiveness against certain bacterial strains. This systematic review emphasizes the critical role of bioengineered AMPs to cope infections and antibiotic resistance. It meticulously evaluates recombinant AMPs, focusing on their antimicrobial efficacy and production yields. The review highlights that, despite the variability in AMP yields and effectiveness, Arenicins and Defensins are promising candidates for future research and clinical applications in treating antibiotic-resistant orthopedic infections. This study contributes significantly to the understanding of AMPs in healthcare, underscoring their potential in addressing the growing challenge of antibiotic resistance. [ABSTRACT FROM AUTHOR]
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- 2024
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31. Antifungal Activity of Brilacidin, a Nonpeptide Host Defense Molecule.
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Larwood, David J. and Stevens, David A.
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ANTIMICROBIAL peptides ,ANTIFUNGAL agents ,BIOMOLECULES ,PEPTIDES ,MOLECULES ,PEPTIDE antibiotics - Abstract
Natural host defensins, also sometimes termed antimicrobial peptides, are evolutionarily conserved. They have been studied as antimicrobials, but some pharmaceutical properties, undesirable for clinical use, have led to the development of synthetic molecules with constructed peptide arrangements and/or peptides not found in nature. The leading development currently is synthetic small-molecule nonpeptide mimetics, whose physical properties capture the characteristics of the natural molecules and share their biological attributes. We studied brilacidin, an arylamide of this type, for its activity in vitro against fungi (40 clinical isolates, 20 species) that the World Health Organization has highlighted as problem human pathogens. We found antifungal activity at low concentrations for many pathogens, which indicates that further screening for activity, particularly in vivo, is justified to evaluate this compound, and other mimetics, as attractive leads for the development of effective antifungal agents. [ABSTRACT FROM AUTHOR]
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- 2024
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32. The Roadmap of Plant Antimicrobial Peptides Under Environmental Stress: From Farm to Bedside
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Ghanbarzadeh, Zohreh, Mohagheghzadeh, Abdolali, and Hemmati, Shiva
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- 2024
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33. Disrupting SARS-CoV-2: molecular dynamics insights into the role of human β-defensin 2 and α-defensin 5 peptides in membrane structure alteration
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M.A. Dashti, D. Mohammad-Aghaie, and O. Bavi
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Defensins ,Human α-defensin 5 ,Human β-defensin 2 ,Covid-19 ,Molecular dynamics simulations ,SARS-CoV-2 Membrane ,Physics ,QC1-999 ,Chemistry ,QD1-999 - Abstract
As a part of the host-defense system of many organisms, defensins are considered a suitable option for treating infection agents. Using the molecular dynamics simulation, this work studied the effects of two important human antimicrobial peptides, human β-defensin 2 and human α-defensin 5 on the SARS-CoV-2 membrane. The results demonstrate that defensin peptides notably alter the bilayer membrane's structure and physicochemical activity leading to a hydrophobic mismatch that impacts transmembrane protein channel function. This study elucidates the antiviral mechanisms of defensins and their therapeutic potential, offering valuable insights for researchers in virology and public health seeking novel medications.
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- 2024
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34. Change in Tissue Microbiome and Related Human Beta Defensin Levels Induced by Antibiotic Use in Bladder Carcinoma.
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Monyók, Ádám, Mansour, Bassel, Vadnay, István, Makra, Nóra, Dunai, Zsuzsanna A., Nemes-Nikodém, Éva, Stercz, Balázs, Szabó, Dóra, and Ostorházi, Eszter
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DEFENSINS , *HUMAN microbiota , *ANTIBIOTICS , *CARCINOMA , *TISSUES , *BLADDER , *BACTEROIDES - Abstract
It is now generally accepted that the success of antitumor therapy can be impaired by concurrent antibiotic therapy, the presence of certain bacteria, and elevated defensin levels around the tumor tissue. The aim of our current investigation was to identify the underlying changes in microbiome and defensin levels in the tumor tissue induced by different antibiotics, as well as the duration of this modification. The microbiome of the tumor tissues was significantly different from that of healthy volunteers. Comparing only the tumor samples, no significant difference was confirmed between the untreated group and the group treated with antibiotics more than 3 months earlier. However, antibiotic treatment within 3 months of analysis resulted in a significantly modified microbiome composition. Irrespective of whether Fosfomycin, Fluoroquinolone or Beta-lactam treatment was used, the abundance of Bacteroides decreased, and Staphylococcus abundance increased. Large amounts of the genus Acinetobacter were observed in the Fluoroquinolone-treated group. Regardless of the antibiotic treatment, hBD1 expression of the tumor cells consistently doubled. The increase in hBD2 and hBD3 expression was the highest in the Beta-lactam treated group. Apparently, antibiotic treatment within 3 months of sample analysis induced microbiome changes and defensin expression levels, depending on the identity of the applied antibiotic. [ABSTRACT FROM AUTHOR]
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- 2024
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35. Immature neutrophils in cord blood exert increased expression of genes associated with antimicrobial function.
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Miková, Eliška, Černý, Viktor, Novotná, Olga, Petrásková, Petra, Boráková, Kristýna, Hel, Zdenek, and Hrdý, Jiří
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CORD blood ,NEUTROPHILS ,NATURAL immunity ,CELL physiology ,IMMUNE system - Abstract
Introduction: The immune systems of both the mother and the newborn face significant challenges during birth. Proper immune regulation after birth is essential for the survival of neonates. Numerous studies have demonstrated that the neonatal immune system is relatively immature, particularly in its adaptive arm, placing the primary responsibility for immune surveillance on innate immunity. Methods: Given the significant role of neutrophils in protecting the neonate after birth, we conducted a study investigating the properties of neutrophils in newborn cord blood using various methodological approaches. Results: Our findings demonstrate the presence of immature low-density neutrophils in the cord blood, which are likely responsible for the observed elevated expression of genes coding for proteins essential to antimicrobial response, including myeloperoxidase, neutrophils elastase, and defensins. Discussion: We propose that these cells function normally and support the protection of newborns early after birth. Furthermore, our results suggest that the mode of delivery might significantly influence the programming of neutrophil function. The presented findings emphasize the importance of distinct neutrophil subpopulations in neonatal immunity and their potential impact on early postnatal health. [ABSTRACT FROM AUTHOR]
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- 2024
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36. Human beta defensin 3 knockdown inhibits the proliferation and migration of airway smooth muscle cells through regulating the PI3K/AKT signaling pathway.
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Chen, Guiying, Zheng, Yuling, Wu, Nan, Yang, Xia, and Qu, Shuqiang
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PI3K/AKT pathway , *CELLULAR signal transduction , *MUSCLE cells , *SMOOTH muscle , *PLATELET-derived growth factor , *DEFENSINS - Abstract
Asthma, a common pediatric pulmonary disease, significantly affects children's healthy development. This study aimed to investigate the functions of human β defensin-3 (HBD-3) in asthma progression. For this purpose, blood samples from asthmatic and healthy children were collected. Moreover, the airway smooth muscle cells (ASMCs) were treated with platelet-derived growth factor BB (PDGF-BB) to develop an in vitro asthma model, then evaluated cell viability and migration via CCK-8 and transwell assays. The mRNA levels of interferon γ (INF-γ), interleukin 4 (IL-4), interleukin 10 (IL-10), alpha-smooth muscle actin (α-SMA), HBD-3, and the protein levels of phosphatidylinositol 3-kinase (PI3K) along with protein kinase B (AKT) were detected. Similarly, the N6-methyladenosine (m6A) content in the ASMCs and m6A levels of HBD-3 were also measured. Results indicated an upregulated HBD-3 in the asthmatic children. The ASMCs were found to be stimulated by PDGF-BB, in addition to the promotion of cell viability and migration. The INF-γ, IL-4, and α-SMA levels were reduced, while IL-10 was elevated in PDGF-BB-stimulated ASMCs. Silencing HBD-3 in PDGF-BB stimulated ASMCs was found to exert the opposite effect by inhibiting cell viability and migration, enhancing the levels of INF-γ, IL-4, and α-SMA, while the IL-10 levels were found to decline. PDGF-BB stimulation of ASMCs resulted in activation of the PI3K/AKT signaling pathway, which was blocked post HBD-3 silencing, while the role of si-hBD in PDGF-BB stimulated ASMCs was neutralized post-treatment with IGF-1. Finally, it was found that METTL3 overexpression prominently upregulated the m6A levels of HBD-3 and decreased the mRNA expression and stability of HBD-3 in the PDGF-BB-stimulated ASMCs. The study concluded that METTL3-mediated HBD-3 participates in the progression of asthma through the PI3K/AKT signaling pathway. • HBD-3 was up-regulated in asthma. • PDGF-BB stimulation induced the abnormal proliferation of ASMCs. • HBD-3 silencing blocked the PI3K/AKT signaling pathway in the PDGF-BB stimulated ASMCs. [ABSTRACT FROM AUTHOR]
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- 2024
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37. A novel defensin‐like peptide C‐13326 possesses protective effect against multidrug‐resistant Aeromonas schubertii in hybrid snakehead (Channa maculate ♀ × Channa argus ♂).
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He, Huanrong, Huang, Xinzhi, Wen, Caiyi, Liu, Chun, Jiang, Biao, Huang, Yanhua, Su, Youlu, and Li, Wei
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PEPTIDES , *DEFENSINS , *ANTIMICROBIAL peptides , *BACTERIAL cell membranes , *AEROMONAS , *LIQUID chromatography-mass spectrometry - Abstract
The purpose of this study was to investigate whether a defensin‐like antimicrobial peptide (C‐13326 peptide) identified in Hermetia illucens could possess protective effect against multidrug‐resistant Aeromonas schubertii in hybrid snakehead (Channa maculate ♀ × Channa argus ♂). The cDNA of C‐13326 peptide comprised 243 nucleotides encoding 80 amino acids, with six conserved cysteine residues and the classical CSαβ structure. The recombinant expression plasmid pPIC9K‐C‐13326 was constructed and transformed into GS115 Pichia pastoris, and the C‐13326 peptide was expressed by induction with 1% methanol. The crude extract of C‐13326 peptide was precipitated by ammonium sulfate, assayed by Braford method, detected by tricine‐SDS‐PAGE, evaluated by BandScan software and identified by liquid chromatography‐mass spectrometry. The C‐13326 peptide was shown to have inhibitory activity against the growth of multidrug‐resistant A. schubertii DM210910 by using the minimum growth inhibitory concentration and Oxford cup method. In addition, scanning electron microscopy analysis suggested that C‐13326 peptide inhibited the growth of A. schubertii DM210910 by damaging the bacterial cell membrane. To explore the role of peptide C‐13326 in vivo, hybrid snakehead was fed with peptide C‐13326 as feed additives for 7 days. The results revealed that C‐13326 peptide could significantly down‐regulate the expression levels of IL‐1β, IL‐8, IL‐12 and TNF‐α (p <.05), and significantly improved the survival rate of hybrid snakehead after challenging with A. schubertii DM210910. Therefore, the C‐13326 peptide is a promising antimicrobial agent for A. schubertii treatment in aquaculture. [ABSTRACT FROM AUTHOR]
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- 2024
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38. Transcriptome analysis of Bipolaris sorokiniana - Hordeum vulgare provides insights into mechanisms of host-pathogen interaction.
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Basak, Poulami, Gurjar, Malkhan Singh, Kumar, Tej Pratap Jitendra, Kashyap, Natasha, Singh, Dinesh, Jha, Shailendra Kumar, and Saharan, Mahender Singh
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BARLEY ,SECONDARY metabolism ,BIPOLARIS ,TRANSCRIPTOMES ,METABOLITES ,DEFENSINS - Abstract
Spot blotch disease incited by Bipolaris sorokiniana severely affects the cultivation of barley. The resistance to B. sorokiniana is quantitative in nature and its interaction with the host is highly complex which necessitates in-depth molecular analysis. Thus, the study aimed to conduct the transcriptome analysis to decipher the mechanisms and pathways involved in interactions between barley and B. sorokiniana in both the resistant (EC0328964) and susceptible (EC0578292) genotypes using the RNA Seq approach. In the resistant genotype, 6,283 genes of Hordeum vulgare were differentially expressed out of which 5,567 genes were upregulated and 716 genes were downregulated. 1,158 genes of Hordeum vulgare were differentially expressed in the susceptible genotype, out of which 654 genes were upregulated and 504 genes were downregulated. Several defense-related genes like resistant gene analogs (RGAs), disease resistance protein RPM1, pathogenesis-related protein PRB1-2-like, pathogenesis-related protein 1, thaumatin-like protein PWIR2 and defensin Tm-AMP-D1.2 were highly expressed exclusively in resistant genotype only. The pathways involved in the metabolism and biosynthesis of secondary metabolites were the most prominently represented pathways in both the resistant and susceptible genotypes. However, pathways involved in MAPK signaling, plantpathogen interaction, and plant hormone signal transduction were highly enriched in resistant genotype. Further, a higher number of pathogenicity genes of B. sorokiniana was found in response to the susceptible genotype. The pathways encoding for metabolism, biosynthesis of secondary metabolites, ABC transporters, and ubiquitin-mediated proteolysis were highly expressed in susceptible genotype in response to the pathogen. 14 and 11 genes of B. sorokiniana were identified as candidate effectors from susceptible and resistant host backgrounds, respectively. This investigation will offer valuable insights in unraveling the complex mechanisms involved in barley-B. sorokiniana interaction. [ABSTRACT FROM AUTHOR]
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- 2024
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39. Fighting pathogenic yeasts with plant defensins and anti-fungal proteins from fungi.
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Manzanares, Paloma, Giner-Llorca, Moisés, Marcos, Jose F., and Garrigues, Sandra
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ECHINOCANDINS , *DEFENSINS , *YEAST , *OPPORTUNISTIC infections , *PROTEINS , *MYCOSES , *FUNGI - Abstract
Fungal infections represent a significant health risk worldwide. Opportunistic infections caused by yeasts, particularly by Candida spp. and their virulent emerging isolates, have become a major threat to humans, with an increase in fatal cases of infections attributed to the lack of effective anti-yeast therapies and the emergence of fungal resistance to the currently applied drugs. In this regard, the need for novel anti-fungal agents with modes of action different from those currently available is undeniable. Anti-microbial peptides (AMPs) are promising candidates for the development of novel anti-fungal biomolecules to be applied in clinic. A class of AMPs that is of particular interest is the small cysteine-rich proteins (CRPs). Among CRPs, plant defensins and anti-fungal proteins (AFPs) of fungal origin constitute two of the largest and most promising groups of CRPs showing anti-fungal properties, including activity against multi-resistant pathogenic yeasts. In this review, we update and compare the sequence, structure, and properties of plant defensins and AFPs with anti-yeast activity, along with their in vitro and in vivo potency. We focus on the current knowledge about their mechanism of action that may lead the way to new anti-fungals, as well as on the developments for their effective biotechnological production. Key points: • Plant defensins and fungal AFPs are alternative anti-yeast agents • Their multi-faceted mode of action makes occurrence of resistance rather improbable • Safe and cost-effective biofactories remain crucial for clinical application [ABSTRACT FROM AUTHOR]
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- 2024
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40. Anticancer Potential of Antimicrobial Peptides: Focus on Buforins.
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Tolos, Ana Maria, Moisa, Cristian, Dochia, Mihaela, Popa, Carmen, Copolovici, Lucian, and Copolovici, Dana Maria
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ANTIMICROBIAL peptides , *ALTERNATIVE treatment for cancer , *DEFENSINS , *BREAST , *TRANSMISSIBLE tumors , *LIPOSOMES , *BIOCONJUGATES , *CATHELICIDINS - Abstract
In seeking alternative cancer treatments, antimicrobial peptides (AMPs), sourced from various life forms, emerge as promising contenders. These endogenous peptides, also known as host defense peptides (HDPs), play crucial roles in immune defenses against infections and exhibit potential in combating cancers. With their diverse defensive functions, plant-derived AMPs, such as thionins and defensins, offer a rich repertoire of antimicrobial properties. Insects, amphibians, and animals contribute unique AMPs like cecropins, temporins, and cathelicidins, showcasing broad-spectrum activities against bacteria, fungi, and viruses. Understanding these natural peptides holds significant potential for developing effective and targeted therapies against cancer and infectious diseases. Antimicrobial peptides (AMPs) exhibit diverse structural characteristics, including α-helical, β-sheet, extended, and loop peptides. Environmental conditions influence their structure, connecting to changes in cell membrane hydrophobicity. AMPs' actions involve direct killing and immune regulation, with additional activities like membrane depolarization. In this review, we focus on antimicrobial peptides that act as anticancer agents and AMPs that exhibit mechanisms akin to antimicrobial activity. Buforin AMPs, particularly Buforin I and II, derived from histone H2A, demonstrate antibacterial and anticancer potential. Buforin IIb and its analogs show promise, with selectivity for cancer cells. Despite the challenges, AMPs offer a unique approach to combat microbial resistance and potential cancer treatment. In various cancer types, including HeLa, breast, lung, ovarian, prostate, and liver cancers, buforins demonstrate inhibitory effects and apoptosis induction. To address limitations like stability and bioavailability, researchers explore buforin-containing bioconjugates, covalently linked with nanoparticles or liposomes. Bioconjugation enhances specificity-controlled release and combats drug resistance, presenting a promising avenue for targeted cancer treatment. Clinical translation awaits further evaluation through in vivo studies and future clinical trials. [ABSTRACT FROM AUTHOR]
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- 2024
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41. Comparison of Tissue Factors in the Ontogenetic Aspects of Human Cholesteatoma.
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Dambergs, Kristaps, Sumeraga, Gunta, and Pilmane, Māra
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VENTRICULAR remodeling , *CHOLESTEATOMA , *EAR canal , *MIDDLE ear - Abstract
Background: An acquired cholesteatoma is a benign but locally aggressive lesion in the middle ear. It is characterized by chronic inflammation and the destruction of surrounding bone. Therefore, the aim of this study was to compare defensins HβD-2 and HβD-4; pro- and anti-inflammatory cytokines IL-1α and IL-10; proliferation marker Ki-67; transcription factor NF-κβ; angiogenetic factor VEGF; Sonic hedgehog gene protein SHH; and remodeling factors MMP-2, MMP-9, TIMP-2, and TIMP-4 in adult and pediatric cholesteatoma tissue, and to compare these groups with control skin tissue. Methods: The study included 25 cholesteatoma tissue material samples from children, 25 from adults, and 7 deep external ear canal skin samples from cadavers. The tissues were stained immunohistochemically and evaluated using semi-quantitative methods. Nonparametric tests, such as the Kruskal–Wallis test and Spearman rank correlation, were used. Results: There were no statistically discernible differences between the adult and children groups when comparing the relative numbers of factor-positive cells. Conclusions: There are no histopathological differences between adult and children cholesteatoma tissues. [ABSTRACT FROM AUTHOR]
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- 2024
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42. LL-37: Structures, Antimicrobial Activity, and Influence on Amyloid-Related Diseases.
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Bhattacharjya, Surajit, Zhang, Zhizhuo, and Ramamoorthy, Ayyalusamy
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ANTIMICROBIAL peptides , *PROTEIN precursors , *MULTIDRUG resistance in bacteria , *DEFENSINS , *ANTI-infective agents , *DRUG resistance in bacteria - Abstract
Antimicrobial peptides (AMPs), as well as host defense peptides (HDPs), constitute the first line of defense as part of the innate immune system. Humans are known to express antimicrobial precursor proteins, which are further processed to generate AMPs, including several types of α/β defensins, histatins, and cathelicidin-derived AMPs like LL37. The broad-spectrum activity of AMPs is crucial to defend against infections caused by pathogenic bacteria, viruses, fungi, and parasites. The emergence of multi-drug resistant pathogenic bacteria is of global concern for public health. The prospects of targeting antibiotic-resistant strains of bacteria with AMPs are of high significance for developing new generations of antimicrobial agents. The 37-residue long LL37, the only cathelicidin family of AMP in humans, has been the major focus for the past few decades of research. The host defense activity of LL37 is likely underscored by its expression throughout the body, spanning from the epithelial cells of various organs—testis, skin, respiratory tract, and gastrointestinal tract—to immune cells. Remarkably, apart from canonical direct killing of pathogenic organisms, LL37 exerts several other host defense activities, including inflammatory response modulation, chemo-attraction, and wound healing and closure at the infected sites. In addition, LL37 and its derived peptides are bestowed with anti-cancer and anti-amyloidogenic properties. In this review article, we aim to develop integrative, mechanistic insight into LL37 and its derived peptides, based on the known biophysical, structural, and functional studies in recent years. We believe that this review will pave the way for future research on the structures, biochemical and biophysical properties, and design of novel LL37-based molecules. [ABSTRACT FROM AUTHOR]
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- 2024
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43. Serum proteomics analysis of drug-naïve patients with generalised anxiety disorder: Tandem mass tags and multiple reaction monitoring.
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Li, Xue, Zheng, Sisi, Feng, Zhengtian, Liu, Xinzi, Ding, Ying, Zhang, Lina, Zhang, Guofu, Liu, Min, Zhu, Hong, and Jia, Hongxiao
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GENERALIZED anxiety disorder , *MACHINE learning , *BLOOD serum analysis , *ANXIETY disorders , *DEFENSINS , *GENE ontology , *TRANSFERRIN - Abstract
The prevalence of generalised anxiety disorder (GAD) is high. However, the underlying mechanisms remain elusive. Proteomics techniques can be employed to assess the pathological mechanisms involved in GAD. Twenty-two drug-naive GAD patients were recruited, their serum samples were used for protein quantification and identified using Tandem Mass Tag and Multiple Reaction Monitoring (MRM). Machine learning models were employed to construct predictive models for disease occurrence by using clinical scores and target proteins as input variables. A total of 991 proteins were differentially expressed between GAD and healthy participants. Gene Ontology analysis revealed that these proteins were significantly associated with stress response and biological regulation, suggesting a significant implication in anxiety disorders. MRM validation revealed evident disparities in 12 specific proteins. The machine learning model found a set of five proteins accurately predicting the occurrence of the disease at a rate of 87.5%, such as alpha 1B-glycoprotein, complement component 4 A, transferrin, V3-3, and defensin alpha 1. These proteins had a functional association with immune inflammation. The development of generalised anxiety disorder might be closely linked to the immune inflammatory stress response. [ABSTRACT FROM AUTHOR]
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- 2024
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44. Effects of In Ovo Injection of Conjugated Linoleic Acid on Hatchability, Growth Performance, Intestine Morphology and Avian B-Defensin Gene Expression in the Cecal Tonsils of Broiler Chicks.
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Hassanabadi, Ahmad, mehr, Mona Azadegan, and Mirghelenj, Seyed Ali
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LINOLEIC acid ,BROILER chicken diseases ,HATCHABILITY of eggs ,POULTRY growth ,DEFENSINS - Abstract
This experiment aimed to investigate the effects of in-ovo injection of conjugated linoleic acid (CLA) on growth performance and γ-defensin (AvBD1 and AvBD2) genes expression in broilers. A total of 400 fertile eggs (Cobb 500) were randomly assigned to 4 treatments, each having five replicates of 20 eggs. CLA was injected into the air sack on 18 d of incubation (150 and 300 mg/egg; CLA150 and CLA300). Two groups of diluent injected and non-injected were also included as controls. Hatchlings were further evaluated in a 42-d rearing period. Data were analyzed using a completely randomized design. Results showed that the hatchability was not significantly affected by the treatments. The growth performance in the CLA300 group was improved (P < 0.05) compared to both controls. CLA300 increased (P < 0.05) the jejunal villus length on 42 d, leading to a significant increase in villus absorptive surface area (P < 0.05) compared to CLA150 or controls. Abdominal fat weight in the CLA300 group was significantly decreased on 42 d (P < 0.05). The expression of γ-defensins was detectable in all groups on 21 and 42 d, irrespective of treatment and age. Differences in AvBD1 gene expression in chicks from different treatments were not significant on 21 d, but the expression level in CLA received groups was more than controls at 42 d (P < 0.05). AvBD2 gene expression in CLA-treated birds was increased compared to controls on 21 d, but only the CLA300 group showed a significant increase compared to both controls on 42 d (P < 0.05). Research highlights: in ovo feeding 300 mg CLA per egg into the air sac decreased abdominal fat pad, improved growth performance and villous absorptive surface area of the jejunum and increased AvBD1 and AvBD2 gene expression in broilers. [ABSTRACT FROM AUTHOR]
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- 2024
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45. Single nuclear RNA sequencing of terminal ileum in patients with cirrhosis demonstrates multi-faceted alterations in the intestinal barrier.
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Jiang, Xixian, Xu, Ying, Fagan, Andrew, Patel, Bhaumik, Zhou, Huiping, and Bajaj, Jasmohan S.
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RNA sequencing , *ILEUM , *CIRRHOSIS of the liver , *GENE expression , *PROTEASE-activated receptors , *DEFENSINS , *CADHERINS , *BIOLOGICAL crosstalk - Abstract
Patients with cirrhosis have intestinal barrier dysfunction but the role of the individual cell types in human small intestine is unclear. We performed single-nuclear RNA sequencing (snRNAseq) in the pinch biopsies of terminal ileum of four age-matched men [56 years, healthy control, compensated, early (ascites and lactulose use) and advanced decompensated cirrhosis (ascites and rifaximin use)]. Cell type proportions, differential gene expressions, cell-type specific pathway analysis using IPA, and cellular crosstalk dynamics were compared. Stem cells, enterocytes and Paneth cells were lowest in advanced decompensation. Immune cells like naive CD4 + T cells were lowest while ITGAE + cells were highest in advanced decompensation patients. MECOM had lowest expression in stem cells in advanced decompensation. Defensin and mucin sulfation gene (PAPSS2) which can stabilize the mucus barrier expression were lowest while IL1, IL6 and TNF-related genes were significantly upregulated in the enterocytes, goblet, and Paneth cells in decompensated subjects. IPA analysis showed higher inflammatory pathways in enterocytes, stem, goblet, and Paneth cells in decompensated patients. Cellular crosstalk analysis showed that desmosome, protease-activated receptors, and cadherin-catenin complex interactions were most perturbed in decompensated patients. In summary, the snRNAseq of the human terminal ileum in 4 subjects (1 control and three cirrhosis) identified multidimensional alteration in the intestinal barrier with lower stem cells and altered gene expression focused on inflammation, mucin sulfation and cell–cell interactions with cirrhosis decompensation. [ABSTRACT FROM AUTHOR]
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- 2024
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46. Epigenetic control of inflammation in Atopic Dermatitis.
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Akhtar, Sabah, Alsayed, Reem Khaled M.E., Ahmad, Fareed, AlHammadi, Ayda, Al-Khawaga, Sara, AlHarami, Sara Mohamed A.M., Alam, Majid Ali, Al Naama, Khalifa Abdulla H.N., Buddenkotte, Joerg, Uddin, Shahab, Steinhoff, Martin, and Ahmad, Aamir
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ATOPIC dermatitis , *FILAGGRIN , *DEFENSINS , *EPIGENETICS , *FC receptors , *SKIN inflammation , *RNA regulation - Abstract
Atopic dermatitis (AD), also known as atopic eczema, is a common but also complex chronic, itchy skin condition with underlying inflammation of the skin. This skin ailment is prevalent worldwide and affects people of all ages, particularly children below five years of age. The itching and resulting rashes in AD patients are often the result of inflammatory signals, thus necessitating a closer look at the inflammation-regulating mechanisms for putative relief, care and therapy. Several chemical- as well as genetically-induced animal models have established the importance of targeting pro-inflammatory AD microenvironment. Epigenetic mechanisms are gaining attention towards a better understanding of the onset as well as the progression of inflammation. Several physiological processes with implications in pathophysiology of AD, such as, barrier dysfunction either due to reduced filaggrin / human β‐defensins or altered microbiome, reprograming of Fc receptors with resulting overexpression of high affinity IgE receptors, elevated eosinophil numbers or the elevated IL-22 production by CD4 + T cells have underlying epigenetic mechanisms that include differential promoter methylation and/or regulation by non-coding RNAs. Reversing these epigenetic changes has been verified to reduce inflammatory burden through altered secretion of cytokines IL-6, IL-4, IL-13, IL-17, IL-22 etc, with benefit against AD progression in experimental models. A thorough understanding of epigenetic remodeling of inflammation in AD has the potential of opening avenues for novel diagnostic, prognostic and therapeutic options. [ABSTRACT FROM AUTHOR]
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- 2024
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47. Antiviral Action against SARS-CoV-2 of a Synthetic Peptide Based on a Novel Defensin Present in the Transcriptome of the Fire Salamander (Salamandra salamandra).
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Barros, Ana Luisa A. N., Silva, Vladimir C., Ribeiro-Junior, Atvaldo F., Cardoso, Miguel G., Costa, Samuel R., Moraes, Carolina B., Barbosa, Cecília G., Coleone, Alex P., Simões, Rafael P., Cabral, Wanessa F., Falcão, Raul M., Vasconcelos, Andreanne G., Rocha, Jefferson A., Arcanjo, Daniel D. R., Batagin-Neto, Augusto, Borges, Tatiana Karla S., Gonçalves, João, Brand, Guilherme D., Freitas-Junior, Lucio H. G., and Eaton, Peter
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PEPTIDES , *DEFENSINS , *ANTIMICROBIAL peptides , *SALAMANDERS , *SARS-CoV-2 , *ZOONOSES - Abstract
The potential emergence of zoonotic diseases has raised significant concerns, particularly in light of the recent pandemic, emphasizing the urgent need for scientific preparedness. The bioprospection and characterization of new molecules are strategically relevant to the research and development of innovative drugs for viral and bacterial treatment and disease management. Amphibian species possess a diverse array of compounds, including antimicrobial peptides. This study identified the first bioactive peptide from Salamandra salamandra in a transcriptome analysis. The synthetic peptide sequence, which belongs to the defensin family, was characterized through MALDI TOF/TOF mass spectrometry. Molecular docking assays hypothesized the interaction between the identified peptide and the active binding site of the spike WT RBD/hACE2 complex. Although additional studies are required, the preliminary evaluation of the antiviral potential of synthetic SS-I was conducted through an in vitro cell-based SARS-CoV-2 infection assay. Additionally, the cytotoxic and hemolytic effects of the synthesized peptide were assessed. These preliminary findings highlighted the potential of SS-I as a chemical scaffold for drug development against COVID-19, hindering viral infection. The peptide demonstrated hemolytic activity while not exhibiting cytotoxicity at the antiviral concentration. [ABSTRACT FROM AUTHOR]
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- 2024
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48. Antimicrobial peptides and other potential biomarkers of critical illness in SARS‐CoV‐2 patients with acute kidney injury. AMPAKI‐CoV study.
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Theotonio dos Santos, Lucas Ferreira, Barbeiro, Hermes Vieira, Barbeiro, Denise Frediani, de Souza, Heraldo Possolo, and Pinheiro da Silva, Fabiano
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ANTIMICROBIAL peptides , *ACUTE kidney failure , *COVID-19 , *CRITICALLY ill , *SARS-CoV-2 , *PEPTIDE antibiotics - Abstract
Antimicrobial peptides (AMPs) constitute a complex network of 10–100 amino acid sequence molecules widely distributed in nature. While over 300 AMPs have been described in mammals, cathelicidins and defensins remain the most extensively studied. Some publications have explored the role of AMPs in COVID‐19, but these findings are preliminary, and in vivo studies are still lacking. In this study, we report the plasma levels of five AMPs (LL‐37, α‐defensin 1, α‐defensin 3, β‐defensin 1, and β‐defensin 3), using the ELISA technique (MyBioSource, San Diego, CA, United States, kits MBS2601339 (beta‐defensin 1), MBS2602513 (beta‐defensin 3), MBS703879 (alpha‐defensin 1), MBS706289 (alpha‐defensin 3), MBS7234921 (LL37)), and the measurement of six cytokines (tumor necrosis factor‐α, interleukin‐1β, interleukin‐6, interleukin‐10, interferon‐γ, and monocyte chemoattractant protein‐1), through the magnetic bead immunoassay Milliplex® and the MAGPIX® System (MilliporeSigma, Darmstadt, Germany, kit HCYTOMAG‐60 K (cytokines)), in 15 healthy volunteers, 36 COVID‐19 patients without Acute Kidney Injury (AKI) and 17 COVID‐19 patients with AKI. We found increased levels of α‐defensin 1, α‐defensin 3 and β‐defensin 3, in our COVID‐19 population, when compared to healthy controls, along with higher levels of interleukin‐6, interleukin‐10, interferon‐γ, and monocyte chemoattractant protein‐1. These findings suggest that these AMPs and cytokines may play a crucial role in the systemic inflammatory response and tissue damage characterizing severe COVID‐19. The levels of α‐defensin 1 and α‐defensin 3 were significantly higher in COVID‐19 AKI group in comparison to the non‐AKI group. Furthermore, IL‐10 and the product IL‐10 × IL‐1B showed excellent performance in discriminating AKI, with AUCs of 0.86 and 0.88, respectively. Among patients with COVID‐19, AMPs may play a key role in the inflammation process and disease progression. Additionally, α‐defensin 1 and α‐defensin 3 may mediate the AKI process in these patients, representing an opportunity for further research and potential therapeutic alternatives in the future. [ABSTRACT FROM AUTHOR]
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- 2024
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49. Human β-Defensin 3 Inhibition of P. gingivalis LPS-Induced IL-1β Production by BV-2 Microglia through Suppression of Cathepsins B and L.
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Inoue, Erika, Minatozaki, Shiyo, Shimizu, Sachi, Miyamoto, Sayaka, Jo, Misato, Ni, Junjun, Tozaki-Saitoh, Hidetoshi, Oda, Kosuke, Nonaka, Saori, and Nakanishi, Hiroshi
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DEFENSINS , *EXTRACELLULAR vesicles , *CATHEPSINS , *CATHEPSIN B , *ALZHEIMER'S disease , *MICROGLIA - Abstract
Cathepsin B (CatB) is thought to be essential for the induction of Porphyromonas gingivalis lipopolysaccharide (Pg LPS)-induced Alzheimer's disease-like pathologies in mice, including interleukin-1β (IL-1β) production and cognitive decline. However, little is known about the role of CatB in Pg virulence factor-induced IL-1β production by microglia. We first subjected IL-1β-luciferase reporter BV-2 microglia to inhibitors of Toll-like receptors (TLRs), IκB kinase, and the NLRP3 inflammasome following stimulation with Pg LPS and outer membrane vesicles (OMVs). To clarify the involvement of CatB, we used several known CatB inhibitors, including CA-074Me, ZRLR, and human β-defensin 3 (hBD3). IL-1β production in BV-2 microglia induced by Pg LPS and OMVs was significantly inhibited by the TLR2 inhibitor C29 and the IκB kinase inhibitor wedelolactonne, but not by the NLRPs inhibitor MCC950. Both hBD3 and CA-074Me significantly inhibited Pg LPS-induced IL-1β production in BV-2 microglia. Although CA-074Me also suppressed OMV-induced IL-1β production, hBD3 did not inhibit it. Furthermore, both hBD3 and CA-074Me significantly blocked Pg LPS-induced nuclear NF-κB p65 translocation and IκBα degradation. In contrast, hBD3 and CA-074Me did not block OMV-induced nuclear NF-κB p65 translocation or IκBα degradation. Furthermore, neither ZRLR, a specific CatB inhibitor, nor shRNA-mediated knockdown of CatB expression had any effect on Pg virulence factor-induced IL-1β production. Interestingly, phagocytosis of OMVs by BV-2 microglia induced IL-1β production. Finally, the structural models generated by AlphaFold indicated that hBD3 can bind to the substrate-binding pocket of CatB, and possibly CatL as well. These results suggest that Pg LPS induces CatB/CatL-dependent synthesis and processing of pro-IL-1β without activation of the NLRP3 inflammasome. In contrast, OMVs promote the synthesis and processing of pro-IL-1β through CatB/CatL-independent phagocytic mechanisms. Thus, hBD3 can improve the IL-1β-associated vicious inflammatory cycle induced by microglia through inhibition of CatB/CatL. [ABSTRACT FROM AUTHOR]
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- 2024
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50. Inflammatory response modulation by epinephrine and norepinephrine
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Svetlana V. Guryanova, Artem S. Ferberg, and Ilya A. Sigmatulin
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innate immunity ,tlr4 ,nod2 ,lps ,muramyl peptide ,defensins ,human neutrophil peptides 1-3 ,epinephrine ,norepinephrine ,catecholamine ,inflammation regulation ,Medicine - Abstract
Relevance. Inflammation is a defense response of an organism to a pathogen. It appears in order to maintain homeostasis and is regulated by the immune, nervous, and endocrine systems. The hormones epinephrine and norepinephrine are produced in the adrenal medulla and in the brain, and are universal messengers that trigger the transmission of nerve impulses at synapses, and also have a receptor-mediated effect on immunocompetent cells. The aim of this study was to investigate adrenergic pathway regulation of inflammation on the neutrophil granulocytes in the presence of activators of innate immunity receptors. Materials and Methods. Neutrophil granulocytes were obtained from peripheral blood of healthy volunteers in a density gradient of Histopaque 1077 and Histopaque 1119 (Sigma Aldrich, Steinheim, Germany), and cultured in the presence of LPS, GMDP, epinephrine and norepinephrine. The amount of human neutrophil peptides 1-3 (HNP1-3) was examined using an enzyme-linked immunosorbent assay; the gene expression of TLR4, NOD2, ATF3 and A20 was determined using RT-PCR. Results and Discussion. Norepinephrine (noradrenaline) was found to decrease the synthesis of human neutrophils peptides 1-3 (HNP 1-3 defensins, alone and in the combination with agonists of TLR4 and NOD2 receptors - LPS and GMDP respectively. It was found out that there was no a statistically significant effect of epinephrine (adrenaline) on the production of HNP 1-3, including when combined with LPS and GMDP. As a result of the study, an increase in the levels of expression of the genes TLR4, NOD2 and regulator of inflammatory reactions A20 both in LPS- and GMDP- induced neutrophil culture were uncovered, while ATF3 was increased only in LPS-induced neutrophil culture. Epinephrine demonstrated the absence of a statistically significant effect on the expression of the studied genes. While norepinephrine significantly increased the expression of A20 genes. Conclusion. The data obtained shows that norepinephrine can reduce the synthesis of HNP 1-3, including the one induced by LPS and GMDP. Moreover, the ability of norepinephrine to induce the expression of A20 may play a significant role in modulation of inflammation.
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- 2023
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