Your search keyword '"cathelicidins"' showing total 6,706 results

101. Analysis of the effect of polymorphisms within the CATHL7 gene on dairy performance parameters

Author

Hiller Sonia, Kowalewska Inga, Czerniawska-Piątkowska Ewa, and Banaszewska Dorota

Subjects

acrs, bmap-34, cathelicidins, holstein-friesian cows, milk production traits, Veterinary medicine, SF600-1100

Abstract

Antimicrobial peptides, including cathelicidins, play a significant role in farm animals, influencing animal welfare, immunity, and thus the quality of animal products.

Published

2023

102. Circulating HMGB1 Is Not a Reliable Biomarker in Pediatric PAH.

Subjects

*CONGENITAL heart disease, *RISK assessment, *CATHELICIDINS, *PEPTIDE hormones, *PULMONARY arterial hypertension, *BIOMARKERS, *CARDIAC catheterization, *BLOOD, *DISEASE risk factors, *CHILDREN

Published

2024

103. Cathelicidin preserves intestinal barrier function in polymicrobial sepsis

Author

Ho, Jeffery, Chan, Hung, Liang, Yonghao, Liu, Xiaodong, Zhang, Lin, Li, Qing, Zhang, Yuchen, Zeng, Judeng, Ugwu, Felix N, Ho, Idy HT, Hu, Wei, Yau, Johnny CW, Wong, Sunny H, Wong, Wai Tat, Ling, Lowell, Cho, Chi H, Gallo, Richard L, Gin, Tony, Tse, Gary, Yu, Jun, Chan, Matthew TV, Leung, Czarina CH, and Wu, William KK

Subjects

Infectious Diseases, Hematology, Sepsis, Aetiology, 2.1 Biological and endogenous factors, Infection, Good Health and Well Being, Animals, Antimicrobial Cationic Peptides, Intestinal Mucosa, Macrophages, Male, Mice, Mice, Knockout, Neutrophils, Vitamin D, LL-37, Bacterial translocation, Antimicrobial peptide, Cathelicidins, Medical and Health Sciences, Emergency & Critical Care Medicine

Abstract

ObjectivesThe intestinal epithelium compartmentalizes the sterile bloodstream and the commensal bacteria in the gut. Accumulating evidence suggests that this barrier is impaired in sepsis, aggravating systemic inflammation. Previous studies reported that cathelicidin is differentially expressed in various tissues in sepsis. However, its role in sepsis-induced intestinal barrier dysfunction has not been investigated.DesignTo examine the role of cathelicidin in polymicrobial sepsis, cathelicidin wild-(Cnlp+/+) and knockout (Cnlp-/-) mice underwent cecal-ligation and puncture (CLP) followed by the assessment of septic mortality and morbidity as well as histological, biochemical, immunological, and transcriptomic analyses in the ileal tissues. We also evaluated the prophylactic and therapeutic efficacies of vitamin D3 (an inducer of endogenous cathelicidin) in the CLP-induced murine polymicrobial sepsis model.ResultsThe ileal expression of cathelicidin was increased by three-fold after CLP, peaking at 4 h. Knockout of Cnlp significantly increased 7-day mortality and was associated with a higher murine sepsis score. Alcian-blue staining revealed a reduced number of mucin-positive goblet cells, accompanied by reduced mucin expression. Increased number of apoptotic cells and cleavage of caspase-3 were observed. Cnlp deletion increased intestinal permeability to 4kD fluorescein-labeled dextran and reduced the expression of tight junction proteins claudin-1 and occludin. Notably, circulating bacterial DNA load increased more than two-fold. Transcriptome analysis revealed upregulation of cytokine/inflammatory pathway. Depletion of Cnlp induced more M1 macrophages and neutrophils compared with the wild-type mice after CLP. Mice pre-treated with cholecalciferol (an inactive form of vitamin D3) or treated with 1alpha, 25-dihydroxyvitamin D3 (an active form of VD3) had decreased 7-day mortality and significantly less severe symptoms. Intriguingly, the administration of cholecalciferol after CLP led to worsened 7-day mortality and the associated symptoms.ConclusionsEndogenous cathelicidin promotes intestinal barrier integrity accompanied by modulating the infiltration of neutrophils and macrophages in polymicrobial sepsis. Our data suggested that 1alpha, 25-dihydroxyvitamin D3 but not cholecalciferol is a potential therapeutic agent for treating sepsis.

Published

2020

104. The protective role of chicken cathelicidin-1 against Streptococcus suis serotype 2 in vitro and in vivo.

Author

Lu, Yi, Xiang, Fa, Xu, Liuyi, Tian, Hongliang, Tao, Qi, Jia, Kaixiang, Yin, Hang, Ye, Chao, Fang, Rendong, and Peng, Lianci

Subjects

STREPTOCOCCUS suis, CHICKENS, ANTIMICROBIAL peptides, PERITONEAL dialysis, CATHELICIDINS

Abstract

Streptococcus suis serotype 2 (SS2) is an important zoonotic pathogen with the characteristics of high mortality and morbidity, which brings great challenges to prevent and control epidemic disease in the swine industry. Cathelicidins (CATH) are antimicrobial peptides with antimicrobial and immunomodulatory activities. In this study, bactericidal and anti-inflammatory effects of chicken cathelicidin-1 (CATH-1) were investigated in vitro and in vivo against SS2 infection. The results show that CATH-1 exhibited a better bactericidal effect compared to other species' cathelicidins including chickens (CATH-2, -3, and -B1), mice (CRAMP) and pigs (PMAP-36 and PR-39), which rapidly killed bacteria in 20 min by a time-killing curve assay. Furthermore, CATH-1 destroyed the bacterial morphology and affected bacterial ultrastructure as observed under electron microscopy. Moreover, CATH-1 antibacterial activity in vivo shows that CATH-1 increased survival rate of SS2-infected mice by 60% and significantly reduced the bacterial load in the lungs, liver, spleen, blood, and peritoneal lavage as well as the release of SS2-induced inflammatory cytokines including IL-1α, IL-1β, IL-12, and IL-18. Importantly, CATH-1 did not show severe histopathological changes in mice. Further studies on the mechanism of anti-inflammatory activity show that CATH-1 not only reduced the inflammatory response through direct neutralization, but also by regulating the TLR2/4/NF-κB/ERK pathway. This study provides a scientific basis for the research and development of antimicrobial peptides as new antimicrobial agents. [ABSTRACT FROM AUTHOR]

Published

2023

105. Effect of central PxxP motif in amphipathic alpha-helical peptides on antimicrobial activity and mode of action.

Author

Lee, Hyunhee, Yang, Sungtae, and Shin, Sung-Heui

Subjects

*ANTIMICROBIAL peptides, *ANTI-infective agents, *BACTERIAL cell walls, *BILAYER lipid membranes, *CATHELICIDINS, *MEMBRANE potential, *PEPTIDE antibiotics

Abstract

Amphipathic α-helical peptides (AHPs) have shown potential as a therapeutic approach against multi-drug-resistant bacterial infections due to their broad-spectrum antimicrobial activity by disrupting bacterial membranes. However, their nonspecific interactions with membranes often result in cytotoxicity toward mammalian cells. Previous studies have shown that a PxxP motif near the middle of cathelicidin-derived antimicrobial peptides contributes to potent and selective antibacterial activity. In this study, we compared KL18 with KL-PxxP to examine the effects of the central PxxP motif in AHPs on their structure, antibiotic activity, and mode of action. In a membrane-mimetic environment, we observed that KL18 had a much higher helical content compared to KL-PxxP. In aqueous buffer, KL18 adopted a highly ordered α-helical conformation, while KL-PxxP exhibited a disordered conformation. We found that KL-PxxP exhibited 4–16 times higher antibacterial activity than KL18 and significantly reduced the hemolytic activity. These findings suggest that the dynamic conformational behaviors caused by the central PxxP motif conferred the antibacterial selectivity of AHPs. Additionally, KL-PxxP showed strong binding to anionic liposomes and weak binding to zwitterionic liposomes, explaining its selectivity for bacteria over mammalian cells. Despite having a low ability to dissipate the bacterial membrane potential, KL-PxxP translocated efficiently across lipid membranes. Therefore, we propose that the central PxxP motif in AHPs provides dynamic conformational behavior in aqueous and membrane-mimetic environments, enhances binding to anionic membranes, and facilitates translocation across lipid bilayers, resulting in improved antibacterial potency and selectivity. Understanding the unique structural characteristics and functional roles of the PxxP motif in the antimicrobial mechanism of action holds great potential for advancing the development of novel peptide antibiotics. [ABSTRACT FROM AUTHOR]

Published

2023

106. Cathelicidin-derived antiviral peptide inhibits herpes simplex virus 1 infection.

Author

Xiaomin Guo, Yanxing An, Wanmin Tan, Ling Ma, Mingyang Wang, Juyan Li, Binghong Li, Wei Hou, and Li Wu

Subjects

CATHELICIDINS, PEPTIDES, ANTIMICROBIAL peptides, FACIAL paralysis, BLINKING (Physiology), FACIAL nerve

Abstract

Herpes simplex virus 1 (HSV-1) is a widely distributed virus. HSV-1 is a growing public health concern due to the emergence of drug-resistant strains and the current lack of a clinically specific drug for treatment. In recent years, increasing attention has been paid to the development of peptide antivirals. Natural host-defense peptides which have uniquely evolved to protect the host have been reported to have antiviral properties. Cathelicidins are a family of multi-functional antimicrobial peptides found in almost all vertebrate species and play a vital role in the immune system. In this study, we demonstrated the anti-HSV-1 effect of an antiviral peptide named WL-1 derived from human cathelicidin. We found that WL-1 inhibited HSV-1 infection in epithelial and neuronal cells. Furthermore, the administration of WL-1 improved the survival rate and reduced viral load and inflammation during HSV-1 infection via ocular scarification. Moreover, facial nerve dysfunction, involving the abnormal blink reflex, nose position, and vibrissae movement, and pathological injury were prevented when HSV-1 ear inoculation-infected mice were treated with WL-1. Together, our findings demonstrate that WL-1 may be a potential novel antiviral agent against HSV-1 infection-induced facial palsy. [ABSTRACT FROM AUTHOR]

Published

2023

107. Insight into the Mechanism of Interactions between the LL-37 Peptide and Model Membranes of Legionella gormanii Bacteria.

Author

Pastuszak, Katarzyna, Kowalczyk, Bozena, Tarasiuk, Jacek, Luchowski, Rafal, Gruszecki, Wieslaw I., Jurak, Małgorzata, and Palusinska-Szysz, Marta

Subjects

*PEPTIDES, *ANTIMICROBIAL peptides, *LEGIONELLA, *BACTERIAL cell walls, *COMMUNITY-acquired pneumonia, *PHOSPHOLIPIDS, *STREPTOCOCCUS pneumoniae, *CATHELICIDINS

Abstract

Legionella gormanii is a fastidious, Gram-negative bacterium known to be the etiological agent of atypical community-acquired pneumonia. The human cathelicidin LL-37 exhibits a dose-dependent bactericidal effect on L. gormanii. The LL-37 peptide at the concentration of 10 µM causes the bacteria to become viable but not cultured. The antibacterial activity of the peptide is attributed to its effective binding to the bacterial membrane, as demonstrated by the fluorescence lifetime imaging microscopy. In this study, to mimic the L. gormanii membranes and their response to the antimicrobial peptide, Langmuir monolayers were used with the addition of the LL-37 peptide to the subphase of the Langmuir trough to represent the extracellular fluid. The properties of the model membranes (Langmuir monolayers) formed by phospholipids (PL) isolated from the L. gormanii bacteria cultured on the non-supplemented (PL−choline) and choline-supplemented (PL+choline) medium were determined, along with the effect of the LL-37 peptide on the intermolecular interactions, packing, and ordering under the monolayer compression. Penetration tests at the constant surface pressure were carried out to investigate the mechanism of the LL-37 peptide action on the model membranes. The peptide binds to the anionic bacterial membranes preferentially, due to its positive charge. Upon binding, the LL-37 peptide can penetrate into the hydrophobic tails of phospholipids, destabilizing membrane integrity. The above process can entail membrane disruption and ultimately cell death. The ability to evoke such a great membrane destabilization is dependent on the share of electrostatic, hydrogen bonding and Lifshitz–van der Waals LL-37−PL interactions. Thus, the LL-37 peptide action depends on the changes in the lipid membrane composition caused by the utilization of exogenous choline by the L. gormanii. [ABSTRACT FROM AUTHOR]

Published

2023

108. Rationally designed PMAP-23 derivatives with enhanced bactericidal and anticancer activity based on the molecular mechanism of peptide–membrane interactions.

Author

Lee, Hyunhee, Shin, Sung-Heui, and Yang, Sungtae

Subjects

*ANTINEOPLASTIC agents, *ANTIMICROBIAL peptides, *CATHELICIDINS, *ANTI-infective agents, *PEPTIDE antibiotics, *GRAM-negative bacteria, *ERYTHROCYTES

Abstract

Antimicrobial peptides (AMPs) are a crucial component of the natural defense system that the host employs to protect itself against invading pathogens. PMAP-23, a cathelicidin-derived AMP, has potent and broad-spectrum antimicrobial activity. Our earlier studies led us to hypothesize that PMAP-23 adopts a dynamic helix–hinge–helix structure, initially attaching to membrane surfaces through the N-helix and subsequently inserting the C-helix into the lipid bilayer. Here, we rationally designed PMAP-NC with increased amphipathicity and hydrophobicity in the N- and C-helix, respectively, based on the hypothesis of the interaction of PMAP-23 with membranes. Compared to the parental PMAP-23, PMAP-NC showed two–eightfold improved bactericidal activity against both Gram-positive and Gram-negative strains with fast killing kinetics. Fluorescence studies demonstrated that PMAP-NC largely disrupted membrane integrity, indicating that efficiency and kinetics of bacterial killing are associated with the membrane permeabilization. Interestingly, PMAP-NC exhibited much better anticancer activity against tumor cells than PMAP-23 but displayed low hemolytic activity against human erythrocytes. Collectively, our findings suggest that PMAP-NC, with the structural arrangement of an amphipathic helix–hinge–hydrophobic helix that plays a critical role in rapid and efficient membrane permeabilization, can be an attractive candidate for novel antimicrobial and/or anticancer drugs. [ABSTRACT FROM AUTHOR]

Published

2023

109. Combating fungal phytopathogens with human salivary antimicrobial peptide histatin 5 through a multi-target mechanism.

Author

Chadha, Sonia

Subjects

*PYRICULARIA oryzae, *ANTIMICROBIAL peptides, *FUNGAL cell walls, *PEPTIDES, *CHITIN, *ANTIFUNGAL agents, *RICE blast disease, *CATHELICIDINS

Abstract

Blast disease caused by Magnaporthe oryzae is a major contributor to decreased crop yield and rice production globally. The use of chemical fungicides to combat crop pathogens is not only unsafe but also promotes the emergence of pathogenic variants, leading to recurrent host infections. To address plant diseases, antimicrobial peptides have emerged as a promising alternative as they are effective, safe, and biodegradable antifungal agents. This study examines the antifungal activity and mechanism of action of the human salivary peptide histatin 5 (Hst5) on M. oryzae. Hst5 causes morphogenetic defects in the fungus, including non-uniform chitin distribution on the fungal cell wall and septa, deformed hyphal branching, and cell lysis. Importantly, a pore-forming mechanism of Hst5 in M. oryzae was ruled out. Furthermore, the interaction of Hst5 with the M. oryzae genomic DNA suggests that the peptide may also influence gene expression in the blast fungus. In addition to its effects on morphogenetic defects and cell lysis, Hst5 also inhibits conidial germination, appressorium formation, and the appearance of blast lesions on rice leaves. The elucidated multi-target antifungal mechanism of Hst5 in M. oryzae provides an environmentally friendly alternative to combating blast infections in rice by preventing fungal pathogenicity. The promising antifungal characteristics of the AMP peptide may also be explored for other crop pathogens, making it a potential biofungicide for the future. [ABSTRACT FROM AUTHOR]

Published

2023

110. Molecular Cloning, Expression Analyses, and Physiological Roles of Cathelicidins in the Bursa of Fabricius of the Japanese Quail, Coturnix japonica.

Author

Ikeda, Takumi, Kondo, Hirotada, Nunomura, Daiki, Sato, Genki, Ito, Machi, Yamanaka, Nanako, Iwamuro, Shawichi, Hasunuma, Itaru, Kikuyama, Sakae, and Kobayashi, Tetsuya

Subjects

GENE expression, MOLECULAR cloning, JAPANESE quail, BUTYRATES, CATHELICIDINS, SHORT-chain fatty acids

Abstract

Antimicrobial peptides (AMPs) act directly on pathogens and maintain the anti-inflammatory effects and activation of immunocompetent cells. Therefore, the activation of the immune system in poultry via the elevation of endogenous AMPs has been attempted. In this study, we focused on the host defense mechanisms in the bursa of Fabricius (BF) of Japanese quail, cloned the cDNA of cathelicidin (CATH)-1 to -3, and analyzed their expression sites. In situ hybridization experiments revealed the mRNA expression of the CATHs in the interfollicular epithelium surrounding the lumen of the quail BF, which suggests that each CATH may exert its antimicrobial action directly in the BF. The intravenous injection of bacterial lipoteichoic acid and lipopolysaccharide endotoxins into the quail promoted the mRNA expression of CATH-1 and CATH-3 in the BF. The addition of CATH-1 or CATH-2 at the time of the antigen injection into mice resulted in antiserum with high antibody titers. Ad libitum administration of butyrate, a short-chain fatty acid, in the drinking water induced an increase in CATH-2 mRNA expression in the BF under certain conditions. These results may improve the defense mechanisms of quail by stimulating CATH expression in the BF through their diet. [ABSTRACT FROM AUTHOR]

Published

2023

111. Native Pig Neutrophil Products: Insights into Their Antimicrobial Activity.

Author

Fernández-De La Cruz, Eric, Wessely-Szponder, Joanna, Viñas, Miguel, Vinuesa, Teresa, Merlos, Alexandra, Jorba, Marta, Espinal, Paula, and Fusté, Ester

Subjects

PEPTIDE antibiotics, ANTIMICROBIAL peptides, ESCHERICHIA coli, ANTI-infective agents, TRANSMISSION electron microscopy, ATOMIC force microscopy, SWINE farms, TRICLOSAN

Abstract

Cationic antimicrobial peptides are molecules with potential applications for treating infections due to their antimicrobial and immunomodulatory properties. The aim of this work was to explore the antimicrobial activity and mechanisms of action of a porcine neutrophil cathelicidin mixture (MPPN). Gram-positive and Gram-negative bacteria were used to determine the minimum inhibitory concentration (MIC) and experiments of both time–kill kinetics and effects on growth curves were performed. Planar black lipid bilayer conductance was measured to analyze the interaction of MPPN with lipid bilayers. Visualization of bacterial surfaces and membrane alterations was achieved using atomic force microscopy and transmission electron microscopy. The effects on the activity of efflux pumps (EPs) were studied with an intracellular accumulation of acridine orange (AO) assay. In E. coli, MPPN behaves as a bactericide at high concentrations and as a bacteriostatic at lower concentrations. The bacteriostatic effect was also observed for slightly shorter periods in S. enterica. The mixture was not active on S. aureus. The increase in AO accumulation in the presence of MPPN indicates that, at least in E. coli, the mixture causes inhibition of the EP function. Observed and detected variable conductance events demonstrate a strong MPPN effect on lipid bilayers. Damage to the structure of treated E. coli indicates that MPPN induces alterations in the bacterial surface. The use of AMPs capable of inhibiting EP can be seen as a good tool to combat antimicrobial resistance since they could be used alone or in combination with other conventional antibiotics to which bacteria have become resistant. [ABSTRACT FROM AUTHOR]

Published

2023

112. Optogenetic cortical spreading depolarization induces headache-related behaviour and neuroinflammatory responses some prolonged in familial hemiplegic migraine type 1 mice.

Author

Dehghani, Anisa, Schenke, Maarten, van Heiningen, Sandra H., Karatas, Hulya, Tolner, Else A., and van den Maagdenberg, Arn M. J. M.

Subjects

*BIOLOGICAL models, *SKULL, *GENETIC mutation, *NEUROPHYSIOLOGY, *CATHELICIDINS, *NERVE tissue proteins, *MIGRAINE, *ANIMAL experimentation, *IMMUNOHISTOCHEMISTRY, *MINIMALLY invasive procedures, *PERSONAL grooming, *NEUROINFLAMMATION, *ELECTROPHYSIOLOGY, *DISEASE relapse, *CONNEXINS, *RESEARCH funding, *TRANSGENIC animals, *MEMBRANE proteins, *HEMIPLEGIA, *OPTOGENETICS, *MICE, *PHENOTYPES, *DISEASE risk factors

Abstract

Background: Cortical spreading depolarization (CSD), the neurophysiological correlate of the migraine aura, can activate trigeminal pain pathways, but the neurobiological mechanisms and behavioural consequences remain unclear. Here we investigated effects of optogenetically-induced CSDs on headache-related behaviour and neuroinflammatory responses in transgenic mice carrying a familial hemiplegic migraine type 1 (FHM1) mutation. Methods: CSD events (3 in total) were evoked in a minimally invasive manner by optogenetic stimulation through the intact skull in freely behaving wildtype (WT) and FHM1 mutant mice. Related behaviours were analysed using mouse grimace scale (MGS) scoring, head grooming, and nest building behaviour. Neuroinflammatory changes were investigated by assessing HMGB1 release with immunohistochemistry and by pre-treating mice with a selective Pannexin-1 channel inhibitor. Results: In both WT and FHM1 mutant mice, CSDs induced headache-related behaviour, as evidenced by increased MGS scores and the occurrence of oculotemporal strokes, at 30 min. Mice of both genotypes also showed decreased nest building behaviour after CSD. Whereas in WT mice MGS scores had normalized at 24 h after CSD, in FHM1 mutant mice scores were normalized only at 48 h. Of note, oculotemporal stroke behaviour already normalized 5 h after CSD, whereas nest building behaviour remained impaired at 72 h; no genotype differences were observed for either readout. Nuclear HMGB1 release in the cortex of FHM1 mutant mice, at 30 min after CSD, was increased bilaterally in both WT and FHM1 mutant mice, albeit that contralateral release was more pronounced in the mutant mice. Only in FHM1 mutant mice, contralateral release remained higher at 24 h after CSD, but at 48 h had returned to abnormal, elevated, baseline values, when compared to WT mice. Blocking Panx1 channels by TAT-Panx308 inhibited CSD-induced headache related behaviour and HMGB1 release. Conclusions: CSDs, induced in a minimally invasive manner by optogenetics, investigated in freely behaving mice, cause various migraine relevant behavioural and neuroinflammatory phenotypes that are more pronounced and longer-lasting in FHM1 mutant compared to WT mice. Prevention of CSD-related neuroinflammatory changes may have therapeutic potential in the treatment of migraine. [ABSTRACT FROM AUTHOR]

Published

2023

113. Recent Progress in the Characterization, Synthesis, Delivery Procedures, Treatment Strategies, and Precision of Antimicrobial Peptides.

Author

Bakare, Olalekan Olanrewaju, Gokul, Arun, Niekerk, Lee-Ann, Aina, Omolola, Abiona, Ademola, Barker, Adele Mariska, Basson, Gerhard, Nkomo, Mbukeni, Otomo, Laetitia, Keyster, Marshall, and Klein, Ashwil

Subjects

*ANTIMICROBIAL peptides, *INCURABLE diseases, *DRUG resistance in bacteria, *ANTI-infective agents, *COMMUNICABLE diseases, *CATHELICIDINS, *PEPTIDE antibiotics

Abstract

Infectious diseases are constantly evolving to bypass antibiotics or create resistance against them. There is a piercing alarm for the need to improve the design of new effective antimicrobial agents such as antimicrobial peptides which are less prone to resistance and possess high sensitivity. This would guard public health in combating and overcoming stubborn pathogens and mitigate incurable diseases; however, the emergence of antimicrobial peptides' shortcomings ranging from untimely degradation by enzymes to difficulty in the design against specific targets is a major bottleneck in achieving these objectives. This review is aimed at highlighting the recent progress in antimicrobial peptide development in the area of nanotechnology-based delivery, selectivity indices, synthesis and characterization, their doping and coating, and the shortfall of these approaches. This review will raise awareness of antimicrobial peptides as prospective therapeutic agents in the medical and pharmaceutical industries, such as the sensitive treatment of diseases and their utilization. The knowledge from this development would guide the future design of these novel peptides and allow the development of highly specific, sensitive, and accurate antimicrobial peptides to initiate treatment regimens in patients to enable them to have accommodating lifestyles. [ABSTRACT FROM AUTHOR]

Published

2023

114. In vitro efficacy of different PEGylation designs on cathelicidin-like peptide with high antibacterial and antifungal activity.

Author

Sahsuvar, Seray, Kocagoz, Tanil, Gok, Ozgul, and Can, Ozge

Subjects

*PEPTIDES, *ANTIMICROBIAL peptides, *CATHELICIDINS, *BACTERIAL cell membranes, *ANTIBACTERIAL agents, *ANTIMICROBIAL polymers, *ANTIFUNGAL agents, *ERYTHROCYTES

Abstract

Recent reports on antibiotic resistance have highlighted the need to reduce the impact of this global health issue through urgent prevention and control. The World Health Organization currently considers antibiotic resistance as one of the most dangerous threats to global health. Therefore, Antimicrobial peptides (AMPs) are promising for the development of novel antibiotic molecules due to their high antimicrobial effects, non-inducing antimicrobial resistance (AMR) properties, and broad spectrum. Hence, in this study, we developed novel antimicrobial peptide/polymer conjugates to reduce the adverse effects of TN6 (RLLRLLLRLLR) peptide. We demonstrate how our constructs function in vitro in terms of antimicrobial activity, hemolytic activity, cytotoxicity, and protease resistance. Our findings show that our molecules are effective against different types of microorganisms such as Staphylococcus aureus, Escherichia coli, Pseudomonas aeruginosa, methicillin-resistant S. aureus, vancomycin-resistant Enteroccus faecium, and Candida albicans, which are known to be pathogenic and antibiotic-resistant. Our constructs generally showed low cytotoxicity relative to the peptide in HaCaT and 3T3 cells. Especially these structures are very successful in terms of hemotoxicity. In the bacteremia model with S. aureus, the naked peptide (TN6) was hemotoxic even at 1 µg/mL, while the hemotoxicity of the conjugates was considerably lower than the peptide. Remarkably in this model, the hemolytic activity of PepC-PEG-pepC conjugate decreased 15-fold from 2.36 to 31.12 µg/mL compared to the bacteria-free 60-min treatment. This is proof that in the case of bacteremia and sepsis, the conjugates specifically direct to bacterial cell membranes rather than red blood cells. In addition, the PepC-PEG-pepC conjugate is resistant to plasma proteases. Moreover, morphological and intracellular damage of the peptide/conjugates to Escherichia coli are demonstrated in SEM and TEM images. These results suggest our molecules can be considered potential next-generation broad-spectrum antibiotic molecule/drug candidates that might be used in clinical cases such as bacteremia and sepsis. [ABSTRACT FROM AUTHOR]

Published

2023

115. Identification of bioactive components behind the antimicrobial activity of cow urine by peptide and metabolite profiling.

Author

Kumar, Rohit, Kaushik, Jai Kumar, Mohanty, Ashok Kumar, and Kumar, Sudarshan

Subjects

*CATHELICIDINS, *BIOACTIVE compounds, *PEPTIDES, *ANTI-infective agents, *SOLID phase extraction, *HIGH performance liquid chromatography

Abstract

Objective: Cow urine possesses several bioactive properties but the responsible components behind these bioactivities are still far from identified. In our study, we tried to identify the possible components behind the antimicrobial activity of cow urine by exploring the peptidome and metabolome. Methods: We extracted peptides from the urine of Sahiwal cows belonging to three different physiological states viz heifer, lactation, and pregnant, each group consisting of 10 different animals. The peptides were extracted using the solid phase extraction technique followed by further extraction using ethyl acetate. The antimicrobial activity of the aqueous extract was evaluated against different pathogenic strains like Staphylococcus aureus, Escherichia coli, and Streptococcus agalactiae. The safety of urinary aqueous extract was evaluated by hemolysis and cytotoxicity assay on the BuMEC cell line. The urinary peptides were further fractionated using high-performance liquid chromatography (HPLC) to identify the fraction(s) containing the antimicrobial activity. The HPLC fractions and ethyl acetate extract were analyzed using nLC-MS/MS for the identification of the peptides and metabolites. Results: A total of three fractions were identified with antimicrobial activity, and nLC-MS/ MS analysis of fractions resulted in the identification of 511 sequences. While 46 compounds were identified in the metabolite profiling of organic extract. The urinary aqueous extract showed significant activity against E. coli as compared to S. aureus and S. agalactiae and was relatively safe against mammalian cells. Conclusion: The antimicrobial activity of cow urine is a consequence of the feeding habit. The metabolites of plant origin with several bioactivities are eliminated through urine and are responsible for their antimicrobial nature. Secondly, the plethora of peptides generated from the activity of endogenous proteases on protein shed from different parts of tissues also find their way to urine. Some of these sequences possess antimicrobial activity due to their amino acid composition. [ABSTRACT FROM AUTHOR]

Published

2023

116. High cathelicidin levels are associated with Hashimoto's thyroiditis.

Author

Coskun, Meric, Karakoc, Mehmet Ayhan, Sel, Aydin Tuncer, Bulut, Tuba Saadet Deveci, Gulbahar, Ozlem, and Yapar, Dilek

Subjects

*CATHELICIDINS, *AUTOIMMUNE thyroiditis, *THYROID hormones, *ENZYME-linked immunosorbent assay, THYROIDITIS diagnosis

Abstract

Aim: Hashimoto's thyroiditis (HT) is a common chronic autoimmune thyroid disease. Many studies on autoimmune diseases have investigated human cathelicidin from the anti-microbial peptide family. This article aims to determine the level of cathelicidin in Hashimoto's thyroiditis and evaluate its relationship with thyroid functions. Materials and Methods: Eighty-eight subjects were included in the study. Gender, age, and BMI were similar between 48 HT patients and 40 healthy controls. Cathelicidin levels were studied in serum samples with an ELISA kit. Results: There were euthyroid and subclinical hypothyroid HTs in the study. There was a significant difference between the controls and patients in terms of TSH (p<0.001), fT4 (p=0.001), anti-TPO (p=0.001), and anti-Tg (p=0.001). Median cathelicidin level was significantly higher in the HT group (853.53 pg/ml) than in the control group (577.08 pg/ml) (p<0.001). Cathelicidin levels were similar (p=0.555) in HT with euthyroid and subclinical hypothyroidism. There were no correlations between cathelicidin level and age, year of disease, BMI, TSH, fT4, fT3, anti-TG, and anti-TPO. Diagnosis of HT was approximately 5.6 times higher in patients with high cathelicidin values (p<0.001). The possible effect of cathelicidin on the development of HT was evaluated by univariate binary logistic regression analysis, and the diagnostic threshold for cathelicidin was found to be 714 pg/ml (sensitivity 71%, specificity 70%). Conclusion: Our study is the first to examine the relationship between HT and serum cathelicidin. High cathelicidin was associated with HT independent of thyroid hormone levels, a possible role in the pathogenesis of HT. [ABSTRACT FROM AUTHOR]

Published

2023

117. Type I interferon and neutrophil transcripts in lupus nephritis renal biopsies: clinical and histopathological associations.

Author

Mavragani, Clio P, Kirou, Kyriakos A, Seshan, Surya V, and Crow, Mary K

Subjects

*GLOMERULAR filtration rate, *BIOPSY, *LUPUS nephritis, *CATHELICIDINS, *IMMUNOLOGIC receptors, *INTERFERONS, *NEUTROPHILS, *GENE expression profiling, *RESEARCH funding, *SYMPTOMS

Abstract

Objectives To investigate the expression of type I IFN (IFN-I) and neutrophil transcripts in kidney tissue from patients with different classes of LN and their association with distinct clinical and histopathological features. Methods Quantitation of IFN-I, defensin-α3 and formyl peptide receptor-like 1 (FPRL-1) transcripts was performed in kidney biopsy tissue from 24 patients with various classes of LN (6 class III, 14 class IV, 4 class V) and 3 control samples. Patient demographics, glomerular filtration rate (eGFR) and histopathological characteristics, including activity and chronicity indices, were analysed. Results IFNα2 and IFNβ transcripts were overexpressed in renal tissues from patients with proliferative forms of LN (III/IV) compared with patients with membranous nephritis and control kidneys. Patients with LN and impaired renal function, attested by eGFR, displayed higher relative expression of IFNα2 transcripts in renal tissues compared with those with normal renal function (23.0 ± 16.2 vs 12.0 ± 14.8, P  = 0.04). Defensin-α3, but not FPRL-1 , transcripts were overexpressed in LN tissues, particularly those with segmental necrotizing lesions, and were correlated with higher renal pathological activity indices (r  = 0.61, P  = 0.02), urinary protein levels (r  = 0.44, P  = 0.048) and IFNα2 expression (r  = 0.50, P  = 0.01). Conclusion IFN-I transcripts are expressed locally in kidneys from patients with proliferative LN and are associated with impaired renal function. Elevated defensin-α3 transcripts, a neutrophil product associated with neutrophil extracellular traps, may identify a driver of local IFN-I expression. These findings provide insights into the mechanisms of proliferative LN and may inform therapeutic decisions regarding selection of IFN-I pathway inhibitors. [ABSTRACT FROM AUTHOR]

Published

2023

118. Evaluation of Antimicrobial Activities against Various E. coli Strains of a Novel Hybrid Peptide—LENART01.

Author

Serafin, Pawel, Kowalczyk, Paweł, Mollica, Adriano, Stefanucci, Azzurra, Laskowska, Anna K., Zawadzka, Magdalena, Kramkowski, Karol, and Kleczkowska, Patrycja

Subjects

*ESCHERICHIA coli, *PEPTIDES, *ANTI-infective agents, *ANTIMICROBIAL peptides, *DRUG efficacy, *PEPTIDE antibiotics, *CATHELICIDINS

Abstract

Finding the ideal antimicrobial drug with improved efficacy and a safety profile that eliminates antibiotic resistance caused by pathogens remains a difficult task. Indeed, there is an urgent need for innovation in the design and development of a microbial inhibitor. Given that many promising antimicrobial peptides with excellent broad-spectrum antibacterial properties are secreted by some frog species (e.g., bombesins, opioids, temporins, etc.), our goal was to identify the antimicrobial properties of amphibian-derived dermorphin and ranatensin peptides, which were combined to produce a hybrid compound. This new chimera (named LENART01) was tested for its antimicrobial activity against E. coli strains K12 and R1–R4, which are characterized by differences in lipopolysaccharide (LPS) core oligosaccharide structure. The results showed that LENART01 had superior activity against the R2 and R4 strains compared with the effects of the clinically available antibiotics ciprofloxacin or bleomycin (MIC values). Importantly, the inhibitory effect was not concentration dependent; however, LENART01 showed a time- and dose-dependent hemolytic effect in hemolytic assays. [ABSTRACT FROM AUTHOR]

Published

2023

119. Green algae-derived triple CATH_BRALE multimer protein potently inhibits bacterial growth by permeabilizing the bacterial cell membrane.

Author

Zhang, Chan, Zhang, Rui-Kai, Feng, Ying, Sun, Sheng-Nan, and Fan, Zhen-Chuan

Subjects

*BACTERIAL cell membranes, *BACTERIAL growth, *ANTIMICROBIAL peptides, *CHLAMYDOMONAS reinhardtii, *PEPTIDES, *CELL membranes, *CATHELICIDINS

Abstract

Salmonoid cathelicidin (termed CATH_BRALE) is a fish-derived antimicrobial peptide (AMP) isolated from Brachymystax lenok. In this study, CATH_BRALE was expressed in Chlamydomonas reinhardtii as a format of three repeats (3×CATH_BRALE) attached with hemagglutinin (HA) and 6×His at its C-terminus, producing a recombinant peptide with a molecular weight of ∼18 kDa. The recombinant 3×CATH_BRALE-HA-6×His remains to be expressed stably in Chlamydomonas cells even after passaging continuously for five months and yields up to 0.21% of the total Chlamydomonas soluble proteins. 3×CATH_BRALE-HA-6×His showed broad-spectrum antibacterial activity against bacteria, with MIC values ranging from 40 to 50 µg/ml for Gram-negative bacteria and 30–40 µg/ml for Gram-positive bacteria. This recombinant peptide had strong thermostability and pH stability, and its antibacterial activity was rarely altered when temperature and pH are changed. It resisted to the digestion of several tested proteases to certain extents. Besides, 3×CATH_BRALE-HA-6×His is biologically safe as it did not hemolyze rat erythrocytes nor caused cytotoxicity on Vero, BHK21, HEK293, and MDBK cells. Its antibacterial action was achieved by penetrating the cell membrane to disrupt the membrane of the target bacterial cell. In sum, our data showed that C. reinhardtii can be used as a heterologous expression host to produce biologically active CATH_BRALE. [Display omitted] • A multimer termed 3 ×CATH_BRALE was stably expressed in Chlamydomonas reinhardtii. • C. reinhardtii-derived 3 ×CATH_BRALE showed a wide spectrum of antibacterial activity. • C. reinhardtii-derived 3 ×CATH_BRALE was tolerant of temperature, pH, and proteinases. • C. reinhardtii-derived 3 ×CATH_BRALE was not toxic to mammalian and human cells. • C. reinhardtii-derived 3 ×CATH_BRALE permeabilizes the bacterial cell membrane. [ABSTRACT FROM AUTHOR]

Published

2023

120. Cathelicidin CATH-B1 Inhibits Pseudorabies Virus Infection via Direct Interaction and TLR4/JNK/IRF3-Mediated Interferon Activation.

Author

Chao Ye, Chao Wan, Jing Chen, Gang Li, Yixuan Li, Yue Wang, Qi Tao, Lianci Peng, and Rendong Fang

Subjects

*CATHELICIDINS, *AUJESZKY'S disease virus, *VIRUS diseases, *ANTIMICROBIAL peptides, *INTERFERON regulatory factors, *INTERFERONS

Abstract

Pseudorabies virus (PRV), the causative pathogen of Aujeszky's disease, is one of the most important pathogens threatening the global pig industry. Although vaccination has been used to prevent PRV infection, the virus cannot be eliminated in pigs. Thus, novel antiviral agents as complementary to vaccination are urgently needed. Cathelicidins (CATHs) are host defense peptides that play an important role in the host immune response against microbial infections. In the study, we found that the chemical synthesized chicken cathelicidin B1 (CATH-B1) could inhibit PRV regardless of whether CATH-B1 was added pre-, co-, or post-PRV infection in vitro and in vivo. Furthermore, coincubation of CATH-B1 with PRV directly inactivated virus infection by disrupting the virion structure of PRV and mainly inhibited virus binding and entry. Importantly, pretreatment of CATH-B1 markedly strengthened the host antiviral immunity, as indicated by the increased expression of basal interferon-β (IFN-β) and several IFN-stimulated genes (ISGs). Subsequently, we investigated the signaling pathway responsible for CATH-B1-induced IFN-β production. Our results showed that CATH-B1 induced phosphorylation of interferon regulatory transcription factor 3 (IRF3) and further led to production of IFN-β and reduction of PRV infection. Mechanistic studies revealed that the activation of Toll-like receptor 4 (TLR4), endosome acidification, and the following c-Jun N-terminal kinase (JNK) was responsible for CATH-B1-induced IRF3/IFN-β pathway activation. Collectively, CATH-B1 could markedly inhibit PRV infection via inhibiting virus binding and entry, direct inactivation, and regulating host antiviral response, which provided an important th [ABSTRACT FROM AUTHOR]

Published

2023

121. Boosting stability and therapeutic potential of proteolysis-resistant antimicrobial peptides by end-tagging β-naphthylalanine.

Author

He, Shiqi, Yang, Zhanyi, Li, Xuefeng, Wu, Hua, Zhang, Licong, Shan, Anshan, and Wang, Jiajun

Subjects

ANTIMICROBIAL peptides, BACTERIAL cell membranes, PEPTIDE antibiotics, BACTERIAL cell walls, BACTERIAL metabolism, AMINO acids, CATHELICIDINS

Abstract

Recently, much emphasis has been placed on solving the intrinsic defects of antimicrobial peptides (AMPs), especially their susceptibility to protease digestion for the systemic application of antibacterial biomaterials. Although many strategies have increased the protease stability of AMPs, antimicrobial activity was severely compromised, thereby substantially weakening their therapeutic effect. To address this issue, we introduced hydrophobic group modifications at the N-terminus of proteolysis-resistant AMPs D1 (AArIIlrWrFR) through end-tagging with stretches of natural amino acids (W and I), unnatural amino acid (Nal) and fatty acids. Of these peptides, N1 tagged with a Nal at N-terminus showed the highest selectivity index (GM SI =19.59), with a 6.73-fold improvement over D1. In addition to potent broad-spectrum antimicrobial activity, N1 also exhibited high antimicrobial stability toward salts, serum and proteases in vitro and ideal biocompatibility and therapeutic efficacy in vivo. Furthermore, N1 killed bacteria through multiple mechanisms, involving disruption of bacterial membranes and inhibition of bacterial energy metabolism. Indeed, appropriate terminal hydrophobicity modification opens up new avenues for developing and applying high-stability peptide-based antibacterial biomaterials. To improve the potency and stability of proteolysis-resistant antimicrobial peptides (AMPs) without increasing toxicity, we constructed a convenient and tunable platform based on different compositions and lengths of hydrophobic end modifications. By tagging an Nal at the N-terminal, the obtained target compound N1 exhibited strong antimicrobial activity and desirable stability under multifarious environments in vitro (proteases, salts and serum), and also showed favorable biocompatibility and therapeutic efficacy in viv o. Notably, N1 exerted its bactericidal effect by damaging bacterial cell membranes and inhibiting bacterial energy metabolism in a dual mode. The findings provide a potential method for designing or optimizing proteolysis-resistant AMPs thus promoting the development and application of peptide-based antibacterial biomaterial. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

122. An Unexplored Molecule in the Diagnosis of Allergic Rhinitis: LL-37.

Author

Yıldız, Erkan, Kuzu, Selçuk, Ulu, Şahin, and Kahveci, Orhan Kemal

Subjects

CATHELICIDINS, IMMUNOGLOBULINS, HUMAN research subjects, INFLAMMATION, AGE distribution, RHINITIS, DIFFERENTIAL diagnosis, HEALTH outcome assessment, MANN Whitney U Test, SEX distribution, INFORMED consent (Medical law), COMPARATIVE studies, ENZYME-linked immunosorbent assay, CHI-squared test, DESCRIPTIVE statistics, DATA analysis software, PEPTIDES, CENTRIFUGATION, BLOOD

Abstract

Objective: Cathelicidin (LL-37) is an innate immune endogenous peptide. Although its activity has been proven in many diseases in the literature, there is no information about the role of LL-37 in allergic rhinitis. It acts as an immunomodulator for the emergence of inflammatory molecules in allergic rhinitis. Methods: A total of 40 patients with allergic rhinitis and 40 control patients without any known disease were treated in the otorhinolaryngology clinic. At the end of the study, the relationship between serum cathelicidin level and disease was revealed. Results: Total immunoglobulin E levels were 268 Iµ/L for the allergic rhinitis group and 10.2 for the control group. There was a significant difference between the 2 groups in terms of immunoglobulin E (<.001). Levels of LL-37 were 4.67 (2.1-7.2) for the allergic rhinitis group and 2.8 (2.1-5.4) for the control group. There was a significant difference between the 2 groups in terms of LL-37 (<.001). Conclusion: This study showed that cathelicidin (LL-37) is an eosinophilic activating peptide. The inflammatory process of LL-37 has been shown to be responsible for tissue damage in allergic rhinitis. [ABSTRACT FROM AUTHOR]

Published

2023

123. Antimicrobial and Defense Proteins in Chronic Rhinosinusitis with Nasal Polyps.

Author

Viksne, Rudolfs Janis, Sumeraga, Gunta, and Pilmane, Mara

Subjects

NASAL polyps, NASAL tumors, ENDOSCOPIC surgery, ANTIMICROBIAL peptides, SINUSITIS, NASAL mucosa, CONNECTIVE tissues, EPITHELIUM

Abstract

Background and Objectives: Chronic rhinosinusitis with nasal polyps (CRSwNP) presently remains a difficult disease to manage. Antimicrobial and defense proteins are important factors that could help characterize the role of microorganisms in CRSwNP pathogenesis, as the concept of microbial dysbiosis in CRS is still being considered. Our aim is to investigate the complex appearance, relative distribution and interlinks of human β defensin 2 (HBD-2), human β defensin 3 (HBD-3), human β defensin 4 (HBD-4), and cathelicidin LL 37 (LL 37) in chronic rhinosinusitis with nasal polyps (CRSwNP)-affected human nasal mucosa. Materials and Methods: The study group consisted of 48 samples from patients with CRSwNP. Samples were collected during functional endoscopic sinus surgery. The control group consisted of 17 normal healthy nasal mucosa samples gathered during routine septoplasty. β-defensin-2, β-defensin-3, β-defensin-4 and cathelicidin LL 37 in tissue were detected via immunohistochemical analysis. Results: HBD-2, HBD-3 and LL 37 were significantly decreased in epithelial cells in both primary and recurrent nasal polyp samples (p < 0.001) in comparison to control samples. HBD-2 was decreased in the subepithelial connective tissue of primary nasal polyp samples when compared to both recurrent polyp (p = 0.050) and control (p = 0.033) samples. In subepithelial connective tissue, significantly more HBD-3-positive structures were observed in primary nasal polyp samples (p = 0.049) than in control samples. In primary polyp samples, moderate correlations between connective tissue HBD-3 and connective (R = 0.584, p = 0.001) and epithelial tissue LL 37 (R = 0.556, p = 0.002) were observed. Conclusions: Decreased HBD-2, HBD-3 and LL 37 concentrations in the epithelium suggest a dysfunction of the epithelial barrier in patients with nasal polyps. Decreased subepithelial connective tissue HBD-2 suggests different responses to nasal microbiota in patients with primary nasal polyps compared to recurrent nasal polyps. Increased HBD-3 in subepithelial connective tissue suggests a possible role of this antimicrobial peptide in the pathogenesis of primary nasal polyps. [ABSTRACT FROM AUTHOR]

Published

2023

124. High expression of antimicrobial peptides cathelicidin-BF in Pichia pastoris and verification of its activity.

Author

Xufeng Dong, Hu Shan, Shubai Wang, Zhengjun Jiang, Shaojuan Wang, and Zhihua Qin

Subjects

ANTIMICROBIAL peptides, RECOMBINANT proteins, CATHELICIDINS, PEPTIDE antibiotics, PEPTIDES, PICHIA pastoris, PROTEIN engineering, ANTIBACTERIAL agents, MULTICELLULAR organisms

Abstract

Antibacterial peptides are endogenous polypeptides produced by multicellular organisms to protect the host against pathogenic microbes, they show broad spectrum antimicrobial activities against various microorganisms and possess low propensity for developing resistance. The purpose of this study is to develop recombinant antibacterial peptide cathelicidin-BF by genetic engineering and protein engineering technology, and study its antibacterial activity in vitro and in vivo, so as to provide reference for the production and application of recombinant antibacterial peptide cathelicidin-BF. In this study, on account of Pichia pastoris eukaryotic expression system, we expressed and prepared antibacterial peptide cathelicidin-BF. Then, the minimum inhibitory concentration of antibacterial peptide cathelicidin-BF and the comparison with the antibacterial activity of antibiotics were determined through the antibacterial experiment in vitro. Chickens as infection model were used to verify the antibacterial peptide activity in vivo. The results show that the bacteriostatic ability of antibacterial peptide cathelicidin-BF is similar to that of antibiotics in certain concentration, and can reach the treatment level of antibiotics. Although the mode of administration of antibacterial peptide is still limited, this study can provide reference for the future research of antibacterial peptide. [ABSTRACT FROM AUTHOR]

Published

2023

125. Unique Peptides of Cathelicidin-1 in the Early Detection of Mastitis—In Silico Analysis.

Author

Bourganou, Maria V., Kontopodis, Evangelos, Tsangaris, George Th., Pierros, Vasileios, Vasileiou, Natalia G. C., Mavrogianni, Vasia S., Fthenakis, George C., and Katsafadou, Angeliki I.

Subjects

*CATHELICIDINS, *PEPTIDES, *MASTITIS, *PROTEIN structure, *PROTEOMICS, *AMINO acids, *SHEEP milk

Abstract

Based on the results of previously performed clinical studies, cathelicidin-1 has been proposed as a potential biomarker for the early diagnosis of mastitis in ewes. It has been hypothesized that the detection of unique peptides (defined as a peptide, irrespective of its length, that exists in only one protein of a proteome of interest) and core unique peptides (CUPs) (representing the shortest peptide that is unique) of cathelicidin-1 may potentially improve its identification and consequently the diagnosis of sheep mastitis. Peptides of sizes larger than those of the size of CUPs, which include consecutive or over-lapping CUPs, have been defined as 'composite core unique peptides' (CCUPs). The primary objective of the present study was the investigation of the sequence of cathelicidin-1 detected in ewes' milk in order to identify its unique peptides and core unique peptides, which would reveal potential targets for accurate detection of the protein. An additional objective was the detection of unique sequences among the tryptic digest peptides of cathelicidin-1, which would improve accuracy of identification of the protein when performing targeted MS-based proteomics. The potential uniqueness of each peptide of cathelicidin-1 was investigated using a bioinformatics tool built on a big data algorithm. A set of CUPs was created and CCUPs were also searched. Further, the unique sequences in the tryptic digest peptides of cathelicidin-1 were also detected. Finally, the 3D structure of the protein was analyzed from predicted models of proteins. In total, 59 CUPs and four CCUPs were detected in cathelicidin-1 of sheep origin. Among tryptic digest peptides, there were six peptides that were unique in that protein. After 3D structure analysis of the protein, 35 CUPs were found on the core of cathelicidin-1 of sheep origin and among them, 29 were located on amino acids in regions of the protein with 'very high' or 'confident' estimates of confidence of the structure. Ultimately, the following six CUPs: QLNEQ, NEQS, EQSSE, QSSEP, EDPD, DPDS, are proposed as potential antigenic targets for cathelicidin-1 of sheep. Moreover, another six unique peptides were detected in tryptic digests and offer novel mass tags to facilitate the detection of cathelicidin-1 during MS-based diagnostics. [ABSTRACT FROM AUTHOR]

Published

2023

126. Optimization of antimicrobial peptides for the application against biocorrosive bacteria.

Author

Stillger, L., Viau, L., Kamm, L., Holtmann, D., and Müller, D.

Subjects

*ANTIMICROBIAL peptides, *MICROBIOLOGICALLY influenced corrosion, *DETERIORATION of metals, *PEPTIDES, *LEUCINE, *TRYPTOPHAN, *SULFATE-reducing bacteria, *CATHELICIDINS

Abstract

Microbiologically influenced corrosion is a common problem in the industrial field due to the deterioration of metals in the presence of various microorganisms, in particular sulfate-reducing bacteria (SRB) and sulfur-oxidizing bacteria (SOB). A common method to reduce microbiologically influenced corrosion is the application of biocides. The limited number of suitable biocides and the resulting development of resistance, high dosage, and high application rate hinder an effective application. An environmentally friendly alternative could be the application of antimicrobial peptides (AMP), which have already been established in the field of medical devices for a while. Here, the successful treatment of different AMPs against 3 SRB and 1 SOB was demonstrated. The peptide L5K5W was favored due to its broad activity, high stability, and simple structure resulting in low synthesis costs. An alanine scan showed that substitution of leucine with tryptophan increased the activity of this peptide twofold compared to the original peptide against D. vulgaris, the main representative of SRB. Additional optimization of this modified peptide through changes in amino acid composition and lipidations significantly increased the effectiveness, finally resulting in a minimum inhibitory concentration (MIC) of 15.63 μg/mL against Desulfovibrio vulgaris. Even against the marine SRB Desulfovibrio indonesiensis with a required salt concentration of min. 2%, an activity of the peptides can be observed (MIC: 31.25 μg/mL). The peptides also remained stable and active for 7 days in the supernatant of the bacterial culture. Key points: • Antimicrobial peptides provide an alternative to combat biocorrosive bacteria. • Optimization of the peptide sequence leads to a significant increase in activity. • The investigated peptides exhibit high stability, both in the medium and in the bacterial supernatant. [ABSTRACT FROM AUTHOR]

Published

2023

127. Damage-associated molecular patterns and fibrinolysis perturbation are associated with lethal outcomes in traumatic injury.

Author

Shimono, Kenshin, Ito, Takashi, Kamikokuryo, Chinatsu, Niiyama, Shuhei, Yamada, Shingo, Onishi, Hirokazu, Yoshihara, Hideaki, Maruyama, Ikuro, and Kakihana, Yasuyuki

Subjects

*INJURY complications, *PROTEINS, *CATHELICIDINS, *SCIENTIFIC observation, *BLOOD transfusion, *INFLAMMATION, *BLOOD coagulation, *BLOOD collection, *FIBRINOLYSIS, *TREATMENT effectiveness, *FIBRIN, *HOSPITAL mortality, *RESEARCH funding, *BLOOD coagulation factors, *THROMBIN

Abstract

Background: Upon cellular injury, damage-associated molecular patterns (DAMPs) are released into the extracellular space and evoke proinflammatory and prothrombotic responses in animal models of sterile inflammation. However, in clinical settings, the dynamics of DAMP levels after trauma and links between DAMPs and trauma-associated coagulopathy remain largely undetermined. Methods: Thirty-one patients with severe trauma, who were transferred to Kagoshima City Hospital between June 2018 and December 2019, were consecutively enrolled in this study. Blood samples were taken at the time of delivery, and 6 and 12 h after the injury, and once daily thereafter. The time-dependent changes of coagulation/fibrinolysis markers, including thrombin-antithrombin complex, α2-plasmin inhibitor (α2-PI), plasmin-α2-PI complex, and plasminogen activator inhibitor-1 (PAI-1), and DAMPs, including high mobility group box 1 and histone H3, were analyzed. The relationship between coagulation/fibrinolysis markers, DAMPs, Injury Severity Score, in-hospital death, and amount of blood transfusion were analyzed. Results: The activation of coagulation/fibrinolysis pathways was evident at the time of delivery. In contrast, PAI-1 levels remained low at the time of delivery, and then were elevated at 6–12 h after traumatic injury. Histone H3 and high mobility group box 1 levels were elevated at admission, and gradually subsided over time. PAI-1 levels at 6 h were associated with serum histone H3 levels at admission. Increased histone H3 levels and plasmin-α2-PI complex levels were associated with in-hospital mortality. α2-PI levels at admission showed the strongest negative correlation with the amount of blood transfusion. Conclusion: The elevation of histone H3 levels and fibrinolysis perturbation are associated with fatal outcomes in patients with traumatic injury. Patients with low α2-PI levels at admission tend to require blood transfusion. [ABSTRACT FROM AUTHOR]

Published

2023

128. Evaluation of SARS-CoV-2 isolation in cell culture from nasal/nasopharyngeal swabs or saliva specimens of patients with COVID-19.

Author

Yazawa, Shunsuke, Yamazaki, Emiko, Saga, Yumiko, Itamochi, Masae, Inasaki, Noriko, Shimada, Takahisa, Oishi, Kazunori, and Tani, Hideki

Subjects

*COVID-19, *CELL separation, *CATHELICIDINS, *SALIVA, *SARS-CoV-2, *VIRAL genomes, *NASAL mucosa, *CELL culture

Abstract

It has been revealed that SARS-CoV-2 can be efficiently isolated from clinical specimens such as nasal/nasopharyngeal swabs or saliva in cultured cells. In this study, we examined the efficiency of viral isolation including SARS-CoV-2 mutant strains between nasal/nasopharyngeal swab or saliva specimens. Furthermore, we also examined the comparison of viral isolation rates by sample species using simulated specimens for COVID-19. As a result, it was found that the isolation efficiency of SARS-CoV-2 in the saliva specimens was significantly lower than that in the nasal/nasopharyngeal swab specimens. In order to determine which component of saliva is responsible for the lower isolation rate of saliva specimens, we tested the abilities of lactoferrin, amylase, cathelicidin, and mucin, which are considered to be abundant in saliva, to inhibit the infection of SARS-CoV-2 pseudotyped viruses (SARS-CoV-2pv). Lactoferrin and amylase were found to inhibit SARS-CoV-2pv infection. In conclusion, even if the same number of viral genome copies was detected by the real-time RT-PCR test, infection of SARS-CoV-2 present in saliva is thought to be inhibited by inhibitory factors such as lactoferrin and amylase, compared to nasal/nasopharyngeal swab specimens. [ABSTRACT FROM AUTHOR]

Published

2023

129. Understanding the Role of Antimicrobial Peptides in Neutrophil Extracellular Traps Promoting Autoimmune Disorders.

Author

Biswas, Soma, Sarojini, Suma, Jayaram, Saranya, Philip, Indhu, Umesh, Mridul, Mascarenhas, Roseanne, Pappuswamy, Manikantan, Balasubramanian, Balamuralikrishnan, and Arokiyaraj, Selvaraj

Subjects

*AUTOIMMUNE diseases, *ANTIMICROBIAL peptides, *NEUTROPHILS, *MYELOID cells, *DENDRITIC cells, *DEFENSINS, *OLIGOPEPTIDES, *CATHELICIDINS

Abstract

AMPs are small oligopeptides acting as integral elements of the innate immune system and are of tremendous potential in the medical field owing to their antimicrobial and immunomodulatory activities. They offer a multitude of immunomodulatory properties such as immune cell differentiation, inflammatory responses, cytokine production, and chemoattraction. Aberrancy in neutrophil or epithelial cell-producing AMPs leads to inflammation culminating in various autoimmune responses. In this review, we have tried to explore the role of prominent mammalian AMPs—defensins and cathelicidins, as immune regulators with special emphasis on their role in neutrophil extracellular traps which promotes autoimmune disorders. When complexed with self-DNA or self-RNA, AMPs act as autoantigens which activate plasmacytoid dendritic cells and myeloid dendritic cells leading to the production of interferons and cytokines. These trigger a series of self-directed inflammatory reactions, leading to the emergence of diverse autoimmune disorders. Since AMPs show both anti- and pro-inflammatory abilities in different ADs, there is a dire need for a complete understanding of their role before developing AMP-based therapy for autoimmune disorders. [ABSTRACT FROM AUTHOR]

Published

2023

130. Phosphorylcholine and KR12-Containing Corneal Implants in HSV-1-Infected Rabbit Corneas.

Author

Malhotra, Kamal, Buznyk, Oleksiy, Islam, Mohammad Mirazul, Edin, Elle, Basu, Sankar, Groleau, Marc, Dégué, Delali Shana, Fagerholm, Per, Fois, Adrien, Lesage, Sylvie, Jangamreddy, Jaganmohan R., Šimoliūnas, Egidijus, Liszka, Aneta, Patra, Hirak K., and Griffith, May

Subjects

*CORNEAL transplantation, *NERVOUS system regeneration, *EPITHELIAL cell culture, *CORNEA, *HUMAN cell culture, *CATHELICIDINS, *RABBITS

Abstract

Severe HSV-1 infection can cause blindness due to tissue damage from severe inflammation. Due to the high risk of graft failure in HSV-1-infected individuals, cornea transplantation to restore vision is often contraindicated. We tested the capacity for cell-free biosynthetic implants made from recombinant human collagen type III and 2-methacryloyloxyethyl phosphorylcholine (RHCIII-MPC) to suppress inflammation and promote tissue regeneration in the damaged corneas. To block viral reactivation, we incorporated silica dioxide nanoparticles releasing KR12, the small bioactive core fragment of LL37, an innate cationic host defense peptide produced by corneal cells. KR12 is more reactive and smaller than LL37, so more KR12 molecules can be incorporated into nanoparticles for delivery. Unlike LL37, which was cytotoxic, KR12 was cell-friendly and showed little cytotoxicity at doses that blocked HSV-1 activity in vitro, instead enabling rapid wound closure in cultures of human epithelial cells. Composite implants released KR12 for up to 3 weeks in vitro. The implant was also tested in vivo on HSV-1-infected rabbit corneas where it was grafted by anterior lamellar keratoplasty. Adding KR12 to RHCIII-MPC did not reduce HSV-1 viral loads or the inflammation resulting in neovascularization. Nevertheless, the composite implants reduced viral spread sufficiently to allow stable corneal epithelium, stroma, and nerve regeneration over a 6-month observation period. [ABSTRACT FROM AUTHOR]

Published

2023

131. Creation of New Antimicrobial Peptides.

Author

Galzitskaya, Oxana V.

Subjects

*ANTIMICROBIAL peptides, *PEPTIDE antibiotics, *PEPTIDOMIMETICS, *RIBOSOMAL proteins, *VIRAL proteins, *CATHELICIDINS, *PEPTIDES

Abstract

Disulfide-cyclized peptides (for example, C SB 16 sb -CKRKKC-NH SB 2 sb ) have shown high activity against biofilms of Candida strains, which opens prospects for the use of such antimicrobial peptides in polymers and biomaterials in medicine. 10.3390/ijms21176216 10 Hansen I.K.Ø., Lövdahl T., Simonovic D., Hansen K.Ø., Andersen A.J.C., Devold H., Richard C.S.M., Andersen J.H., Strøm M.B., Haug T. Antimicrobial Activity of Small Synthetic Peptides Based on the Marine Peptide Turgencin A: Prediction of Antimicrobial Peptide Sequences in a Natural Peptide and Strategy for Optimization of Potency. Antimicrobial peptides (AMPs) are natural compounds that exhibit potent antimicrobial activity against various microorganisms, including bacteria, fungi, and viruses. The mechanism of action of such amyloidogenic peptides with antimicrobial activity was also proposed, which is based on the directed aggregation of the peptide with the functionally important S1 ribosomal protein. [Extracted from the article]

Published

2023

132. Evaluation of the antileishmanial effect of polyclonal antibodies and cationic antimicrobial peptides.

Author

Esmaeilifallah, Mahsa, Khanahmad, Hossein, Ghayour, Zahra, Saberi, Sedighe, Kalantari, Reza, and Hejazi, Seyed Hossein

Subjects

ANTIMICROBIAL peptides, IMMUNOGLOBULINS, LEISHMANIA major, TROPICAL medicine, COMMUNICABLE diseases, CATHELICIDINS

Abstract

Leishmaniasis is one of the tropical and subtropical diseases which, according to WHO, has the priority of control. The list of anti-leishmanial drugs is limited and requires side effects, high costs, and long-term treatments. Various species, parasite resistance, and simultaneous diseases are among the factors that affect the effectiveness of treatment. Due to these problems and based on satisfactory records of previous studies using antimicrobial peptides (AMPs) against infectious diseases, this study aimed to evaluate the antileishmanial effect of Leishmania-infected macrophage polyclonal antibody (LIMPA) with or without different concentrations (2, 4, 6, 8, 10, 20, 40, 60, and 100 µg/ml) of CM11 and (40, 80, and 100 µg/ml) BufIIIb, two AMPs, in vitro and their therapeutic effects against CL of Balb/c mice. Results showed that LIMPA induced an anti-proliferative effect on Leishmania major growth in macrophages in vitro and intramacrophage-amastigotes in vivo. CM11 with IC50 of 8.73 and 10.10 μg/ml at 48 hours, and BufIIIb with IC50 of 66.83 and 80.26 μg/ml, at 24 hours showed the most significant inhibition of L. major promastigotes and amastigotes. In addition, the CM11 and BufIIIb, with a CC50 of 9.7 μg/ml and 40.34 μg/ml, showed the most significant inhibition effect on the J774.A1 cell line at 48 hours, respectively. In addition, in vivo experiments using LIMPA with a 0.01 mg/kg dosage showed a significant difference (p < 0.001) in the last week of the measurement compared to the control. The results of this study may be a promising prospect for further investigations. [ABSTRACT FROM AUTHOR]

Published

2023

133. MECHANISMS IN ENDOCRINOLOGY: Vitamin D and COVID-19

Author

Bilezikian, John P, Bikle, Daniel, Hewison, Martin, Lazaretti-Castro, Marise, Formenti, Anna Maria, Gupta, Aakriti, Madhavan, Mahesh V, Nair, Nandini, Babalyan, Varta, Hutchings, Nicholas, Napoli, Nicola, Accili, Domenico, Binkley, Neil, Landry, Donald W, and Giustina, Andrea

Subjects

Reproductive Medicine, Biomedical and Clinical Sciences, Clinical Sciences, Biodefense, Lung, Vaccine Related, Emerging Infectious Diseases, Nutrition, Infectious Diseases, Prevention, Good Health and Well Being, Adaptive Immunity, Antimicrobial Cationic Peptides, Autophagy, Betacoronavirus, COVID-19, Coronavirus Infections, Cytokine Release Syndrome, Defensins, Humans, Immunity, Innate, Immunocompetence, Pandemics, Pneumonia, Viral, SARS-CoV-2, T-Lymphocytes, T-Lymphocytes, Regulatory, Th1 Cells, Th17 Cells, Th2 Cells, Vitamin D, Cathelicidins, Paediatrics and Reproductive Medicine, Endocrinology & Metabolism, Clinical sciences, Reproductive medicine

Abstract

The SARS-CoV-2 virus responsible for the COVID-19 pandemic has generated an explosion of interest both in the mechanisms of infection leading to dissemination and expression of this disease, and in potential risk factors that may have a mechanistic basis for disease propagation or control. Vitamin D has emerged as a factor that may be involved in these two areas. The focus of this article is to apply our current understanding of vitamin D as a facilitator of immunocompetence both with regard to innate and adaptive immunity and to consider how this may relate to COVID-19 disease. There are also intriguing potential links to vitamin D as a factor in the cytokine storm that portends some of the most serious consequences of SARS-CoV-2 infection, such as the acute respiratory distress syndrome. Moreover, cardiac and coagulopathic features of COVID-19 disease deserve attention as they may also be related to vitamin D. Finally, we review the current clinical data associating vitamin D with SARS-CoV-2 infection, a putative clinical link that at this time must still be considered hypothetical.

Published

2020

134. Host Cathelicidin Exacerbates Group B Streptococcus Urinary Tract Infection

Author

Patras, Kathryn A, Coady, Alison, Babu, Priyanka, Shing, Samuel R, Ha, Albert D, Rooholfada, Emma, Brandt, Stephanie L, Geriak, Matthew, Gallo, Richard L, and Nizet, Victor

Subjects

Urologic Diseases, Prevention, Infectious Diseases, Diabetes, Aetiology, 2.1 Biological and endogenous factors, Metabolic and endocrine, Infection, Good Health and Well Being, Animals, Antimicrobial Cationic Peptides, Cell Line, Diabetes Mellitus, Experimental, Diabetes Mellitus, Type 2, Female, Humans, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Pregnancy, Streptococcal Infections, Streptococcus, Symptom Flare Up, Urinary Bladder, Urinary Tract Infections, Cathelicidins, cathelicidin, group B Streptococcus, innate immunity, mast cell, urinary tract infection, group B Streptococcus, Immunology, Microbiology

Abstract

Group B Streptococcus (GBS) causes frequent urinary tract infection (UTI) in susceptible populations, including individuals with type 2 diabetes and pregnant women; however, specific host factors responsible for increased GBS susceptibility in these populations are not well characterized. Here, we investigate cathelicidin, a cationic antimicrobial peptide, known to be critical for defense during UTI with uropathogenic Escherichia coli (UPEC). We observed a loss of antimicrobial activity of human and mouse cathelicidins against GBS and UPEC in synthetic urine and no evidence for increased cathelicidin resistance in GBS urinary isolates. Furthermore, we found that GBS degrades cathelicidin in a protease-dependent manner. Surprisingly, in a UTI model, cathelicidin-deficient (Camp-/-) mice showed decreased GBS burdens and mast cell recruitment in the bladder compared to levels in wild-type (WT) mice. Pharmacologic inhibition of mast cells reduced GBS burdens and histamine release in WT but not Camp-/- mice. Streptozotocin-induced diabetic mice had increased bladder cathelicidin production and mast cell recruitment at 24 h postinfection with GBS compared to levels in nondiabetic controls. We propose that cathelicidin is an important immune regulator but ineffective antimicrobial peptide against GBS in urine. Combined, our findings may in part explain the increased frequency of GBS UTI in diabetic and pregnant individuals.IMPORTANCE Certain populations such as diabetic individuals are at increased risk for developing urinary tract infections (UTI), although the underlying reasons for this susceptibility are not fully known. Additionally, diabetics are more likely to become infected with certain types of bacteria, such as group B Streptococcus (GBS). In this study, we find that an antimicrobial peptide called cathelicidin, which is thought to protect the bladder from infection, is ineffective in controlling GBS and alters the type of immune cells that migrate to the bladder during infection. Using a mouse model of diabetes, we observe that diabetic mice are more susceptible to GBS infection even though they also have more infiltrating immune cells and increased production of cathelicidin. Taken together, our findings identify this antimicrobial peptide as a potential contributor to increased susceptibility of diabetic individuals to GBS UTI.

Published

2020

135. A mouse model for vitamin D-induced human cathelicidin antimicrobial peptide gene expression

Author

Lowry, Malcolm B, Guo, Chunxiao, Zhang, Yang, Fantacone, Mary L, Logan, Isabelle E, Campbell, Yan, Zhang, Weijian, Le, Mai, Indra, Arup K, Ganguli-Indra, Gitali, Xie, Jingwei, Gallo, Richard L, Koeffler, H Phillip, and Gombart, Adrian F

Subjects

Infectious Diseases, Emerging Infectious Diseases, Biotechnology, Complementary and Integrative Health, Genetics, Nutrition, 1.1 Normal biological development and functioning, Underpinning research, Animals, Antimicrobial Cationic Peptides, Cholecalciferol, Female, Gene Expression Profiling, Gene Expression Regulation, Humans, Immunity, Innate, Lipopolysaccharides, Macrophages, Male, Mice, Mice, Inbred C57BL, Mice, Inbred DBA, Mice, Transgenic, Phagocytes, Phagocytosis, Salmonella typhimurium, Signal Transduction, Skin, Staphylococcal Infections, Staphylococcus aureus, Transgenes, Vitamin D, Vitamin D Response Element, Cathelicidin, Macrophage, Innate immunity, TLR, Cyp27b1, Cathelicidins, Analytical Chemistry, Biochemistry and Cell Biology, Endocrinology & Metabolism

Abstract

In humans and other primates, 1,25(OH)2vitamin D3 regulates the expression of the cathelicidin antimicrobial peptide (CAMP) gene via toll-like receptor (TLR) signaling that activates the vitamin D pathway. Mice and other mammals lack the vitamin D response element (VDRE) in their CAMP promoters. To elucidate the biological importance of this pathway, we generated transgenic mice that carry a genomic DNA fragment encompassing the entire human CAMP gene and crossed them with Camp knockout (KO) mice. We observed expression of the human transgene in various tissues and innate immune cells. However, in mouse CAMP transgenic macrophages, TLR activation in the presence of 25(OH)D3 did not induce expression of either CAMP or CYP27B1 as would normally occur in human macrophages, reinforcing important species differences in the actions of vitamin D. Transgenic mice did show increased resistance to colonization by Salmonella typhimurium in the gut. Furthermore, the human CAMP gene restored wound healing in the skin of Camp KO mice. Topical application of 1,25(OH)2vitamin D3 to the skin of CAMP transgenic mice induced CAMP expression and increased killing of Staphylococcus aureus in a wound infection model. Our model can help elucidate the biological importance of the vitamin D-cathelicidin pathway in both pathogenic and non-pathogenic states.

Published

2020

136. Innate Immune Dysfunction in Rosacea Promotes Photosensitivity and Vascular Adhesion Molecule Expression

Author

Kulkarni, Nikhil N, Takahashi, Toshiya, Sanford, James A, Tong, Yun, Gombart, Adrian F, Hinds, Brian, Cheng, Joyce Y, and Gallo, Richard L

Subjects

Genetics, 2.1 Biological and endogenous factors, Aetiology, Animals, Antimicrobial Cationic Peptides, Biopsy, Cell Adhesion, Cell Line, Cell Movement, Disease Models, Animal, Endothelial Cells, Endothelium, Vascular, Female, Gene Expression Regulation, Humans, Immunity, Innate, Keratinocytes, Mice, Mice, Transgenic, Microvessels, Photosensitivity Disorders, RNA, Double-Stranded, RNA, Small Nuclear, Rosacea, Signal Transduction, Skin, THP-1 Cells, Ultraviolet Rays, Vascular Cell Adhesion Molecule-1, Cathelicidins, Clinical Sciences, Oncology and Carcinogenesis, Dermatology & Venereal Diseases

Abstract

Rosacea is a chronic skin disease characterized by photosensitivity, abnormal dermal vascular behavior, inflammation, and enhanced expression of the antimicrobial peptide LL-37. We observed that dermal endothelial cells in rosacea had an increased expression of VCAM1 and hypothesized that LL-37 could be responsible for this response. The digestion of double-stranded RNA from keratinocytes exposed to UVB blocked the capacity of these cells to induce adhesion molecules on dermal microvascular endothelial cells. However, a synthetic noncoding snoU1RNA was only capable of increasing adhesion molecules on endothelial cells in the presence of LL-37, suggesting that the capacity of UVB exposure to promote both double-stranded RNA and LL-37 was responsible for the endothelial response to keratinocytes. Sequencing of RNA from the endothelial cells uncovered the activation of Gene Ontology (GO) pathways relevant to the human disease, such as type I and II interferon signaling, cell-cell adhesion, leukocyte chemotaxis, and angiogenesis. Functional relevance was demonstrated as double-stranded RNA and LL-37 promoted adhesion and transmigration of monocytes across the endothelial cell monolayers. Gene knockdown of TLR3, RIGI, or IRF1 decreased monocyte adhesion in endothelial cells, confirming the role of the double-stranded RNA recognition pathways. These observations show how the expression of LL-37 can lead to enhanced sensitivity to UVB radiation in rosacea.

Published

2020

137. The role of the human cathelicidin LL-37 in rhinovirus infection

Author

Henderson Sousa, Filipa and Barlow, Peter

Subjects

616.2, human rhinoviruses, antiviral therapeutics, cathelicidins, host defence peptides, inflammation, infection, host cell responses, 616.2 Respiratory diseases, RC Internal medicine

Abstract

Human rhinoviruses (HRVs) are the most common causes for symptomatic respiratory infections, and have been linked to severe respiratory conditions in children, and in immunocompromised and elderly individuals. Currently there are no specific treatments or vaccination available for HRV infections and novel antiviral therapeutics are urgently required. Cathelicidins are a well-characterized family of Host Defence Peptides (HDP) with potent antibacterial, antiviral and immunomodulatory functions. This study investigates the antiviral activity of the human cathelicidin LL-37 against human rhinovirus together with the capacity of the peptide to modulate inflammation and host cell death in rhinovirus infection. We demonstrate that LL-37 has significant antiviral activity against HRV1B when the virus is exposed to peptide prior to cell infection, and when cells are infected prior to LL-37 treatment, indicating that LL-37 exerts its effects by directly targeting the virus and/or acting on host cells reducing their susceptibility to infection. Cathelicidin-mediated inflammatory pathway modulation was measured via quantification of IL-8, IL-6 and CCL5 gene expression and protein release. Our data indicates that LL-37 can significantly reduce pro-inflammatory gene expression and protein release induced by HRV1B infection in bronchial epithelial cells, when the peptide is exposed to HRV prior to infection. However, LL-37 was shown to increase HRV-induced inflammatory gene expression and protein release by bronchial epithelial cells, when cells were infected prior to LL-37 treatment. This data indicates that the cellular microenvironment and the context of cathelicidin exposure could determine the direction of cellular response to infection. We further demonstrate that LL-37 suppresses induction of apoptotic cell death in HRV-infected cells, which may represent a novel immunomodulatory role for LL-37 in the context of this infection. Taken collectively, these data suggest that cathelicidins represent an exciting therapeutic avenue for rhinovirus infections, via targeting of virus particles and modulation of host cell responses to infection.

Published

2019

138. Functional characterization of the gonococcal polyphosphate pseudo-capsule.

Author

Manca, Benedetta, Buffi, Giada, Magri, Greta, Del Vecchio, Mariangela, Taddei, Anna Rita, Pezzicoli, Alfredo, and Giuliani, Maria

Subjects

*CATHELICIDINS, *ANTIMICROBIAL peptides, *GONORRHEA, *NEISSERIA gonorrhoeae, *COMPLEMENT receptors, *ADENOMATOUS polyps, *DRUG resistance in bacteria

Abstract

Neisseria gonorrhoeae is an exclusively human pathogen able to evade the host immune system through multiple mechanisms. Gonococci accumulate a large portion of phosphate moieties as polyphosphate (polyP) on the exterior of the cell. Although its polyanionic nature has suggested that it may form a protective shield on the cell surface, its role remains controversial. Taking advantage of a recombinant His-tagged polyP-binding protein, the presence of a polyP pseudo-capsule in gonococcus was demonstrated. Interestingly, the polyP pseudo-capsule was found to be present in specific strains only. To investigate its putative role in host immune evasion mechanisms, such as resistance to serum bactericidal activity, antimicrobial peptides and phagocytosis, the enzymes involved in polyP metabolism were genetically deleted, generating mutants with altered polyP external content. The mutants with lower polyP content on their surface compared to the wild-type strains, became sensitive to complement-mediated killing in presence of normal human serum. Conversely, naturally serum sensitive strains that did not display a significant polyP pseudo-capsule became resistant to complement in the presence of exogenous polyP. The presence of polyP pseudo-capsule was also critical in the protection from antibacterial activity of cationic antimicrobial peptide, such as cathelicidin LL-37. Results showed that the minimum bactericidal concentration was lower in strains lacking polyP than in those harboring the pseudo-capsule. Data referring to phagocytic killing resistance, assessed by using neutrophil-like cells, showed a significant decrease in viability of mutants lacking polyP on their cell surface in comparison to the wild-type strain. The addition of exogenous polyP overturned the killing phenotype of sensitive strains suggesting that gonococcus could exploit environmental polyP to survive to complement-mediated, cathelicidin and intracellular killing. Taken together, data presented here indicate an essential role of the polyP pseudo-capsule in the gonococcal pathogenesis, opening new perspective on gonococcal biology and more effective treatments. Author summary: Innate immunity plays a key role in the clearance of Neisseria gonorrhoeae. However, the complex molecular mechanisms evolved by N. gonorrhoeae to evade the host immune system are still an open-ended question. Moreover, the antibiotic resistance crisis highlights its public health relevance thriving for a deeper understanding of gonococcal pathogenesis to advance our chance to defeat gonococcal infections. Polyphosphate (polyP) is an anionic polymer that N. gonorrhoeae accumulates both internally and externally to the bacterial cell but its role is still controversial. Here, we demonstrate the presence of a surface exposed pseudo-capsule, made of polyP that shields N. gonorrhoeae from strategies put in place by the innate immune response, including complement-mediated bactericidal activity of normal human serum, antibacterial activity of cationic antimicrobial peptides, such as cathelicidin LL-37 and the phagocyte-dependent intracellular killing. Our findings highlight an additional strategy used by N. gonorrhoeae to counteract the host immune system and pave the way to novel approaches to tackle gonococcal infections. [ABSTRACT FROM AUTHOR]

Published

2023

139. Antimicrobial Peptides: Challenging Journey to the Pharmaceutical, Biomedical, and Cosmeceutical Use.

Author

Mazurkiewicz-Pisarek, Anna, Baran, Joanna, and Ciach, Tomasz

Subjects

*ANTIMICROBIAL peptides, *THERAPEUTICS, *ANTINEOPLASTIC agents, *ANTIFUNGAL agents, *ANTIBACTERIAL agents, *VIRUS diseases, *ANTIVIRAL agents, *PEPTIDE antibiotics, *CATHELICIDINS

Abstract

Antimicrobial peptides (AMPs), or host defence peptides, are short proteins in various life forms. Here we discuss AMPs, which may become a promising substitute or adjuvant in pharmaceutical, biomedical, and cosmeceutical uses. Their pharmacological potential has been investigated intensively, especially as antibacterial and antifungal drugs and as promising antiviral and anticancer agents. AMPs exhibit many properties, and some of these have attracted the attention of the cosmetic industry. AMPs are being developed as novel antibiotics to combat multidrug-resistant pathogens and as potential treatments for various diseases, including cancer, inflammatory disorders, and viral infections. In biomedicine, AMPs are being developed as wound-healing agents because they promote cell growth and tissue repair. The immunomodulatory effects of AMPs could be helpful in the treatment of autoimmune diseases. In the cosmeceutical industry, AMPs are being investigated as potential ingredients in skincare products due to their antioxidant properties (anti-ageing effects) and antibacterial activity, which allows the killing of bacteria that contribute to acne and other skin conditions. The promising benefits of AMPs make them a thrilling area of research, and studies are underway to overcome obstacles and fully harness their therapeutic potential. This review presents the structure, mechanisms of action, possible applications, production methods, and market for AMPs. [ABSTRACT FROM AUTHOR]

Published

2023

140. The Combination of Synoeca-MP Antimicrobial Peptide with IDR-1018 Stimulates Proliferation, Migration, and the Expression of Pro-Regenerative Genes in Both Human Skin Cell Cultures and 3D Skin Equivalents.

Author

Alencar-Silva, Thuany, Díaz-Martín, Rubén D., Zonari, Alessandra, Foyt, Daniel, Guiang, Mylieneth, Pogue, Robert, Saldanha-Araujo, Felipe, Dias, Simoni Campos, Franco, Octavio Luiz, and Carvalho, Juliana Lott

Subjects

*ANTIMICROBIAL peptides, *HUMAN cell culture, *SKIN regeneration, *CELL culture, *PEPTIDES, *HUMAN genes, *GENE expression, *CATHELICIDINS

Abstract

In skin lesions, the development of microbial infection affects the healing process, increasing morbidity and mortality rates in patients with severe burns, diabetic foot, and other types of skin injuries. Synoeca-MP is an antimicrobial peptide (AMP) that exhibits activity against several bacteria of clinical importance, but its cytotoxicity can represent a problem for its positioning as an effective antimicrobial compound. In contrast, the immunomodulatory peptide IDR-1018 presents low toxicity and a wide regenerative potential due to its ability to reduce apoptotic mRNA expression and promote skin cell proliferation. In the present study, we used human skin cells and a 3D skin equivalent models to analyze the potential of the IDR-1018 peptide to attenuate the cytotoxicity of synoeca-MP, as well as the influence of synoeca-MP/IDR-1018 combination on cell proliferation, regenerative processes, and wound repair. We found that the addition of IDR-1018 significantly improved the biological properties of synoeca-MP on skin cells without modifying its antibacterial activity against S. aureus. Likewise, in both melanocytes and keratinocytes, the treatment with synoeca-MP/IDR-1018 combination induces cell proliferation and migration, while in a 3D human skin equivalent model, it can accelerate wound reepithelization. Furthermore, treatment with this peptide combination generates an up-regulation in the expression of pro-regenerative genes in both monolayer cell cultures and in 3D skin equivalents. This data suggests that the synoeca-MP/IDR-1018 combination possesses a good profile of antimicrobial and pro-regenerative activity, opening the door to the development of new strategies for the treatment of skin lesions. [ABSTRACT FROM AUTHOR]

Published

2023

141. Impacts of PEGylation and Glycosylation on the Biological Properties of Host Defense Peptide IDR1018.

Author

Etayash, Hashem, Yip, Fione, and Hancock, Robert E. W.

Subjects

*PEPTIDES, *ANTIMICROBIAL peptides, *GLYCOSYLATION, *CATHELICIDINS, *POLYETHYLENE glycol, *BACTERIAL diseases

Abstract

The multifunctional properties of host defense peptides (HDPs) make them promising drug candidates to tackle bacterial infections and tissue inflammation. However, these peptides tend to aggregate and can harm host cells at high doses, potentially limiting their clinical use and applications. In this study, we explored the influences of both pegylation and glycosylation on the biocompatibility and biological properties of HDPs, particularly the innate defense regulator IDR1018. Two peptide conjugates were designed by attaching either polyethylene glycol (PEG6) or a glucose moiety to the peptide towards the N-terminus. Significantly, both derivatives reduced the aggregation, hemolysis, and cytotoxicity of the parent peptide by orders of magnitude. In addition, while the pegylated conjugate, PEG6-IDR1018, retained an excellent immunomodulatory profile, similar to that observed for IDR1018 itself, the glycosylated conjugate, Glc-IDR1018, significantly outperformed the parent peptide in inducing anti-inflammatory mediators, MCP1 and IL-1RA and in suppressing the level of lipopolysaccharide-induced proinflammatory cytokine IL-1β. Conversely, the conjugates led to a partial reduction in antimicrobial and antibiofilm activity. These findings underline the impacts of both pegylation and glycosylation on the biological properties of the HDP IDR1018 and indicate the potential of glycosylation to enhance the design of highly effective immunomodulatory peptides. [ABSTRACT FROM AUTHOR]

Published

2023

142. Specific Expression of Antimicrobial Peptides from the Black Soldier Fly in the Midgut of Silkworms (Bombyx mori) Regulates Silkworm Immunity.

Author

Deng, Xuan, Liu, Lianlian, Deng, Jing, and Zha, Xingfu

Subjects

*HERMETIA illucens, *ANTIMICROBIAL peptides, *GALACTOSE, *SILKWORMS, *STAPHYLOCOCCUS aureus infections, *SUCROSE, *PATTERN perception receptors, *CATHELICIDINS

Abstract

Simple Summary: Antimicrobial peptides (AMPs) are major components of the insect innate immune system and are involved in multiple antimicrobial and antiviral responses. The black soldier fly is an insect that has received substantial attention in recent years; however, few functional studies on its antimicrobial peptides have been performed. In this study, we specifically induced the expression of the antimicrobial peptide genes HiCG13551 and Hidiptericin-1 of the black soldier fly in the midgut of silkworms. Hidiptericin-1 expression in the midgut of silkworms helped to enhance its immune response and imparted superior resistance against Staphylococcus aureus infection, while HiCG13551 expression in silkworms tended to weaken the antimicrobial effect. In addition, we performed transcriptome sequencing of midgut tissues after S. aureus infection to explore the expression of immune-related genes in the overexpressed strain and found that endogenous antimicrobial peptides, reactive-oxygen-species-related genes, pattern recognition receptors, and immunomodulatory factors were up-regulated in the silkworms due to the transgenic overexpression of Hidiptericin-1. All these results indicated that the ov-AMP49 had better antibacterial activity. Antimicrobial peptides are molecules with strong antimicrobial activity and are of substantial interest for the immunization of insects. As a type of dipteran insect that can turn organic waste into animal feed, the black soldier fly (BSF) can "turn waste into treasure". In this study, we investigated the antimicrobial activity of the antimicrobial peptide genes, HiCG13551 and Hidiptericin-1, of BSF in silkworms, by overexpressing the genes specifically in the midgut. Changes in the mRNA levels of the transgenic silkworms after infection with Staphylococcus aureus were evaluated using transcriptome sequencing. The results showed that Hidiptericin-1 had stronger antimicrobial activity than HiCG13551. KEGG enrichment analysis showed that the differentially expressed genes in the transgenic overexpressed Hidiptericin-1 silkworm lines from the D9L strain were mainly enriched in the starch and sucrose metabolism, pantothenate and CoA biosynthesis, drug metabolism (other enzymes), biotin metabolism, platinum drug resistance, galactose metabolism, and pancreatic secretion pathways. In addition, immune-related genes were up-regulated in this transgenic silkworm strain. Our study may provide new insights for future immune studies on insects. [ABSTRACT FROM AUTHOR]

Published

2023

143. Engineering lanthipeptides by introducing a large variety of RiPP modifications to obtain new-to-nature bioactive peptides.

Author

Fu, Yuxin, Xu, Yanli, Ruijne, Fleur, and Kuipers, Oscar P

Subjects

*SYNTHETIC biology, *PEPTIDES, *ANTIMICROBIAL peptides, *POST-translational modification, *ENGINEERING, *HIGH throughput screening (Drug development), *CATHELICIDINS

Abstract

Natural bioactive peptide discovery is a challenging and time-consuming process. However, advances in synthetic biology are providing promising new avenues in peptide engineering that allow for the design and production of a large variety of new-to-nature peptides with enhanced or new bioactivities, using known peptides as templates. Lanthipeptides are ribosomally synthesized and post-translationally modified peptides (RiPPs). The modularity of post-translational modification (PTM) enzymes and ribosomal biosynthesis inherent to lanthipeptides enables their engineering and screening in a high-throughput manner. The field of RiPPs research is rapidly evolving, with many novel PTMs and their associated modification enzymes being identified and characterized. The modularity presented by these diverse and promiscuous modification enzymes has made them promising tools for further in vivo engineering of lanthipeptides, allowing for the diversification of their structures and activities. In this review, we explore the diverse modifications occurring in RiPPs and discuss the potential applications and feasibility of combining various modification enzymes for lanthipeptide engineering. We highlight the prospect of lanthipeptide- and RiPP-engineering to produce and screen novel peptides, including mimics of potent non-ribosomally produced antimicrobial peptides (NRPs) such as daptomycin, vancomycin, and teixobactin, which offer high therapeutic potential. [ABSTRACT FROM AUTHOR]

Published

2023

144. Evolutionary diversification of defensins and cathelicidins in birds and primates.

Author

van Dijk, Albert, Guabiraba, Rodrigo, Bailleul, Geoffrey, Schouler, Catherine, Haagsman, Henk P., and Lalmanach, Anne-Christine

Subjects

*DEFENSINS, *ANTIMICROBIAL peptides, *CATHELICIDINS, *PRIMATES, *GENOME size, *CONVERGENT evolution, *BIOLOGICAL adaptation

Abstract

Divergent evolution for more than 310 million years has resulted in an avian immune system that is complex and more compact than that of primates, sharing much of its structure and functions. Not surprisingly, well conserved ancient host defense molecules, such as defensins and cathelicidins, have diversified over time. In this review, we describe how evolution influenced the host defense peptides repertoire, its distribution, and the relationship between structure and biological functions. Marked features of primate and avian HDPs are linked to species-specific characteristics, biological requirements, and environmental challenge. • Genome size restraints governed diversification of avian cathelicidin genes and fewer β-defensin genes. • In contrast to primates, the cathelicidin repertoire is more diverse, but restricted in its distribution. • The conservation of multiple avian cathelicidin genes among different clades infer adaptations to niche biological functions. • β-sheet conservation in primate and avian β-defensins supports a convergent evolution towards receptor-mediated functions. [ABSTRACT FROM AUTHOR]

Published

2023

145. 双肽 (IIb类) 细菌素的结构特点 及其与功能的关系.

Author

赵鹏昊, 尚佳萃, 陈禹含, 段勃帆, and 孟祥晨

Subjects

ANTIMICROBIAL peptides, MEMBRANE proteins, BACTERIOCINS, GRAM-positive bacteria, CLASS actions, PEPTIDE antibiotics, CATHELICIDINS

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

146. Extraction of Novel Bioactive Peptides from Fish Protein Hydrolysates by Enzymatic Reactions.

Author

Ortizo, Rhessa Grace Guanga, Sharma, Vishal, Tsai, Mei-Ling, Wang, Jia-Xiang, Sun, Pei-Pei, Nargotra, Parushi, Kuo, Chia-Hung, Chen, Chiu-Wen, and Dong, Cheng-Di

Subjects

PROTEIN hydrolysates, PEPTIDES, AMINO acid sequence, FISH waste, WASTE recycling, PEPTIDE antibiotics, CATHELICIDINS

Abstract

Bioactive peptides derived from fish the byproduct protein hydrolysate have wide potential as functional food ingredients. The preparation of bioactive peptides is commonly achieved via enzymatic hydrolysis; this is the most preferred method because it has high specificity, fewer residual organic solvents in the product, and it is usually carried out in mild conditions. The use of various enzymes such as proteases is widely practiced in the industry, yet there are various limitations as it is of high cost and there is a limited availability of food-grade enzymes in the market. Moreover, high-throughput purification and the identification analysis of these peptides are currently being studied to further understand the functionality and characterization of the bioactive peptides. This review mainly focuses on the novel bioactive peptides derived from fish protein hydrolysates from various fish wastes and byproducts. The hydrolysis conditions, source of hydrolysate, and amino acid sequence of these novel peptides are presented, along with their corresponding methods of analysis in purification and identification. The use of various enzymes yields novel peptides with potent bioactivities, such as antiproliferative, antimicrobial, antihypertensive, antiglycemic, antitumor, and antioxidative biological functions. The increasing interest in proteomics in marine and aquatic waste utilization continues due to these products' bioactivity and sustainability. [ABSTRACT FROM AUTHOR]

Published

2023

147. Regulatory Role of Human Neutrophil Peptides (HNP1-3) on Interleukin-6 Production in Early Childhood Caries.

Author

Kareem, Sarah Jamal and Al-Ghurabi, Batool Hassan

Subjects

SALIVA analysis, INTERLEUKINS, NATURAL immunity, CATHELICIDINS, ANTIMICROBIAL peptides, CASE-control method, COMPARATIVE studies, ENZYME-linked immunosorbent assay, DESCRIPTIVE statistics, DENTAL caries, DISEASE risk factors, CHILDREN

Abstract

Background: Dental caries is one of preschool children's significant common infectious chronic diseases. Early childhood caries (ECC) is the most prevalent chronic childhood disease worldwide. HNP 1-3 are part of the non-oxidative antimicrobial mechanisms of neutrophils and can increase innate immunity by stimulating pro-inflammatory responses. Interleukin-6 (IL-6) is a pleiotropic cytokine produced by various nonimmune and immune cells responsible for regulating many aspects of the local immune response. Aim of Study: This study was conducted to evaluate the salivary levels of HNP1-3 in children with dental caries and to study the effect of the HNP1-3 level on the secretion of IL-6 in this disease. Materials and Methods: Eighty children 4-5 years old were enrolled in this study. They were divided into two groups; 40 children with ECC as the study group and 40 caries-free children as the control group who matched the study group in age and gender: oral examination and measurement of clinical parameters of caries experience determined by dmfs index. Saliva samples were taken from all subjects. ELISA assay was carried out to estimate salivary levels of HNP1-3 and IL-6. Results: The current study found a significant elevation (P<0.05) in mean levels of HNP1-3 and IL-6 among children with ECC compared to caries-free children. Moreover, salivary HNP1-3 level showed a significant positive correlation with IL-6. On the other hand, there was no significant correlation between HNP1-3 and dmfs, whereas there was a positive correlation with IL-6. Conclusions: These findings indicated that high levels of HNP1-3 and IL-6 may play a crucial essential ECC, and a positive correlation between them confirms the effect of antimicrobial peptides on cytokine production. [ABSTRACT FROM AUTHOR]

Published

2023

148. Fighting pathogens in two battlefields: Antimicrobial defenses in the African lungfish.

Author

Casadei, Elisa and Salinas, Irene

Subjects

*CATHELICIDINS, *ANTIMICROBIAL peptides, *AFRICAN swine fever, *PROTEIN structure prediction, *SMALL molecules

Abstract

Many vertebrates have evolved life histories that allow them to colonize unique ecological niches and survive where others cannot. First, a very large genome, the largest so far sequenced, and second, a unique genomic architecture, with extremely long genes with the longest introns so far identified in vertebrate genomes and many transposable elements that can regulate gene expression in a variety of environments [[4]]. Furthermore, predictions of AMPs from genomes and proteomes are now possible using machine learning applications and curated AMP databases [[27]-[29]]. 2020; 19:311-332. doi: 10.1038/s41573-019-0058-8, 32107480 17 Wang G.Bioinformatic analysis of 1000 amphibian antimicrobial peptides uncovers multiple length-dependent correlations for peptide design and prediction. [Extracted from the article]

Published

2023

149. The evolution of colistin resistance increases bacterial resistance to host antimicrobial peptides and virulence.

Author

Jangir, Pramod K., Ogunlana, Lois, Szili, Petra, Czikkely, Marton, Shaw, Liam P., Stevens, Emily J., Yu Yang, Qiue Yang, Yang Wang, Pál, Csaba, Walsh, Timothy R., and MacLean, Craig R.

Subjects

*ANTIMICROBIAL peptides, *DRUG resistance in bacteria, *DISEASE resistance of plants, *DRUG resistance in microorganisms, *COLISTIN, *PEPTIDE antibiotics, *CATHELICIDINS

Abstract

Antimicrobial peptides (AMPs) offer a promising solution to the antibiotic resistance crisis. However, an unresolved serious concern is that the evolution of resistance to therapeutic AMPs may generate cross-resistance to host AMPs, compromising a cornerstone of the innate immune response. We systematically tested this hypothesis using globally disseminated mobile colistin resistance (MCR) that has been selected by the use of colistin in agriculture and medicine. Here, we show that MCR provides a selective advantage to Escherichia coli in the presence of key AMPs from humans and agricultural animals by increasing AMP resistance. Moreover, MCR promotes bacterial growth in human serum and increases virulence in a Galleria mellonella infection model. Our study shows how the anthropogenic use of AMPs can drive the accidental evolution of resistance to the innate immune system of humans and animals. These findings have major implications for the design and use of therapeutic AMPs and suggest that MCR may be difficult to eradicate, even if colistin use is withdrawn. [ABSTRACT FROM AUTHOR]

Published

2023

150. Regression and Eradication of Triple-Negative Breast Carcinoma in 4T1 Mouse Model by Combination Immunotherapies.

Author

Nahar, Saifun, Huang, Yue, Nagy, Bethany A., Zebala, John A., Maeda, Dean Y., Rudloff, Udo, Oppenheim, Joost J., and Yang, De

Subjects

*PROTEINS, *EXPERIMENTAL design, *FLOW cytometry, *DRUG efficacy, *CATHELICIDINS, *IMMUNIZATION, *IMMUNE checkpoint inhibitors, *ANIMAL experimentation, *ONE-way analysis of variance, *ANTINEOPLASTIC agents, *ORGANELLES, *GENE expression, *RESEARCH funding, *BREAST tumors, *IMMUNOTHERAPY, *DISEASE remission, *ANIMALS, *MICE

Abstract

Simple Summary: There is currently no effective therapy available for triple-negative breast cancer. To look for potentially effective treatment, we used the 4T1 mouse model of triple-negative breast carcinoma to study the therapeutic response of TheraVac (an antitumor therapeutic vaccination regimen) in combination with FSL-1 and/or SX682. The data show that 4T1 tumors can be successfully treated with two TheraVac modifications, with the development of anti-4T1 immune responses in the treated mice. Therefore, these TheraVac modifications have potential to be developed into effective immunotherapies for triple-negative breast cancer. Triple-negative breast carcinoma (TNBC) is one of the most aggressive types of solid-organ cancers. While immune checkpoint blockade (ICB) therapy has significantly improved outcomes in certain types of solid-organ cancers, patients with immunologically cold TNBC are afforded only a modest gain in survival by the addition of ICB to systemic chemotherapy. Thus, it is urgently needed to develop novel effective therapeutic approaches for TNBC. Utilizing the 4T1 murine model of TNBC, we developed a novel combination immunotherapeutic regimen consisting of intratumoral delivery of high-mobility group nucleosome binding protein 1 (HMGN1), TLR2/6 ligand fibroblast-stimulating lipopeptide (FSL-1), TLR7/8 agonist (R848/resiquimod), and CTLA-4 blockade. We also investigated the effect of adding SX682, a small-molecule inhibitor of CXCR1/2 known to reduce MDSC trafficking to tumor microenvironment, to our therapeutic approach. 4T1-bearing mice responded with significant tumor regression and tumor elimination to our therapeutic combination regimen. Mice with complete tumor regressions did not recur and became long-term survivors. Treatment with HMGN1, FSL-1, R848, and anti-CTLA4 antibody increased the number of infiltrating CD4+ and CD8+ effector/memory T cells in both tumors and draining lymph nodes and triggered the generation of 4T1-specific cytotoxic T lymphocytes (CTLs) in the draining lymph nodes. Thus, we developed a potentially curative immunotherapeutic regimen consisting of HMGN1, FSL-1, R848, plus a checkpoint inhibitor for TNBC, which does not rely on the administration of chemotherapy, radiation, or exogenous tumor-associated antigen(s). [ABSTRACT FROM AUTHOR]

Published

2023