Your search keyword '"antimicrobial peptides"' showing total 7,311 results

1. In-silico and in-vitro study of novel antimicrobial peptide AM1 from Aegle marmelos against drug-resistant Staphylococcus aureus

Author

Rudra Awdhesh Kumar Mishra and Gothandam Kodiveri Muthukaliannan

Subjects

Aegle marmelos, Antimicrobial peptides, DBAASP server, Drug-resistant Staphylococcus aureus, MMPBSA, Medicine, Science

Abstract

Abstract Antimicrobial peptides have garnered increasing attention as potential alternatives due to their broad-spectrum antimicrobial activity and low propensity for developing resistance. This is for the first time; proteome sequences of Aegle marmelos were subjected to in-silico digestion and AMP prediction were performed using DBAASP server. After screening the peptides on the basis of different physiochemical property, peptide sequence GKEAATKAIKEWGQPKSKITH (AM1) shows the maximum binding affinity with − 10.2 Kcal/mol in comparison with the standard drug (Trimethoprim) with − 7.4 kcal/mol and − 6.8 Kcal/mol for DHFR and SaTrmK enzyme respectively. Molecular dynamics simulation performed for 300ns, it has been found that peptide was able to stabilize the protein more effectively, analysed by RMSD, RMSF, and other statistical analysis. Free binding energy for DHFR and SaTrmK interaction from MMPBSA analysis with peptide was found to be -47.69 and − 44.32 Kcal/mol and for Trimethoprim to be -13.85 Kcal/mol and − 11.67 Kcal/mol respectively. Further in-vitro study was performed against Methicillin Susceptible Staphylococcus aureus (MSSA), Methicillin Resistant Staphylococcus aureus (MRSA), Multi-Drug Resistant Staphylococcus aureus (MDR-SA) strain, where MIC values found to be 2, 4, and 8.5 µg/ml lesser in comparison to trimethoprim which has higher MIC values 2.5, 5, and 9.5 µg/ml respectively. Thus, our study provides the insight for the further in-vivo study of the peptides against multi-drug resistant S. aureus.

Published

2024

2. Research progress on small biomolecule formulations for chemical disinfection of root canals

Author

CHENG Yiting, XIA Mengying, LEI Lei, HU Tao

Subjects

root canal therapy, root canal disinfection, bacterial biofilm, root canal irrigation, intracanal medicaments, small biomolecules, antimicrobial peptides, nanoparticle, Medicine

Abstract

Successful treatment of endodontic and periapical diseases requires the elimination of bacteria and microbial biofilms from root canals. Currently, the most preferred irrigation method involves the delivery of sodium hypochlorite via the combination of a syringe and ultrasonic activation. Calcium hydroxide is the main choice for intracanal medicament between endodontic appointments and treatment. However, conventional chemical disinfection of root canals is controversial due to drug permeability and drug resistance. New small biomolecule formulations with high penetrability and bioremediatory capacity, including antimicrobial peptides such as M33D and LL-37, antisense RNA ASwalR/ASvicR and nanoparticles such as silver nanoparticles, mesoporous calcium-silicate nanoparticles and chitosan nanoparticles, have effective antibacterial and antibiofilm properties for use in root canal systems and dentinal tubules, thereby promoting the healing of apical lesions. However, the in vivo drug stability, biosafety, and clinical efficacy of small biomolecule formulations need further investigation. Future research will still focus on the improvement and combination of traditional drugs, as new small molecule formulations and ideal disinfectant drugs need to be developed. In the present paper, we reviewed the development of new antibacterial agents and application of small biomolecule formulations for chemical disinfection of infected root canals.

Published

2024

3. Investigation of cytotoxic effect and action mechanism of a synthetic peptide derivative of rabbit cathelicidin against MDA-MB-231 breast cancer cell line

Author

Marzieh Bashi, Hamid Madanchi, and Bahman Yousefi

Subjects

Cathelicidin, Antimicrobial peptides, Anticancer peptides, Cap18, Medicine, Science

Abstract

Abstract Antimicrobial peptides (AMPs) have sparked significant interest as potential anti-cancer agents, thereby becoming a focal point in pursuing novel cancer-fighting strategies. These peptides possess distinctive properties, underscoring the importance of developing more potent and selectively targeted versions with diverse mechanisms of action against human cancer cells. Such advancements would offer notable advantages compared to existing cancer therapies. This research aimed to examine the toxicity and selectivity of the nrCap18 peptide in both cancer and normal cell lines. Furthermore, the rate of cellular death was assessed using apoptosis and acridine orange/ethidium bromide (AO/EB) double staining at three distinct incubation times. Additionally, the impact of this peptide on the cancer cell cycle and migration was evaluated, and ultimately, the expression of cyclin-dependent kinase 4/6 (CDK4/6) genes was investigated. The results obtained from the study demonstrated significant toxicity and selectivity in cancer cells compared to normal cells. Moreover, a strong progressive increase in cell death was observed over time. Furthermore, the peptide exhibited the ability to halt the progression of cancer cells in the G1 phase of the cell cycle and impede their migration by suppressing the expression of CDK4/6 genes.

Published

2024

4. Coprophagia in early life tunes expression of immune genes after weaning in rabbit ileum

Author

L. Cauquil, M. Beaumont, B. Schmaltz-Panneau, L. Liaubet, Y. Lippi, C. Naylies, L. Bluy, M. Poli, L. Gress, C. Lencina, V. Duranthon, and S. Combes

Subjects

Immunity, Interferon, Gut, Cytokines, Antimicrobial peptides, Medicine, Science

Abstract

Abstract Coprophagia by suckling rabbits, i.e. ingestion of feces from their mother, reduces mortality after weaning. We hypothesized that this beneficial effect of coprophagia is immune-mediated at the intestinal level. Therefore, this study investigated immune development after weaning by analyzing the ileal transcriptome at day 35 and 49 in rabbits with differential access to coprophagia in early life. Rabbit pups had access between day 1 and 15 to (i) no feces (NF) or (ii) feces from unrelated does (Foreign Feces, FF) or (iii) feces from unrelated does treated with antibiotics (FFab). 350 genes were differentially expressed between day 35 and day 49 in suckling rabbits with access to coprophagia. These genes coded for antimicrobial peptides, a mucin, cytokines and chemokines, pattern recognition receptors, proteins involved in immunoglobulin A secretion and in interferon signaling pathway. Strikingly, prevention of coprophagia or access to feces from antibiotic-treated does in early life blunted immune development between day 35 et 49 in the ileum of rabbits. Thus, coprophagia might be crucial for the maturation of intestinal immunity in rabbits and could explain why this behavior improves survival.

Published

2024

5. Computational modelling of the antimicrobial peptides Cruzioseptin-4 extracted from the frog Cruziohyla calcarifer and Pictuseptin-1 extracted from the frog Boana picturata

Author

María José Rengifo-Lema, Carolina Proaño-Bolaños, Sebastián Cuesta, and Lorena Meneses

Subjects

Antimicrobial peptides, Boana picturata, Cruziohyla calcarifer, Molecular docking, Physicochemical properties, Pathogens, Medicine, Science

Abstract

Abstract A computational study of the peptides Cruzioseptin-4 and Pictuseptin-1, identified in Cruziohyla calcarifer and Boana picturata respectively, has been carried out. The studies on Cruzioseptin-4 show that it is a cationic peptide with a chain of 23 amino acids that possess 52.17% of hydrophobic amino acids and a charge of + 1.2 at pH 7. Similarly, Pictuseptin-1 is a 22 amino acids peptide with a charge of + 3 at pH 7 and 45.45% of hydrophobic amino acids. Furthermore, the predominant secondary structure for both peptides is alpha-helical. The physicochemical properties were predicted using PepCalc and Bio-Synthesis; secondary structures using Jpred4 and PredictProtein; while molecular docking was performed using Autodock Vina. Geometry optimization of the peptides was done using the ONIOM hybrid method with the HF/6-31G basis set implemented in the Gaussian 09 program. Finally, the molecular docking study indicates that the viable mechanism of action for both peptides is through a targeted attack on the cell membrane of pathogens via electrostatic interactions with different membrane components, leading to cell lysis.

Published

2024

6. Concentration of novel urinary tract infection biomarkers in neonates

Author

Maria Jebbia, Sudipti Gupta, Brett G. Klamer, Leeann Pavlek, Christina B. Ching, Tahagod H. Mohamed, and Brian Becknell

Subjects

Urinary tract infections, UTI, Neonates, Biomarkers, Antimicrobial peptides, AMPs, Medicine, Science

Abstract

Abstract Urinary tract infections (UTIs) are a common comorbidity in hospitalized neonates. The current UTI diagnostics have several limitations including invasive collection of urinary samples to ensure sterility, risk of contamination and lack of consensus definitions of UTI based on urine culture. Antimicrobial peptides (AMPs) have been recently utilized as novel biomarkers that can efficiently and accurately diagnose pediatric UTI. However, the concentration of AMPs in neonatal urine is not well-defined. Urine from neonates admitted to a single level IV neonatal intensive care unit was obtained to determine baseline concentration of two AMPs, Ribonuclease 7 (RNase 7) and Beta Defensin-1 (BD-1) and to define the relationship between AMP concentration and gestational age (GA). AMP levels were normalized to urine creatinine. RNase 7 and BD-1 were expressed in neonatal urine (n = 66) regardless of GA and as early as 22 weeks gestation. Urinary concentrations of both AMPs decreased as GA and birthweight increased. The overall median urinary RNase 7/UCr and BD-1/UCr values were 271 ng/mg, and 116 ng/mg, respectively. Median urinary concentrations of RNase 7/UCr for infants born at

Published

2024

7. Novel antimicrobial peptides against Cutibacterium acnes designed by deep learning

Author

Qichang Dong, Shaohua Wang, Ying Miao, Heng Luo, Zuquan Weng, and Lun Yu

Subjects

Antimicrobial peptides, Deep learning, Transfer learning, Cutibacterium acnes, Pretrained protein language embedding, Medicine, Science

Abstract

Abstract The increasing prevalence of antibiotic resistance in Cutibacterium acnes (C. acnes) requires the search for alternative therapeutic strategies. Antimicrobial peptides (AMPs) offer a promising avenue for the development of new treatments targeting C. acnes. In this study, to design peptides with the specific inhibitory activity against C. acnes, we employed a deep learning pipeline with generators and classifiers, using transfer learning and pretrained protein embeddings, trained on publicly available data. To enhance the training data specific to C. acnes inhibition, we constructed a phylogenetic tree. A panel of 42 novel generated linear peptides was then synthesized and experimentally evaluated for their antimicrobial selectivity and activity. Five of them demonstrated their high potency and selectivity against C. acnes with MIC of 2–4 µg/mL. Our findings highlight the potential of these designed peptides as promising candidates for anti-acne therapeutics and demonstrate the power of computational approaches for the rational design of targeted antimicrobial peptides.

Published

2024

8. Enhanced Antimicrobial Peptide Response Following Bacillus Calmette–Guerin Vaccination in Elderly Individuals

Author

Arul Nancy Pandiarajan, Nathella Pavan Kumar, Anuradha Rajamanickam, Perumal Kannabiran Bhavani, Bharathi Jeyadeepa, Nandhini Selvaraj, Dinesh Asokan, Srikanth Tripathy, Chandrasekharan Padmapriyadarsini, and Subash Babu

Subjects

BCG, antimicrobial peptides, tuberculosis, Medicine

Abstract

Background: Antimicrobial peptides are an important component of host defense against Mycobacterium tuberculosis. However, the ability of BCG to induce AMPs as part of its mechanism of action has not been investigated in detail. Methods: We investigated the impact of Bacillus Calmette–Guerin (BCG) vaccination on circulating plasma levels and TB-antigen stimulated plasma levels of AMPs in a healthy elderly population. We assessed the association of AMPs, including Human Beta Defensin 2 (HBD-2), Human Neutrophil Peptide 1-3 (HNP1-3), Granulysin, and Cathelicidin (LL37), in circulating plasma and TB-antigen stimulated plasma (using IGRA supernatants) at baseline (pre-vaccination) and at Month 1 and Month 6 post vaccination. Results: Post BCG vaccination, both circulating plasma levels and TB-antigen stimulated plasma levels of AMPs significantly increased at Month 1 and Month 6 compared to pre-vaccination levels in the elderly population. However, the association of AMP levels with latent TB (LTB) status did not exhibit statistical significance. Conclusion: Our findings indicate that BCG vaccination is linked to heightened circulating levels of AMPs in the elderly population, which are also TB-antigen-specific. This suggests a potential mechanism underlying the immune effects of BCG in enhancing host defense against TB.

Published

2024

9. Human Ribonuclease 6 Has a Protective Role during Experimental Urinary Tract Infection

Author

Juan de Dios Ruiz-Rosado, Hanna Cortado, Macie Kercsmar, Birong Li, Gregory Ballash, Israel Cotzomi-Ortega, Yuriko I. Sanchez-Zamora, Sudipti Gupta, Christina Ching, Ester Boix, Ashley R. Jackson, John David Spencer, and Brian Becknell

Subjects

antimicrobial peptides, bacterial infection, macrophage, host defense, urinary tract infection, cystitis, Medicine, Internal medicine, RC31-1245

Abstract

Mounting evidence suggests that antimicrobial peptides and proteins (AMPs) belonging to the RNase A superfamily have a critical role in defending the bladder and kidney from bacterial infection. RNase 6 has been identified as a potent, leukocyte-derived AMP, but its impact on urinary tract infection (UTI) in vivo has not been demonstrated. To test the functional role of human RNase 6, we generated RNASE6 transgenic mice and studied their susceptibility to experimental UTI. In addition, we generated bone marrow-derived macrophages to study the impact of RNase 6 on antimicrobial activity within a cellular context. When subjected to experimental UTI, RNASE6 transgenic mice developed reduced uropathogenic Escherichia coli (UPEC) burden, mucosal injury, and inflammation compared to non-transgenic controls. Monocytes and macrophages were the predominant cellular sources of RNase 6 during UTI, and RNASE6 transgenic macrophages were more proficient at intracellular UPEC killing than non-transgenic controls. Altogether, our findings indicate a protective role for human RNase 6 during experimental UTI.

Published

2023

10. Evaluation of the antitumor activity of moronecidin (Piscidin)-like peptide in combination with anti-PD-1 antibody against melanoma tumor

Author

Mohsen Mohammadi, Amin Moradi Hasan-Abad, and Ali Ghasemi

Subjects

anti-pd-1, antibody, antimicrobial peptides, cancer therapy, immunotherapy, melanoma cancer, Medicine

Abstract

Objective(s): Immunotherapy has changed the landscape of oncology over the last decade and has become a standard of care for various cancers. Researchers previously demonstrated that B16-F10 melanoma in C57Bl6 mice is resistant to immune checkpoint inhibitors. The goal of this study was to investigate how anti-PD1 antibodies functioned in combination with a new antimicrobial peptide (AMP) called moronecidin-like peptide (MLP).Materials and Methods: We studied the cytotoxic effect of AMP on the B10-F16 tumor cell line with the MTT experiment. The necrotic and apoptotic cells were determined by Presidium iodide (PI) /Annexin V staining and flow cytometry-based methods. Mice were inoculated subcutaneously with B10-F16 tumor cells in the mammary gland. Each group was sacrificed two weeks after the last injection to examine tumor-specific CD8+ T cell responses using flow cytometry. Results: Annexin V and PI staining assay revealed that MPL significantly induces apoptosis in B16F10 cells. It should be noted that MLP in combination with anti-PD-1 improved antigen-specific T-cell responses synergistically (P=0.01) when compared with respective monotherapy. Furthermore, when compared with the respective monotherapies, combination therapy significantly controlled tumor growth in B10-F16 tumor cells and increased survival rate.Conclusion: Treatments with anti-PD-1 inhibitors alone had only a minor effect on tumor size, whereas combination therapy resulted in significant tumor growth control and increased animal survival. MLP therapy combined with anti-PD-1 antibody improves anti-tumor immune response in addition to inducing tumor cell apoptosis. As a result, the evidence suggests that intratumoral injection of MPL can improve anti-PD-1 antibody antitumor response.

Published

2023

11. Synthesis, Characterization, and Study of the Antimicrobial Potential of Dimeric Peptides Derived from the C-Terminal Region of Lys49 Phospholipase A2 Homologs

Author

Gabriel F. H. Bicho, Letícia O. C. Nunes, Louise Oliveira Fiametti, Marcela N. Argentin, Vitória T. Candido, Ilana L. B. C. Camargo, Eduardo M. Cilli, and Norival A. Santos-Filho

Subjects

p-BthTX-I, PLA2-like, antimicrobial peptides, Medicine

Abstract

Currently, the search for new alternatives to conventional antibiotics to combat bacterial resistance is an urgent task, as many microorganisms threaten human health due to increasing bacterial resistance to traditional medicines. Thus, new molecules such as antimicrobial peptides have emerged as promising alternatives because of their low induction of resistance and broad spectrum of action. In this context, in the past few years, our research group has synthesized and characterized a peptide derived from the C-terminal region of the Lys49 PLA2-like BthTX-I, named p-BthTX-I. After several studies, the peptide (p-BthTX-I)2K was proposed as the molecule with the most considerable biotechnological potential. As such, the present work aimed to evaluate whether the modifications made on the peptide (p-BthTX-I)2K can be applied to other molecules originating from the C-terminal region of PLA2-like Lys49 from snake venoms. The peptides were obtained through the solid-phase peptide synthesis technique, and biochemical and functional characterization was carried out using dichroism techniques, mass spectrometry, antimicrobial activity against ESKAPE strains, hemolytic activity, and permeabilization of lipid vesicles. The antimicrobial activity of the peptides was promising, especially for the peptides (p-AppK)2K and (p-ACL)2K, which demonstrated activity against all strains that were tested, surpassing the model molecule (p-BthTX-I)2K in most cases and maintaining low hemolytic activity. The modifications initially proposed for the (p-BthTX-I)2K peptide were shown to apply to other peptides derived from Lys49 PLA2-like from snake venoms, showing promising results for antimicrobial activity. Future assays comparing the activity of the dimers obtained through this strategy with the monomers of these peptides should be carried out.

Published

2024

12. Small Natural Cyclic Peptides from DBAASP Database

Author

Evgenia Alimbarashvili, Natia Samsonidze, Maia Grigolava, and Malak Pirtskhalava

Subjects

antimicrobial peptides, AMPs, cyclic peptides, macrocyclization, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Antimicrobial peptides (AMPs) are promising tools for combating microbial resistance. However, their therapeutic potential is hindered by two intrinsic drawbacks—low target affinity and poor in vivo stability. Macrocyclization, a process that improves the pharmacological properties and bioactivity of peptides, can address these limitations. As a result, macrocyclic peptides represent attractive drug candidates. Moreover, many drugs are macrocycles that originated from natural product scaffolds, suggesting that nature offers solutions to the challenges faced by AMPs. In this review, we explore natural cyclic peptides from the DBAASP database. DBAASP is a comprehensive repository of data on antimicrobial/cytotoxic activities and structures of peptides. We analyze the data on small (≤25 AA) ribosomal and non-ribosomal cyclic peptides from DBAASP according to their amino acid composition, bonds used for cyclization, targets they act on, and mechanisms of action. This analysis will enhance our understanding of the small cyclic peptides that nature has provided to defend living organisms.

Published

2024

13. Medicinal potential of antimicrobial peptides from two plants against Bacillus cereus and Staphylococcus aureus

Author

Raheela Jabeen, Eqaza Javed, Ume Habiba, Muhammad Akram Choohan, Muhammad Asim, Fatema Suliman Alatawi, Hamza Ishfaq, and Jaweria Nisar

Subjects

Antimicrobial peptides, medicinal potential, Cassia fistula, Ricinus communis, antibiotic resistance, Medicine

Abstract

Bacillus cereus and Staphylococcus aureus are the most important bacteria that cause nosocomial infection and are resistant to antibiotics. Crude proteins from Cassia fistula and Ricinus communis were isolated to study their medicinal potential against Bacillus cereus, and Staphylococcus aureus. Extraction of the crude proteins from plants was done by phosphate buffer saline (PBS) and Tris NaCl buffer by using the roots and seeds of both plants. Antimicrobial activity was checked against bacterial strains by using agar disc diffusion and agar well diffusion methods. Zones of inhibitions were measured. On well diffusion method, PBS buffer protein extract of C. fistula roots showed a maximum zone of inhibition of 25 mm against B. cereus. Tris NaCl buffer extracts of C. fistula roots and seeds showed zones of inhibition of 12mm and 5mm respectively against S. aureus while Ricinus communis roots showed a zone of 12mm against B. cereus. Because the protein of the plants showed good antimicrobial activity, we can use these plants against various diseases caused by Bacillus cereus and Staphylococcus aureus.

Published

2024

14. Antimicrobial peptide for bacterial infection imaging: first case reported in Brazil

Author

Solange Amorim Nogueira, Marycel Rosa Felisa Figols de Barboza, Rosemeire Pereira Bezerra, Jorge Mejia Cabeza, Adriana Macedo Dell’Aquila, Durval do Carmo Barros Santos, Lilian Yuri Itaya Yamaga, and Akemi Osawa

Subjects

Osteomyelitis, Staphylococcus aureus, Staphylococcal infections, Radiopharmaceuticals, Antimicrobial peptides, Positron emission tomography computed tomography, Bacterial infections, Medicine

Abstract

ABSTRACT Molecular imaging markers can be used to differentiate between infection and aseptic inflammation, determine the severity of infection, and monitor treatment responses. One of these markers is ubiquicidin(29-41) (UBI), a cationic peptide fragment that binds to the bacterial membrane wall and is labeled with gallium-68 (68Ga), a positron emitter radioisotope. The use of UBI in positron emission tomography (PET)/computed tomography (CT) for improved detection of lesions has been receiving considerable attention recently. Herein, we report the first case of 68Ga-UBI PET/CT performed in Brazil. The patient was a 39-year-old woman referred for a scan to confirm a clinical suspicion of chronic osteomyelitis of her fractured left tibia. PET images revealed radiotracer uptake near the posterior contour of the tibial fracture focus and the fixation plate, in the soft tissue around the distal half of the tibia, and in the non-consolidated fracture of the left distal fibula. Surgery for local cleaning was performed, and culture of a specimen collected from the surgical site confirmed the presence of Staphylococcus aureus. In the present case, 68Ga-UBI PET/CT, a non-invasive imaging modality, identified the infection foci in vivo, indicating its potential for clinical use.

Published

2023

15. Efficiency of NZ2114 on Superficial Pyoderma Infected with Staphylococcus pseudintermedius

Author

Na Yang, Yan Huang, Yuanyuan Li, Da Teng, Ruoyu Mao, Ya Hao, Lingyun Wei, and Jianhua Wang

Subjects

antimicrobial peptides, NZ2114, Staphylococcus pseudintermedius, transdermal delivery, chemical permeation enhancers, superficial pyoderma, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Staphylococcus pseudintermedius (S. pseudintermedius) is the main pathogen causing pyoderma of canines. With the emergence of drug-resistant bacteria, traditional antibiotic treatments are limited. As a potential antibacterial agent, NZ2114 was effective against S. pseudintermedius, including drug-resistant strains. Its bactericidal efficacy was superior to mupiroxacin, ofloxacin and lincomycin. To facilitate the transcutaneous delivery of NZ2114 for the treatment of superficial pyoderma, chemical permeation enhancers were added since water-soluble NZ2114 does not easily penetrate the skin lipid layer. Two different NZ2114 sprays were prepared by combining 1% Azone + 10% propylene glycol (PG) or 5% N-methylpyrrolidone (NMP) + 10% PG with NZ2114 after screening. The cumulative permeability of NZ2114 sprays were 244.149 and 405.245 μg/cm2 at 24 h with an in vitro percutaneous assay of mice skin, which showed a 244% and 405% increase in skin permeability than NZ2114, respectively. In addition, the efficacy of NZ2114 sprays in reducing skin bacteria colonisation was demonstrated in a mouse model of superficial pyoderma (24 mice, 3 mice/group) induced by S. pseudintermedius, and the 5% NMP + 10% PG + NZ2114 group had the best therapeutic effect compared to the other groups. This preparation did not cause any skin irritation, laying the foundation for the development of an effective and non-toxic topical product.

Published

2024

16. Single-Nucleus Sequencing of Silkworm Larval Brain Reveals the Key Role of Lysozyme in the Antiviral Immune Response in Brain Hemocytes

Author

Min Feng, Shigang Fei, Jinglei Zou, Junming Xia, Wenxuan Lai, Yigui Huang, Luc Swevers, and Jingchen Sun

Subjects

brain, single-nucleus rna sequencing, antimicrobial peptides, hemocyte, silkworm, Medicine, Internal medicine, RC31-1245

Abstract

Introduction: The brain is considered as an immune-privileged organ, yet innate immune reactions can occur in the central nervous system of vertebrates and invertebrates. Silkworm (Bombyx mori) is an economically important insect and a lepidopteran model species. The diversity of cell types in the silkworm brain, and how these cell subsets produce an immune response to virus infection, remains largely unknown. Methods: Single-nucleus RNA sequencing (snRNA-seq), bioinformatics analysis, RNAi, and other methods were mainly used to analyze the cell types and gene functions of the silkworm brain. Results: We used snRNA-seq to identify 19 distinct clusters representing Kenyon cell, glial cell, olfactory projection neuron, optic lobes neuron, hemocyte-like cell, and muscle cell types in the B. mori nucleopolyhedrovirus (BmNPV)-infected and BmNPV-uninfected silkworm larvae brain at the late stage of infection. Further, we found that the cell subset that exerts an antiviral function in the silkworm larvae brain corresponds to hemocytes. Specifically, antimicrobial peptides were significantly induced by BmNPV infection in the hemocytes, especially lysozyme, exerting antiviral effects. Conclusion: Our single-cell dataset reveals the diversity of silkworm larvae brain cells, and the transcriptome analysis provides insights into the immune response following virus infection at the single-cell level.

Published

2024

17. The Designed Pore-Forming Antimicrobial Peptide C14R Combines Excellent Activity against the Major Opportunistic Human Pathogen Pseudomonas aeruginosa with Low Cytotoxicity

Author

Vanessa Mildenberger, Daniel Alpízar-Pedraza, Ernesto M. Martell-Huguet, Markus Krämer, Grigory Bolotnikov, Anselmo J. Otero-Gonzalez, Tanja Weil, Armando Rodriguez-Alfonso, Nico Preising, Ludger Ständker, Verena Vogel, Barbara Spellerberg, Ann-Kathrin Kissmann, and Frank Rosenau

Subjects

antimicrobial peptides, clinical isolates, pore-formation, Pseudomonas aeruginosa, Medicine, Pharmacy and materia medica, RS1-441

Abstract

The diminishing portfolio of mankind’s available antibiotics urges science to develop novel potent drugs. Here, we present a peptide fitting the typical blueprint of amphipathic and membrane-active antimicrobial peptides, denominated C14R. This 2 kDa peptide consists of 16 amino acid residues, with seven being either hydrophobic, aromatic, or non-polar, and nine being polar or positively charged, strictly separated on opposite sides of the predicted α-helix. The affinity of the peptide C14R to P. aeruginosa membranes and its intrinsic tendency to productively insert into membranes of such composition were analyzed by dynamic simulations. Its biological impact on the viability of two different P. aeruginosa reference strains was demonstrated by determining the minimal inhibitory concentrations (MICs), which were found to be in the range of 10–15 µg/mL. C14R’s pore-forming capability was verified in a permeabilization assay based on the peptide-triggered uptake of fluorescent dyes into the bacterial cells. Finally, the peptide was used in radial diffusion assays, which are commonly used for susceptibility testing of antimicrobial peptides in clinical microbiology. In comparison to reference strains, six clinical P. aeruginosa isolates were clearly affected, thereby paving the way for further in-depth analyses of C14R as a promising new AMP drug in the future.

Published

2024

18. Features of the treatment of bacterial vaginosis during pregnancy

Author

V. L. Tyutyunnik, O. I. Mikhailova, N. E. Kan, and D. D. Mirzabekova

Subjects

bacterial vaginosis, pregnancy, antimicrobial peptides, vaginal microbiocenosis, clindamycin, Medicine

Abstract

Introduction. The prevalence of bacterial vaginosis (BV) in the population ranges from 12 to 80% and depends on the cohort of examined women. Of the total confirmed cases, 37-40% are pregnant women.Aim. To assess the effectiveness of the treatment of bacterial vaginosis (BV) in pregnant women.Materials and methods. The study included 43 women at 22 to 30 weeks' gestation, divided into two groups: the treatment group consisted of 30 pregnant women diagnosed with BV, the control group comprised 13 pregnant women with normal vaginal microbiocenosis. To determine the antimicrobial activity of vaginal epithelium, samples of vaginal discharge were examined. The treatment was carried out using clindamycin according to the following regimen: 100 mg intravaginally per day at bedtime for 3 days.Results. The study results showed that the highest activity of antimicrobial peptides (AMP) was found in the group of healthy pregnant women, which accounted for 79.1%. In pregnant women with BV, the level of antimicrobial activity significantly decreased as compared with the group of healthy pregnant women as the severity of the disease increased, amounting to 44.5% in women with mild BV, 36.4% in women with moderate BV and 33.6% in women with severe BV. The level of antimicrobial activity in the group of pregnant women with BV, who received treatment with clindamycin significantly increased by almost two times from the baseline values and amounted to 86.1% in women with mild BV, 78.5% in women with moderate BV and 76.9% in women with severe BV.Conclusion. The production of endogenous antibiotics, AMP, provides adequate protection against infectious agents. After a course of therapy with clindamycin 100 mg intravaginally at bedtime for 3 days, the AMP level normalized 2 weeks after treatment.

Published

2022

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

Author

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

Subjects

pathogen evolution, mobile colistin resistance, antimicrobial resistance, antimicrobial peptides, Medicine, Science, Biology (General), QH301-705.5

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.

Published

2023

20. Recent Progress in the Discovery and Design of Antimicrobial Peptides Using Traditional Machine Learning and Deep Learning.

Author

Yan, Jielu, Cai, Jianxiu, Zhang, Bob, Wang, Yapeng, Wong, Derek F., and Siu, Shirley W. I.

Subjects

PEPTIDE antibiotics, ANTIMICROBIAL peptides, DEEP learning, MACHINE learning, BACTERIAL cell walls, SINGLE molecules

Abstract

Antimicrobial resistance has become a critical global health problem due to the abuse of conventional antibiotics and the rise of multi-drug-resistant microbes. Antimicrobial peptides (AMPs) are a group of natural peptides that show promise as next-generation antibiotics due to their low toxicity to the host, broad spectrum of biological activity, including antibacterial, antifungal, antiviral, and anti-parasitic activities, and great therapeutic potential, such as anticancer, anti-inflammatory, etc. Most importantly, AMPs kill bacteria by damaging cell membranes using multiple mechanisms of action rather than targeting a single molecule or pathway, making it difficult for bacterial drug resistance to develop. However, experimental approaches used to discover and design new AMPs are very expensive and time-consuming. In recent years, there has been considerable interest in using in silico methods, including traditional machine learning (ML) and deep learning (DL) approaches, to drug discovery. While there are a few papers summarizing computational AMP prediction methods, none of them focused on DL methods. In this review, we aim to survey the latest AMP prediction methods achieved by DL approaches. First, the biology background of AMP is introduced, then various feature encoding methods used to represent the features of peptide sequences are presented. We explain the most popular DL techniques and highlight the recent works based on them to classify AMPs and design novel peptide sequences. Finally, we discuss the limitations and challenges of AMP prediction. [ABSTRACT FROM AUTHOR]

Published

2022

21. The level of antimicrobial peptides in gingival crevicular fluid and its correlation with periodontal clinical indexes in elderly patients with type 2 diabetic periodontitis

Author

ZHANG Yameng, ZHANG Huiyuan, RUAN Shihong, CHEN Xiaochun, GAN Xueqi, and YU Haiyang

Subjects

middle-aged and elderly, type 2 diabetes mellitus, periodontitis, gingival crevicular fluid, antimicrobial peptides, ll-37, human beta defensins-2, probing depth, attachment level, probing bleeding, Medicine

Abstract

Objective To investigate the changes and significance of human beta-defensin-2 (HBD-2) and LL-37 in the gingival crevicular fluid of patients with periodontitis and type 2 diabetes mellitus (T2DM). Methods This study was conducted among 45- to 85-year-old patients in the Department of Stomatology and Internal Medicine of Shenzhen Center for Chronic Disease Control, including a healthy control group of 22 people, a systemically healthy control group of 19 people with periodontitis, a T2DM periodontal health group of 15 people, and a T2DM group of 21 people with periodontitis. The Florida periodontal probe was used for periodontal examination, and the clinical indexes, including probing depth (PD), clinical attachment level (CAL) and probing on bleeding (BOP), were recorded. The concentrations of HBD-2 and Ll-37 in gingival crevicular fluid were determined by ELISA. The differences in HBD-2, LL-37 and periodontal clinical indexes between the groups were compared, and correlation analysis was conducted.Results The PD values in T2DM with the periodontitis group were higher than those of the systemically healthy controls with periodontitis group (P < 0.05); the levels of HBD-2 and LL-37 in gingival crevicular fluid in systemically healthy controls with periodontitis group were significantly higher than those in the healthy control group (P < 0.05), the level of HBD-2 in gingival crevicular fluid in systemically healthy controls with periodontitis group was significantly higher than that in T2DM with periodontitis group (P < 0.05); and the antimicrobial peptides HBD-2 and LL-37 in gingival crevicular fluid were significantly positively correlated with the PD and CAL in systemically healthy controls with periodontitis group (P < 0.05), and there was no significant correlation between the antimicrobial peptides HBD-2, LL-37 in gingival crevicular fluid and PD, CAL in T2DM with periodontitis group (P > 0.05). Conclusion The levels of antimicrobial peptides HBD-2 and LL-37 in gingival crevicular fluid of middle-aged and elderly patients with T2DM periodontitis were lower, and there was no significant correlation with PD and CAL in periodontal clinical indicators.

Published

2021

22. Evaluation of the Effect of Less Negatively Charged Amino Acid Substitution in Synthetic Tetramer Peptide S3 Derived from Horseshoe Crab Ambocyte on its Antibacterial Properties

Author

Sakineh Baghbeheshti, Shahin Hadadian, Akram Eidi, Leila Pishkar, and Hamzeh Rahimi

Subjects

antimicrobial peptides, factor c, horseshoe crab, sushi3 tetramer peptide, Medicine, Medicine (General), R5-920

Abstract

Introduction: The study of the effects of synthetic peptides with antibacterial properties can provide more effective antibiotics. This study designed, expressed, and investigated the Sushi 3 tetramer peptide. Subsequently, it was compared in terms of changing antibacterial properties with another Sushi3 tetramer peptide the aspartic acid and proline amino acids of which were replaced with glycine and serine amino acids. Material & Methods: First, the mentioned Sushi3 tetramer peptide sequences were designed, constructed, and named Mer1 and Mer 2, respectively, and cloned separately into plasmid pET-26b (+) and finally transferred to E.coli BL21 host (DE3). After the expression of the peptides, the presence of peptides was confirmed by SDS-PAGE and Western blotting. Afterward, the antimicrobial activity of Mer1 and Mer 2 was evaluated and compared. Finally, the toxicity of the two tetramers made on the MDA-MB-231 cell line was evaluated and compared. Findings: Mer1 and Mer 2 had similar protein expression, and the toxic effect of both peptides on the cell line was not significantly different. however, Mer 2 had more effective antimicrobial effects than Mer1 at the same concentrations. Discussion & Conclusion: Evaluation of the effect of amino acid replacement with less negatively charge on increasing the antimicrobial activity of peptides is a suitable strategy. The above results increase the possibility of designing and producing antimicrobial peptides against antibiotic-resistant strains as the next generation of antibiotics.

Published

2021

23. Comparison of Antimicrobial Properties and Toxicity of Natural S3 Peptide with Horseshoe Crab Amoebocyte Origin and its Mutants

Author

Sadegh Rezaei, Shahin Hadadian, Ramazan ali Khavari nejad, and Dariush Norouzian

Subjects

antimicrobial peptides, factor c, horseshoe crab, s3-s∆3 protein hybrid, tetramer s3 peptide, Medicine, Medicine (General), R5-920

Abstract

Introduction: Antimicrobial peptides (AMPs) are compounds with antimicrobial properties that are studied widely due to the development of resistance of pathogenic bacteria to antibiotics. In the present study, the toxicity and antimicrobial effects of two natural monomeric peptides (S3 and S∆3) were compared with S3-S∆3 hybrids and S3 tetramers. Material & Methods: Protein hybrids (S∆3S3-2mer-GS) S3-S∆3 and tetramer protein S3 (S3-4mer-GS) were expressed in E. coli. BL21 (DE3). Following that, the presence of mutant peptides was confirmed, and their antimicrobial activity was compared and evaluated with S3 and S∆3 monomers. Finally, the toxicity of tetramer and hybrid made on the MDA-MB-231 cell line was evaluated and compared. Findings: The toxicity of the hybrid was slightly increased, compared to the tetramer for eukaryotic cells; however, this increase was negligible at the active concentration of this protein. Cell survival for hybrids was lower for S3 and SΔ3; nonetheless, cell survival for each sequence decreased with increasing time. Furthermore, the inhibition of hybrid microbial growth was improved and compared with tetramer and S3-SΔ3. It was found that an increase in the positive charge of the hybrid protein did not have a toxic effect on the host bacteria. Discussion & Conclusion: Due to the appropriate expression and increased antimicrobial activity and negligible cytotoxicity, the hybrid peptide S3-S∆3 and tetramer S3 can be considered an effective production strategy to obtain AMPs.

Published

2021

24. Neglected Zoonotic Diseases: Advances in the Development of Cell-Penetrating and Antimicrobial Peptides against Leishmaniosis and Chagas Disease

Author

Sara M. Robledo, Silvia Pérez-Silanes, Celia Fernández-Rubio, Ana Poveda, Lianet Monzote, Víctor M. González, Paloma Alonso-Collado, and Javier Carrión

Subjects

antimicrobial peptides, cell-penetrating peptides, intracellular pathogen, Trypanosoma, Leishmania, Medicine

Abstract

In 2020, the WHO established the road map for neglected tropical diseases 2021–2030, which aims to control and eradicate 20 diseases, including leishmaniosis and Chagas disease. In addition, since 2015, the WHO has been developing a Global Action Plan on Antimicrobial Resistance. In this context, the achievement of innovative strategies as an alternative to replace conventional therapies is a first-order socio-sanitary priority, especially regarding endemic zoonoses in poor regions, such as those caused by Trypanosoma cruzi and Leishmania spp. infections. In this scenario, it is worth highlighting a group of natural peptide molecules (AMPs and CPPs) that are promising strategies for improving therapeutic efficacy against these neglected zoonoses, as they avoid the development of toxicity and resistance of conventional treatments. This review presents the novelties of these peptide molecules and their ability to cross a whole system of cell membranes as well as stimulate host immune defenses or even serve as vectors of molecules. The efforts of the biotechnological sector will make it possible to overcome the limitations of antimicrobial peptides through encapsulation and functionalization methods to obtain approval for these treatments to be used in clinical programs for the eradication of leishmaniosis and Chagas disease.

Published

2023

25. Nanoparticles Enable Efficient Delivery of Antimicrobial Peptides for the Treatment of Deep Infections

Author

Yingxue Deng, Rui Huang, Songyin Huang, and Menghua Xiong

Subjects

antimicrobial peptides, deep infections, drug delivery, nanoparticles, Medicine

Abstract

Antimicrobial peptides (AMPs) have emerged as promising alternatives of traditional antibiotics against drug-resistant bacteria owing to their broad-spectrum antimicrobial properties and low tendency to drug resistance. However, their therapeutic efficacy in vivo, especially for infections in deep organs, is limited owing to their systemic toxicity and low bioavailability. Nanoparticles-based delivery systems offer a strategy to increase the therapeutic index of AMPs by preventing proteolysis, increasing the accumulation at infection sites, and reducing toxicity. Herein, we will discuss the current progress of using nanoparticles as delivery vehicles for AMPs for the treatment of deep infections.

Published

2021

26. Lactoferricins impair the cytosolic membrane of Escherichia coli within a few seconds and accumulate inside the cell

Author

Enrico F Semeraro, Lisa Marx, Johannes Mandl, Ilse Letofsky-Papst, Claudia Mayrhofer, Moritz PK Frewein, Haden L Scott, Sylvain Prévost, Helmut Bergler, Karl Lohner, and Georg Pabst

Subjects

antimicrobial peptides, small-angle scattering, bacterial ultrastructure, peptide partitioning, Medicine, Science, Biology (General), QH301-705.5

Abstract

We report the real-time response of Escherichia coli to lactoferricin-derived antimicrobial peptides (AMPs) on length scales bridging microscopic cell sizes to nanoscopic lipid packing using millisecond time-resolved synchrotron small-angle X-ray scattering. Coupling a multiscale scattering data analysis to biophysical assays for peptide partitioning revealed that the AMPs rapidly permeabilize the cytosolic membrane within less than 3 s—much faster than previously considered. Final intracellular AMP concentrations of ∼80–100 mM suggest an efficient obstruction of physiologically important processes as the primary cause of bacterial killing. On the other hand, damage of the cell envelope and leakage occurred also at sublethal peptide concentrations, thus emerging as a collateral effect of AMP activity that does not kill the bacteria. This implies that the impairment of the membrane barrier is a necessary but not sufficient condition for microbial killing by lactoferricins. The most efficient AMP studied exceeds others in both speed of permeabilizing membranes and lowest intracellular peptide concentration needed to inhibit bacterial growth.

Published

2022

27. Anti-Fibrotic Activity of an Antimicrobial Peptide in a Drosophila Model

Author

Dilan Khalili, Christina Kalcher, Stefan Baumgartner, and Ulrich Theopold

Subjects

fibrosis, antimicrobial peptides, insect immunity, innate immunity, extracellular matrix, Medicine, Internal medicine, RC31-1245

Abstract

Fibrotic lesions accompany several pathological conditions, including tumors. We show that expression of a dominant-active form of the Ras oncogene in Drosophila salivary glands (SGs) leads to redistribution of components of the basement membrane (BM) and fibrotic lesions. Similar to several types of mammalian fibrosis, the disturbed BM attracts clot components, including insect transglutaminase and phenoloxidase. SG epithelial cells show reduced apicobasal polarity accompanied by a loss of secretory activity. Both the fibrotic lesions and the reduced cell polarity are alleviated by ectopic expression of the antimicrobial peptide drosomycin (Drs), which also restores the secretory activity of the SGs. In addition to extracellular matrix components, both Drs and F-actin localize to fibrotic lesions.

Published

2021

28. The role of human β-defensin 2 (HbD-2) and cathelicidin (LL-37) in the local protection of the upper respiratory tract in children with allergic rhinitis and bronchial asthma

Author

Yu.K. Bolbot, T.A. Bordiі, and Ya.V. Vilenskyi

Subjects

bronchial asthma, allergic rhinitis, antimicrobial peptides, children, cathelicidin, human defensin beta-2, ll-37, hbd-2, Medicine

Abstract

Allergic diseases of the respiratory system seriously affect the psychological, physical and social aspects of the live of sick children, morally and financially exhausting members of their families as well. It is known that exacerbations of allergic diseases of the respiratory tract occur due to interaction with numerous triggers, one of which is a respiratory viral infection. At the same time, it is widely known that patients with allergic respiratory diseases are more prone to to acute respiratory infections. One of the reasons for this tendency often is an insufficient activity of non-specific factors of local immunity of the respiratory system – endogenous amphiphilic antimicrobial peptides, in particular the most studied their representatives - the family of defensins and human cathelicidin. Current research proves that these antimicrobial peptides are characterized by broad antiviral, antimicrobial and immunomodulatory activity. The aim of this study was to study the concentrations of local immune factors - human HbD-2 and LL-37 - in the secretion of the mucous membranes of the upper respiratory tract in children with asthma and allergic rhinitis and to clarify their role in protection against respiratory viral infections in this contingent of patients. We performed laboratory and clinical examinations of 76 children aged 7 to 18 years, of whom 24 were diagnosed with allergic rhinitis, 28 children - bronchial asthma, and 24 - bronchial asthma and allergic rhinitis. The control group consisted of 20 healthy children of the appropriate sex and age. In addition to general clinical methods, patterns of respiratory morbidity were analyzed and concentrations of antimicrobial peptides were determined: by ELISA human cathelicidin (LL-37), β-defensin 2 (HbD-2) in the secretion of the upper respiratory tract, statistical analysis was performed. It was found that children with allergic diseases of the respiratory tract are characterized by a higher frequency of acute respiratory infections with more frequent involvement of the lower respiratory tract, which led to an increase in the duration of the disease compared to their healthy peers. In children with allergic rhinitis and bronchial asthma, there was revealed a significant decrease in the concentrations of antimicrobial peptides in the secretion of the upper respiratory tract compared with the control group.

Published

2021

29. Antimicrobial Peptide Arsenal Predicted from the Venom Gland Transcriptome of the Tropical Trap-Jaw Ant Odontomachus chelifer

Author

Josilene J. Menk, Yan E. Matuhara, Henrique Sebestyen-França, Flávio Henrique-Silva, Milene Ferro, Renata S. Rodrigues, and Célio D. Santos-Júnior

Subjects

antimicrobial peptides, prospection of peptides, venom peptides, venomous ants, stinging ants, neotropical ants, Medicine

Abstract

With about 13,000 known species, ants are the most abundant venomous insects. Their venom consists of polypeptides, enzymes, alkaloids, biogenic amines, formic acid, and hydrocarbons. In this study, we investigated, using in silico techniques, the peptides composing a putative antimicrobial arsenal from the venom gland of the neotropical trap-jaw ant Odontomachus chelifer. Focusing on transcripts from the body and venom gland of this insect, it was possible to determine the gland secretome, which contained about 1022 peptides with putative signal peptides. The majority of these peptides (75.5%) were unknown, not matching any reference database, motivating us to extract functional insights via machine learning-based techniques. With several complementary methodologies, we investigated the existence of antimicrobial peptides (AMPs) in the venom gland of O. chelifer, finding 112 non-redundant candidates. Candidate AMPs were predicted to be more globular and hemolytic than the remaining peptides in the secretome. There is evidence of transcription for 97% of AMP candidates across the same ant genus, with one of them also verified as translated, thus supporting our findings. Most of these potential antimicrobial sequences (94.8%) matched transcripts from the ant’s body, indicating their role not solely as venom toxins.

Published

2023

30. Therapeutic Prospection of Animal Venoms-Derived Antimicrobial Peptides against Infections by Multidrug-Resistant Acinetobacter baumannii: A Systematic Review of Pre-Clinical Studies

Author

William Gustavo Lima and Maria Elena de Lima

Subjects

antimicrobial peptides, Acinetobacter baumannii, antimicrobial development, arthropods, anura, venom, Medicine

Abstract

Infections caused by multidrug-resistant Acinetobacter baumannii (MDR-Ab) have become a public health emergency. Due to the small therapeutic arsenal available to treat these infections, health agencies have highlighted the importance of developing new antimicrobials against MDR-Ab. In this context, antimicrobial peptides (AMPs) stand out, and animal venoms are a rich source of these compounds. Here, we aimed to summarize the current knowledge on the use of animal venom-derived AMPs in the treatment of MDR-Ab infections in vivo. A systematic review was performed according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines. The eight studies included in this review identified the antibacterial activity of eleven different AMPs against MDR-Ab. Most of the studied AMPs originated from arthropod venoms. In addition, all AMPs are positively charged and rich in lysine residues. In vivo assays showed that the use of these compounds reduces MDR-Ab-induced lethality and bacterial load in invasive (bacteremia and pneumonia) and superficial (wounds) infection models. Moreover, animal venom-derived AMPs have pleiotropic effects, such as pro-healing, anti-inflammatory, and antioxidant activities, that help treat infections. Animal venom-derived AMPs are a potential source of prototype molecules for the development of new therapeutic agents against MDR-Ab.

Published

2023

31. Bioactive Antimicrobial Peptides from Food Proteins: Perspectives and Challenges for Controlling Foodborne Pathogens

Author

Jessica Audrey Feijó Corrêa, Tiago de Melo Nazareth, Giovanna Fernandes da Rocha, and Fernando Bittencourt Luciano

Subjects

antimicrobial peptides, encrypted peptides, whey protein, protein-rich by-products, lactic acid bacteria, Medicine

Abstract

Bioactive peptides (BAPs) derived from food proteins have been extensively studied for their health benefits, majorly exploring their potential use as nutraceuticals and functional food components. These peptides possess a range of beneficial properties, including antihypertensive, antioxidant, immunomodulatory, and antibacterial activities, and are naturally present within dietary protein sequences. To release food-grade antimicrobial peptides (AMPs), enzymatic protein hydrolysis or microbial fermentation, such as with lactic acid bacteria (LAB), can be employed. The activity of AMPs is influenced by various structural characteristics, including the amino acid composition, three-dimensional conformation, liquid charge, putative domains, and resulting hydrophobicity. This review discusses the synthesis of BAPs and AMPs, their potential for controlling foodborne pathogens, their mechanisms of action, and the challenges and prospects faced by the food industry. BAPs can regulate gut microbiota by promoting the growth of beneficial bacteria or by directly inhibiting pathogenic microorganisms. LAB-promoted hydrolysis of dietary proteins occurs naturally in both the matrix and the gastrointestinal tract. However, several obstacles must be overcome before BAPs can replace antimicrobials in food production. These include the high manufacturing costs of current technologies, limited in vivo and matrix data, and the difficulties associated with standardization and commercial-scale production.

Published

2023

32. Glycosylation and Lipidation Strategies: Approaches for Improving Antimicrobial Peptide Efficacy

Author

Rosa Bellavita, Simone Braccia, Stefania Galdiero, and Annarita Falanga

Subjects

antimicrobial peptides, chemical strategies, glycosylation, lipidation, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Antimicrobial peptides (AMPs) have recently gained attention as a viable solution for combatting antibiotic resistance due to their numerous advantages, including their broad-spectrum activity, low propensity for inducing resistance, and low cytotoxicity. Unfortunately, their clinical application is limited due to their short half-life and susceptibility to proteolytic cleavage by serum proteases. Indeed, several chemical strategies, such as peptide cyclization, N-methylation, PEGylation, glycosylation, and lipidation, are widely used for overcoming these issues. This review describes how lipidation and glycosylation are commonly used to increase AMPs’ efficacy and engineer novel AMP-based delivery systems. The glycosylation of AMPs, which involves the conjugation of sugar moieties such as glucose and N-acetyl galactosamine, modulates their pharmacokinetic and pharmacodynamic properties, improves their antimicrobial activity, and reduces their interaction with mammalian cells, thereby increasing selectivity toward bacterial membranes. In the same way, lipidation of AMPs, which involves the covalent addition of fatty acids, has a significant impact on their therapeutic index by influencing their physicochemical properties and interaction with bacterial and mammalian membranes. This review highlights the possibility of using glycosylation and lipidation strategies to increase the efficacy and activity of conventional AMPs.

Published

2023

33. Potential role of Vitamin D as an antiviral agent

Author

Joyeta Ghosh

Subjects

antimicrobial peptides, covid-19, infections, viruses, vitamin d, vitamin d receptor, Medicine

Abstract

Vitamin D has potential antimicrobial activity, the deficiency of which has deleterious effects on the general well-being and longevity, predisposing major public health problem worldwide. About 1 billion people have Vitamin D deficiency, which is prevalent among all ethnicities and age groups throughout the world. In addition, the incidence of antimicrobial resistance has emerged as a major threat to public health, and it is estimated to cause 10 million deaths annually by 2050 throughout the world. Vitamin D, as a mighty antimicrobial agent, may decrease the occurrence of infection through numerous pathways. Vitamin D strengthens innate immunity by modulating the production of various anti-microbial peptide (AMPs), cytokine, chemokines and interleukin responses. Vitamin D is responsible for the regulation of >200 genes, including cell proliferation, differentiation, and apoptotic genes. It acts as the key holder for modulating systemic inflammation, oxidative stress, and mitochondrial respiratory functions. Thus, a Vitamin D replete state appears to benefit most infections. As an antiviral agent, Vitamin D may constitute an inexpensive prophylactic option either by itself or as a synergistic agent during the treatment of different viral infections. The present review stipulates the importance of Vitamin D and its possible mechanisms against treating any kind of viruses. Relevant published articles were summarized by performing computerized literature searches (searches were made in PubMed/Medline, EMBASE, ScienceDirect, and Scirus) of different authentic databases using the following keywords: Vitamin D, VDR, infections, antimicrobial peptides, viruses, and COVID-19. The future for the sunshine vitamin as an antiviral agent looks brighter. More scientific proposition entailing in vitro, in vivo, or genomic studies are required to understand how important Vitamin D is against viral infections.

Published

2021

34. Impact of compliance with cholecalciferol administration on the incidence of respiratory infections in young children

Author

I. N. Zakharova, A. N. Tsutsaeva, V. A. Kuryaninova, L. Ya. Klimov, S. V. Dolbnya, A. L. Zaplatnikov, N. E. Verisokina, Sh. O. Kipkeev, A. A. Dyatlova, D. V. Bobryshev, and M. E. Ponomareva

Subjects

vitamin d, antimicrobial peptides, morbidity, acute respiratory infections, children, Medicine

Abstract

Introduction. Data on the vitamin D receptors (VDR) found on the surface of a large number of cell types of the human body were first published several decades ago, which served as a prerequisite to study the role of vitamin D in the development of some diseases, including infections.Objective of the study.Evaluate the relationship between administration of cholecalciferol supplements, the synthesis of defensins, and the incidence and morbidity patterns of acute respiratory infections (ARI) in young children.Material and methods.108 healthy children aged 1 month to 3 years were examined, of which 34 (31.5%) were vitamin D sufficient, 40 (37.0%) had a vitamin D insufficiency, 27 (25.0%) had a vitamin D deficiency and 7 (6.5%) children had severe vitamin D deficiency. After the course of treatment of vitamin D deficiency with therapeutic doses, all patients were prescribed prophylactic doses of cholecalciferol supplements (1000 IU/day) for a 6-month course.Results. Therapeutic doses of cholecalciferol promoted β1 and β2-defensin expression; a direct correlation was found between the daily dose of vitamin D and the increase of β2-defensin expression (r = 0.34, p

Published

2020

35. Vitamin D and defensins production in infants

Author

I. N. Zakharova, A. N. Tsutsayeva, L. Ya. Klimov, V. A. Kur'yaninova, S. V. Dolbnya, А. L. Zaplatnikov, N. E. Verisokina, A. A. Dyatlova, S. O. Kipkeyev, A. K. Minasyan, D. V. Bobryshev, G. A. Anisimov, and R. O. Budkevich

Subjects

vitamin d, cholecalciferol, immunotropic effects, antimicrobial peptides, defensins, congenital immunity, Medicine

Abstract

Relevance: immunotropic effects of cholecalciferol are caused by vitamin-D-induced synthesis of antimicrobial peptides (AMP), in particular р-defensins. There are very few studies in pediatric clinical practice confirming the effect of vitamin D availability on AMP synthesis.Aim: analysis of the correlation between vitamin D availability and AMP production and assessment of the effect of cholecalciferol medication intake on defensin synthesis in young children.Materials and methods: 108 healthy children aged 1 month to 3 years were examined, of which 34 (31.5%) were adequately provided with vitamin D (calcidiol level over 30 ng/ml), 40 (37.0%) with insufficiency (20 to 30 ng/ml), 27 (25.0%) with vitamin D deficiency (10 to 20 ng/ml) and 7 (6.5%) with severe deficit (less than 10 ng/ml). In the presence of hypovitaminose of vitamin D the monthly course of cholecalciferol in doses of 2000-4000 lU/day was prescribed for correction, and in normal provision -prophylactic administration of 1000 IU/day. The indices of 25(ON)D, β1- and β2-defensins were determined three times.Results. On natural feeding, the rates of β1-defensin are 2.3 times (p

Published

2020

36. Sensitizing Staphylococcus aureus to antibacterial agents by decoding and blocking the lipid flippase MprF

Author

Christoph J Slavetinsky, Janna N Hauser, Cordula Gekeler, Jessica Slavetinsky, André Geyer, Alexandra Kraus, Doris Heilingbrunner, Samuel Wagner, Michael Tesar, Bernhard Krismer, Sebastian Kuhn, Christoph M Ernst, and Andreas Peschel

Subjects

Staphylococcus aureus, MprF, antivirulence drugs, antimicrobial peptides, MRSA, bacterial lipids, Medicine, Science, Biology (General), QH301-705.5

Abstract

The pandemic of antibiotic resistance represents a major human health threat demanding new antimicrobial strategies. Multiple peptide resistance factor (MprF) is the synthase and flippase of the phospholipid lysyl-phosphatidylglycerol that increases virulence and resistance of methicillin-resistant Staphylococcus aureus (MRSA) and other pathogens to cationic host defense peptides and antibiotics. With the aim to design MprF inhibitors that could sensitize MRSA to antimicrobial agents and support the clearance of staphylococcal infections with minimal selection pressure, we developed MprF-targeting monoclonal antibodies, which bound and blocked the MprF flippase subunit. Antibody M-C7.1 targeted a specific loop in the flippase domain that proved to be exposed at both sides of the bacterial membrane, thereby enhancing the mechanistic understanding of bacterial lipid translocation. M-C7.1 rendered MRSA susceptible to host antimicrobial peptides and antibiotics such as daptomycin, and it impaired MRSA survival in human phagocytes. Thus, MprF inhibitors are recommended for new antivirulence approaches against MRSA and other bacterial pathogens.

Published

2022

37. Antimicrobial Compounds from Skin Secretions of Species That Belong to the Bufonidae Family

Author

Rodrigo Ibarra-Vega, Alan Roberto Galván-Hernández, Hermenegildo Salazar-Monge, Rocio Zataraín-Palacios, Patricia Elizabeth García-Villalvazo, Diana Itzel Zavalza-Galvez, Laura Leticia Valdez-Velazquez, and Juana María Jiménez-Vargas

Subjects

antimicrobial peptides, antifungal, antiviral, antiprotozoal, family Bufonidae, skin secretion, Medicine

Abstract

Skin secretions of toads are a complex mixture of molecules. The substances secreted comprise more than 80 different compounds that show diverse pharmacological activities. The compounds secreted through skin pores and parotid glands are of particular interest because they help toads to endure in habitats full of pathogenic microbes, i.e., bacteria, fungi, viruses, and protozoa, due to their content of components such as bufadienolides, alkaloids, and antimicrobial peptides. We carried out an extensive literature review of relevant articles published until November 2022 in ACS Publications, Google Scholar, PubMed, and ScienceDirect. It was centered on research addressing the biological characterization of the compounds identified in the species of genera Atelopus, Bufo, Duttaphrynus, Melanophryniscus, Peltopryne, Phrynoidis, Rhaebo, and Rhinella, with antibacterial, antifungal, antiviral, and antiparasitic activities; as well as studies performed with analogous compounds and skin secretions of toads that also showed these activities. This review shows that the compounds in the secretions of toads could be candidates for new drugs to treat infectious diseases or be used to develop new molecules with better properties from existing ones. Some compounds in this review showed activity against microorganisms of medical interest such as Staphylococcus aureus, Escherichia coli, Bacillus subtilis, Coronavirus varieties, HIV, Trypanosoma cruzi, Leishmania chagasi, Plasmodium falciparum, and against different kinds of fungi that affect plants of economic interest.

Published

2023

38. Is Vitamin D3 a Worthy Supplement Protecting against Secondary Infections in Dogs with Atopic Dermatitis?

Author

Dorota Chrobak-Chmiel, Anna Golke, Ewelina Kwiecień, Małgorzata J. Biegańska, Kourou Dembele, Małgorzata Dziekiewicz-Mrugasiewicz, Michał Czopowicz, Magdalena Kizerwetter-Świda, and Magdalena Rzewuska

Subjects

canine atopic dermatitis, vitamin D3, antimicrobial peptides, Staphylococcus pseudintermedius, Malassezia pachydermatis, Medicine

Abstract

Canine atopic dermatitis (CAD) is a common, chronic, inflammatory skin disease in dogs worldwide. This disease often predisposes for secondary organisms overgrowth and skin infections with pathogens, such as Staphylococcus pseudintermedius and Malassezia pachydermatis. Unfortunately, the causes of this disease in both humans and animals are not fully understood; therefore, the only possible option is a lifelong, symptomatic treatment. The management of CAD is mainly based on limiting contact with allergens and antipruritic therapy, most often with glucocorticoids and antihistamines. A serious problem in this situation is the fact, that long-term administration of glucocorticoids leads to side effects like polyuria, alopecia, increased susceptibility to infection, muscle atrophy, and many others. For this reason, great emphasis is placed on the development of replacement and supportive therapies. It is a well-documented fact that reduced concentrations of serum vitamin D3 contribute to the severity of atopic dermatitis symptoms in humans. Moreover, unlike the most commonly used therapeutic methods, of which the main goal is to ameliorate inflammation and pruritus, namely the symptoms of AD, vitamin D3 supplementation affects some underlying factors of this disease. Therefore, in this review, we summarize the current state of knowledge regarding the role of vitamin D3 in CAD, its protective effect against secondary bacterial and fungal infections, and the potential of its supplementation in dogs.

Published

2023

39. Evaluation of the Synthetic Multifunctional Peptide Hp-MAP3 Derivative of Temporin-PTa

Author

Patrícia Souza e Silva, Alexya Sandim Guindo, Pedro Henrique Cardoso Oliveira, Luiz Filipe Ramalho Nunes de Moraes, Ana Paula de Araújo Boleti, Marcos Antonio Ferreira, Caio Fernando Ramalho de Oliveira, Maria Ligia Rodrigues Macedo, Luana Rossato, Simone Simionatto, and Ludovico Migliolo

Subjects

bacterial resistance, fungal infections, antimicrobial peptides, rational design, temporins, Medicine

Abstract

In recent years, antimicrobial peptides isolated from amphibian toxins have gained attention as new multifunctional drugs interacting with different molecular targets. We aimed to rationally design a new peptide from temporin-PTa. Hp-MAP3 (NH2-LLKKVLALLKKVL-COOH), net charge (+4), hydrophobicity (0.69), the content of hydrophobic residues (69%), and hydrophobic moment (0.73). For the construction of the analog peptide, the physicochemical characteristics were reorganized into hydrophilic and hydrophobic residues with the addition of lysines and leucines. The minimum inhibitory concentration was 2.7 to 43 μM against the growth of Gram-negative and positive bacteria, and the potential for biofilm eradication was 173.2 μM. Within 20 min, the peptide Hp-MAP3 (10.8 μM) prompted 100% of the damage to E. coli cells. At 43.3 μM, eliminated 100% of S. aureus within 5 min. The effects against yeast species of the Candida genus ranged from 5.4 to 86.6 μM. Hp-MAP3 presents cytotoxic activity against tumor HeLa at a concentration of 21.6 μM with an IC50 of 10.4 µM. Furthermore, the peptide showed hemolytic activity against murine erythrocytes. Structural studies carried out by circular dichroism showed that Hp-MAP3, while in the presence of 50% trifluoroethanol or SDS, an α-helix secondary structure. Finally, Amphipathic Hp-MAP3 building an important model for the design of new multifunctional molecules.

Published

2023

40. The characteristics and roles of antimicrobial peptides as potential treatment for antibiotic-resistant pathogens: a review

Author

Nurul Hana Zainal Baharin, Nur Fadhilah Khairil Mokhtar, Mohd Nasir Mohd Desa, Banulata Gopalsamy, Nor Nadiha Mohd Zaki, Mohd Hafis Yuswan, AbdulRahman Muthanna, Nurul Diana Dzaraly, Sahar Abbasiliasi, Amalia Mohd Hashim, Muhamad Shirwan Abdullah Sani, and Shuhaimi Mustafa

Subjects

Antibiotic resistance, Antimicrobial peptides, AMPs, Bacteriocins, Bacterial resistance, Mechanisms of action, Medicine, Biology (General), QH301-705.5

Abstract

The emergence of antibiotic-resistant bacteria has become a significant and ever-increasing threat to global public health, increasing both morbidity and mortality rates, and the financial burden on health services. Infection by drug-resistant bacteria is anticipated to contribute to the demise of almost 10 million people by the year 2050 unless a competent and effective response is devised to engage with this issue. The emergence and spread of resistance are commonly caused by the excessive or inappropriate use of antibiotics and substandard pharmaceuticals. It arises when pathogens adapt to different conditions and develop self-defence mechanisms. Currently, novel antimicrobial peptides (AMPs) have been reported to be the sole cure for some clinical cases of infectious diseases such as sepsis and skin infections, although these agents may, on occasion, require administration together with an adjunctive low-dose antibiotic. Although AMPs are a promising alternative form of anti-microbial therapy and easily applied in the medical sector, they still have limitations that should not be taken lightly. Hence, this review explores the characteristics, advantages and disadvantages of AMPs for their potential in treating antibiotic-resistant pathogens.

Published

2021

41. LL-37 and hBD-2 in the gingival crevicular fluid of smokers and nonsmokers with periodontitis

Author

Alessandra Barreto LOPES, Natália Helena COLOMBO, Naida Zanini ASSEM, Marta Aparecida Alberton NUERNBERG, Valdir Gouveia GARCIA, Cristiane DUQUE, and Leticia Helena THEODORO

Subjects

Periodontitis, antimicrobial peptides, smoking, Medicine, Dentistry, RK1-715

Abstract

Abstract Introduction The association between smoking and periodontal diseases has been described in clinical and epidemiological studies. Objective The aim of this study was to compare the LL-37 and human β-defensin-2 (hBD-2) levels in crevicular fluid of patients with generalized periodontitis in smokers (S) and nonsmokers (NS). Material and method A total of 35 patients with generalized periodontitis stages III and IV, 15 NS (11 female, 4 male) and 20 S (7 female and 13 male), were included in the study. The evaluated clinical parameters were bleeding on probing (BOP), probing depth (PD) and clinical attachment level (CAL). Enzyme-linked immunosorbent assays were performed to quantify the LL-37 and hBD-2 levels in the gingival crevicular fluid of these patients. The results were analyzed statistically with the level of significance set at 5%. Result In relation to periodontal clinical parameters, no statistically significant difference was observed for BOP and PD between groups S and NS. There was a higher CAL in the S group than in the NS group (p = 0.0095). There was no statistically significant difference between the levels of LL-37 and hBD-2 when comparing groups S and NS (p>0.05). Conclusion It was concluded that smokers have a higher clinical attachment loss than nonsmokers, but that smoking did not influence the levels of LL-37 and hBD-2 in the gingival crevicular fluid in periodontitis.

Published

2021

42. Structural insight into the dual function of LbpB in mediating Neisserial pathogenesis

Author

Ravi Yadav, Srinivas Govindan, Courtney Daczkowski, Andrew Mesecar, Srinivas Chakravarthy, and Nicholas Noinaj

Subjects

Neisseria, lactoferrin binding protein b, iron scavenging, antimicrobial peptides, multidrug resistance, lactoferrin, Medicine, Science, Biology (General), QH301-705.5

Abstract

Lactoferrin-binding protein B (LbpB) is a lipoprotein present on the surface of Neisseria that has been postulated to serve dual functions during pathogenesis in both iron acquisition from lactoferrin (Lf), and in providing protection against the cationic antimicrobial peptide lactoferricin (Lfcn). While previous studies support a dual role for LbpB, exactly how these ligands interact with LbpB has remained unknown. Here, we present the structures of LbpB from N. meningitidis and N. gonorrhoeae in complex with human holo-Lf, forming a 1:1 complex and confirmed by size-exclusion chromatography small-angle X-ray scattering. LbpB consists of N- and C-lobes with the N-lobe interacting extensively with the C-lobe of Lf. Our structures provide insight into LbpB’s preference towards holo-Lf, and our mutagenesis and binding studies show that Lf and Lfcn bind independently. Our studies provide the molecular details for how LbpB serves to capture and preserve Lf in an iron-bound state for delivery to the membrane transporter LbpA for iron piracy, and as an antimicrobial peptide sink to evade host immune defenses.

Published

2021

43. In Silico Prediction of Anti-Infective and Cell-Penetrating Peptides from Thalassophryne nattereri Natterin Toxins

Author

Gabrielle Lupeti De Cena, Bruna Vitória Scavassa, and Katia Conceição

Subjects

bioactive peptides, antimicrobial peptides, cell-penetrating peptides, in silico prediction, ADMET, hydrophobicity, Medicine, Pharmacy and materia medica, RS1-441

Abstract

The therapeutic potential of venom-derived peptides, such as bioactive peptides (BAPs), is determined by specificity, stability, and pharmacokinetics properties. BAPs, including anti-infective or antimicrobial peptides (AMPs) and cell-penetrating peptides (CPPs), share several physicochemical characteristics and are potential alternatives to antibiotic-based therapies and drug delivery systems, respectively. This study used in silico methods to predict AMPs and CPPs derived from natterins from the venomous fish Thalassophryne nattereri. Fifty-seven BAPs (19 AMPs, 8 CPPs, and 30 AMPs/CPPs) were identified using the web servers CAMP, AMPA, AmpGram, C2Pred, and CellPPD. The physicochemical properties were analyzed using ProtParam, PepCalc, and DispHred tools. The membrane-binding potential and cellular location of each peptide were analyzed using the Boman index by APD3, and TMHMM web servers. All CPPs and two AMPs showed high membrane-binding potential. Fifty-four peptides were located in the plasma membrane. Peptide immunogenicity, toxicity, allergenicity, and ADMET parameters were evaluated using several web servers. Sixteen antiviral peptides and 37 anticancer peptides were predicted using the web servers Meta-iAVP and ACPred. Secondary structures and helical wheel projections were predicted using the PEP-FOLD3 and Heliquest web servers. Fifteen peptides are potential lead compounds and were selected to be further synthesized and tested experimentally in vitro to validate the in silico screening. The use of computer-aided design for predicting peptide structure and activity is fast and cost-effective and facilitates the design of potent therapeutic peptides. The results demonstrate that toxins form a natural biotechnological platform in drug discovery, and the presence of CPP and AMP sequences in toxin families opens new possibilities in toxin biochemistry research.

Published

2022

44. Effects of Ceragenins and Antimicrobial Peptides on the A549 Cell Line and an In Vitro Co-Culture Model of A549 Cells and Pseudomonas aeruginosa

Author

Ozlem Oyardi, Paul B. Savage, and Cagla Bozkurt Guzel

Subjects

ceragenins, antimicrobial peptides, co-culture, biofilm, Medicine

Abstract

Pseudomonas aeruginosa is an important pathogen that can adhere to host tissues and epithelial surfaces, especially during chronic infections such as cystic fibrosis (CF) lung infections. The effect of ceragenins and antimicrobial peptides (AMP) on this colonization was investigated in a co-culture infection model. After determining the antimicrobial effects of the substances on P. aeruginosa planktonic cells, their cytotoxicity on the A549 cell line was also determined. After the A549 cell line was infected with P. aeruginosa, the effect of antimicrobials on intracellular bacteria as well as the effects in inhibiting the adhesion of P. aeruginosa were investigated. In addition, LDH release from cells was determined by performing an LDH experiment to understand the cytotoxicity of bacterial infection and antimicrobial treatment on cells. CSA-131 was determined as the antimicrobial agent with the highest antimicrobial activity, while the antimicrobial effects of AMPs were found to be much lower than those of ceragenins. The antimicrobial with the lowest IC50 value was determined as the combination of CSA-131 with Pluronic F127. CSA-13 has been determined to be the most effective antimicrobial with its effectiveness to both intracellular bacteria and bacterial adhesion. Nevertheless, further safety, efficacy, toxicity, and pharmacological studies of ceragenins are needed to evaluate clinical utility.

Published

2022

45. Mucosal immune system of digestive and respiratory tracts: possibilities of prevention and treatment of infectious diseases

Author

E. V. Kanner, A. V. Gorelov, D. V. Pechkurov, E. A. Gorelova, M. L. Maksimov, and A. S. Ermolaeva

Subjects

mucosal immunity, respiratory tract, digestive system, theory of immune system unity of mucous membrane, microbiota, probiotics, antimicrobial peptides, Medicine

Abstract

The immune system of the body’s mucous membranes plays a huge role in the development, maintenance and regulation of immune homeostasis, being an important component of the multi-component immune system. The structural basis of local immunity is the lymphatic tissue associated with the mucous membranes (MALT). There is now scientific evidence that the mucous membrane sections of different body systems interact closely with each other, subject to the same regulatory influences. This relationship is particularly close between the digestive and respiratory tract, and studies have shown that vaccination of the mucosa of one part increases the protective function of the mucosa of another part, and that virus infection leads to virus-specific concentrations of immunoglobulins in the secretion of the mucosa of another part. The impact on the intestinal microbiota can be a convenient tool to prevent not only gastrointestinal, but also respiratory diseases. In a number of works the clinical effects confirming expediency of probiotics application both at healthy, and at sick children are confirmed. An extremely important component of the local immune system is the antimicrobial peptides, which play a key role in the formation of the first line of defense against infections. AMP have a number of proven biological effects: antibacterial, antiviral and antifungal effects, and some have antitumor properties. Thus, the prospects for prevention and treatment of many infectious diseases lie in the new possibilities for influencing mucosal immunity.

Published

2019

46. Lysozyme increases bactericidal activity of ceragenin CSA-13 against Bacillus subtilis

Author

Bonita Durnaś, Krzysztof Fiedoruk, Mateusz Cieśluk, Piotr Deptuła, Grzegorz Król, Ewelina Piktel, Paul B. Savage, and Robert Bucki

Subjects

synergism, bacillus subtilis, antimicrobial peptides, lysozyme, ceragenins, Medicine

Published

2019

47. The role of antimicrobial peptides in defending the urinary tract against infections

Author

I. N. Zakharova, I. M. Osmanov, L. Ya. Klimov, A. N. Kasyanova, V. A. Kuryaninova, and I. N. Lupan

Subjects

urinary tract infection, inborn immunity, antimicrobial peptides, biocenoses preserving therapy, defensins, cathelicidin, canephron n, Medicine

Abstract

With antibiotic resistance increasing and new microbial resistance factors forming, the problem of creating new methods to treat and prevent the urinary tract infections becomes topical. The latest studies showed that urothelium contains a large number of immune factors providing its protection against the adverse effects of various uropathogens in vivo. There are very promising molecules – antimicrobial peptides (AMPs) – in terms of further therapeutic use among the components of inborn immunity. AMPs are the evolutionarily oldest molecules of innate immunity. The article discusses current data on the presence of various classes of AMPs in the urinary system, demonstrates data on their effectiveness as therapeutic agents against UTI, and describes further prospects for their use in the GP practice.

Published

2019

48. The Strong Anti-Tumor Effect of Smp24 in Lung Adenocarcinoma A549 Cells Depends on Its Induction of Mitochondrial Dysfunctions and ROS Accumulation

Author

Ruiyin Guo, Xuewen Chen, Tienthanh Nguyen, Jinwei Chai, Yahua Gao, Jiena Wu, Jinqiao Li, Mohamed A. Abdel-Rahman, Xin Chen, and Xueqing Xu

Subjects

scorpion venom, antimicrobial peptides, Scorpio maurus palmatus, Smp24, A549, apoptosis, Medicine

Abstract

Non-small cell lung cancer (NSCLC) is the leading cause of death in lung cancer due to its aggressiveness and rapid migration. The potent antitumor effect of Smp24, an antimicrobial peptide derived from Egyptian scorpion Scorpio maurus palmatus via damaging the membrane and cytoskeleton have been reported earlier. However, its effects on mitochondrial functions and ROS accumulation in human lung cancer cells remain unknown. In the current study, we discovered that Smp24 can interact with the cell membrane and be internalized into A549 cells via endocytosis, followed by targeting mitochondria and affect mitochondrial function, which significantly causes ROS overproduction, altering mitochondrial membrane potential and the expression of cell cycle distribution-related proteins, mitochondrial apoptotic pathway, MAPK, as well as PI3K/Akt/mTOR/FAK signaling pathways. In summary, the antitumor effect of Smp24 against A549 cells is related to the induction of apoptosis, autophagy plus cell cycle arrest via mitochondrial dysfunction, and ROS accumulation. Accordingly, our findings shed light on the anticancer mechanism of Smp24, which may contribute to its further development as a potential agent in the treatment of lung cancer cells.

Published

2022

49. Efficient Oral Priming of Tenebrio molitor Larvae Using Heat-Inactivated Microorganisms

Author

Sergio González-Acosta, Victoria Baca-González, Patricia Asensio-Calavia, Andrea Otazo-Pérez, Manuel R. López, Antonio Morales-delaNuez, and José Manuel Pérez de la Lastra

Subjects

immune priming, antimicrobial peptides, invertebrate immunity, mealworms, in vitro antimicrobial assay, survival rate, Medicine

Abstract

Microbial resistance is a global health problem that will increase over time. Advances in insect antimicrobial peptides (AMPs) offer a powerful new approach to combat antimicrobial resistance. Invertebrates represent a rich group of animals for the discovery of new antimicrobial agents due to their high diversity and the presence of adaptive immunity or “immune priming”. Here, we report a priming approach for Tenebrio molitor that simulates natural infection via the oral route. This oral administration has the advantage of minimizing the stress caused by conventional priming techniques and could be a viable method for mealworm immunity studies. When using inactivated microorganisms for oral priming, our results showed an increased survival of T. molitor larvae after exposure to various pathogens. This finding was consistent with the induction of antimicrobial activity in the hemolymph of primed larvae. Interestingly, the hemolymph of larvae orally primed with Escherichia coli showed constitutive activity against Staphylococcus aureus and heterologous activity for other Gram-negative bacteria, such as Salmonella enterica. The priming of T. molitor is generally performed via injection of the microorganism. To our knowledge, this is the first report describing the oral administration of heat-inactivated microorganisms for priming mealworms. This technique has the advantage of reducing the stress that occurs with the conventional methods for priming vertebrates.

Published

2022

50. Roles of Bacterial Mechanosensitive Channels in Infection and Antibiotic Susceptibility

Author

Margareth Sidarta, Luna Baruah, and Michaela Wenzel

Subjects

mechanosensitive channels, osmotic stress, osmotic down-shock, hypoosmotic stress, antibiotics, antimicrobial peptides, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Bacteria accumulate osmolytes to prevent cell dehydration during hyperosmotic stress. A sudden change to a hypotonic environment leads to a rapid water influx, causing swelling of the protoplast. To prevent cell lysis through osmotic bursting, mechanosensitive channels detect changes in turgor pressure and act as emergency-release valves for the ions and osmolytes, restoring the osmotic balance. This adaptation mechanism is well-characterized with respect to the osmotic challenges bacteria face in environments such as soil or an aquatic habitat. However, mechanosensitive channels also play a role during infection, e.g., during host colonization or release into environmental reservoirs. Moreover, recent studies have proposed roles for mechanosensitive channels as determinants of antibiotic susceptibility. Interestingly, some studies suggest that they serve as entry gates for antimicrobials into cells, enhancing antibiotic efficiency, while others propose that they play a role in antibiotic-stress adaptation, reducing susceptibility to certain antimicrobials. These findings suggest different facets regarding the relevance of mechanosensitive channels during infection and antibiotic exposure as well as illustrate that they may be interesting targets for antibacterial chemotherapy. Here, we summarize the recent findings on the relevance of mechanosensitive channels for bacterial infections, including transitioning between host and environment, virulence, and susceptibility to antimicrobials, and discuss their potential as antibacterial drug targets.

Published

2022