ABSTRACT
Autophagy is an intracellular degradation process that maintains cellular homeostasis. It is essential for protecting organisms from environmental stress. Autophagy can help the host to eliminate invading pathogens, including bacteria, viruses, fungi, and parasites. However, pathogens have evolved multiple strategies to interfere with autophagic signaling pathways or inhibit the fusion of autophagosomes with lysosomes to form autolysosomes. Moreover, host cell matrix degradation by different types of autophagy can be used for the proliferation and reproduction of pathogens. Thus, determining the roles and mechanisms of autophagy during pathogen infections will promote understanding of the mechanisms of pathogen‒host interactions and provide new strategies for the treatment of infectious diseases.
Subject(s)
Autophagy , Bacteria , Host-Pathogen Interactions , Lysosomes , Signal TransductionABSTRACT
Resumen A pesar de algunas limitaciones éticas, los animales juegan un papel importante como anfitriones sustitutos para investigar los mecanismos fisiopatológicos de enfermedades con el fin de indagar en ellos medicamentos contra diferentes patologías. Uno de los grandes problemas en salud pública a nivel mundial en el contexto farmacológico es la producción de antibióticos y la ocurrencia de resistencia microbiana, además, cada vez resulta más complejo el uso de modelos animales por las restricciones bioéticas actuales, no obstante, es necesario usar modelos simples en los estudios preliminares que permitan evaluar las interacciones huésped-patógeno-antimicrobiano. Al validar que Caenorhabditis elegans es susceptible a varias bacterias y además tiene la capacidad de responder a estímulos ambientales con cambios observables en el comportamiento tras ser alimentado con diversas bacterias, resulta muy útil usarlo en este tipo de investigaciones ya que tiene una vida promedio corta y no cuenta con restricciones éticas para su uso. Por lo anterior, en este artículo se revisa la susceptibilidad que tiene C.elegans de infectarse con diferentes bacterias, además, ya que aún no se ha validado completamente como modelo para poner a prueba antimicrobianos se propone que este nematodo es útil como modelo In vivo para evaluar infecciones y tratamientos antibacterianos.
Abstract Despite some ethical limitations, animals play an important role as surrogate hosts in investigating the pathophysiological mechanisms of disease in order to test drugs against different pathologies. One of the great problems in public health worldwide in the pharmacological context is the production of antibiotics and the occurrence of microbial resistance, the use of animal models is becoming increasingly complex due to current bioethical restrictions, however, it is necessary to use models simple in preliminary studies that allow evaluating host-pathogen-antimicrobial interactions. Validating that Caenorhabditis elegans is susceptible to various bacteria and also has the ability to respond to environmental stimuli with observable changes in behavior after being fed with various bacteria, it is very useful to use it in this type of research since it has a short average life and does not have ethical restrictions for its use. Therefore, this article reviews the susceptibility of C. elegance to become infected with different bacteria, in addition, since it has not yet been fully validated as a model to test antimicrobials, it is proposed that this nematode is useful as an in vivo model. to evaluate infections and antibacterial treatments.
Subject(s)
Animals , Caenorhabditis elegans , Bacteria , Disease Susceptibility , Host-Pathogen InteractionsABSTRACT
RESUMEN: El virus SARS-CoV-2 ingresa al organismo de un individuo susceptible a través de la cavidad oral, nasal o de la mucosa conjuntival; busca ensamblarse por medio de su glicoproteína de superficie o espiga con los receptores de la enzima convertidora de angiotensina 2 que en boca los encontramos con mayor expresión en las células escamosas que recubren el epitelio lingual y las glándulas salivales, una vez que ingresa por medio de la activación de proteasas ingresa a la célula huésped para denudar su RNA viral, a diferencia de otros virus no necesita ir hasta el núcleo de tal forma que en el citoplasma inicia su replicación y utiliza los ribosomas del huésped para formar una gran cantidad de proteínas virales tanto estructurales como accesorias que le permita formar nuevos viriones potencialmente infecciosos; los estomatólogos deben tomar en cuenta esta vía de infección y extremar las medidas para disminuir su carga viral local en la cavidad oral y las barreras físicas de protección para el operador, el paciente y la ergonomía del consultorio.
ABSTRACT: SARS-CoV-2 virus enters the body of a susceptible individual through oral, nasal or conjunctival mucosa, seeking to bind to the spike glycoprotein surface through angiotensin-converting enzyme 2 receptors. These are found in the mouth with a higher expression in oral squamous cells that cover the lingual epithelium and salivary glands. Once proteolytic activation begins, it enters the host cell to denudate its viral RNA. In contrast with other viruses, it does not require nucleus access, and therefore replicates in the cytoplasm using the host's ribosomes to produce great amounts of both structural and accessory viral proteins. Since this generates new and potentially infectious virions, dentists must consider this route of infection and take extreme measures to decrease their viral load in the oral cavity. Physical protection barriers for the operator, the patient and the health and safety of the work place are critical in these cases.
Subject(s)
Humans , Pneumonia, Viral , Coronavirus Infections , Pandemics , Betacoronavirus , Salivary Glands/virology , Virology/methods , Peptidyl-Dipeptidase A , Host-Pathogen Interactions/genetics , MouthABSTRACT
BACKGROUND: Rice sheath blight (caused by Rhizoctonia solani) and tobacco mosaic virus are very important plant diseases, causing a huge loss in global crop production. Paenibacillus kribbensis PS04 is a broad-spectrum biocontrol agent, used for controlling these diseases. Previously, extracellular polysaccharides (EPS) from P. kribbensis PS04 had been purified and their structure was inferred to be fructosan. This study aimed to evaluate the effects of exogenous EPS treatment on plantpathogen interactions. RESULTS: Plant defense genes such as phenylalanine ammonia-lyase, catalase, chitinase, allene oxide synthase, and PR1a proteins were significantly induced by exogenous EPS treatment. Moreover, subsequent challenge of EPSpretreated plants with the pathogens (R. solani or tobacco mosaic virus) resulted in higher expression of defenseassociated genes. Increased activities of defense-associated enzymes, total phenols, and flavonoids were also observed in EPS pretreated plants. The contents of malondialdehyde in plants, which act as indicator of lipid peroxidation, were reduced by EPS treatment. CONCLUSIONS: This study comprehensively showed that EPS produced from P. kribbensis PS04 enhances disease resistance in plants by the activation of defense-associated genes as well as through the enhancement of activities of defense-related enzymes.
Subject(s)
Plant Diseases/immunology , Rhizoctonia/pathogenicity , Tobacco Mosaic Virus/pathogenicity , Paenibacillus/immunology , Plant Diseases/microbiology , Polysaccharides, Bacterial , Pest Control, Biological , Host-Pathogen Interactions , Paenibacillus/genetics , Disease Resistance/genetics , Real-Time Polymerase Chain Reaction , Fructose/analogs & derivativesABSTRACT
Resumen Los pacientes con lepra lepromatosa que han recibido tratamiento durante años, usualmente requieren seguimiento con biopsias de piel para detectar lesiones persistentes o si la baciloscopia es positiva, incluso si los valores son menores que los iniciales. Se presenta el caso de una mujer de 48 años de edad con lepra lepromatosa de 15 años de evolución, índice bacilar de 4 en el extendido directo y en la biopsia, que recibió tratamiento con múltiples medicamentos durante 32 meses, aunque lo recomendado por la Organización Mundial de la Salud (OMS) es una duración de 12 meses. Se tomó una biopsia de piel para determinar si la enfermedad estaba activa. Se observó inflamación dérmica difusa con numerosas células gigantes de tipo cuerpo extraño y macrófagos vacuolados (células de Virchow). Estas células, CD68 positivas, contenían material granular ácido-alcohol resistente positivo con inmunohistoquímica para BCG. Se encontraron bacilos fragmentados y el índice bacilar fue de 2. Se interpretó como una forma residual de lepra lepromatosa y se concluyó que la paciente no requería prolongar el tratamiento con múltiples medicamentos. Este perfil histológico se ha observado en casos similares, pero sin datos clínicos estas biopsias representan un reto diagnóstico. La acumulación de lípidos en estas células gigantes se debe a la destrucción bacilar y a la fusión de macrófagos vacuolados. Se revisó el papel de los lípidos del bacilo y del huésped en la patogenia de la lepra lepromatosa. En estos casos, no es necesario extender los 12 meses de tratamiento con múltiples medicamentos recomendados por la OMS. En el seguimiento de los pacientes, se recomienda contar con los hallazgos clínicos, la baciloscopia, la biopsia anual de piel y los títulos IgM antiglucolípido fenólico.
Abstract Patients with lepromatous leprosy that have received treatment for many years usually get follow up biopsies for persistent skin lesions or positive bacilloscopy even if the values are lower than in the initial bacilloscopy. We report the case of a 48-year old woman with long-standing lepromatous leprosy of 15 years of evolution, with a bacterial index of 4 in the direct smear and the initial skin biopsy. The patient was treated with multidrug therapy for 32 months although the treatment recommended by the World Health Organization (WHO) is only for 12 months. A skin biopsy was taken to determine if there was an active disease. We observed a diffuse dermal inflammation with numerous foreign body giant cells and vacuolated macrophages (Virchow´s cells). These cells contained granular acid-fast material that was also positive with immunohistochemistry for BCG. There were fragmented bacilli and the BI was 2. These cells were also strongly positive for CD68. The biopsy was interpreted as a residual form of lepromatous leprosy that did not require further multidrug therapy. We have observed similar histological profiles in several cases. The lack of clinical data makes it a histological challenge. The accumulation of lipids in these giant cells is due to bacillary destruction and fusion of vacuolated macrophages. We discuss here the role of bacillary and host lipids in the pathogenesis of lepromatous leprosy. We concluded that there was no need to extend the 12-month multidrug therapy recommended by WHO. Clinical findings, bacilloscopy, annual skin biopsy, and anti-phenolic glycolipid-I IgM titers are recommended procedures for the follow-up of these patients.
Subject(s)
Female , Humans , Middle Aged , Skin/pathology , Leprosy, Lepromatous/pathology , Giant Cells, Foreign-Body/pathology , Foam Cells/pathology , Skin/microbiology , Vacuoles , Biopsy , Antigens, Differentiation, Myelomonocytic/analysis , Leprosy, Lepromatous/drug therapy , Antigens, CD/analysis , Giant Cells, Foreign-Body/microbiology , Giant Cells, Foreign-Body/chemistry , Cell Wall/chemistry , Drug Therapy, Combination , Host-Pathogen Interactions , Foam Cells/microbiology , Foam Cells/chemistry , Leprostatic Agents/therapeutic use , Lipids/analysis , Mycobacterium leprae/isolation & purification , Mycobacterium leprae/chemistryABSTRACT
Abstract Dioctophymatosis is caused by the giant kidney worm Dioctophyme renale which occurs in dogs, cats, and wild mammals. In Brazil, the disease has been diagnosed in dogs from several states around the country. In the present study, the occurrence of D. renale larvae in snakes from southern of Brazil is reported. Three specimens of Philodryas patagoniensis (Serpentes: Dipsadidae) (common names in Brazil: "parelheira", "papa-pinto") roadkill in the county of Capão do Leão, State of Rio Grande do Sul, southern Brazil, were necropsied. Two third-stage larvae of D. renale were found in the coelomic cavity of P. patagoniensis. This study reveals a new host for D. renale larvae in the southern region of the State of Rio Grande do Sul, Brazil. This particular geographic area of the country has stood out as several cases of D. renale infection have been reported in a number of vertebrates from this region including domestic dogs and cats and wild animals such as carnivores, fish, and freshwater turtles.
Resumo Dioctophyme renale, verme gigante do rim, parasita cães, gatos e mamíferos silvestres, sendo que no Brasil, a dioctofimatose canina vem sendo diagnosticada em diversos estados brasileiros. O estudo tem por objetivo registrar larvas de D. renale parasitando serpente no extremo sul do Brasil. Nesse contexto, foram examinados três espécimes de Philodryas patagoniensis (Serpentes: Dipsadidae) encontradas mortas após atropelamento em uma estrada do município de Capão do Leão, Rio Grande do Sul (RS). Duas larvas de terceiro estágio de D. renale foram encontradas na cavidade celomática de P. patagoniensis, a qual representa um novo hospedeiro para larvas de D. renale na região sul do RS, a qual vem se destacando devido aos diversos registros do parasito em cães e gatos domésticos, bem como animais silvestres (carnívoros, peixes, quelônios).
Subject(s)
Animals , Male , Female , Snakes/parasitology , Enoplida Infections/veterinary , Dioctophymatoidea/isolation & purification , Dioctophymatoidea/anatomy & histology , Dioctophymatoidea/classification , Host-Pathogen InteractionsABSTRACT
Abstract Aspergillus fumigatus is an opportunistic saprobe fungus that accounts for 90% of cases of pulmonary aspergillosis in immunosuppressed patients and is known for its angiotropism. When it reaches the respiratory tract, A. fumigatus interacts with structural components and blood vessels of the lungs, such as elastin. To understand the effect of this structural component, we examined the effect of elastin on the production and development of the biofilm of A. fumigatus. In RPMI containing 10 mg/mL of elastin, a significant increase (absorbance p < 0.0001; dry weight p < 0.0001) in the production of biofilm was observed in comparison to when RPMI was used alone, reaching a maximum growth of 18.8 mg (dry weight) of biofilm in 72 h. In addition, elastin stimulates the production (p = 0.0042) of extracellular matrix (ECM) and decreases (p = 0.005) the hydrophobicity during the development of the biofilm. These results suggest that elastin plays an important role in the growth of A. fumigatus and that it participates in the formation of thick biofilm.
Subject(s)
Humans , Aspergillosis/metabolism , Aspergillosis/microbiology , Aspergillus fumigatus/physiology , Elastin/metabolism , Biofilms , Extracellular Matrix/metabolism , Aspergillus fumigatus/genetics , Host-Pathogen InteractionsABSTRACT
Abstract: Objective: To identify and characterize Aedes aegypti's AAEL006536 gene proximal upstream cis-regulatory sequences activated by dengue virus infection. Materials and methods: A. aegypti Rockefeller strain mosquitoes were blood fed or infected with dengue virus 2. Open chromatin profiling was then carried out in pools of midguts from each group of mosquitoes. Results: The proximal upstream region does not contain open chromatin sites in the midguts of blood-fed mosquitoes as detected by FAIRE-qPCR. In contrast, two cis-regulatory sites were identified in the same upstream region of dengue virus-infected mosquito midguts. The distal sequence contains STAT-, REL- and C/EBP-type transcription factor binding sites. Conclusion: The activation of two proximal cis-regulatory sequences, induced by dengue virus infection, is mediated by chromatin remodeling mechanisms. Binding sites suggest a dengue virus infection-induced participation of immunity transcription factors in the up-regulation of this gene. This suggests the participation of the AAEL006536 gene in the mosquito's antiviral innate immune response.
Resumen: Objetivo: Identificar y caracterizar las secuencias reguladoras activadas por la infección por virus dengue en la región proximal del gen AAEL006536 de Aedes aegypti. Material y métodos: Mosquitos de la cepa Rockefeller de A. aegypti se infectaron con virus dengue o se alimentaron con sangre. Se obtuvieron los perfiles de cromatina abierta del locus en los intestinos de cada uno de los grupos. Resultados: Se identificaron dos sitios reguladores solo en los intestinos de mosquitos infectados por virus dengue. El sitio distal contiene sitios de unión a factores de transcripción tipo REL, STAT y C/EBP. Conclusiones: La activación de dos sitios reguladores proximales está mediada por la remodelación de la cromatina. Los sitios de unión a factores de transcripción en el sitio regulador distal sugieren la participación de las vías de inmunidad en la regulación del gen. Esto sugiere la participación de este gen en la respuesta inmune del mosquito frente a la infección viral.
Subject(s)
Animals , Female , Genes, Insect , Insect Proteins/genetics , Aedes/genetics , Dengue Virus/physiology , Mosquito Vectors/genetics , Gene Expression Regulation, Viral , Sequence Analysis, DNA , Aedes/immunology , Chromatin Assembly and Disassembly , Host-Pathogen Interactions , Mosquito Vectors/immunology , Immunity, Innate , Intestines/virologyABSTRACT
Abstract: Objective: To analyze the current knowledge of pathogen-insect interactions amenable for the design of molecular-based control strategies of vector-borne diseases. Materials and methods: We examined malaria, dengue, and Chagas disease pathogens and insect molecules that participate in interactions during their vectors infection. Results: Pathogen molecules that participate in the insect intestine invasion and induced vector immune molecules are presented, and their inclusion in transmission blocking vaccines (TBV) and in genetically modify insect (GMI) vectors or symbiotic bacteria are discussed. Conclusion: Disruption of processes by blocking vector-pathogen interactions provides several candidates for molecular control strategies, but TBV and GMI efficacies are still limited and other secondary effects of GMI (improving transmission of other pathogens, affectation of other organisms) should be discarded.
Resumen: Objetivo: Analizar el conocimiento actual de las interacciones patógeno-insecto susceptibles a incluirse en el diseño de estrategias moleculares para el control de enfermedades transmitidas por vectores. Material y métodos: Se examinaron los agentes causales de la malaria, el dengue y la enfermedad de Chagas, y las moléculas de insectos que participan en interacciones durante la infección de sus vectores. Resultados: Se presentan moléculas de patógenos que participan en la invasión del intestino del insecto y moléculas inmunes inducidas en los vectores. Se discute su inclusión en vacunas bloqueadoras de transmisión (VBT) y en la modificación genética de vectores (MGI) o de sus bacterias simbióticas. Conclusión: La interrupción de procesos mediante el bloqueo de las interacciones patógeno-vector proporciona varios candidatos para las estrategias de control molecular, pero la eficacia de VBT y MGI es aún limitada y los efectos secundarios de MGI (aumento de la transmisión de otros patógenos y afectación de otros organismos) deben descartase.
Subject(s)
Animals , Insect Control/methods , Chagas Disease/prevention & control , Dengue/prevention & control , Dengue Virus/physiology , Host-Pathogen Interactions/genetics , Malaria/prevention & control , Plasmodium/physiology , Trypanosoma cruzi/physiology , Aedes/genetics , Reduviidae/genetics , Reduviidae/virology , Mosquito Vectors/genetics , Anopheles/geneticsABSTRACT
High-throughput transcriptomics technologies have been widely used to study plant transcriptional reprogramming during the process of plant defense responses, and a large quantity of gene expression data have been accumulated in public repositories. However, utilization of these data is often hampered by the lack of standard metadata annotation. In this study, we curated 2444 public pathogenesis-related gene expression samples from the model plant Arabidopsis and three major crops (maize, rice, and wheat). We organized the data into a user-friendly database termed as PlaD. Currently, PlaD contains three key features. First, it provides large-scale curated data related to plant defense responses, including gene expression and gene functional annotation data. Second, it provides the visualization of condition-specific expression profiles. Third, it allows users to search co-regulated genes under the infections of various pathogens. Using PlaD, we conducted a large-scale transcriptome analysis to explore the global landscape of gene expression in the curated data. We found that only a small fraction of genes were differentially expressed under multiple conditions, which might be explained by their tendency of having more network connections and shorter network distances in gene networks. Collectively, we hope that PlaD can serve as an important and comprehensive knowledgebase to the community of plant sciences, providing insightful clues to better understand the molecular mechanisms underlying plant immune responses. PlaD is freely available at http://systbio.cau.edu.cn/plad/index.php or http://zzdlab.com/plad/index.php.
Subject(s)
Arabidopsis , Genetics , Databases, Genetic , Gene Expression Profiling , Gene Expression Regulation, Plant , Gene Regulatory Networks , Genes, Plant , Host-Pathogen Interactions , Genetics , Oryza , Genetics , Plant Immunity , Genetics , Plants , Genetics , Microbiology , Transcriptome , Genetics , Triticum , Genetics , User-Computer Interface , Zea mays , GeneticsABSTRACT
Porcine epidemic diarrhea virus (PEDV) is a highly infectious pathogen that can cause severe diseases in pigs and result in enormous economic losses in the worldwide swine industry. Previous studies revealed that PEDV exhibits an obvious capacity for modulating interferon (IFN) signaling or expression. The newly discovered type III IFN, which plays a crucial role in antiviral immunity, has strong antiviral activity against PEDV proliferation in IPEC-J2 cells. In this study, we aimed to investigate the effect of PEDV nucleocapsid (N) protein on type III IFN-λ. We found that the N proteins of ten PEDV strains isolated between 2013 and 2017 from different local farms shared high nucleotide identities, while the N protein of the CV777 vaccine strain formed a monophyletic branch in the phylogenetic tree. The N protein of the epidemic strain could antagonize type III IFN, but not type I or type II IFN expression induced by polyinosinic-polycytidylic acid (poly(I:C)) in IPEC-J2 cells. Subsequently, we demonstrated that the inhibition of poly(I:C)-induced IFN-λ3 production by PEDV N protein was dependent on the blocking of nuclear factor-κB (NF-κB) nuclear translocation. These findings might help increase understanding of the pathogenesis of PEDV and its mechanisms for evading the host immune response.
Subject(s)
Animals , Active Transport, Cell Nucleus , Coronavirus Infections , Allergy and Immunology , Virology , Genes, Viral , Host-Pathogen Interactions , Allergy and Immunology , Interferons , Genetics , Interleukins , Genetics , NF-kappa B , Metabolism , Nucleocapsid Proteins , Genetics , Allergy and Immunology , Physiology , Porcine epidemic diarrhea virus , Genetics , Virulence , Physiology , Promoter Regions, Genetic , Swine , Swine Diseases , Allergy and Immunology , VirologyABSTRACT
Microbiome research is a quickly developing field in biomedical research, and we have witnessed its potential in understanding the physiology, metabolism and immunology, its critical role in understanding the health and disease of the host, and its vast capacity in disease prediction, intervention and treatment. However, many of the fundamental questions still need to be addressed, including the shaping forces of microbial diversity between individuals and across time. Microbiome research falls into the classical nature vs. nurture scenario, such that host genetics shape part of the microbiome, while environmental influences change the original course of microbiome development. In this review, we focus on the nature, i.e., the genetic part of the equation, and summarize the recent efforts in understanding which parts of the genome, especially the human and mouse genome, play important roles in determining the composition and functions of microbial communities, primarily in the gut but also on the skin. We aim to present an overview of different approaches in studying the intricate relationships between host genetic variations and microbes, its underlying philosophy and methodology, and we aim to highlight a few key discoveries along this exploration, as well as current pitfalls. More evidence and results will surely appear in upcoming studies, and the accumulating knowledge will lead to a deeper understanding of what we could finally term a "hologenome", that is, the organized, closely interacting genome of the host and the microbiome.
Subject(s)
Animals , Humans , Biomedical Research , Genes , Genetic Variation , Genome , Host-Pathogen Interactions , Genetics , Metagenomics , MicrobiotaABSTRACT
Organoid is an in vitro multicellular form mimicking in vivo organ. Its similarity to human organ including cellular organization, molecular expression patterns, as well as genetic signatures enables to study the characteristics of infectious agents and host-pathogen interaction. For the features of organoid, this system also can be potentially used to cultivate currently uncultivable viruses of vaccine candidates. This paper will briefly describe problems in the current culture system for virus production and the possibility of organoid as culture system for viral vaccine and their current limitations that should be solved to meet the goal.
Subject(s)
Humans , Host-Pathogen Interactions , In Vitro Techniques , Organoids , Viral Vaccines , Virus CultivationABSTRACT
Background: Small ribonucleic acids represent an important repertoire of mobile molecules that exert key roles in several cell processes including antiviral defense. Small RNA based repertoire includes both small interfering RNA (siRNA) and microRNA (miRNA) molecules. In the Prunus genus, sharka disease, caused by the Plum pox virus (PPV), first occurred on European plum (Prunus domestica) and then spread over among all species in this genus and thus classified as quarantine pathogen. Next-generation sequencing (NGS) was used for the study of siRNA/miRNA molecules; however, NGS relies on adequate extraction protocols. Currently, knowledge of PPV-Prunus interactions in terms of siRNA populations and miRNA species is still scarce, and siRNA/miRNA extraction protocols are limited to species such as peach, almond, and sweet cherry. Results: We describe a reliable procedure for siRNA/miRNA purification from Prunus salicina trees, in which previously used protocols did not allow adequate purification. The procedure was based on a combination of commercially available RNA purification kits and specific steps that yielded high quality purifications. The resulting molecules were adequate for library construction and NGS, leading to the development of a pipeline for analysis of both siRNAs and miRNAs in the PPVP. salicina interactions. Results showed that PPV infection led to altered siRNA profiles in Japanese plum as characterized by decreased 24-nt and increased 21- and 22-nt siRNAs. Infections showed miR164 and miR160 generation and increased miR166, miR171, miR168, miR319, miR157, and miR159. Conclusion: We propose this protocol as a reliable and reproducible small RNA isolation procedure for P. salicina and other Prunus species.
Subject(s)
RNA, Plant/isolation & purification , MicroRNAs/isolation & purification , RNA, Small Interfering/isolation & purification , Prunus domestica/genetics , Plant Diseases/virology , Plum Pox Virus/physiology , Host-Pathogen Interactions , High-Throughput Nucleotide Sequencing , Real-Time Polymerase Chain Reaction , Prunus domestica/immunology , Prunus domestica/virologyABSTRACT
O estudo da atividade inibitória de Lactobacillus pode contribuir na descoberta de novas estratégias terapêuticas nas infecções por Candida. Nesse contexto, o objetivo desse estudo foi isolar e identificar Lactobacillus da cavidade bucal de indivíduos livres de cárie e avaliar seu potencial de inibição de C. albicans por meio de estudos in vitro e in vivo. Primeiramente, foram avaliados os efeitos de 30 isolados clínicos de Lactobacillus sobre o número de células viáveis (UFC) em biofilme de C. albicans e sobre a formação de hifas. Os isolados que obtiveram os maiores efeitos inibitórios sobre C. albicans foram selecionados para os testes de determinação da biomassa total dos biofilmes pela absorbância do cristal violeta, análise da arquitetura dos biofilmes por microscopia eletrônica de varredura (MEV) e quantificação da expressão de genes de C. albicans (ALS3, HWP1, EFG1 e CPH1) por qPCR. Esses isolados também foram submetidos a estudos in vivo usando os modelos de Galleria mellonella e Caenorhabditis elegans. Para o estudo em G. mellonella, a infecção experimental foi avaliada pela curva de sobrevivência, quantificação da carga fúngica na hemolinfa, densidade hemocitária, quantificação da expressão gênica de peptídeos antifúngicos (Gallerymicina e Galiomicina) e monitoramento da infecção de C. albicans por análise de bioluminescência. No modelo de C. elegans, a infecção foi avaliada por meio dos ensaios de curva de sobrevivência e estudo da filamentação de C. albicans. Os resultados dos ensaios in vitro demonstraram que L. paracasei 28.4, L. rhamnosus 5.2 e L. fermentum 20.4 foram as cepas com maior atividade antimicrobiana sobre os biofilmes de C. albicans. Nessas cepas, todos os genes analisados foram regulados negativamente na associação com Lactobacillus quando comparados com o grupo controle. No estudo in vivo, a injeção de L. paracasei 28.4 em G. mellonella infectadas com C. albicans aumentou a sobrevida das larvas, o número de hemócitos e a expressão de peptídeos antifúngicos, reduzindo assim a UFC de C. albicans. Em C. elegans, L. paracasei 28.4 também foi capaz de aumentar a sobrevida dos vermes infectados com C. albicans e reduzir a filamentação. Conclui-se que L. fermentum 20.4, L. paracasei 28.4 e L. rhamnosus 5.2 tem potencial para serem usados como probióticos na cavidade bucal devido sua ação anti-biofilme e sua regulação negativa dos genes de virulência de C. albicans. L. paracasei 28.4 foi capaz de prolongar a sobrevida nos dois modelos experimentais infectados com C. albicans por apresentarem ação antifúngica e imunomodulatória(AU)
The study of the antifungal activity of Lactobacillus may contribute to the discovery of new therapeutic strategies for Candida infections. In this context, the objective of this study was to isolate and identify Lactobacillus from the oral cavity of caries-free subjects and to evaluate its effects through in vitro and in vivo studies. First, the effects of 30 clinical isolates of Lactobacillus on the number of viable cells (CFU) in biofilms of C. albicans and on hyphae formation were evaluated. The isolates that obtained the highest inhibitory effects on C. albicans were selected for biofilm biomass determination by violet crystal absorbance, analysis of biofilm architecture by scanning electron microscopy (SEM) and quantification of the expression of C. albicans (ALS3, HWP1, EFG1 and CPH1) by real time PCR. These isolates were also submitted to in vivo studies using the Galleria mellonella and Caenorhabditis elegans models. For the study in the model of Galleria mellonella, the experimental infection was evaluated by the survival curve, quantification of the fungal load in the hemolymph, hemocitary density, the gene expression of antifungal peptides (Gallerymicin and Galiomicin) and monitoring of C. albicans infection by bioluminescence analysis. In the Caenorhabditis elegans model, the infection was evaluated by the survival curve assays and the study of C. albicans filamentation. The results of in vitro tests demonstrated that L. paracasei 28.4, L. rhamnosus 5.2 and L. fermentum 20.4 were the strains with the highest antimicrobial activity on the biofilms of C. albicans. In these strains, all analyzed genes were negatively regulated in association with Lactobacillus when compared to the control group. In the in vivo study, the injection of L. paracasei 28.4 into the G. mellonella increased survival of the larvae, the number of hemocytes and the expression of antifungal peptides, thus reducing the CFU of C. albicans. In C. elegans, L. paracasei 28.4 was also able to increase the survival of worms infected with C. albicans and reduce the filamentation. We conclude that L. fermentum 20.4, L. paracasei 28.4 and L. rhamnosus 5.2 have potential to be used as probiotics in the oral cavity due to their anti-biofilm action and their negative regulation of virulence genes of C. albicans. L. paracasei 28.4 was able to prolong survival of both experimental models infected with C. albicans for having antifungal and immunomodulatory action(AU)
Subject(s)
Humans , Candida albicans/immunology , Caenorhabditis elegans/genetics , Dental Plaque , Host-Pathogen Interactions/physiology , Mouth/injuriesABSTRACT
Saprolegniasis is one of the most devastating oomycete diseases in freshwater fish which is caused by species in the genus Saprolegnia including Saprolegnia parasitica. In this study, we isolated the strain of S. parasitica from diseased rainbow trout in Korea. Morphological and molecular based identification confirmed that isolated oomycete belongs to the member of S. parasitica, supported by its typical features including cotton-like mycelium, zoospores and phylogenetic analysis with internal transcribed spacer region. Pathogenicity of isolated S. parasitica was developed in embryo, juvenile, and adult zebrafish as a disease model. Host-pathogen interaction in adult zebrafish was investigated at transcriptional level. Upon infection with S. parasitica, pathogen/antigen recognition and signaling (TLR2, TLR4b, TLR5b, NOD1, and major histocompatibility complex class I), pro/anti-inflammatory cytokines (interleukin [IL]-1β, tumor necrosis factor α, IL-6, IL-8, interferon γ, IL-12, and IL-10), matrix metalloproteinase (MMP9 and MMP13), cell surface molecules (CD8⁺ and CD4⁺) and antioxidant enzymes (superoxide dismutase, catalase) related genes were differentially modulated at 3- and 12-hr post infection. As an anti-Saprolegnia agent, plant based lawsone was applied to investigate on the susceptibility of S. parasitica showing the minimum inhibitory concentration and percentage inhibition of radial growth as 200 μg/mL and 31.8%, respectively. Moreover, natural lawsone changed the membrane permeability of S. parasitica mycelium and caused irreversible damage and disintegration to the cellular membranes of S. parasitica. Transcriptional responses of the genes of S. parasitica mycelium exposed to lawsone were altered, indicating that lawsone could be a potential anti-S. parasitica agent for controlling S. parasitica infection.
Subject(s)
Adult , Humans , Cytokines , Embryonic Structures , Fresh Water , Host-Pathogen Interactions , Interferons , Interleukin-12 , Interleukin-6 , Interleukin-8 , Korea , Major Histocompatibility Complex , Membranes , Microbial Sensitivity Tests , Mycelium , Oncorhynchus mykiss , Oomycetes , Permeability , Plants , Saprolegnia , Tumor Necrosis Factor-alpha , Virulence , ZebrafishABSTRACT
ABSTRACT The microorganism-microorganism or microorganism-host interactions are the key strategy to colonize and establish in a variety of different environments. These interactions involve all ecological aspects, including physiochemical changes, metabolite exchange, metabolite conversion, signaling, chemotaxis and genetic exchange resulting in genotype selection. In addition, the establishment in the environment depends on the species diversity, since high functional redundancy in the microbial community increases the competitive ability of the community, decreasing the possibility of an invader to establish in this environment. Therefore, these associations are the result of a co-evolution process that leads to the adaptation and specialization, allowing the occupation of different niches, by reducing biotic and abiotic stress or exchanging growth factors and signaling. Microbial interactions occur by the transference of molecular and genetic information, and many mechanisms can be involved in this exchange, such as secondary metabolites, siderophores, quorum sensing system, biofilm formation, and cellular transduction signaling, among others. The ultimate unit of interaction is the gene expression of each organism in response to an environmental (biotic or abiotic) stimulus, which is responsible for the production of molecules involved in these interactions. Therefore, in the present review, we focused on some molecular mechanisms involved in the microbial interaction, not only in microbial-host interaction, which has been exploited by other reviews, but also in the molecular strategy used by different microorganisms in the environment that can modulate the establishment and structuration of the microbial community.
Subject(s)
Animals , Plants/microbiology , Ecology , Host-Pathogen Interactions , Microbial Interactions , Microbiota , Soil Microbiology , Quorum Sensing , Secondary MetabolismABSTRACT
Salmonella enterica is a major foodborne pathogen worldwide, being the main cause of outbreaks by food consumption in Chile. Despite all efforts deployed for control and prevention, the high incidence in people still persists, with several factors that could be influencing the epidemiological behavior of this infection. The objective of this review is to identify these factors belonging to the biological agent, the human host and the environment, which probably have a greater importance in Chile. Thus, priority areas for research of S. enterica are inferred, which hopefully will help to understand its spread in nature and its success as a wide host range pathogen. In the future, increased understanding of these determinants will facilitate the implementation of biosecurity and surveillance strategies for the prevention of disease in people and animals.
Salmonella enterica es uno de los principales patógenos transmitidos por los alimentos en el mundo, siendo la primera causa de brotes de intoxicación alimentaria en Chile. A pesar de todos los esfuerzos de control y prevención desplegados, la incidencia en las personas se ha mantenido alta, por lo que diversos factores podrían estar influenciando el comportamiento epidemiológico de esta infección. El objetivo de esta revisión es describir factores referidos tanto al agente biológico, al hospedero humano y al medio ambiente, que podrían tener mayor trascendencia en Chile. De esta forma, se infieren ámbitos prioritarios para la investigación de S. enterica, que permitan entender su dispersión en la naturaleza y su éxito como patógeno de un amplio rango de hospederos. A futuro, el mayor conocimiento de estos determinantes facilitará la implementación de estrategias de bioseguridad y vigilancia para la prevención de la enfermedad en las personas y en los animales.
Subject(s)
Humans , Animals , Salmonella Infections/microbiology , Salmonella enterica , Environment , Host-Pathogen Interactions , Salmonella Infections/transmission , ChileABSTRACT
Salmonella Enteritidis and Salmonella Typhimurium are responsible for causing huge economic loses in aviculture, as they lead young broiler chicks to develop clinical disease and thus increase mortality. Salmonella's pathogenicity is considered complex and multifactorial, demanding more studies that could elucidate the interaction between host and pathogen. The present study aims to evaluate the virulence of 130S. Enteritidis isolates and 70S. Typhimurium inoculated in one-day-old chicks through the establishment of a pathogenicity index. For each strain, 10 commercial chicks from the Cobb lineage were used. Then, 200µL of a solution containing 2x108 CFU of S. Enteritidis or S. Typhimurium were inoculated in the birds by intraperitoneal via. Mortality and presence of lesions such as aerosaculitis (A), perihepatitis (Ph), pericarditis (Pc), peritonitis (Pt), onfalitis (O) and cellulitis (C) were registered daily for seven days. From the second to the seventh day there was a proportional decrease in the punctuation of the time of death (TD) for each day that the bird had survived. The pathogenicity index was calculated using the following formula: PI = (TD x 5) + A + Ph + Pc + Pt + O + C. The obtainment of the PI of each bacterial sample was achieved by calculating the rate of the ten inoculated birds. Based on the obtained results, it was possible to attribute the pathogenicity value for each strain, which enabled us to classify them in groups of low (27/200), intermediate (95/200) and high (78/200) pathogenicity. The utilization of standards like time of death and presence of septicemic lesions made it possible to determine the pathogenicity rate for each strain. Besides that, the proposed model has presented dramatic differences between the high, intermediate and low pathogenicity groups, which makes this mechanism useful for further classification of strains isolated in poultry farms.
Salmonella Enteritidis e Salmonella Typhimurium são responsáveis por imensos prejuízos econômicos ao setor avícola, podendo levar ao desenvolvimento de doença clínica e ao aumento da mortalidade em aves jovens. A patogenicidade de Salmonella é considerada complexa e multifatorial, necessitando de estudos que possam esclarecer a interação entre patógeno e hospedeiro. O presente trabalho teve por objetivo avaliar a virulência de 130 isolados de S. Enteritidis e 70 de S.Typhimurium, inoculadas em pintos de um dia de idade, por meio do estabelecimento de um índice de patogenicidade. Para cada cepa, foram utilizados 10 pintos comerciais da linhagem Cobb. As aves foram inoculadas com 200µL de uma solução contendo 2x108 UFC de S. Enteritidis ou S. Typhimurium, por via intraperitoneal. A mortalidade e a presença de lesões como aerossaculite (A), peri-hepatite (Ph), pericardite (Pc), peritonite (Pt), onfalite (O) e celulite (C) foram registradas diariamente durante sete dias. Do segundo ao sétimo dia, houve uma diminuição proporcional da pontuação no tempo de morte (TM) a cada dia em que o animal sobrevivia. O cálculo do índice de patogenicidade de cada pintinho inoculado (IP) obedeceu à seguinte fórmula: IP = (TMx5) + A + Ph + Pc + Pt + O + C. Para obtenção do IP de cada amostra, foi realizada a média do IP obtido com as 10 aves inoculadas. Com base nos resultados observados, foi possível atribuir um valor de patogenicidade a cada uma das cepas, permitindo classificá-las em grupos de baixa (27/200), intermediária (95/200) e alta patogenicidade (78/200). A utilização de critérios, como tempo de morte e presença de lesões septicêmicas, permitiu a determinação de um índice de patogenicidade para cada cepa. Além disso, o modelo proposto apresentou diferença significativa entre os grupos de alta, intermediária e baixa patogenicidade, permitindo, assim, a sua aplicação para classificação futura das cepas isoladas em granjas avícolas.