Arrranjos supramoleculares de lípide catiônico, antibióticos e polímeros: preparação, caracterização e atividade contra bactérias multirresistentes e micobactérias de crescimento rápido / Supramolecular assemblies of cationic lipid, antibiotics and polymers: preparation, characterization and activity against multidrug resistant bacteria and fast growing mycobacteria.

Carrasco, Letícia Dias de Melo

08 July 2016

Arranjos supramoleculares combinando o lípide catiônico brometo de dioctadecildimetilamônio (DOD) com polímeros, como carboximetilcelulose (CMC) e cloreto de poli(dialildimetilamônio) (PDDA), foram preparados na forma de nanopartículas (NPs), na ausência ou presença de antimicrobiano tradicional, como a claritromicina (CLA). NPs preparadas por atração eletrostática entre os fragmentos de bicamada (BF) de DOD, CMC e PDDA foram avaliadas, in vitro, quanto à atividade contra isolados clínicos de micro-organismos multirresistentes (MR) a antimicrobianos, como Pseudomonas aeruginosa MR, Klebsiella pneumoniae produtora da enzima carbapenemase do tipo KPC, Staphylococcus aureus resistente à meticilina/oxacilina (MRSA) e Candida albicans resistente ao fluconazol, através do método de plaqueamento e contagem de viáveis. As NPs de DOD BF/CMC/PDDA apresentam alta atividade de amplo espectro contra micro-organismos MR, em que o PDDA é o componente responsável pela excelente atividade biocida das NPs. O mecanismo de ação antimicrobiana indica a dissociação dessas NPs na presença dos micro-organismos, com a remoção de biopolímeros da parede celular microbiana pelo PDDA, conforme visualizado por microscopia eletrônica de varredura, ocorrendo lise da membrana microbiana e liberação de compostos fosforilados para o meio extracelular. Também foram desenvolvidas neste trabalho NPs carreadoras de CLA à base de DOD e polímeros. Solução etanólica contendo CLA/DOD foi injetada em solução aquosa de CMC, formando arranjos coloidalmente estáveis e aniônicos, que posteriormente foram adicionados de solução de PDDA, para a obtenção de arranjos estáveis e catiônicos. CLA/DOD/CMC e CLA/DOD/CMC/PDDA NPs incorporaram CLA em quantidade suficiente para inibir o crescimento de M. abscessus no interior de macrófagos bem como evitar a formação de biofilmes, sendo que altas doses de CLA foram tóxicas aos macrófagos, enquanto doses menores apresentaram baixa toxicidade e boa atividade antimicrobiana. NPs catiônicas carreando CLA foram tóxicas aos macrófagos nas concentrações de PDDA testadas. A natureza particulada das CLA NPs possivelmente aumenta a retenção intracelular de CLA em comparação com CLA livre, podendo prolongar atividade da CLA contra patógenos intracelulares. Desta maneira, arranjos supramoleculares combinando lípide e polímeros, com ou sem antimicrobianos tradicionais poderão encontrar diversas aplicações nas áreas farmacêutica, médica, alimentícia e biotecnológica. / Supramolecular assemblies combining cationic lipid dioctadecyldimethylammonium bromide (DOD) and polymers, such as sodium carboxymethylcellulose (CMC) and poly(diallyldimethylammonium chloride) (PDDA), were prepared as nanoparticles (NPs), in the absence or presence of traditional antibiotic, such as clarithromycin (CLA). NPs prepared by electrostatic attraction between DOD bilayer fragments (BF), CMC and PDDA were evaluated against clinical strains of multidrug resistant (MDR) microorganisms, such as Pseudomonas aeruginosa MDR, Klebsiella pneumoniae producer of KPC carbapenemase enzyme, methicillin-resistant Staphylococcus aureus (MRSA) and Candida albicans fluconazole resistant, by plating and colony forming unities counting. DOD BF/CMC/PDDA NPs display high and broad-spectrum activity against MDR microrganisms, and PDDA is the excellent biocidal component in the NPs. The mechanism of antimicrobial action shows that NPs disassembly in the presence of microrganisms, with biopolymers withdrawn from the cell wall, as observed by scanning electron microscopy, consecutively lysing bacterial membrane as determined from the leakage of inner phosphorylated compounds. In this work there have also been developed NPs, based on lipid and polymers, as carriers for CLA. Ethanolic solution co-solubilizing CLA/DOD was injected in CMC aqueous solution, yielding colloidaly stable and anionic NPs, that were further added of PDDA solution, yielding stable and cationic NPs. CLA/DOD/CMC NPs and CLA/DOD/CMC/PDDA NPs incorporated CLA at doses high enough to inhibit M. abscessus growth inside macrophages or in biofilms. Larger CLA doses were toxic to macrophages while lower CLA doses reduced toxicity to macrophages despite their high antimicrobial activity. Cationic CLA NPs exhibited substantial toxicity against macrophages at the PDDA concentrations tested. The particulate nature of these CLA NPs possibly increases intracellular CLA retention in comparison to free CLA, probably extending CLA activity against intracellular pathogens. In conclusion, supramolecular assemblies combining cationic lipid and polymers, with or without traditional antibiotics, may find multiple possibilities of applications at pharmaceutical, medical, food and biotecnological fields.

Antibiótico e polímeros

Antimicrobial nanoparticles

Auto-associação de lípide

Medical microbiology

Micro-organismos multirresistentes

Microbiologia médica

Multidrug resistant microrganisms

Nanopartículas antimicrobianas

Self-assembly of lipid and polymers

ChAT Expression in Chlamydia muridarum-infected Female Murine Genital Tract

Sartain, Hallie

01 May 2017

Chlamydia trachomatis is the most prevalent agent of bacterial sexually transmitted infections in the world. However, a profuse number of cases are unreported, as the infection is often asymptomatic. Sequelae such as pelvic inflammatory disease, an increased risk of cervical cancer, premature birth, and perinatal infections in pregnant women can occur. Inflammation occurs in the body in response to infection or injury. Although inflammation can lead to some unwanted secondary effects, such as pain, it serves to return the body to homeostasis by restoring injured tissues and eliminating pathogens. One recently identified connection between the central nervous system and the immune system that regulates inflammation is the cholinergic anti-inflammatory pathway (CAP). In the CAP, pathogen-associated molecular patterns stimulate the vagus nerve to activate the pathway, which ultimately results in acetylcholine (ACh) release, which down regulates inflammation. We hypothesized that genital chlamydial infection would increase the expression of choline acetyltransferase (ChAT), the enzyme that synthesizes ACh, in the female murine genital tract, therefore down regulating inflammation and promoting chlamydial infection. Transgenic female mice carrying a ChAT-promoter driven GFP reporter gene were vaginally infected with C. muridarum. Mice were sacrificed on days 3, 9, 15, and 21 post infection; cervical, uterine horn, and ovarian tissues were removed and embedded in paraffin. Small sections of each tissue were cut and mounted onto slides. The tissue sections were then stained for the expression of ChAT using immunohistochemical techniques. Finally, tissue sections were viewed under a microscope for positive staining and the data was analyzed. The results indicated that there is a significant increase in the number of cells that express ChAT in genital tract of chlamydia-infected mice versus non-infected mice.

cholinergic

acetylcholine

anti-inflammatory

pathway

chlamydia

Bacteria

Bacterial Infections and Mycoses

Enzymes and Coenzymes

Infectious Disease

Medical Microbiology

Obstetrics and Gynecology

Pathology

Urogenital System

Molecular epidemiology of coagulase-negative staphylococci in hospitals and in the community

Widerström, Micael

January 2010

Background Coagulase-negative staphylococci (CoNS) and in particular Staphylococcus epidermidis have emerged as major pathogens primarily causing nosocomial infections in patients with indwelling medical devices. These infections are often caused by multidrug-resistant strains of S. epidermidis (MDRSE). Other clinical entities due to CoNS are lower urinary tract infections (UTI) in women and native valve endocarditis. The purpose of this work was to investigate the frequency of antibiotic resistance and the molecular epidemiology of both hospital and community-associated isolates of S. epidermidis in order to examine if certain clones are related to MDRSE infections. Furthermore, we aimed to explore if specific clones of S. saprophyticus are associated with UTI in women. Methods A total of 359 hospital-associated methicillin-resistant isolates of CoNS obtained from 11 hospitals in northern Europe and 223 community-associated staphylococcal isolates were examined. Furthermore, 126 isolates of S. saprophyticus isolated from women with uncomplicated UTI from five different locations in northern Europe were analyzed. Pulsed-field gel electrophoresis (PFGE) was used for genotyping. Additionally, some of the S. epidermidis isolates were analyzed with multilocus sequence typing (MLST). Antibiotic susceptibility was determined for all isolates by the disc diffusion test. Results 293 of the 359 (82%) hospital-associated and 124 of the 223 (56%) community-associated isolates belonged to the species S. epidermidis. Among the hospital-associated S. epidermidis isolates, two dominating PFGE types (type A and B) were distinguished, comprising 78 (27%) and 51 (17%) isolates, respectively. Type A, which was detected in a Norwegian and eight Swedish hospitals, corresponded with a novel sequence type (ST215). Type B was discovered in a German, a Danish and seven Swedish hospitals and corresponded with ST2. In contrast, community-associated isolates of S. epidermidis were genetically extremely diverse with no predominating genotype, and showed a low rate of antibiotic resistance; only two (1.6%) methicillin-resistant strains were detected. Among 126 analyzed isolates of S. saprophyticus, 47 different PFGE profiles were identified. Several clusters of genetically highly related isolates were detected among isolates obtained from different locations and periods of time. Conclusion We have demonstrated the occurrence, persistence and potential dissemination of two multidrug-resistant S. epidermidis (MDRSE) genotypes, including a novel sequence type (ST215), within hospitals in northern Europe. Community-associated isolates of S. epidermidis showed a low rate of methicillin-resistance and were genetically heterogeneous. These results indicate that MDRSE by large are confined to the hospital setting in our region. Moreover, although the S. saprophyticus population was quite heterogeneous, indistinguishable isolates of S. saprophyticus causing lower UTI in women were identified in different countries 11 years apart, indicating the persistence and geographical spread of some clones of S. saprophyticus.

staphylococcus epidermidis

staphylococcus saprophyticus

electrophoresis

gel

pulsed-field

genetic diversity

methicillin-resistance

UTI

drug resistance

multiple

bacterial

epidemiology

molecular

cross infection

molecular sequence data

Medical microbiology

Medicinsk mikrobiologi

Clinical bacteriology

Klinisk bakteriologi

Infectious diseases

Infektionssjukdomar

Arrranjos supramoleculares de lípide catiônico, antibióticos e polímeros: preparação, caracterização e atividade contra bactérias multirresistentes e micobactérias de crescimento rápido / Supramolecular assemblies of cationic lipid, antibiotics and polymers: preparation, characterization and activity against multidrug resistant bacteria and fast growing mycobacteria.

Letícia Dias de Melo Carrasco

08 July 2016

Arranjos supramoleculares combinando o lípide catiônico brometo de dioctadecildimetilamônio (DOD) com polímeros, como carboximetilcelulose (CMC) e cloreto de poli(dialildimetilamônio) (PDDA), foram preparados na forma de nanopartículas (NPs), na ausência ou presença de antimicrobiano tradicional, como a claritromicina (CLA). NPs preparadas por atração eletrostática entre os fragmentos de bicamada (BF) de DOD, CMC e PDDA foram avaliadas, in vitro, quanto à atividade contra isolados clínicos de micro-organismos multirresistentes (MR) a antimicrobianos, como Pseudomonas aeruginosa MR, Klebsiella pneumoniae produtora da enzima carbapenemase do tipo KPC, Staphylococcus aureus resistente à meticilina/oxacilina (MRSA) e Candida albicans resistente ao fluconazol, através do método de plaqueamento e contagem de viáveis. As NPs de DOD BF/CMC/PDDA apresentam alta atividade de amplo espectro contra micro-organismos MR, em que o PDDA é o componente responsável pela excelente atividade biocida das NPs. O mecanismo de ação antimicrobiana indica a dissociação dessas NPs na presença dos micro-organismos, com a remoção de biopolímeros da parede celular microbiana pelo PDDA, conforme visualizado por microscopia eletrônica de varredura, ocorrendo lise da membrana microbiana e liberação de compostos fosforilados para o meio extracelular. Também foram desenvolvidas neste trabalho NPs carreadoras de CLA à base de DOD e polímeros. Solução etanólica contendo CLA/DOD foi injetada em solução aquosa de CMC, formando arranjos coloidalmente estáveis e aniônicos, que posteriormente foram adicionados de solução de PDDA, para a obtenção de arranjos estáveis e catiônicos. CLA/DOD/CMC e CLA/DOD/CMC/PDDA NPs incorporaram CLA em quantidade suficiente para inibir o crescimento de M. abscessus no interior de macrófagos bem como evitar a formação de biofilmes, sendo que altas doses de CLA foram tóxicas aos macrófagos, enquanto doses menores apresentaram baixa toxicidade e boa atividade antimicrobiana. NPs catiônicas carreando CLA foram tóxicas aos macrófagos nas concentrações de PDDA testadas. A natureza particulada das CLA NPs possivelmente aumenta a retenção intracelular de CLA em comparação com CLA livre, podendo prolongar atividade da CLA contra patógenos intracelulares. Desta maneira, arranjos supramoleculares combinando lípide e polímeros, com ou sem antimicrobianos tradicionais poderão encontrar diversas aplicações nas áreas farmacêutica, médica, alimentícia e biotecnológica. / Supramolecular assemblies combining cationic lipid dioctadecyldimethylammonium bromide (DOD) and polymers, such as sodium carboxymethylcellulose (CMC) and poly(diallyldimethylammonium chloride) (PDDA), were prepared as nanoparticles (NPs), in the absence or presence of traditional antibiotic, such as clarithromycin (CLA). NPs prepared by electrostatic attraction between DOD bilayer fragments (BF), CMC and PDDA were evaluated against clinical strains of multidrug resistant (MDR) microorganisms, such as Pseudomonas aeruginosa MDR, Klebsiella pneumoniae producer of KPC carbapenemase enzyme, methicillin-resistant Staphylococcus aureus (MRSA) and Candida albicans fluconazole resistant, by plating and colony forming unities counting. DOD BF/CMC/PDDA NPs display high and broad-spectrum activity against MDR microrganisms, and PDDA is the excellent biocidal component in the NPs. The mechanism of antimicrobial action shows that NPs disassembly in the presence of microrganisms, with biopolymers withdrawn from the cell wall, as observed by scanning electron microscopy, consecutively lysing bacterial membrane as determined from the leakage of inner phosphorylated compounds. In this work there have also been developed NPs, based on lipid and polymers, as carriers for CLA. Ethanolic solution co-solubilizing CLA/DOD was injected in CMC aqueous solution, yielding colloidaly stable and anionic NPs, that were further added of PDDA solution, yielding stable and cationic NPs. CLA/DOD/CMC NPs and CLA/DOD/CMC/PDDA NPs incorporated CLA at doses high enough to inhibit M. abscessus growth inside macrophages or in biofilms. Larger CLA doses were toxic to macrophages while lower CLA doses reduced toxicity to macrophages despite their high antimicrobial activity. Cationic CLA NPs exhibited substantial toxicity against macrophages at the PDDA concentrations tested. The particulate nature of these CLA NPs possibly increases intracellular CLA retention in comparison to free CLA, probably extending CLA activity against intracellular pathogens. In conclusion, supramolecular assemblies combining cationic lipid and polymers, with or without traditional antibiotics, may find multiple possibilities of applications at pharmaceutical, medical, food and biotecnological fields.

Antibiótico e polímeros

Auto-associação de lípide

Micro-organismos multirresistentes

Microbiologia médica

Nanopartículas antimicrobianas

Antimicrobial nanoparticles

Medical microbiology

Multidrug resistant microrganisms

Self-assembly of lipid and polymers

Febre reumática: Perfis imunoquímicos desenvolvidos por antígenos celulares e extracelulares do Streptococcus pyogenes e isotipos de anticorpos de pacientes com a doença / Rheumatic fever: Immunochemical profiles developed by cellular and extracellular antigens of Streptococcus pyogenes and antibody isotypes from patients with the disease

Maria de Fatima Borges Pavan

05 December 1996

A febre reumática é uma das sequelas da infecção causada por Streptococcus pyogenes, afetando notadamente crianças e jovens, com altas taxas de morbidade e mortalidade em várias regiões do mundo, incluindo Brasil. Perfis imunoquímicos desenvolvidos por antígenos celulares e extracelulares desta bactéria e isotipos de anticorpos presentes em pacientes com febre reumática foram averiguados, em virtude da escassez de informação a este respeito na literatura. Na primeira fase do trabalho, as condições para o preparo de antígenos, bem como de técnicas, em especial a técnica super-micro de neutralização de anticorpos (Ac) anti-estreptolisina O (ASLO) foram padronizadas. Na segunda etapa, foram identificadas as bandas de antígenos celulares e extracelulares reconhecidas por 56 soros de pacientes com febre reumática (Grupo A), 91 soros de indivídos sem diagnóstico de sequelas não-supurativas da infecção, mas com títulos baixos, médios e altos de Ac ASLO (Grupo B), e 41 soros de crianças sem infecção (Grupo C). Em pacientes com febre reumática, Acs IgG e IgA foram detectados, mas Acs IgM não foram encontrados. Anticorpos IgG de pacientes do grupo A reconheceram um total de 30 bandas do antígeno celular, sendo específicas 18 (14, 17, 19,22,23,28,29,32,36, 73, 83, 102, 104, 108, 11 0, 116, 118 e 125 kDa). O resto das 12 bandas foram consideradas não específicas por serem reconhecidas por soros do grupo C. Um total de 19 bandas do antígeno extracelular foi reconhecido por Acs IgG do grupo A, sendo apenas 3 bandas (40, 46, 125 kDa) específicas. No grupo C, Acs IgA não foram detectados. Um total de 14 bandas (23, 30, 38, 42, 43, 46, 48, 54, 57, 60, 67, 73, 78 e 116 kDa) do antígeno celular foram identificadas por Acs IgA do grupo A. No antígeno extracelular, 8 bandas (38, 48, 54, 60, 67,\" 73, 78 e 95 kDa) foram reconhecidas por Acs IgA do mesmo grupo. Critério adotado de combinar dados imunoquímicos ou seja, bandas iguais ou maiores que 102 kDa e/ou bandas iguais ou menores que 29 kDa do antígeno celular de S. pyogenes, acrescido da presença de Acs IgA, possibilitaram a discriminação de pacientes com febre reumática e de não infectados, fornecendo máxima sensibilidade, especificidade, eficiência, bem como de valores preditivos de resultados positivo e negativo. Ademais, os achados de Acs IgG contra banda de 28 kDa que está relacionada a antígeno do tecido cardíaco, um dos 6 perfís imunoquímicos fornecidos por antígeno celular e Acs IgG do presente estudo, e a presença de Acs IgA parecem constituir sinais precoces associados à patogênese da febre reumática. Desta forma no grupo B, 9 pacientes revelaram a banda de 23 kDa do antígeno celular, destes 7 apresentaram perfis compatíveis com os do grupo A, sendo que apenas 1 deles não apresentou Acs IgA. Os dados sugerem que estes pacientes tendem a evoluir para a forma sintomática da febre reumática, requerendo acompanhamento clínico e laboratorial cuidadoso. / The rheumatic fever is one of the sequelae from the Streptococcus pyogenes infection, affecting manly children and young persons, with high rates of morbidity and mortality in many regions of the world. Immunological profiles developed by cellular and extracellular antigens from this bacterium and antibody isotypes found in the patients with rheumatic fever were investigated, due to the scarcity of information about this aspect in the literature. In the first step of this work, conditions to prepare antigens, as well as of techniques, in particular the super-micro technique for the neutralization of antistreptolysin O (ASLO) antibodies (Abs), were standardized. In the second step, bands of cellular and extracellular antigens recognized by 56 serum sera from patients with rheumatic fever (Grupo A), 91 sera from individuals with no diagnosis of supurative sequelae from the infection, but with low, moderate and high ASLO titers (Group B), and 41 sera from children with no infection (Group C) were identified. In patients with rheumatic fever, IgG and IgA antibodies were found, but IgM antibodies were absent. IgG antibodies from rheumatic fever patients recognized 30 bands of the cellular antigens, of these 18 were specific (14,17,19,22,23,28,29,32,36,73,83,102, 104, 108, 110, 116, 118 e 125 kDa). The remaing 12 bands were considered nonspecific because they were recognized by sera from the group C. A total of 19 bands of the extracellular antigen were recognized by IgG Abs from the group A and 3 of these (40, 46 and 125 kDa) were specific. In the group C, no IgA Abs were detected. A total of 14 specific bands (23, 30, 38, 42, 43, 46, 48, 54, 57, 60, 67, 73, 78 and 116 kDa) of the cellular antigen were identified by IgA Abs from the group A. The extracellular antigen had 8 bands (38, 48, 54, 60, 67, 73, 78 and 95 kDa) recognized by IgA Abs from the same group. A criterion adopted of combining immunchemical data, i.e. bands equal or higher than 102 kDa and/or bands equal or lower than 29 kDa of the cellular antigen of S. pyogenes plus the IgA Ab finding, allowed to discriminate rheumatic fever from noninfected individuals, providing maximum sensitivity, specificity, efficiency as well as predictives of positive and negative results. Moreover, the findings of IgG Abs to 23 kDa of the cellular antigen which is associated to the heart tissue antigen, one of those 6 immunochemical profiles provided by cellular antigen and IgG Abs from this study, and the presence of IgA Abs seem to constitute early immunologic signals related to the pathogenesis of the rhematic fever. Thus in the group B, 9 patients revealed a 23 kDa band of cellular antigen, 7 of these showed immunochemical profiIes consistent with those from the group A, and lacking IgA Abs in onIy one of them. The data suggest these patients are prone to deveIop rheumatic fever, requiring a close clinical and laboratory follow-up.

Doenças infecciosas

Doenças reumáticas

Febre Reumática

Immunoblotting

Imunologia médica

Microbiologia médica

Perfis imunoquímicos

Streptococcus pyogenes

Immunoblotting

Immunochemical profiles

Infectious diseases

Medical immunology

Medical microbiology

rheumatic diseases

Rheumatic fever

Streptococcus pyogenes

Gut Pathophysiology in Mouse Models of Social Behavior Deficits

Scott, Kyla

01 May 2020

Autism spectrum disorders (ASD) encompass neurodevelopment disorders characterized by atypical patterns of development that impact multiple areas of functioning beginning in early childhood. The etiology of ASD is unknown and there are currently no preventative treatment options. Gastrointestinal symptoms are commonly associated comorbidities. The microbiota-gut-brain axis is a multidirectional communication chain that connects the central and enteric nervous system that relates brain function to peripheral intestinal functions. Changes within this axis have been postulated in ASD. For example, the “leaky gut theory” proposes that chronic inflammation is linked to alterations in the bacterial profiles of the gut microbiome and subsequent shifts in the amount and type of short-chain fatty acids produced can affect downstream neuronal development. Short-chain fatty acids are signaling molecules produced by bacteria that can trigger nerve afferents in the gut. Dysbiosis causes altered signaling patterns that can be identified by altered intestinal morphology. In this study, C57BL/6J control mice and three mouse models of social behavioral deficits were used to investigate markers of intestinal pathophysiology. Fecal and intestinal samples were collected from adult wild type control mice and the social deficit groups of BTBR genetic knockout mice, C57BL/6J mice injected with valproic acid, and C57BL/6J mice injected with polyinosinic–polycytidylic acid. Short-chain fatty acid profiles that included acetic, propionic, isobutyric, butyric, isovaleric, and valeric acids were obtained from fecal samples to determine differences between the models and control mice. The profiles of the BTBR genetic knockout and valproic acid models were found to be significantly different from control mice. Additionally, postmortem intestinal ileum samples underwent hematoxylin and eosin identification procedures to determine the thickness of the tunica muscularis and tunica mucosa. The thickness of the tunica muscularis was reduced in the valproic acid group compared to the wild type control mice in early stages of development (p=0.0279). This research may illuminate developmental cues that attribute to autism spectrum disorders and may provide markers to assess future therapeutic treatments.

Microbiome

Autism

Gut

Pathophysiology

Intestine

Short chain fatty acid

Anatomy

Bacterial Infections and Mycoses

Digestive System

Digestive System Diseases

Immune System Diseases

Medical Anatomy

Medical Biochemistry

Medical Microbiology

Medical Pathology

Microbiology

Tissues

Virus Diseases

Development, Expansion and Role of Myeloid-Derived Suppressor Cells in Post-Sepsis Immune Suppression

Alkhateeb, Tuqa

01 August 2020

Myeloid-derived suppressor cells (MDSCs) numbers increase significantly in sepsis and are associated with high mortality rates. These myeloid cell precursors promote immunosuppression, especially in the late (post sepsis) stage. However, the mechanisms that underlie MDSC expansion and programming are not completely understood. To investigate these mechanisms, we used a cecal-ligation and puncture (CLP) mouse model of polymicrobial sepsis that progresses from an early/acute proinflammatory phase to a late/chronic immunosuppressive phase. Previous studies in our laboratory showed that microRNA (miR)-21 and miR-181b elevate levels of the transcription factor nuclear factor 1 (NFI-A) that promotes MDSC expansion. We report here that miR-21 and miR-181b regulate NFI-A expression via a post-transcriptional regulatory mechanism by recruiting RNA-binding proteins HuR and Ago1 to stabilize NFI-A mRNA, thus increasing its protein levels. Studies in our laboratory also showed that inflammatory mediator S100A9 accumulates in the nucleus in Gr1+CD11b+ myeloid precursors in the later phases of sepsis and is necessary for their expansion and programming into immunosuppressive MDSCs. We demonstrate here that nuclear S100A9 associates with specific transcription factors that activate miR-21 and miR-181b expressions. In our final manuscript, we uncover another layer of the mechanisms of MDSC expansion and programming. We found that long non-coding RNA (lncRNA) Hotairm1 binds to and recruits S100A9 to the nucleus to program Gr1+CD11b+ myeloid precursors into MDSCs in the later phases of sepsis. Together, our results reveal three regulatory layers involving NFI-A, S100A9 and Hotairm1 in the pathway leading to MDSCs development in sepsis and suggest that therapeutically targeting these molecular switches might improve sepsis survival.

Sepsis

MDSC

miRNA

NFI-A

S100A9

Hotairm1

Allergy and Immunology

Critical Care

Immune System Diseases

Immunity

Immunology of Infectious Disease

Immunopathology

Immunotherapy

Internal Medicine

Medical Immunology

Medical Microbiology

Pathogenic Microbiology

Pathology

Arrested and Aberrant: Effects of Amoxicillin in a Murine Model of Chlamydial Infection

Campbell, Regenia Beth Phillips

01 December 2013

Chlamydia trachomatis is the most common sexually transmitted bacterial disease agent worldwide, and, though frequently asymptomatic, can cause extreme pathology including infertility. Chlamydial species exhibit a unique biphasic developmental cycle. Once attached to a cell surface, infectious elementary bodies (EB) are internalized within an inclusion, the membrane-bound structure in which EB transform to noninfectious, replicable reticulate bodies (RB). After multiple rounds of division, RB condense to form EB, which are released and can infect new host cells. In culture, exposure to stressors, such as beta-lactam antibiotics, induce chlamydiae to reversibly detour from normal development into a noninfectious, viable state termed persistence. Cell culture data suggest that persistent forms are resistant to azithromycin (AZM), a front-line antibiotic, and are able to alter the host transcriptome. Though persistence has been described in culture for over 50 years, whether or not it: i) occurs in vivo; and ii) influences chlamydial pathogenesis, transmission and therapy has remained unresolved. To address these questions, we developed an animal model of persistent chlamydial infection using amoxicillin (AMX) treatment. AMX exposure decreased shedding of infectious chlamydiae in C. muridarum-infected mice without affecting chlamydial viability, demonstrating the presence of persistent chlamydiae. Shedding of infectious EB resumed following AMX cessation. Shedding data and microarray analyses suggested that host immunity might limit chlamydia’s exit from persistence in our model. Thus, we hypothesized that cyclophosphamide (CTX) treatment would increase the magnitude of chlamydial shedding observed after AMX-treatment cessation. CTX treatment increased post-AMX shedding by more than 10-fold compared to AMX-only controls. To determine whether persistent chlamydiae are resistant to antibiotic eradication in vivo, we induced persistence by administering AMX and treated mice with various AZM dosing regimes. Persistently infected mice demonstrated increased treatment failure following AZM therapy compared to productively infected controls. These data suggest that persistent chlamydiae are refractory to treatment in vivo and provide an explanation for the observation that treatment fails in some patients. In addition to creating the first fully characterized, experimentally tractable, in vivo model of chlamydial persistence, these experiments provide evidence that persistent/stressed chlamydial forms may serve as a long-term reservoir of infectious organisms in vivo.

Chlamydia

C. muridarum

chlamydial persistence

aberrant reticulate body

amoxicillin

treatment failure

Animal Diseases

Animals

Bacteria

Infectious Disease

Laboratory and Basic Science Research

Medical Microbiology

Obstetrics and Gynecology

Other Immunology and Infectious Disease

Other Microbiology

Discovery and Characterization of Ibomycin: An Anticryptocccal Metabolite Produced by WAC 2288

O`Brien, Jonathan S.

10 1900

<p>Systemic fungal infections brought about by <em>Cryptococcus</em> species are associated with some of the highest mortality rates of any infectious disease. Alarmingly these pathogens have overtaken tuberculosis as the second greatest killer among Sub-Saharan AIDS patients and are an emerging disease among immunocompetent populations on the Pacific Coast of North America. This clinical threat has been exacerbated by our inability to discover novel compounds that specifically target fungal cellular architecture at the genus level. To confront this challenge, we have made a concerted effort to biologically prospect the vast chemical potential of Actinomycete bacteria isolated from diverse and underexplored niches around the world. A novel phenotypic screen was developed whereby bacterial small molecule producers were co-cultured on agar plates in an intimate setting with evolutionary distant fungal pathogens <em>Candida albicans</em> and <em>Cryptococcus neoformans</em>. Diffusible small molecules released by the organisms created a signaling environment that stimulated profound phenotypic changes both in the Actinomycetes and the pathogens. We were able to discern a unique relationship whereby the growth of <em>C. neoformans</em> was specifically inhibited by Nigerian soil Actinomycete isolate curated as WAC 2288. Further bioactivity guided purification and chemical analysis lead to the identification of ibomycin, a previously undescribed 34 membered macrolactone decorated with seven sugar moieties. A draft genome of WAC 2288 revealed a 140kb gene cluster containing 12 type I PKS modules and downstream capacity to generate rare sugars are responsible for ibomycin biosynthesis. Purification of ibomycin analogs has revealed that the terminal vancosamine on the molecule is dispensable for bioactivity, establishing a chemical antecedent for target identification through affinity chromatography. Throughout these studies the unprecedented anticryptococcal activity of ibomycin is consistently recapitulated. Future work on the molecule may validate ibomycin as an effective antifungal therapy.</p> / Master of Science (MSc)

Antifungal

Natural Product

Cryptococcus neoformans

Analytical Chemistry

Bacterial Infections and Mycoses

Biochemistry

Bioinformatics

Carbohydrates

Genetic Structures

Genomics

Infectious Disease

Macromolecular Substances

Medical Biochemistry

Medical Biotechnology

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Polycyclic Compounds

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The Impact of Gestational Diabetes Mellitus and Maternal Oral Microbiome: A Scoping Review

Langan, Jaclyn P

01 January 2024

Background: Gestational diabetes mellitus (GDM) is a common pregnancy-related metabolic disorder associated with adverse maternal and fetal outcomes. Recent research has highlighted the potential role of the oral microbiome in the pathophysiology of various systemic conditions, including diabetes mellitus. However, the impact of GDM on the maternal oral microbiome remains relatively understudied. Understanding alterations in the oral microbiome during pregnancy complicated by GDM could provide valuable insights into the mechanistic links between systemic metabolic disorders and oral health. Objective: The objective of this scoping review was to comprehensively examine the existing literature on the relationship between GDM and maternal oral microbiome composition and diversity. The review sought to identify the microbial changes associated with GDM and explore their potential implications for maternal oral health and pregnancy outcomes. Design: Following PRISMA-ScR guidelines, a systematic search of electronic databases, including “Pubmed” and “Web of Science,” was conducted to identify relevant studies investigating the impact of GDM on the maternal oral microbiome. Eligible studies included those examining microbial diversity, abundance, and composition in pregnant women with GDM and their neonates. Data synthesis involved summarizing key findings and identifying patterns across studies. Results: A total of eight primary studies were identified and included in the scoping review. These studies employed various methodologies, including observational reports, longitudinal analyses, and cohort studies, to investigate the relationship between GDM and the maternal oral microbiome. Findings from these studies revealed distinct alterations in oral microbial profiles among neonates and pregnant women with GDM compared to healthy controls. These alterations encompassed shifts in microbial diversity, abundance, and composition, suggesting potential biomarkers or indicators of GDM status within the oral microbiome. Longitudinal analyses further elucidated dynamic changes in the oral microbiota throughout pregnancy and postpartum, underscoring the temporal nature of these associations. Conclusions: The synthesis of evidence from the scoping review highlights significant associations between GDM and alterations in the maternal oral microbiome. While these findings imply a correlation between GDM and oral microbial changes, causality cannot be directly inferred. Further research is warranted to decipher the underlying mechanisms driving these associations and to explore their potential implications for maternal oral health and pregnancy outcomes. Nonetheless, the insights gleaned from this review underscore the importance of integrating oral health assessments into routine prenatal care protocols for gestational diabetic individuals. By doing so, healthcare providers can enhance risk stratification, early detection, and management of GDM, ultimately improving maternal and neonatal health outcomes.

Gestational Diabetes Mellitus

Pregnancy

Oral Microbiome

Bacteria

Dental Hygiene

Dietetics and Clinical Nutrition

Digestive, Oral, and Skin Physiology

Endocrinology, Diabetes, and Metabolism

Maternal and Child Health

Medical Microbiology

Obstetrics and Gynecology

Oral Biology and Oral Pathology

Other Dentistry