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131	M.tb Killing by Macrophage Innate Immune Mechanisms: A Dissertation Hartman, Michelle L 07 September 2011 (has links) Macrophages infected with a heavy burden of M.tb Erdman undergo a cell death that initially resembles apoptosis but quickly transitions to necrosis. Unlike the previously reported TNF dependent apoptosis induced by avirulent Mycobacterium [1], this form of macrophage cell death is not microbicidal [2]. Microbicidal effects are observed however, when the heavily infected macrophage encounters an uninfected naïve macrophage. My studies describe in part, the crosstalk between the uninfected and infected macrophage that results in the killing of the intracellular M.tb Cell contact between the two cell populations is not necessary for this killing of bacilli to occur and the soluble “signal” of communication between the two cell populations is transferrable, without naïve macrophages present, to newly infected cells also resulting in the reduced viability of the bacilli. We have found that when the IL-1 receptor is absent in the naïve macrophage population that the co-culture antimycobacterial effect is abrogated, suggesting that IL-1 released by the infected dying macrophage is critical for naïve macrophages to respond in a way that results in the decrease in mycobacterial viability. The signaling between the two cell population ultimately converges on activation of iNOS in the infected cell however ROS appears not to be involved. Mycobacterium tuberculosis Immunity Innate Macrophages Interleukin-1 Amino Acids, Peptides, and Proteins Bacteria Bacterial Infections and Mycoses Biological Factors Cells Hemic and Immune Systems Immunology and Infectious Disease Microbiology
132	EspFU, an Enterohemorrhagic E. Coli Secreted Effector, Hijacks Mammalian Actin Assembly Proteins by Molecular Mimicry and Repetition: A Dissertation Lai, YuShuan (Cindy) 25 April 2014 (has links) Enterohemorrhagic E. coli (EHEC) is a major cause of food borne diarrheal illness worldwide. While disease symptoms are usually self-resolving and limited to severe gastroenteritis with bloody diarrhea, EHEC infection can lead to a life threatening complication known as Hemolytic Uremic Syndrome (HUS), which strikes children disproportionately and is the leading cause of kidney failure in children. Upon infection of gut epithelia, EHEC produces characteristic lesions called actin pedestals. These striking formations involve dramatic rearrangement of host cytoskeletal proteins. EHEC hijacks mammalian signaling pathways to cause destruction of microvilli and rebuilds the actin cytoskeleton underneath sites of bacterial attachment. Here, we present a brief study on a host factor, Calpain, involved in microvilli effacement, and an in depth investigation on a bacterial factor, EspFU, required for actin pedestal formation in intestinal cell models. Calpain is activated by both EHEC and the related pathogen, enteropathogenic E. coli (EPEC), during infection and facilitates microvilli disassembly by cleavage of a key membrane-cytoskeleton anchoring substrate, Ezrin. Actin pedestal formation is facilitated by the injection of two bacterial effectors, Tir and EspFU, into host cells, which work in concert to manipulate the host actin nucleators N-WASP and Arp2/3. EspFU hijacks key host signaling proteins N-WASP and IRTKS by mimetic displacement and has evolved to outcompete mammalian host ligands. Multiple repeats of key functional domains of EspFU are essential for actin pedestal activity through proper localization and competition against the an abundant host factor Eps8 for binding to IRTKS. Actin Cytoskeleton Actins Calpain Cytoskeletal Proteins Enterohemorrhagic Escherichia coli Escherichia coli Infections Escherichia coli Proteins Microvilli Dissertations, UMMS Bacterial Infections and Mycoses Bacteriology Cellular and Molecular Physiology Microbial Physiology
133	Memory CD8+ T Cell Function during Mycobacterium Tuberculosis Infection: A Dissertation Carpenter, Stephen M. 30 June 2016 (has links) T cell vaccines against Mycobacterium tuberculosis (Mtb) and other pathogens are based on the principle that memory T cells rapidly generate effector responses upon challenge, leading to pathogen clearance. Despite eliciting a robust memory CD8+ T cell response to the immunodominant Mtb antigen TB10.4 (EsxH), we find the increased frequency of TB10.4-specific CD8+ T cells conferred by vaccination to be short-lived after Mtb challenge. To compare memory and naïve CD8+ T cell function during their response to Mtb, we track their expansions using TB10.4-specific retrogenic CD8+ T cells. We find that the primary (naïve) response outnumbers the secondary (memory) response during Mtb challenge, an effect moderated by increased TCR affinity. To determine whether the expansion of polyclonal memory T cells is restrained following Mtb challenge, we used TCRb deep sequencing to track TB10.4-specific CD8+ T cells after vaccination and subsequent challenge in intact mice. Successful memory T cells, defined by their clonal expansion after Mtb challenge, express similar CDR3b sequences suggesting TCR selection by antigen. Thus, both TCR-dependent and independent factors affect the fitness of memory CD8+ responses. The impaired expansion of the majority of memory T cell clonotypes may explain why some TB vaccines have not provided better protection. Tuberculosis Mycobacterium tuberculosis CD8-Positive T-Lymphocytes T-Lymphocytes Vaccination Vaccines Dissertations, UMMS Bacterial Infections and Mycoses Bacteriology Immunology of Infectious Disease Immunoprophylaxis and Therapy Pathogenic Microbiology
134	Plague and the Defeat of Mammalian Innate Immunity: Systematic Genetic Analysis of Yersinia pestis Virulence Factors: A Dissertation Palace, Samantha G. 26 July 2016 (has links) Yersinia pestis, the causative agent of plague, specializes in causing dense bacteremia following intradermal deposition of a small number of bacteria by the bite of an infected flea. This robust invasiveness requires the ability to evade containment by the innate immune system. Of the various mechanisms employed by Y. pestis to subvert the innate immune response and to proliferate rapidly in mammalian tissue, only a few are well-characterized. Here, I present two complementary genetic analyses of Y. pestis adaptations to the mammalian environment. In the first, genome-wide fitness profiling for Y. pestis by Tn-seq demonstrates that the bacterium has adapted to overcome limitation of diverse nutrients during mammalian infection. In the second, a series of combinatorial targeted mutations disentangles apparent functional redundancy among the effectors of the Y. pestis type III secretion system, and we report that YpkA, YopT, and YopJ contribute to virulence in mice. We have also begun to investigate a novel relationship between Y. pestis and mammalian platelets, a highly abundant cell type in plasma. I present evidence that Y. pestis has evolved specific mechanisms to interfere with platelet activation, likely in order to evade immune responses and promote maintenance of bacteremia by undermining platelet thrombotic and innate immune functions. The principles guiding this work – systematic genetic analysis of complex systems, coupled with rational modification of in vitro assays to more closely mimic the in vivo environment – are a generalizable approach for increasing the efficiency of discovering new virulence determinants in bacterial pathogens. Immune System Innate Immunity Plague Platelet Activation Virulence Virulence Factors Yersinia pestis Dissertations, UMMS Immunity, Innate Bacterial Infections and Mycoses Bacteriology Genetics and Genomics Immunity Immunology of Infectious Disease Pathogenic Microbiology
135	Risk Factors for Pre-Post Monsoon Cholera Epidemics in Bangladesh from 1992-1994 Robb, Rhonda Rae 08 June 2004 (has links) The primary objective of this thesis is to differentiate between the risk factors for pre-and post-monsoon cholera epidemics in rural Bangladesh by analyzing the complex interaction between select environmental, cultural/behavioral, and socioeconomic variables over space and time. In rural Bangladesh, cholera epidemics correspond with the annual monsoon: the first, and smallest, occurs between March and June, while the larger cholera peak occurs between September and December. The differences between the spatial and temporal patterns of seasonal cholera are analyzed, and the risk factors are calculated for pre-and post-monsoon cholera epidemics. The theoretical approach that underlies this medical geographical study is disease ecology, which espouses that risk of disease is caused by an interaction between people and their environment. This thesis is structured around a holistic understanding that human-environment interactions are inseparable. In Bangladesh, the monsoon season typically starts between May and June. The 1992 and 1993 cholera peaks occurred just before the monsoon in April and March respectively, while the 1994 cholera peak occurred between April and June. In 1992 and 1993 cholera incidence increased in the post-monsoon period, and peaked in October. The 1994 post-monsoon cholera peak occurred in November. There is a regular temporal pattern to cholera, as the peaks followed a seasonal pattern with the smaller epidemic occurring in the pre-monsoon period and the larger epidemic occurring in the post-monsoon period. This study shows that there are different risks associated with pre-monsoon cholera epidemics and post-monsoon cholera epidemics. The two main risk factors associated with cholera incidence pre-monsoon were bari population (i.e., crowding) and a house located within the flood controlled area. These two variables were even more strongly associated with post-monsoon cholera incidence to a greater degree, along with a number of other variables including water use, sanitation practices, and socioeconomic status. Cholera -- Bangladesh -- Epidemiology Epidemics -- Risk factors -- Bangladesh Vibrio cholerae Medical geography -- Bangladesh Bacterial Infections and Mycoses Other Geography
136	Mycobacterium tuberculosis inhibitors: action and resistance Garcia-Moreno, Pamela K. 02 November 2018 (has links) Tuberculosis, an infectious disease caused by Mycobacterium tuberculosis, has been a global health problem for years. The emergence of drug resistance in this organism generates the necessity of exploring novel targets and developing new drugs. Topoisomerases are enzymes found in all kingdoms of life responsible for overcoming the topological barriers encountered during essential cellular processes. The genomes of mycobacteria encode only one type IA topoisomerase (MtopI), which has been validated as a novel TB drug target. The goal of this study is to obtain new information on the mechanism and resistance of endogenous and synthetic inhibitors of MtopI. Rv1495 is a M. tuberculosis toxin that belongs to the MazEF family (MazE is the antitoxin and MazF is the toxin), with endoribonuclease activity. Rv1495 (MazF homolog in M. tuberculosis) toxin has been shown to interact directly with the C-terminal domain of MtopI for mutual inhibition. In this study the interaction of Rv1495 with the positively charged C-terminal tail in Mtop I is reported. This new information is useful for rational design and discovery of antibiotics for mycobacteria. Ethacridine, an FDA approved drug has shown activity against MtopI. In this project we studied the mechanisms of resistance associated with this drug as well the use of Ethacridine in combination with Moxifloxacin, to potentiate the bactericidal effect of this current second line drug for TB treatment. Results from sequencing of the genomic DNA isolated from the resistant mutants suggested the involvement of the Holliday-junction Ruv resolvase. Further studies showed that co-treatment with Ethacridine can enhance the moxifloxacin-mediated killing of M. smegmatis. FP-11g, a novel fluoroquinophenoxazine inhibitor of bacterial topoisomerase I, has shown promising activity against M, tuberculosis. We explored the bactericidal activity and resistance mechanisms associated to FP-11g using M. smegmatis as model organism. Additionally, the inhibitory effect of FP-11g was also evaluated on M. abscessus. FP-11g at concentration 4X MIC showed complete bactericidal activity against M. smegmatis after 24 hours. Inhibitory activity against M. abscessus was also observed. Results from sequencing of the genomic DNA isolated from the M. smegmatis resistant mutants revealed mutations in genes associated with general drug resistance. Tuberculosis Topoisomerase Mycobacteria Toxin TB therapy Ethacridine Resistance Inhibitors Mutants WGS Bacterial Infections and Mycoses Bacteriology Biochemistry Bioinformatics Laboratory and Basic Science Research Microbiology Molecular Biology Other Chemicals and Drugs
137	Functional Genomics of Mammalian Innate Immunity Kiritsy, Michael C. 31 August 2020 (has links) The breadth of genetic diversity in the mammalian immune response stands out amongst the ubiquity of variation seen in the genome, evidence that microbial infections have been a major driver of evolution. As technology has facilitated an understanding of the etiology of immunological diversity, so too has it enabled the assessment of its varied functions. Functional genomics, with its ability to assess both cause and effect, has revolutionized our understanding of fundamental biological phenomena and recalibrated our hypotheses. We build upon the model of host immunity established by rare genetic variants that are causative of immunodeficiencies, but that incompletely consider the complexities of the genome. To expand our understanding, we performed a series of forward genetic screens to identify regulators of distinct functions of the innate immune system. Our studies discovered genes with novel functions in antigen presentation and immunoregulation, including several involved in central metabolism. Studies in macrophages and dendritic cells identified mitochondrial respiration as a positive regulator of the interferon-gamma response, and cells incapable of respiration failed to activate T cells. Notably, human mutations in several of these genes are responsible for immune dysfunction. In summary, this work uses new methods in genetic engineering to systematically assess the regulation of innate immunity. Our results suggest that variation in these regulatory pathways is likely to alter immunity in states of health and disease. Thus, our work validates a new approach to identify candidate genes relevant to immune dysfunction. interferon IFNg interferon-gamma CRISPR macrophage tuberculosis respiration OXPHOS complex I Med16 Gsk3b CRISPR screen Bacterial Infections and Mycoses Genomics Immune System Diseases Immunity
138	Aeromonas hydrophila In Amphibians: Harmless Bystander or Opportunistic Pathogen Rivas, Zachary P 01 January 2016 (has links) For several decades amphibian populations have been declining. Historically, the bacterium A. hydrophila (Ah) was hypothesized to be the causal factor in amphibian disease and population declines. However, with the discovery of a chytrid fungus, Batrachochytrium dendrobatidis (Bd) in 1998, which was identified on the skin of amphibians during documented mortality events, Ah research became of minor interest as focus shifted to Bd. Recent studies into the immunocompromising abilities of Bd, however, have opened new questions about its relationship with Ah and their combined effects on a host. In this study, I explore the relationship between infection with these two pathogens, Bd and Ah, in two amphibian species from distinct regions of the United States. I developed a novel qPCR assay to measure the microbial load of Ah on the skin of two anuran species, Lithobates yavapaiensis (N=232) and Pseudacris ornata (N=169), which have confirmed Bd infections. I use a logistic regression model to identify whether significant relationships exist between these two pathogens, disease, and death. I find that even amongst the most severely infected frogs, Ah is not detectable on the skin and only appears post-mortem. I therefore conclude that Ah is an opportunistic bacterial pathogen, scavenging on anurans only after mortality events. This research is the first known study to quantitatively assess Ah in amphibians in conjunction with Bd. While there is no causal relationship between these pathogens, future work will examine potential Ah infections in other organs to more fully understand the relationship between Bd and Ah. co-infection bacteria fungus amphibians qPCR Animal Sciences Bacterial Infections and Mycoses Bacteriology Immunity Immunology of Infectious Disease Life Sciences Other Microbiology Pathogenic Microbiology
139	Metabolic adaptation of Staphylococcus aureus pathogenesis and therapeutic approach in diabetic foot ulcers. Baker, Carol L. 08 August 2023 (has links) (PDF) 37.3 million Americans (11.2% of the US population) currently have Type 2 diabetes mellitus (T2DM) with over 1.5 million new cases being diagnosed each year. The multifactorial etiology of the patient having neuropathy, overweight/obesity, foot deformities, ischemia, and infection leads to a condition called diabetic foot ulcer (DFU). One in six patients with a DFU will require amputation with infected DFUs have a 155-fold increased risk of amputation. Staphylococcus aureus is the most common bacteria isolated from severe DFU infections that require amputation. Interestingly, diabetics are more heavily colonized with S. aureus compared to non-diabetics suggesting a unique advantageous adaptation to diabetes. The specifics of the underlying molecular mechanisms and triggers by which S. aureus adapts and thrives in the T2DM patient that increase its pathogenicity and colonization compared to non-diabetics with skin ulcer infections are not fully elucidated. Thus, our studies aimed to identify the key virulence components in the pathogenesis of S. aureus infected DFUs and using that information to develop therapeutics aimed at disrupting these components to increase the success rate of conservative treatment and prevent non-traumatic lower extremity amputations in T2DM patients. Our studies found that several different elevated sugars in T2DM patients can trigger virulence factor production in S. aureus. We also found by comparing several different clinical DFU S. aureus isolates that there are clear differences in the ability of each isolate to cause necrotic infections. And lastly, we identified a possible therapeutic, the amino acid L-arginine, that can help prevent/treat S. aureus infections in the Tallyho diabetic mouse model. In conclusion, we have increased the understanding of the pathogenesis of S. aureus infected DFU and have proposed a possible therapeutic to add to the conservative treatment regimen. Diabetes Staphylococcus aureus Foot Ulcer Arginine Glucose-6-Phosphate Fructose Mannose Bacterial Infections and Mycoses Disease Modeling Nutritional and Metabolic Diseases Skin and Connective Tissue Diseases
140	Systemische Mykosen bei Patienten nach Knochenmarktransplantation und unter Intensivtherapie Hahlweg, Kerstin 12 November 2002 (has links) Invasive Pilzinfektionen stellen ein großes Problem bei Transplantatempfängern dar. Candida und Aspergillus spp. sind die häufigsten pathogenen Pilze bei Patienten nach KMT und Organtransplantationen. Diese Infektionen sind durch eine hohe Morbidität und Mortalität gekennzeichnet, insbesondere bei Patienten mit persistierender Granulozytopenie und damit jene nach allogener KMT. Die Mortalitätsrate kann durch eine Frühdiagnostik und durch Gabe einer geeigneten Therapie wesentlich reduziert werden. Die Symptome und Zeichen einer systemischen Pilzinfektion sind bei Transplantatempfängern untypisch. Die serologische Diagnostik von invasiven Candidosen oder Aspergillosen stellt eine zusätzliche Möglichkeit zur klinischen Untersuchung und anderen diagnostischen Maßnahmen dar. Diese Untersuchung umfasste 252 Patienten (17 Patienten nach KMT) und 235 Patienten von Intensivtherapiestationen (z. B. nach Organtransplantationen) in den Jahren 1991-1994 von der Humboldt-Universität zu Berlin (Charite). Die Patientenseren wurden routinemäßig auf das Vorkommen einer Candida- und Aspergillus Antigenämie geprüft. Zum Nachweis von zirkulierendem Galactomannan wurde ein Latex Agglutinationstest- Pastorex Candida und Aspergillus, Sanofi Diagnostics Pasteur, genutzt. Invasive Aspergillus-Pilzinfektionen wurden bei acht von 235 Patienten unter Intensivtherapie gefunden. Alle acht Patienten mit invasiver Aspergillose hatten einen positiven Aspergillus-Antigen-Test. Der direkte Nachweis von Antigenbestandteilen von Candida oder Aspergillus spp. erwies sich als vielversprechender frühdiagnostischer Test bei kritisch kranken und immunsupprimierten Patienten. / Invasive fungal infections are a major problem in transplant recipients. Candida and Aspergillus spp. are the most common fungal pathogens causing infection in patients undergoing BMT or solid organ transplantation. These infections are characterised by high morbidity and mortality, especially in patients with persistent granulocytopenia and in these receiving allogeneic bone marrow transplant. The mortality rate can be substantially reduced if an early diagnosis is made and the proper therapy given. The symptoms and signs of deep fungal infection in the transplant recipients are unreliable and often absent regardless of the type of organism or the site of infection. Laboratory tests are essential to establish the diagnosis of invasive fungal infection. The serological diagnosis of invasive candidosis or aspergillosis is at best an adjunct to clinical evaluation and other diagnostic procedures. The study comprises 252 patients undergoing allogeneic bone marrow transplantation (17 patients) and 235 patients from intensive care units (for instance after solid organ transplantation) in the years 1991-1994 at the Humboldt-University of Berlin (Charité). The serum of the patients were routinely screened for the occurrence of Candida and Aspergillus antigenemia (circulating galactomannan was detected using a latex agglutination test-Pastorex Candida and Aspergillus, Sanofi Diagnostics Pasteur). Invasive Aspergillus fungal infection was found in eight of the 235 intensive care patients. All these eight patients with invasive aspergillosis had an positive Aspergillus antigen test. The direct detection of antigenic components of Aspergillus and Candida spp. in serum appears promising as an early diagnostic test in critical ill and immunocompromised patients. Candida Invasive Mykosen Aspergillus Knochenmarktransplantation Invasive mycoses Aspergillosis Candidosis Bone marrow transplantation 610 Medizin und Gesundheit 33 Medizin YD 5100 ddc:610

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