Global ETD Search

71	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
72	Asiatic Cholera in Kentucky 1832 to 1873 Baird, Nancy 01 May 1972 (has links) Asiatic cholera has been called the scourge of the nineteenth century, for it caused the untimely death of millions throughout the world. During its four visits to the United States, unknown thousands of Kentuckians fell victims to the disease. In attempting to prevent the dreaded scourge, Kentuckians became more conscious of the need for cleaner cities, pure water and adequate sewage disposal. Modern waterworks facilities, sewage treatment and disposal facilities have provided the means by which the United States has conquered this scourge of the nineteenth century, for with these facilities cholera is the easiest of all communicable diseases to prevent. But, as with the eradication of any disease, constant vigilance and continued use of modern scientific knowledge are necessary to prevent its return. The disease is presently ravaging India and the Far East, and with modern jet travel it could bypass quarantine stations and enter the United States undetected. The “seeds” of the pestilence could be sown across the nation within a few hours. The only safeguard is modern sanitation facilities, for no permanent inoculation or miraculous cure has been developed. Today many rural areas of Kentucky and other states use wells and old cisterns that are, or could easily become, contaminated by human fecal matter. A fifth visit from cholera should not be necessary to correct the ignorance and complacent attitudes concerning inadequate sanitation facilities that exist in these areas of the nation. This study attempts to show the horrors of cholera’s four visits to Kentucky, and how the fear of the disease stimulated interest in public health. Western Kentucky University Epidemics Diseases Arts and Humanities Bacterial Infections and Mycoses Diseases History Medicine and Health Sciences Public History Social and Behavioral Sciences Social History United States History
73	Efeito da depleção in vivo de leucócitos PMN em camundongos resistentes e susceptíveis à Paracoccidioidomicose pulmonar / Effect of in vivo depletion of PMN leukocytes in mice resistant to and susceptible to pulmonary Paracoccidioidomycosis Pina, Adriana 05 April 2002 (has links) Estudos em nosso laboratório caracterizaram camundongos B10.A como susceptíveis e camundongos A/J como resistentes à infecção pulmonar pelo P. brasiliensis. Para investigar o papel das células PMN na paracoccidioidomicose (PCM) pulmonar, camundongos B10.A e A/J foram depletados destas células através da inoculação in vivo por via intraperitoneal (i.p.) do anticorpo monoclonal anti-células PMN e infectados pela via intratraqueal (i.t.) com um milhão de leveduras viáveis. Camundongos-controle receberam doses equivalentes de IgG normal de rato. A depleção de granulócitos diminuiu o tempo de sobrevida dos animais B10.A, mas não dos animais A/J. Quando comparados com os animais não depletados, camundongos resistentes apresentaram aumento da carga fúngica no pulmão somente no dia 7 pós-infecção. Ao contrário, camundongos susceptíveis depletados de PMN apresentaram números mais elevados de células leveduriformes no pulmão, fígado e baço nos dias 7, 15, 30 e 120 pós-infecção, com relação aos seus grupos-controle tratados com IgG. A depleção dos granulócitos, entretanto, não alterou as reações de hipersensibilidade do tipo tardio (HTT) desenvolvidas por ambas as linhagens de animais. Considerando a resposta imune humoral, a depleção de células PMN levou à maior produção de anticorpos específicos em animais B10.A (Ig Total, IgG1, IgA e IgG3) e em animais A/J (Ig Total, IgG2a, IgG2b e IgG3). A depleção também alterou o padrão de citocinas pulmonares. Nos animais B10.A-tratados foram encontradas concentrações mais elevadas de IL-12 aos 15 dias e de IL-4 aos 120 dias pós-infecção, em comparação aos animais controle. Níveis de IL-12 significativamente mais altos foram detectados no grupo de animais A/J-depletados aos 7 e 120 dias e o IFN-γ foi detectado em níveis mais elevados em todo o curso da doença. Então, a depleção de PMN induz níveis mais altos de anticorpos e um ambiente mais pró-inflamatório no local da infecção. De acordo com esses dados, pudemos verificar que os neutrófilos são células importantes na defesa do hospedeiro à infecção pelo P.brasiliensis. Entretanto, o efeito protetor desta população celular depende do patrimônio genético do hospedeiro e é mais marcante na linhagem susceptível de camundongos. Neste trabalho também investigamos o efeito da depleção in vivo de leucócitos PMN na imunidade adquirida e protetora desenvolvida pela pré-imunização de animais B10.A. Assim, os camundongos foram previamente imunizados pela via s.c., depletados ou não de células PMN e desafiados i.t. com 1 milhão de células leveduriformes. Não foram detectadas diferenças significativas na contagem de fungos viáveis do pulmão, fígado e baço, entre os grupos imunizados tratados ou não com o AcM anti-PMN. A depleção não alterou a produção de anticorpos específicos, porém aumentou significativamente a síntese de IL-3, bem como a reatividade de HTT. Portanto, nossos resultados mostraram que, diferentemente da imunidade natural, os leucócitos PMN não exercem um papel protetor na fase adquirida da resposta imune à infecção com o P.brasiliensis. / Previous studies in our laboratory defined susceptible (B10.A) and resistant (A/J) mice to pulmonary P.brasiliensis infection. To investigate the role of PMN cells in pulmonary PCM, resistant and susceptible mice were depleted in vivo of these cells by intraperitoneal (i.p.) injection of a granulocyte-depleting monoclonal antibody and infected intratracheally (i.t) with one million yeast cells. Control mice received equivalent doses of normal rat IgG. PMN depletion decreased survival times of B10.A, but not of A/J infected mice. When compared with the non-depleted counterparts, resistant mice presented increased fungal loads in the lung only at day 7 after infection. On the contrary, PMN-depleted susceptible mice presented higher number of yeast cells in the lung, liver and spleen at days 7, 15, 30 and 120 after infection than their IgG-treated controls. PMN cells depletion, however, did not alter the DTH reaction developed by both mouse strains. Regarding humoral immune response, PMN cells depletion caused increased production of specific antibodies in B10.A (Total Ig, IgG1, IgA and IgG3) and A/J (Total Ig, IgG2a, IgG2b and IgG3) mice. Levels of pulmonary cytokines were also altered after PMN depletion. B10.A-treated mice presented increased levels of IL-12 and IL-4 at days 15 and 120 post-infection, respective/y. In A/J-depleted mice, augmented levels of IL-12 were detected at days 7 and 120 after infection; IFN-γ, however, was produced in higher levels during whole course of infection. Thus, PMN depletion induces higher levels of specific antibodies and enhanced pro-inflammatory milieu at the site of infection. As a whole, our data on PMN depletion at the onset of infection showed that neutrophils are important cells in host defense to P.brasiliensis infection. However, the effect of PMN depletion depends on the genetic background of the host and has a more pronounced effect in the susceptible strain of mice. We have also assessed the effect of in vivo depletion of the leukocytes on the acquired phase of immunity developed by B10.A mice previously immunized by the subcutaneous (s.c.) route were depleted or not of PMN cells and challenged i.t. with one million yeast cells. No differences were detected in the CFU counts in the lung, liver and spleen between untreated and PMN depleted vaccinated mice. PMN depletion also did not alter the production of specific antibodies but enhanced IL-3 synthesis as well as DTH reactivity. In conclusion, our results showed that, differently from natural immunity, PMN cells do not play a protective role in the acquired phase of immune response to P.brasiliensis infection. Bacterial infections and mycoses Camundongos Clinical immunology Fungi Fungo Hematologia Hematology Immunity Imunidade Imunologia clínica Infecções bacterianas e micoses Mice Paracoccidioidomicose Paracoccidioidomycosis Polimorfonuclear neutrófilo Polymorphonuclear neutrophil
74	Efeito da depleção in vivo de leucócitos PMN em camundongos resistentes e susceptíveis à Paracoccidioidomicose pulmonar / Effect of in vivo depletion of PMN leukocytes in mice resistant to and susceptible to pulmonary Paracoccidioidomycosis Adriana Pina 05 April 2002 (has links) Estudos em nosso laboratório caracterizaram camundongos B10.A como susceptíveis e camundongos A/J como resistentes à infecção pulmonar pelo P. brasiliensis. Para investigar o papel das células PMN na paracoccidioidomicose (PCM) pulmonar, camundongos B10.A e A/J foram depletados destas células através da inoculação in vivo por via intraperitoneal (i.p.) do anticorpo monoclonal anti-células PMN e infectados pela via intratraqueal (i.t.) com um milhão de leveduras viáveis. Camundongos-controle receberam doses equivalentes de IgG normal de rato. A depleção de granulócitos diminuiu o tempo de sobrevida dos animais B10.A, mas não dos animais A/J. Quando comparados com os animais não depletados, camundongos resistentes apresentaram aumento da carga fúngica no pulmão somente no dia 7 pós-infecção. Ao contrário, camundongos susceptíveis depletados de PMN apresentaram números mais elevados de células leveduriformes no pulmão, fígado e baço nos dias 7, 15, 30 e 120 pós-infecção, com relação aos seus grupos-controle tratados com IgG. A depleção dos granulócitos, entretanto, não alterou as reações de hipersensibilidade do tipo tardio (HTT) desenvolvidas por ambas as linhagens de animais. Considerando a resposta imune humoral, a depleção de células PMN levou à maior produção de anticorpos específicos em animais B10.A (Ig Total, IgG1, IgA e IgG3) e em animais A/J (Ig Total, IgG2a, IgG2b e IgG3). A depleção também alterou o padrão de citocinas pulmonares. Nos animais B10.A-tratados foram encontradas concentrações mais elevadas de IL-12 aos 15 dias e de IL-4 aos 120 dias pós-infecção, em comparação aos animais controle. Níveis de IL-12 significativamente mais altos foram detectados no grupo de animais A/J-depletados aos 7 e 120 dias e o IFN-γ foi detectado em níveis mais elevados em todo o curso da doença. Então, a depleção de PMN induz níveis mais altos de anticorpos e um ambiente mais pró-inflamatório no local da infecção. De acordo com esses dados, pudemos verificar que os neutrófilos são células importantes na defesa do hospedeiro à infecção pelo P.brasiliensis. Entretanto, o efeito protetor desta população celular depende do patrimônio genético do hospedeiro e é mais marcante na linhagem susceptível de camundongos. Neste trabalho também investigamos o efeito da depleção in vivo de leucócitos PMN na imunidade adquirida e protetora desenvolvida pela pré-imunização de animais B10.A. Assim, os camundongos foram previamente imunizados pela via s.c., depletados ou não de células PMN e desafiados i.t. com 1 milhão de células leveduriformes. Não foram detectadas diferenças significativas na contagem de fungos viáveis do pulmão, fígado e baço, entre os grupos imunizados tratados ou não com o AcM anti-PMN. A depleção não alterou a produção de anticorpos específicos, porém aumentou significativamente a síntese de IL-3, bem como a reatividade de HTT. Portanto, nossos resultados mostraram que, diferentemente da imunidade natural, os leucócitos PMN não exercem um papel protetor na fase adquirida da resposta imune à infecção com o P.brasiliensis. / Previous studies in our laboratory defined susceptible (B10.A) and resistant (A/J) mice to pulmonary P.brasiliensis infection. To investigate the role of PMN cells in pulmonary PCM, resistant and susceptible mice were depleted in vivo of these cells by intraperitoneal (i.p.) injection of a granulocyte-depleting monoclonal antibody and infected intratracheally (i.t) with one million yeast cells. Control mice received equivalent doses of normal rat IgG. PMN depletion decreased survival times of B10.A, but not of A/J infected mice. When compared with the non-depleted counterparts, resistant mice presented increased fungal loads in the lung only at day 7 after infection. On the contrary, PMN-depleted susceptible mice presented higher number of yeast cells in the lung, liver and spleen at days 7, 15, 30 and 120 after infection than their IgG-treated controls. PMN cells depletion, however, did not alter the DTH reaction developed by both mouse strains. Regarding humoral immune response, PMN cells depletion caused increased production of specific antibodies in B10.A (Total Ig, IgG1, IgA and IgG3) and A/J (Total Ig, IgG2a, IgG2b and IgG3) mice. Levels of pulmonary cytokines were also altered after PMN depletion. B10.A-treated mice presented increased levels of IL-12 and IL-4 at days 15 and 120 post-infection, respective/y. In A/J-depleted mice, augmented levels of IL-12 were detected at days 7 and 120 after infection; IFN-γ, however, was produced in higher levels during whole course of infection. Thus, PMN depletion induces higher levels of specific antibodies and enhanced pro-inflammatory milieu at the site of infection. As a whole, our data on PMN depletion at the onset of infection showed that neutrophils are important cells in host defense to P.brasiliensis infection. However, the effect of PMN depletion depends on the genetic background of the host and has a more pronounced effect in the susceptible strain of mice. We have also assessed the effect of in vivo depletion of the leukocytes on the acquired phase of immunity developed by B10.A mice previously immunized by the subcutaneous (s.c.) route were depleted or not of PMN cells and challenged i.t. with one million yeast cells. No differences were detected in the CFU counts in the lung, liver and spleen between untreated and PMN depleted vaccinated mice. PMN depletion also did not alter the production of specific antibodies but enhanced IL-3 synthesis as well as DTH reactivity. In conclusion, our results showed that, differently from natural immunity, PMN cells do not play a protective role in the acquired phase of immune response to P.brasiliensis infection. Camundongos Fungo Hematologia Imunidade Imunologia clínica Infecções bacterianas e micoses Paracoccidioidomicose Polimorfonuclear neutrófilo Bacterial infections and mycoses Clinical immunology Fungi Hematology Immunity Mice Paracoccidioidomycosis Polymorphonuclear neutrophil
75	ChAT Expression in Chlamydia muridarum-infected Female Murine Genital Tract Sartain, Hallie 01 May 2017 (has links) 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
76	Maternally Derived Anti-Dengue Antibodies and Risk of DHF in Infants: A Case-Control Study Hatch, Steven 01 August 2010 (has links) This study proposes to directly test the hypothesis that antibody-dependent enhancement (ADE) is the critical factor in the development of dengue hemorrhagic fever (DHF) in infants. DHF occurs in two distinct clinical settings: a) in children and adults with secondary DENV infection, and b) in infants with primary DENV infection born to mothers with prior DENV infection. The ADE hypothesis proposes that pre-existing serotype-cross-reactive non-neutralizing anti-DENV antibodies bind the heterotypic DENV during secondary infection and enhance its uptake into immune cells, leading to increased viral load and DHF. This model suggests that DHF in DENV-infected infants is caused by the enhancing effect of waning maternal anti-DENV antibodies, thus causing a “physiologic secondary infection” during an infant’s primary infection and thereby increasing the infant’s risk for DHF. The effect of maternal immunity on DHF in infants has been studied exclusively in Southeast Asia. However, the maternal DENV seroprevalence approaches 100% in this part of the world. As a consequence, the ADE model of infant DHF cannot truly be tested in Southeast Asia, because all infants possess anti-DENV antibody at birth. In the Western Hemisphere, by contrast, women may have experienced either a single DENV infection, more than one DENV infection, or no DENV infection at all. The ability to include DENV-seronegative mothers as controls allows for the ADE hypothesis to be directly tested in a clinical study. To our knowledge, no such study has been previously conducted. This thesis presents a case-control study designed to evaluate the influence of positive maternal dengue seroprevalence on the risk of DHF in infants. As the MSCI program provides instruction in study design, this thesis does not present findings. The clinical trial described herein began in May 2010 and enrollment is expected to continue through May 2012 (see Table 4). Dengue Dengue Hemorrhagic Fever Seroepidemiologic Studies Infectious Disease Transmission Vertical Infant Bacterial Infections and Mycoses Environmental Public Health Immunology and Infectious Disease Infectious Disease Investigative Techniques Life Sciences Maternal and Child Health Medicine and Health Sciences Virus Diseases
77	Gut Pathophysiology in Mouse Models of Social Behavior Deficits Scott, Kyla 01 May 2020 (has links) 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
78	Regulation of the NF-кB Precursor relish by the <em>Drosophila</em> I-кB Kinase Complex: A Dissertation Erturk Hasdemir, Deniz 09 May 2008 (has links) The innate immune system is the first line of defense against infectious agents. It is essential for protection against pathogens and stimulation of long-term adaptive immune responses. Therefore, deciphering the mechanisms of the innate immune system is crucial for understanding the integrated systems of host defense against microbial infections, which is conserved from insects to humans. Despite lacking a conventional adaptive immune system, insects can mount a robust immune response against a wide array of microbial pathogens. These innate immune mechanisms have been widely studied in Drosophila melanogaster, because of the model system’s powerful genetic, genomic and molecular tools. The Drosophila immunity relies on cellular and humoral innate immune responses to fight pathogens. The hallmark of the Drosophilahumoral immune response is the rapid induction of antimicrobial peptide genes in the fat body, the homolog of the mammalian liver. Expression of these antimicrobial peptide genes is controlled by two distinct immune signaling pathways, the Toll pathway and the IMD (immune deficiency) pathway. The Toll pathway is activated by fungal and Gram-positive bacterial infections, whereas the IMD pathway responds to Gram-negative bacteria. Both pathways culminate in activation of the Rel/NF-кB transcription factors DIF (Dorsal-related immunity factor), Dorsal and Relish, which in turn translocate to the nucleus to induce the antimicrobial peptide genes. DIF and Dorsal are activated by the Toll pathway and control induction of antimicrobial peptide genes such as Drosomycin. The NF-кB precursor Relish, which is composed of an N-terminal Rel homology domain and a C-terminal IкB-like domain, is activated by the IMD pathway and initiates transcription of antimicrobial peptide genes such as Diptericin. Although many components of the Drosophila immune signaling pathways have been identified, the detailed mechanisms of signal trans NF-kappa B I-kappa B Kinase Drosophila Proteins Transcription Factors Immunity Natural Signal Transduction Amino Acids, Peptides, and Proteins Animal Experimentation and Research Bacterial Infections and Mycoses Enzymes and Coenzymes Hemic and Immune Systems
79	Inflammation Alters Histone Methylation in the Central Nervous System: Implications for Neuropsychiatric Disease: A Dissertation Connor, Caroline M. 27 May 2011 (has links) Maternal infection during pregnancy is associated with increased risk of both schizophrenia and autism in offspring. Based on this observation, the maternal immune activation mouse model was developed, in which pregnant rodents are treated with immune-activating agents and the brains and behavior of the adult offspring studied. This model has been found to recapitulate a variety of molecular, cellular, and behavioral abnormalities observed in both schizophrenia and autism. However, despite the abundant evidence provided by these studies that prenatal exposure to inflammation alters brain development and function later in life, the molecular mechanisms by which inflammation mediates these effects remains unclear. It has been suggested that other prenatal risk factors for neuropsychiatric disease may alter brain development, in part, via epigenetic mechanisms such as DNA methylation and histone modification. However, a link between inflammation and epigenetic modification in brain has not been established. Therefore, the focus of my thesis was to examine the effect of inflammation on the histone modification, trimethylated histone H3 lysine 4 (H3K4me3), which has been implicated in both normal brain development and in schizophrenia. In Chapter II, I describe experiments examining the effect of a specific, cytokine, interleukin-6 (IL-6), on H3K4me3 in rat forebrain culture. I show that IL-6 treatment results in altered levels of H3K4me3 at multiple gene promoters, frequently in conjunction with altered mRNA expression levels, and demonstrate that a subset of these alterations appear to be dependent on signaling via the signal transducer and activator of transcription 3 (Stat3) pathway. Furthermore, some of the genes affected by IL-6 also showed altered H3K4me3 levels in autism postmortem brain. Though a direct link still remains to be established, this observation suggests that epigenetic changes observed in neuropsychiatric disease may have been induced by prenatal exposure to inflammation. In Chapter III, I describe in vivo experiments employing the maternal immune activation (MIA) mouse model to examine the effects of prenatal inflammation on H3K4me3 in the brain of the offspring, at both fetal and adult stages. I found that immune activation resulted in increased levels of IL-6 protein in fetal brain, working memory deficits in the adult offspring, and subtle changes in H3K4me3 levels in fetal and adult brain. Taken together, these findings demonstrate that an environmental risk factor for schizophrenia and autism—namely, inflammation—is capable of inducing robust and widespread histone modifications in a model of the central nervous system and smaller changes in vivo. This suggests that prenatal exposure to inflammation in human populations may lead to increased susceptibility for neuropsychiatric disorders, in part, by altering chromatin modifications in developing brain. Inflammation Histones DNA Methylation Schizophrenia Autistic Disorder Prenatal Exposure Delayed Effects Amino Acids, Peptides, and Proteins Bacterial Infections and Mycoses Cells Genetic Phenomena Maternal and Child Health Mental Disorders Nervous System Neuroscience and Neurobiology
80	Pathogenesis of the <em>Helicobacter</em> Induced Mucosal Disease: A Dissertation Stoicov, Calin 17 June 2010 (has links) Helicobacter pylori causes chronic gastritis, peptic ulceration and gastric cancer. This bacterium is one of the most prevalent in the world, but affects mostly the populations with a lower socioeconomical status. While it causes gastric and duodenal ulcers in only 20% of infected patients, less then 1% will develop gastric adenocarcinoma. In fact, H. pylori is the most important risk factor in developing gastric cancer. Epidemiological studies have shown that 80% of gastric cancer patients are H. pylori positive. The outcome of the infection with this bacterium depends on bacterial factors, diet, genetic background of the host, and coinfection with other microorganisms. The most important cofactor in H. pylori induced disease is the host immune response, even though the exact mechanism of how the bacterium is causing disease is unknown. The structural complexity of Helicobacter bacteria makes us believe that different bacterial factors interact with different components of the innate immunity. However, as a whole bacterium it may need mainly the TLR2 receptor to trigger an immune response. The type of adaptive immunity developed in response to Helicobacter is crucial in determining the consequences of infection. It is now known for decades that a susceptible host will follow the infection with a strong Th1 immune response. IFNγ, IL-12, IL-1β and TNF-α are the key components of a strong adaptive Th1 response. This is further supported by our work, where deficient T-bet (a master regulator for Th1 response) mice were protected against gastric cancer, despite maintaining an infection at similar levels to wild type mice. On the other hand, a host that is resistant to Helicobacter develops an infection that is followed by a Th2 response sparing the mucosa from severe inflammation. Human studies looking at single nucleotide polymorphism of cytokines, like IL-1β, IL-10 and TNF-α have clearly demonstrated how genotypes that result in high levels of IL-1β and TNF-α, but low IL-10 expression may confer a 50-fold higher risk in developing gastric cancer. The outcome of Helicobacter infection clearly relies on the immune response and genetic background, however the coinfection of the host with other pathogens should not be ignored as this may result in modulation of the adaptive immunity. In studying this, we took advantage of the Balb/C mice that are known to be protected against Helicobacter induced inflammation by mounting a strong Th2 polarization. We were able to switch their adaptive immunity to Th1 by coinfected them with a T. gondii infection (a well known Th1 infection in mice). The dual infected mice developed severe gastritis, parietal cell loss and metaplastic changes. These experiments have clearly shown how unrelated pathogens may interact and result in different clinical outcomes of the infected host. A strong immune response that results in severe inflammation will also cause a cascade of apoptotic changes in the mucosa. A strict balance between proliferation and apoptosis is needed, as its disruption may result in uncontrolled proliferation, transformation and metaplasia. The Fas Ag pathway is the leading cause of apoptosis in the Helicobacter-induced inflammation. One mechanism for escaping Fas mediating apoptosis is upregulation of MHCII receptor. Fas Ag and MHCII receptor interaction inhibits Fas mediated apoptosis by an impairment of the Fas Ag receptor aggregation when stimulated by Fas ligand. Because H. pylori infection is associated with an upregulation of the MHCII levels on gastric epithelial cells, this indeed may be one mechanism by which cells escape apoptosis. The link between chronic inflammation and cancer is well known since the past century. Helicobacter infection is a prime example how a chronic inflammatory state is causing uncontrolled cell proliferation that results in cancer. The cell biology of “cancer” is regarded not as an accumulation of cells that divide without any control, but rather as an organ formed of cancer stem cells, tumor stromal support cells, myofibroblasts and endothelial cells, which function as a group. The properties of the cancer stem cells are to self-renew and differentiate into tumor cells thus maintaining the tumor grow, emphasizing that a striking similarity exists between cancer stem cells and tissue stem cells. We looked into what role would BMDCs play in chronic inflammation that causes cancer. Using the mouse model of Helicobacter induced adenocarcinoma we discovered that gastric cancer originates from a mesenchymal stem cell coming from bone marrow. We believe that chronic inflammation, in our case of the stomach, sets up the perfect stage for bone marrow stem cells to migrate to the stomach where they are exposed to inflammatory stimuli and transform into cancer stem cells. One of the mechanism by which the MSC migrate to the inflammation site is the CXCR4/SDF-1 axis. Our work sheds new light on Helicobacter induced gastric cancer pathogenesis. I hope that our findings will promote the development of new therapies in the fight against this deadly disease. Helicobacter pylori Helicobacter Infections Stomach Neoplasms Immunity Mucosal Adaptive Immunity Inflammation Bacteria Bacterial Infections and Mycoses Cancer Biology Digestive System Diseases Gastroenterology Hemic and Immune Systems Immunopathology Neoplasms

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