Browsing by Subject "Pathogenic Microbiology"
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Item Epidemiological Modeling of a Bioterrorism Event in a Noncombat Environment(1999-07-01) Perkins, Christopher J.; Antonio Rene; Mains; Gilbert RamirezPerkins, Christopher J., Epidemiological Modeling of a Bioterrorism Event in a Noncombat Environment. Master of Public Health (Biomedical Sciences), July, 1999, 60 pp., 8 tables, 4 illustrations, references, 31 titles. The challenge to government, medical and public health officials is to advocate for American citizens the safest environment possible to live and work. A threat to the safety of all Americans has initiated preparations from national, state, and local jurisdictions in an attempt to counter the probability of biological terrorism. Bioterrorism is not only a threat to humans but also a threat to the nation’s water and food supplies. Epidemiological Modeling of a Bioterrorism Event demonstrates the importance in preparations to reduce the number of casualties and fatalities. Using Epidemiological Modeling of bioterrorism events will aid public health and medical personnel in the planning and initiation of appropriate public health actions and medical therapies should such events occur.Item Health Risk Associated with Microbial Contamination in Healthcare Facilities(2007-07-01) Palmer, Eboni D.; Larranaga, Michael; Gratton, Terry; Ramphal, LilyPalmer, Eboni D., Health Risk Associated with Microbial Contamination in Healthcare Facilities. Master of Public Health (Occupational Health Practice), July 2007, 96 pp., 20 tables, 8 illustrations, bibliography, 140 titles. This study developed a model assessing the risk associated with indoor microbial contamination in health care facilities. A semi-quantitative model resulting in numerical scores was used to describe the severity of risk associated with given levels of contamination. The hospital used in this study had problems with water intrusion. There were 99 locations from 3 air handler unit (AHU) service area locations examined. The final results produced a health risk rating for all three AHUs of medium risk. There is an increased risk of adverse health outcomes due to exposure from environmental microbial contamination. Immunocompromised patients and patients with allergies are not protected from the risk of developing a nosocomial infection or allergic reaction. Remediation of the contaminated areas must be performed in order to reduce the risk.Item Positive Regulation of Acetate Metabolism and Motility by the RNA-Binding Protein CsrA in Escherichia coli(2000-08-01) Wei, Bangdong L.; Jerry Simecka; Ming-Chi Wu; Stephen R. GrantWei, Bangdong L., Positive Regulation of Acetate Metabolism and Motility by the RNA-binding Protein CsrA in Escherichia coli. Doctor of Philosophy (Biomedical Sciences), August, 2000, 118 pp., 5 tables, 19 illustrations, bibliography, 175 titles. The carbon storage regulatory (Csr) system consists of a small RNA-binding effector protein, CsrA, and non-coding RNA, CsrB. CsrA acts as a global regulator and modulates specific mRNA stability in Escherichia coli. It regulates central carbon metabolism, physiology, and cell surface properties on a broad scale. In this study, the regulatory roles of csrA in acetate metabolism and motility were examined. The csrA gene was demonstrated to positively regulate acetyl-CoA synthetase and isocitrate lyase, while it did not affect phosphotransacetylase, isocitrate dehydrogenase, or citrate synthase. As a result, growth of csrA rpoS mutant strains was very poor on acetate as a sole carbon source. Surprisingly, growth also was inhibited specifically by the addition of modest amounts of acetate to rich media. Cultures grown in the presence of ≥25 mM acetate consisted substantially of glycogen biosynthesis (glg) mutants, which were no longer inhibited by acetate. Several classes of glg mutations were mapped to known and novel loci. The TCA cycle intermediates or pyruvate, but not glucose, galactose or glycerol, restored growth and prevented the glg mutations in the presence of acetate. Furthermore, amino acid uptake was inhibited by acetate specifically in the csrA rpoS strain. Apparently, central carbon flux imbalance, inhibition of amino acid uptake, and a deficiency in acetate metabolism are combined to cause metabolic stress by depleting the TCA cycle. The csrA gene was essential for motility and flagellum biosynthesis. Further studies elucidated the molecular mechanism by which CsrA positively regulates flagellum synthesis. Purified recombinant CsrA protein, which was isolated as a ribonucleoprotein complex consisting of one single CsrB molecule and ~18 CsrA subunits, directly stimulated the coupled transcription-translation of flhDC::lacZ in S-30 extracts and bound specifically to the 5’ non-coding segment of flhDC mRNA in mobility shift assay. The steady state level of flhDC mRNA was higher and its half-life was ~3-fold greater in a csrA wild type versus a csrA::kanR mutant strain, as shown by RT-PCR. Thus, CsrA is able to stimulate flhDC gene expression by a post-transcriptional mechanism that resembles its function in repression.Item T-Helper Cell Responses in Lungs After Immunization and Chronic Respiratory Disease; And Their Association With Pulmonary Inflammation(2001-05-01) Jones, Harlan P.; Simecka, Jerry; Dimitrijevich, S. Dan; Goldfarb, Ronald H.The purpose of these studies was to characterize T helper cell responses in the lungs of mice after immunization and chronic respiratory infection. CD4+ T cells were the major population of T cells resident in the lung in comparison to CD8+ T cells. Polyclonal activation of resident CD4+T cells produced abundant levels of IL-4 in comparison to IFN-γ, indicating that Th2 cells were the major sub-population of CD4+ T cells. In contrast, resident CD8+ T cells were the sole producer of IFN-γ by naïve T lymphocytes. Furthermore, the distribution of T cells was similar between BALB/c, C3H/HeN, C57BL/6 and DBA/2N strains of mice. However differences in the distribution of CD8+T cells, as well as the levels of IL-4 and IFN-y production produced by resident T cells were found between C57 and the other strains of mice tested. These results demonstrate that host genetic factors may be involved in determining host susceptibility to respiratory disease. Differences in the intensity of antigenic stimulation provoke changes in the type of T cell response generated. Intranasal immunization with influenza (FLU) vaccine antigen alone initiated solely an antigen-specific Th2-like response. In contrast, the addition of the potent mucosal adjuvant cholera toxin (CT) in combination with FLU antigen induced not only resident Th2 responses, but also induced antigen-specific Th1-like responses. This change corresponded with a dramatic increase in the number of CD4+ T cells in the lung. Thus, intense immunization of respiratory T cells enhanced resident T helper cell responses, but also promoted the activation of Th1 responses. Chronic respiratory infection also elicited changes in the resident population of T cells consistent with pulmonary inflammatory immune responses. At early stages of infection, CD4+, but not CD8+ T cells increased in number within inductive respiratory lymphoid tissues (lower respiratory nodes [LRNs]). Between day 7 and 14 however, there was a dramatic increase in the number of CD4+ T cells in the lung. Interestingly, CD8+ T cells also increased in the lungs, suggesting their activation along mucosal sites during mycoplasma infection. Mycoplasma-specific IL-4 and IFN-γ production also increased in a tissue-specific/time-dependent manner. IL-4 production was initially observed in the LRNs, whereas significant levels of IL-4 and IFN-γ was produced in both tissues 14 days after infection. In comparison, IFN-γ was the predominate cytokine, produce at 14 days coinciding with pulmonary inflammation. Suggesting that intense activation promoted changes in the resident pulmonary Th2 environment, and possible is a major component of pulmonary inflammatory immune responses. Both CD4+ and CD8= T cells were shown to have a role in modulation of disease severity during mycoplasma disease. Observation of gross pulmonary lesions reveal that mycoplasma infected mice treated with anti-CD8 antibody showed increase clinical signs of disease and pronounced gross pulmonary lesions. Additionally the number of total mononuclear cells increased dramatically in the absence of CD8+ T cells. Thus, CD8+ T cells may have a regulatory role in controlling resident CD4+ T cells that increased 14 days after infection. Chemokine production is known to mediate the recruitment of lymphocytes to enhance the initiation of immunity as well as be responsible for modulating inflammatory responses. We find that mycoplasma increase the number of dendritic cells in the lung 14 days after infection, and stimulated the production of dendritic cell-derived ABCD-1 chemokine. Also, β-chemokine MIP-1α and MIB-1β production was observed during intense immunization as well as during mycoplasma infection. These results provide evidence for a potential mechanism through which changes in resident pulmonary T cell responses occur given the intensity of the immune response generated.