Global ETD Search

21	Lethatlity of and Elicitation of Protective Antibody by Vibrio parahaemolyticus ATTC 17803 Carlucci, Richard 01 May 1975 (has links) The LD50 of Vibrio parahaemolyticus ATCC 17803 for 13- to 18-g male mice, strain ICR, as determined by the 50% endpoint method, was found to be an estimated 7 x 107 CFU, when administered intraperitoneally in 0.5 ml of 24-h broth culture, O. D. 0.5 at 650 nm, diluted to 10-0.72. The elicitation of protective antibody by this bacterium in male New Zealand White rabbits was demonstrated by testing control, baseline, and hyperimmune rabbit sera for their protective effect against 2 LD50 of the bacterium administered intraperitoneally in 13- to 18-g male mice, strain ICR. A comparison of these sera showed that there was a highly significant difference, at the 0.01 level, between the protection conferred by the hyperimmune sera and the protection conferred by the baseline or control area. Significant protection was demonstrated by hperimmune sera at dilutions as high as 1/32. Comparison of results of in vitro tests for preciptins and agglutinins in hyperimmune rabbit sera with results of in vivo tests for protective effect of hyperimmune rabbit sera led to a tentative conclusion that this passive protection afforded by the hyperimmune rabbit sera is probably conferred more by precipitins than by agglutinins. Western Kentucky University Bacterial Infections and Mycoses Biology Diseases Medical Immunology
22	Papel da Arg127 na conformação estrutural e secreção de Fator H, importante proteína reguladora da via alternativa do sistema complemento / Role of Arg127 for complement regulatory Factor H structural conformation and secretion. José Antonio Tavares de Albuquerque 13 September 2011 (has links) A Via Alternativa é a principal via de ativação do sistema complemento (SC), sendo o Fator H (FH) um de seus principais reguladores. No presente estudo, nós investigamos os mecanismos moleculares pelo qual o paciente com a mutação Arg127His no FH possui deficiência do SC. Para isto, utilizamos fibroblastos de paciente e individuo normal estimulados com IFN-<font face=\"Symbol\">g e verificamos que as células do paciente eram capazes de produzir FH, contudo a maior parte das proteínas estava retida no retículo endoplasmático (RE). Em paralelo, transfectamos células Cos-7 com plasmídeos contendo a mutação CG453T<font face=\"Symbol\">® CA453T e observamos que a mutação foi responsável pelo retardo na secreção de FH. Apesar da mutação reduzir a secreção de FH, observamos que a capacidade de FH atuar como co-factor não foi afetada. Assim, avaliamos se o uso de chaperonas químicas poderia induzir a secreção da proteína e observamos que houve aumento na secreção de FH nos fibroblastos. Desta forma, propomos o uso desses fármacos como alternativa de tratamento para melhorar a sobrevida do paciente. / Factor H (FH) is one of the most important regulatory proteins of the alternative pathway of the complement system (CS). In this study, we investigated the consequences of FH Arg127His mutation to the secretion ratio of this protein by skin fibroblasts in vitro. We stimulated the FH synthesis from patient and normal control with IFN<font face=\"Symbol\">g when we observed that the patient cells were able to synthetize FH, however this mutant protein was mainly retained at the endoplasmic reticulum. In parallel, we transfected Cos-7 cells with plasmids containing CG453T<font face=\"Symbol\">® CA453T mutation and observed that the mutation was responsible for the delay in the FH secretion. Although the mutation reduced the FH secretion, we observed that the FH function was not affected. Thus, we evaluated whether the treatment with chemical chaperones could release FH to the culture supernant. We observed that patients fibroblasts treated increased the secretion of FH. In conclusion, we suggest the use of these chemical chaperones as a potential alternative therapeutic to improve the patients survival. Imunogenética Imunologia celular Imunologia médica Cell immunology Immunogenetics Medical immunology
23	Development of Methods to Modulate Natural Killer Cells Shaver, Kari A 01 January 2018 (has links) (PDF) Natural Killer (NK) cell based immunotherapies have demonstrated success against malignancies and hematological cancers. However, tumors have developed mechanisms to evade detection by and suppress the immune system, commonly through altering the expression of cell-surface proteins. Overexpression of human leukocyte antigen-E (HLA-E), which binds to the inhibitory NKG2A on NK cells, protects malignant cells from lysis. Downregulating the NKG2A receptor on NK cells should release NK cell inhibition, but proves challenging as NK cells are difficult to transfect and no good methods currently exist. This project is designed to investigate the use of exosomes – small vesicles and natural carriers of regulatory microRNAs (miRNAs) and proteins that are shed from cells – as delivery vehicles for small RNAs (sRNAs) to immune cells. Exosomes are biologically compatible, immunologically inert, and interact with target cells through receptor-ligand interactions, allowing for targeted delivery of cargo. Exosomes loaded with shRNA against NKG2A were cultured in vitro with NK cells. Delivery success was assessed by monitoring NKG2A receptor expression on NK cells through flow cytometry. This research will provide valuable information that will likely impact the delivery of RNA therapeutics and unlock the full cytotoxic potential of NK immunotherapy. Immunotherapy Exosomes NKG2A NK Cells RNA interference Medical Immunology Therapeutics
24	Activation and Expansion of Natural Killer Cells for Cancer Immunotherapy With EX21 Exosomes Khederzadeh, Sara 01 January 2017 (has links) In the field of cancer immunotherapy, NK cells are recognized for their ability to provide a form of innate immunity against tumor cells. However, the average abundance of NK cells in the blood can be as low as 5% of the total lymphocyte population. As a result, it has been a focus to find novel therapies to expand NK cells in vitro while subsequently enhancing the cytotoxicity of these cells. Previously-defined methods include the minimal expansion of NK cells with high levels of cytokines such as IL-2 and IL-15, as well as co-culturing NK cells with feeder cell populations that are genetically modified to express NK-stimulating factors. Another method involves the use of artificially-derived plasma membrane nanoparticles (PM21) that express membrane-bound IL-21 (mb21) to successfully expand NK cells by a factor of 103 in 14 days. Exosomes, which are cell-derived vesicles naturally secreted by cancer cells, may reveal a novel way to expand NK cells and enhance their cytotoxicity by taking advantage of the exchange of genetic information within the tumor microenvironment. To test this hypothesis, NK cells have been cultured with varying concentrations of exosomes derived from modified K562-mb21-41BBl (a chronic myelogenous leukemia cell line) and shown to achieve 200-fold expansion of NK cells from other PBMCs in 14 days, a growth comparable to that of PM-21 particles. In vitro assays as well as co-culturing with various tumor cell lines will determine the cytotoxicity of these expanded cells. Potentially, exosomes may be applied as an in vivo therapy for NK cell expansion. Natural killer NK exosome immunotherapy AML Medical Immunology Oncology
25	CHARACTERIZATION OF ANTIVIRAL PROPERTIES OF TRAPPIN-2 AND ELAFIN AGAINST HIV-1 AND HSV-2 IN THE FEMALE GENITAL MUCOSA Drannik, Anna 10 1900 (has links) <p>Sexually transmitted infections (STIs), especially HIV/AIDS and HSV-2, continue to be a devastating burden on societies around the world. The close link between HSV-2 and HIV-1, the role of inflammation in driving these infections, and the limited success and availability of prophylactic and therapeutic measures underscore the need for continued search of alternative means of protection. Characterization of endogenous antimicrobials, especially those local to the female genital tract and actively regulating inflammatory and antiviral responses, could be beneficial for microbicidal trials. Although regulators of mucosal immunity, such as serine antiproteases, trappin-2 and elafin (Tr/E), have been associated with resistance to HIV-1, their antiviral activity remains poorly understood. Thus, the research presented in this thesis centers on characterization of antiviral properties of Tr and E individually and their potential mechanisms in defense against HSV-2 and HIV-1 in the female genital mucosa. Chapter 2 examines Tr/E contribution to antiviral host defense responses elicited by a synthetic mimic of viral dsRNA, polyI:C. Chapter 3 documents the presence and characteristics, including potential mechanisms, of antiviral activity of Tr/E against in vitro and in vivo HSV-2 infection. Chapters 4 and 5 determine the contribution of Tr/E to the natural anti-HIV-1 protection of CVL and structural characteristics, mode(s) of action, and cellular distribution/localization of antiviral Tr/E proteins. Therein, we present novel properties of each Tr/E by demonstrating their inhibitory and multiple effects against both HSV-2 and HIV-1. These effects appear to be mediated either through virus or cells and be associated with altered viral attachment/entry, transcytosis and infection, innate viral recognition, modulated inflammation and increased antiviral protection of cells. Reported antiviral activity of Tr/E was also contextual and exerted, at least in HEC-1A cells, via autocrine/paracrine mode and depended on elafin’s nuclear localization and its unmodified N-terminus. Tr/E may represent viable candidates for further studies in the field of STIs.</p> / Doctor of Philosophy (PhD) trappin-2 Medical Immunology Medical Microbiology Reproductive and Urinary Physiology Viruses Medical Immunology
26	CHARACTERIZING THE ROLE OF TOLL-LIKE RECEPTOR 2 IN SENSING AND REGULATING HUMAN IMMUNDEFICIENCY VIRUS-1 INFECTION FROM MOTHER-TO-CHILD THROUGH BREAST MILK Henrick, Bethany M. 10 1900 (has links) <p>Breastfeeding from HIV-infected mothers is one of the major sources of pediatric HIV-1 infection; however, an intervention that promotes exclusive breastfeeding has significantly reduced vertical HIV transmission rates and infant mortality. The mechanisms underlying this phenomenon remain unknown; however, have been closely linked to high levels of innate immune factors in breast milk. Indeed, the level of several innate factors in breast milk correlate with protection and/or have direct anti-viral properties <em>in vitro.</em> The innate immune factor, soluble TLR2 (sTLR2) is found in high concentration in breast milk and has previously been investigated for its anti-bacterial properties; however, its anti-viral properties remain poorly understood. Thus, the research presented in this thesis extended our understanding of sTLR2 by characterizing the mechanisms by which sTLR2 inhibited HIV-induced inflammation and infection. Chapter 2 examined the predominant forms of sTLR2 in breast milk from different women, its cellular source, bioavailability and kinetics postpartum. Functionally, we confirmed sTLR2’s anti-bacterial properties and extended to show, for the first time, that sTLR2 directly inhibited HIV infection <em>in vitro.</em> Chapter 3 documented a potential mechanism of sTLR2’s direct inhibition of HIV infection <em>in vitro</em> and, investigated sTLR2 and TLR2 expression in HIV uninfected compared to HIV infected breast milk and breast milk cells, respectively. Chapter 4 investigated the role of TLR2’s recognition of novel HIV pathogen associated molecular patterns (PAMPs), and whether TLR2 expression increased HIV infection and integration. Taken together, we present novel anti-viral functions of sTLR2 by demonstrating that sTLR2 bound to specific HIV PAMPs, which led to significantly decreased HIV-induced inflammation, co-receptor expression, and HIV infection. Furthermore, we demonstrated, for the first time, that TLR2 recognizes specific HIV PAMPs, which led to significantly increased pro-inflammatory cytokine production, co-receptor expression and HIV infection. Thus, sTLR2 and TLR2 represent innate immune factors that might have preventative and therapeutic applications for both infants and adults in the future.<strong><br /> </strong></p> / Doctor of Philosophy (Medical Science) Medical Immunology Virus Diseases Medical Immunology
27	MS-275 (ENTINOSTAT) PROMOTES SUSTAINED TUMOR REGRESSION IN THE CONTEXT OF BOOSTING ONCOLYTIC IMMUNOTHERAPY Nguyen, Andrew 10 1900 (has links) <p>We showed previously that histone deacetylase (HDAC) inhibition with MS-275 in the context of boosting oncolytic immunotherapy can drive heightened antitumor responses, leading to increased survival in mouse intracranial melanoma models. However, it is currently unclear how the co-administration of MS-275 directly impacts tumor growth. Here, we investigated the role of MS-275 in preventing the outgrowth of antigen-deficient tumor variants as a result of suboptimal treatment protocols. By adoptively transferring tumor antigen-specific memory T cells (Tm) that were expanded <em>in vivo</em> with recombinant Vesicular Stomatitis Virus (VSV-gp33), we observed complete regression of 5-day old, intradermal B16-gp33 tumors (B16-F10 overexpressing the LCMV GP33-41 epitope); however, the tumors relapsed within a month of treatment. Relapsing tumor explants were able to grow in mice that were prophylactically immunized with recombinant Adenovirus (Ad-gp33), indicating that the tumor could no longer be recognized. Strikingly however, there was zero tumor recurrence if MS-275 was co-administered with Tm and VSV-gp33, suggesting that MS-275 may prevent the emergence and/or escape of antigen loss variants. Such a benefit is lost if the administration of the drug is delayed as little as five days post VSV treatment, suggesting that its synergistic effects coincide with early immune responses and oncolytic activity. Furthermore, transplantation studies of relapsing tumor explants showed that combination treatment was unable to provide tumor protection, confirming that the mechanisms by which MS-275 prevents tumor recurrence are unlikely through direct up-regulation of antigen presentation in low- or non-antigen-expressing variants <em>in vivo</em>. Indeed, CD4 depletion in the absence of MS-275 resulted in sustained tumor regression, implying that immunoregulatory cells such as CD4+ Treg play a prominent role in sustaining tumor regression. Moreover, MS-275 modulates the phenotypic status of tumor-infiltrating MDSCs toward the differentiation of inflammatory macrophages. Taken together, the data suggests that combination therapy with HDACi with oncolytic immunotherapy mediates a synergized immune attack against the tumor through subversion of immunomodulatory mechanisms.</p> / Master of Science in Medical Sciences (MSMS) oncolytic immunotherapy vesicular stomatitis virus (VSV) adoptive transfer therapy histone deacetylase inhibitor (MS-275) regulatory T cells (Tregs) myeloid-derived suppressor cells (MDSCs) Medical Immunology Medical Immunology
28	REGULATION OF HEPATIC GENE EXPRESSION DURING LIVER DEVELOPMENT AND DISEASE Ren, Hui 01 January 2012 (has links) My first project was to investigate the role of Hepatocyte Nuclear Factor 1 (HNF1) and Nuclear Factor I (NFI) on alpha-fetoprotein (AFP) promoter activity during liver development. AFP is highly expressed in the fetal liver, silenced at birth, and remains at very low levels in the adult liver. A GA substitution located at -119 of the human AFP promoter is associated with hereditary persistence of AFP (HPAFP) expression in the adult liver (Hum Molec Genet, 1993, 2:379). The -120 region harbors overlapping binding sites for HNF1 and NFI. While it has been shown that the GA substitution increases HNF1 binding, the role of NFI in AFP regulation has not been investigated. This overlapping HNF1/NFI site is conserved in other mammals, including mice. In this study, I used a combination of biochemical, tissue culture, and animal studies to explore further the role of this HNF1/NFI site in AFP regulation. Transient co-transfections in Hep3B hepatoma cells indicate that HNF1 activates while NFI represses the mouse AFP promoter. EMSAs indicate that HNF1 and NF1 compete for binding to this site. Transgenes regulated by the wild-type AFP promoter are expressed at low levels in the adult liver. Transgenes with a GGAA mutation (similar to the G-A human mutation) are more active in the adult liver. My data indicate that HNF1 and NFI compete for binding to the -120 region of the AFP promoter and this competition is involved in postnatal AFP repression. My second project was to study the control of Elongation of very long chain fatty acids like 3 (Elovl3) in the liver by Zinc fingers and homeoboxes 2 (Zhx2). The Zhx2 gene was originally characterized in our lab based on its ability to control the developmental repression of several hepatic genes, including AFP (PNAS, 102:401). Zhx2 is a member of a small family of proteins found only in vertebrates that also includes Zhx1 and Zhx3. These proteins all contain two zinc fingers and four homeodomains, suggesting that they function as regulators of gene expression. My study shows that Zhx2 regulates Elovl3 expression in female liver. Mouse strain-specific differences in adult liver Elovl3 mRNA levels and transgenic mouse data indicate that Zhx2 activates Elovl3 expression in the female adult liver. I also demonstrate that Elovl3 is repressed in the regenerating liver and that the level of Elovl3 repression is controlled by alpha-fetoprotein regulator 2 (Afr2). In addition, I show that Elovl3 expression is reduced in liver tumors, fibrotic livers and fatty livers, raising the possibility that Elovl3 can serve as a marker for HCC and liver damage. Alpha-fetaprotein Hepatocyte Nuclear Factor 1 Liver Medical Genetics Medical Immunology Medical Microbiology
29	Role of the Immune System and Bioactive Lipids in Trafficking Bone Marrow-Derived Stem Cells in Patients with Ischemic Heart Disease Abdel-Latif, Ahmed 01 January 2012 (has links) Acute myocardial infarction (AMI) triggers the mobilization of stem/progenitor cells from bone marrow (BMSPCs) into peripheral blood (PB). The underlying mechanisms orchestrating this mobilization and subsequent homing of BMSPCs to the myocardium are poorly understood. While the role of traditional chemokines in the mobilization and homing of hematopoietic stem cell (HSCs) to BM niches is undisputed, their role in directing BMSPCs to the highly proteolytic environment of the ischemic myocardium is debatable and other redundant mechanism may exist. Based on our observation that bioactive lipids, such as sphingosine-1 phosphate (S1P) and ceramide-1 phosphate (C1P), play an important role in regulating trafficking of HSCs; we explored if they also direct trafficking of BMSPCs in the setting of myocardial ischemia. While BMSPCs expressed S1P receptors regardless of the source, the expression of S1P receptor 1 (S1PR1) and receptor 3 (S1PR3), which are responsible for migration and chemotaxis, was elevated in BMSPCs in naïve BM cells and was reduced following mobilization. This expression correlated to differential response of BMSPCs to S1P in chemotaxis assays. By employing flow cytometry analyses, we observed an increase in circulating PB CD34+, CD133+ and CXCR4+ lineage negative (Lin-)/CD45- cells that are enriched in non-HSCs (P < 0.05 vs. controls). This corroborated our mass spectrometry studies showing a temporal increase in S1P and C1P plasma levels. At the same time, plasma obtained in the early phases following AMI strongly chemoattracted human BM-derived CD34+/Lin- and CXCR4+/Lin- cells in Transwell chemotaxis assays in an S1P dependent fashion. We examined other mechanisms that may contribute to the homing of BMSPCs to the infarcted myocardium due to the reduction of S1PRs upon mobilization. We observed that hypoxia induced higher expression of cathelicidins in cardiac tissues. Indeed, PB cells isolated from patients with AMI migrated more efficiently to low, yet physiological, gradient of SDF-1 in Transwell migration assays compared to SDF-1 alone. Together, these observations suggest that while elevated S1P plasma levels early in the course of AMI may trigger mobilization of non-HSCs into PB, cathelicidins appear to play an important role in their homing to ischemic and damaged myocardium. Myocardial infarction stem cell mobilization homing myocardial regeneration Cardiology Medical Cell Biology Medical Immunology
30	The Effect of Statins on IL-33 Mediated Mast Cell Function Taruselli, Marcela 01 January 2015 (has links) This study demonstrates original findings of statin effects on IL-33 stimulated mast cells. Statins are a class of drugs used to lower cholesterol production by targeting HMG CoA reductase. These commonly prescribed drugs have been shown to be immunomodulatory. In this study, we have found that pretreatment with statins has a variety of effects on IL-33 stimulated mast cells. Atorvastatin suppresses TNF and IL-6 production, while fluvastatin significantly enhances release of these proinflammatory cytokines in BMMCs. Although they have differing effects on cytokine production, both statins lowered ST2 expression on the cell surface, decreased cell viability, and enhanced expression of the transcription factor KLF2, a negative regulator of NFκB. Blocking isoprenylation by using geranylgeranyl transferase inhibitor, but not farnesyl transferase, mimicked the effects of atorvastatin, while neither mirrored the effect of fluvastatin. Furthermore, fluvastatin effects were not reversed by mevalonic acid, the product of HMG-CoA reductase. These data indicate that fluvastatin effects are distinct from its activities as an HMG CoA reductase inhibitor. Fluvastatin effects required the presence of stem cell factor (SCF), and were enhanced by increasing SCF concentrations. Finally, fluvastatin enhanced IL-33-induced cytokine production and neutrophil recruitment in vivo. Collectively, these data suggest that statins can alter the mast cell response, and that drug choice can have divergent effects on outcome. Immunology Mast cells Fluvastatin Atorvastatin Interleukin 33 Immunity Immunology and Infectious Disease Medical Immunology

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