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- All Subjects: Microbiology
- All Subjects: Biology
- Creators: Lake, Douglas
Description
Despite the approval of a Dengue virus (DV) vaccine in five endemic countries, dengue prevention would benefit from an immunization strategy highly immunogenic in young infants and not curtailed by viral interference. Problematically, infants younger than 9 year of age, whom are particularly prone to Dengue severe infection and death, cannot be immunized using current approved DV vaccine. The most important issues documented so far are the lack of efficiency and enhancement of the disease in young seronegative recipients, as well as uneven protection against the four DV serotypes. Based on data from clinical trials that showed enhanced performance of dengue vaccines when the host has previous anti-flaviviral immunity, I proposed here an attractive solution to complement the current vaccine: a recombinant measles vaccine vectoring dengue protective antigens to be administered to young infants. I hypothesized that recombinant measles virus expressing Dengue 2 and 4 antigens would successfully induce neutralizing responses against DV2 and 4 and the vaccine cocktail of this recombinant measles can prime anti-flaviviral neutralizing immunity. For this dissertation, I generated and performed preclinical immune assessment for four novel Measles-Dengue (MV-DV) vaccine candidates. I generated four MVs expressing the pre membrane (prM) and full length or truncated (90%) forms of the major envelope (E) from DV2 and DV4. Two virus, MVvac2-DV2(prME)N and MVvac2-DV4(prME), expressed high levels of membrane associated full-length E, while the other two viruses, MVvac2-DV2(prMEsol)N and MVvac2-DV4(prMEsol)N, expressed and secreted truncated, soluble E protein to its extracellular environment. The last two vectored vaccines proved superior anti-dengue neutralizing responses comparing to its corresponding full length vectors. Remarkably, when MVvac2-DV2/4(prMEsol)N recombinant vaccines were combined, the vaccine cocktail was able to prime cross-neutralizing responses against DV 1 and the relatively distant 17D yellow fever virus attenuated strain. Thus, I identify a promising DV vaccination strategy, MVvac2-DV2/4(prMEsol)N, which can prime broad neutralizing immune responses by using only two of the four available DV serotypes. The current MV immunization scheme can be advantageus to prime broad anti-flaviviral neutralizing immunity status, which will be majorly boosted by subsequent chimeric Dengue vaccine approaches.
ContributorsAbdelgalel, Rowida (Author) / Reyes del Valle, Jorge (Thesis advisor) / Mason, Hugh (Thesis advisor) / Lake, Douglas (Committee member) / Stout, Valerie (Committee member) / Frasch, Wayne (Committee member) / Arizona State University (Publisher)
Created2016
Description
Adoptive transfer of T cells engineered to express synthetic antigen-specific T cell receptors (TCRs) has provocative therapeutic applications for treating cancer. However, expressing these synthetic TCRs in a CD4+ T cell line is a challenge. The CD4+ Jurkat T cell line expresses endogenous TCRs that compete for space, accessory proteins, and proliferative signaling, and there is the potential for mixed dimer formation between the α and β chains of the endogenous receptor and that of the synthetic cancer-specific TCRs. To prevent hybridization between the receptors and to ensure the binding affinity measured with flow cytometry analysis is between the tetramer and the TCR construct, a CRISPR-Cas9 gene editing pipeline was developed. The guide RNAs (gRNAs) within the complex were designed to target the constant region of the α and β chains, as they are conserved between TCR clonotypes. To minimize further interference and confer cytotoxic capabilities, gRNAs were designed to target the CD4 coreceptor, and the CD8 coreceptor was delivered in a mammalian expression vector. Further, Golden Gate cloning methods were validated in integrating the gRNAs into a CRISPR-compatible mammalian expression vector. These constructs were transfected via electroporation into CD4+ Jurkat T cells to create a CD8+ knockout TCR Jurkat cell line for broadly applicable uses in T cell immunotherapies.
ContributorsHirneise, Gabrielle Rachel (Author) / Anderson, Karen (Thesis advisor) / Mason, Hugh (Committee member) / Lake, Douglas (Committee member) / Arizona State University (Publisher)
Created2020
Description
Anoxia tolerance is strongly correlated with tolerance to heat, desiccation, hyperosmotic shock, freezing, and other general stressors, suggesting that anoxia tolerance is broadly related to stress tolerance. Age affects the capacity of many animals to survive anoxia, but the basis to this ontogenic variation is poorly understood. We exposed adult Drosophila, 1, 3, 5, 7, 9, and 12 days past eclosion, to six hours of anoxia and assessed survival 24-hours post-treatment. Survival of anoxia declined strongly with age (from 80% survival for one-day-old flies to 10% survival for 12 day-old-flies), a surprising result since adult fly senescence in Drosophila is usually observed much later. In anoxia, adenosine triphosphate (ATP) levels declined rapidly (< 30 min) to near-zero levels in both 1 and 12-day old adults; thus the higher anoxia-tolerance of young adults is not due to a better capacity to keep ATP elevated. Relatively few physiological parameters are reported to change over this age range in D. melanogaster, but gut bacterial content increases strongly. As a partial test for a causal link between bacterial load and anoxia tolerance, we replaced food daily, every third day, or every sixth day, and assayed survival of six hours of anoxia and bacterial load at 12 days of age. Anoxia tolerance for 12-day old flies was improved by more food changes and was strongly and negatively affected by bacterial load. These data suggest that increasing bacterial load may play an important role in the age-related decline of anoxia tolerance in Drosophila.
ContributorsSargent, James (Author) / Harrison, Jon F. (Thesis advisor) / Haydel, Shelly (Committee member) / Lake, Douglas (Committee member) / Arizona State University (Publisher)
Created2020
Description
Coccidioidomycosis or Valley Fever (VF) is an emerging fungal respiratory infection endemic to the southwest region of the United States, and parts of Mexico, Central and South America. Satellite cases have also been reported in Washington and Oregon. It is estimated that in Maricopa County alone, VF accounts for 10-30% of community-acquired pneumonia. Difficulty in diagnosis is largely attributed to lack of antibody reactivity to antigens used in diagnosis, especially early in disease. Serological detection of VF employs mycelial-phase culture filtrates as antigen. While culture filtrates are thought to provide the most specific diagnostic antigen, preparation includes the growth of large volume Coccidioides cultures which require employment of extensive safety precautions in a BSL3 setting. An additional concern with use of culture filtrates as an antigen source is batch variability, as expression of immunogenic proteins within each lot are variable. To address safety and batch variability concerns, this thesis proposes the use of recombinant Coccidioides proteins as a consistent and reliable antigen source. For the purpose of this study, I expressed known antigenic Coccidioides proteins in a eukaryotic, recombinant protein expression system. Recombinant endochitinase-1 (rCTS1) and recombinant heat-labile antigen (rHL-Ag) were evaluated for serologic reactivity by ELISA, using a sample set of 55 known serologically positive and 55 known negative human sera specimens, previously tested in Mayo Clinic Arizona (MCA) serologic laboratories. Evaluation by ELISA demonstrated 94.55% sensitivity and 92.72% specificity using combined rCTS1 and rHL-Ag as an antigen source, indicating promising diagnostic utility.
ContributorsRoeder, Alexa Jordan (Author) / Lake, Douglas (Thesis advisor) / Grys, Thomas (Committee member) / Bean, Heather (Committee member) / Arizona State University (Publisher)
Created2020
Description
Lipolysis or hydrolysis of triglyceride (TG) stored within intracellular lipid droplets (LD), is vital to maintaining metabolic homeostasis in mammals. Regulation of lipolysis and subsequent utilization of liberated fatty acids impacts cellular and organismal functions including body fat accumulation and thermogenesis. Adipose triglyceride lipase (ATGL) is the intracellular rate-limiting enzyme responsible for catalyzing hydrolysis of TG to diacylglycerol (DAG), the initial step of the lipolytic reaction. G0/G1 switch gene-2 (G0S2) and hypoxia-inducible gene-2 (HIG2) are selective inhibitors of ATGL. G0S2 facilitates accumulation of TG in the liver and adipose tissue, while HIG2 functions under hypoxic conditions. Sequence analysis and mutagenesis were used to confirm the presence of conserved domains between these proteins, and that these domains are required for efficient binding and inhibition of ATGL. Further analysis revealed a Positive sequence (Pos-Seq)-LD binding motif in G0S2 but not HIG2. The Pos-Seq mediated ATGL-independent localization to LD and was required for achieving maximal inhibition of ATGL activity by G0S2. Identification and mutational analysis of this motif revealed distinct mechanisms for HIG2 and G0S2 LD association. In addition to molecular characterization of known protein inhibitors of lipolysis, an intracellular member of the apolipoprotein L (ApoL) family, ApoL6, was also identified as a LD and mitochondria associated protein expressed in adipose tissue. Brown adipose tissue uses fatty acids as fuel for increasing its energy output as heat during acute responses to cold exposure. A Comprehensive Lab Animal Monitoring System was used to compare heat production at room temperature (RT) and 4oC in transgenic animals overexpressing ApoL6 in brown adipose tissue. Overexpression of ApoL6 delayed utilization of long-chain fatty acids (LCFAs) as a fuel source while promoting an enhanced thermogenic response during initial cold exposure. ApoL6 mediated inhibition of LCFA utilization results from binding of ApoL6 to Mitochondrial Trifunctional Protein (MTP/TFP), which catalyzes mitochondrial β-oxidation. Indirect calorimetry and fasting acute cold exposure experiments suggest the augmented thermogenic profile of ApoL6 transgenic animals is a result of enhanced utilization of medium-chain fatty acids (MCFAs), glucose, and amino acids as fuel sources. Cumulatively these results indicate multiple mechanisms for regulation lipolysis and fatty acid utilization.
ContributorsCampbell, Latoya E (Author) / Lake, Douglas (Thesis advisor) / Liu, Jun (Committee member) / Folmes, Clifford (Committee member) / Sweazea, Karen (Committee member) / Baluch, Debra (Committee member) / Arizona State University (Publisher)
Created2021
Description
Staphylococcus aureus permanently asymptomatically colonizes one-third of humans, yet is an opportunistic pathogen causing life threatening diseases. Diagnosing S. aureus infections requires differentiating S. aureus from the human commensal Staphylococcus epidermidis, which beneficially colonizes the skin of all people. These studies aimed to characterize the volatile metabolites of S. aureus and S. epidermidis, and to measure the influence of growth medium on the discovery of volatile organic compounds that differentiate them. Headspace solid-phase microextraction and comprehensive two-dimensional gas chromatography with time-of-flight mass spectrometry detected 337 S. aureus and S. epidermidis headspace volatiles produced during aerobic growth in four complex media. Analyses revealed that only 20 – 40% of staph volatiles are produced by both species in any one medium. Using principal components and hierarchical clustering analyses of the staphylococcal volatiles showed individual clustering of S. aureus and S. epidermidis independent of culturing media but clustering of replicate cultures by growth medium within species. Subsets of volatiles produced in common by both species, or in common across all four media, revealed volatilome differences between S. aureus and S. epidermidis based on the volatiles’ relative abundances. When analyzing volatiles by relative abundances, culturing staph in media containing free glucose (brain heart infusion and tryptic soy broth) revealed volatilomes dominated by acids and esters (67%). The low-glucose media (lysogeny broth and Mueller-Hinton broth) yielded ketones in greatest relative abundances, yet also produced highly dissimilar volatilome compositions. The staphylococcal volatilome is strongly influenced by the nutritional composition of growth medium, especially free glucose availability, which is robustly evident when analyzing the relative abundances of the volatiles, compared to their presence versus absence. Future work will evaluate more strains of each species, testing the universality of these results. Prospective analyses involve hypotheses testing on the role of catabolite repression control and glucose availability on the volatilome, with plans to model in vitro culture conditions that replicate in vivo volatilomes. Studies assessing correlations of virulence to species-specific volatilome responses to free glucose may identify pathogenic strains of S. epidermidis and other staphylococcal commensals.
ContributorsJenkins, Carrie L. (Author) / Bean, Heather D (Thesis advisor) / Buetow, Kenneth H (Committee member) / Lake, Douglas (Committee member) / Wilson-Rawls, Jeanne (Committee member) / Arizona State University (Publisher)
Created2021