Global ETD Search

91	Microbial Biofilms: An Evaluation of Ecological Interactions and the Use of Natural Products as Potential Therapeutic Agents Santiago, Ariel J. 15 December 2016 (has links) Biofilms are communities of microorganisms associated with surfaces encased in a protective extracellular matrix. These communities often pose clinical and industrial challenges due to their ability to tolerate biocidal treatments and removal strategies. Understanding the ecological interactions that take place during biofilm establishment is a key element for designing future treatment strategies. In this work, I utilized unique methods for studying factors contributing to cooperative antibiotic detoxification in a polymicrobial biofilm model. Subsequently, I tested a novel compound mixture that exhibited promising antibiofilm properties. Escapin is an L-amino acid oxidase that acts on lysine to produce hydrogen peroxide (H2O2), ammonia, and equilibrium mixtures of several organic acids collectively called Escapin intermediate products (EIP). Previous work showed that the combination of synthetic EIP and H2O2 functions synergistically as an antimicrobial toward diverse planktonic bacteria. To test the combination of EIP and H2O2 on bacterial biofilms, Pseudomonas aeruginosa was selected as a model, due to its role as an important opportunistic pathogen. Specifically, I examined concentrations of EIP and H2O2 that inhibited biofilm formation or fostered disruption of established biofilms. High-throughput assays of biofilm formation using microtiter plates and crystal violet staining showed a significant effect from pairing EIP and H2O2, resulting in inhibition of biofilm formation relative to untreated controls or to EIP or H2O2 alone. Similarly, flow cell analysis and confocal laser scanning microscopy revealed that the EIP and H2O2 combination reduced the biomass of established biofilms relative to controls. Area layer analysis of biofilms post-treatment indicated that disruption of biomass occurs down to the substratum. Only nanomolar to micromolar concentrations of EIP and H2O2 were required to impact biofilm formation or disruption, which are significantly lower concentrations than those causing bactericidal effects on planktonic bacteria. Micromolar concentrations of EIP and H2O2 combined enhanced P. aeruginosa swimming motility compared to either EIP or H2O2 alone. Collectively, these results suggest that the combination of EIP and H2O2 may affect biofilms by interfering with bacterial attachment and destabilizing the biofilm matrix. Biofilms Escherichia coli Pseudomonas aeruginosa escapin natural products biofilm dispersal
92	Sympathetic And Sensory Innervation And Activation Of Inguinal And Epididymal White Adipose Tissue Mendez, Jennifer 12 August 2016 (has links) Studies have suggested the possibility that there is sensory (SS) afferent signaling from white adipose tissue (WAT) to the brain, which may play an important role in communication with the brain sympathetic nervous system (SNS) outflow to WAT. Therefore, we tested whether the SNS-SS feedback loop between the subcutaneous inguinal WAT (IWAT) and the epididymal WAT (EWAT) exists. These fat pads were chosen due to 1) their divergent role in manifestation of metabolic disorders with the IWAT being beneficial and the EWAT being detrimental, as well as 2) different lipolytic response to glucoprivic 2-deoxyglucose (2DG). By using retrograde tract tracers Fast Blue (FB) and Fluorogold (FG), we found that the IWAT is more innervated than EWAT by both the SS and SNS ganglia (T13-L3). Surprisingly, we found ~12-17% of double-labeled cells in the SNS and SS ganglia innervating fat depots, implying SNS-SS crosstalk loops between the IWAT and EWAT. Increased neuronal activation by 2DG was observed in the SNS ganglia to both IWAT and EWAT but not in the SS dorsal root ganglia. In addition, 2DG induced lipolysis in both fat pads with greater lipolytic properties in the IWAT as a result of higher density of the SNS-SS fibers. Collectively, our results show neuroanatomical reality of the IWAT and EWAT SNS-SS neural crosstalk with a coordinated control of lipolytic function. Lipolysis 2-deoxyglucose c-Fos Fast Blue Fluorogold Dorsal root ganglia
93	Characterization of SecA1 and SecA2 from Gram-positive pathogens and discovery of novel SecA inhibitors Jin, Jinshan 14 December 2011 (has links) Due to the emergence and dissemination of multidrug resistance, bacterial pathogens have been causing a serious public health problem in recent years. To address the existing drug resistant problem, there is an urgent need to find new antimicrobials, especially those against drug-resistant bacteria. SecA is the central component of Sec-dependent secretion pathway, which is responsible for the secretion of many essential proteins as well as many toxins and virulence factors. Two SecA homologues are indentified in some important Gram-positive pathogens. SecA1 is involved in general secretion pathway and essential for viability, whereas SecA2 contribute to secretion of specific virulence factors. The high conservation among a wide range of bacteria and no human counterpart make SecA homologues attractive targets for exploring novel antimicrobials. We hypothesize that inhibition of these SecA homologues could reduce virulence, inhibit bacteria growth, and kill bacteria. SecA1 and SecA2 from four different species were cloned, purified, and characterized. All these SecA homologues show ATPase activities, thus screening ATPase inhibitors might help to develop new antimicrobials. In this study, three structurally different classes of SecA inhibitors were developed and optimized: 1) Rose Bengal (RB) and RB analogs derived from systematical dissection RB and Structure-Activity relationship (SAR) study; 2) pyrimidine analogs derived from virtual screening based on the ATP binding pocket of EcSecA and SAR study; and 3) bistriazole analogs derived from random screening and SAR study. Several potent SecA inhibitors show promising enzymatic inhibition against SecA homologues as well as bacteriostatic and bactericidal effects. Two major efflux pumps of S. aureus, NorA and MepA, have little negative effect on the antimicrobial activities of SecA inhibitors, suggesting that targeting SecA could by-pass efflux pumps. Moreover, these inhibitors impair the secretion of important toxins of S. aureus and B. anthracis, indicating the inhibition of in vivo SecA function could reduce virulence. Target identification assays confirm that these inhibitors could directly bind to SecA homologues, and specifically identify SecA from whole cell lysate of E. coli and S. aureus, suggesting that these inhibitors are really targeting on SecA. These studies validate that SecA is a good target for development antimicrobials. SecA Antimicrobials SecA inhibitors Bacteriostatic effect Bactericidal effect virulence factor secretion
94	The Effects of Testicular Nerve Transection and Epididymal White Adipose Tissue Lipectomy on Spermatogenesis in Syrian Hamster Spence, Jeremiah E. 30 July 2008 (has links) Previous investigators demonstrated that epididymal white adipose tissue (EWAT) lipectomy suppressed spermatogenesis and caused atrophy of the seminiferous tubules. EWAT lipectomy, however, may disrupt testicular innervation, which reportedly compromises testicular function. To resolve this confound and better clarify the role of EWAT in spermatogenesis, three experimental groups of hamsters were created in which: i.) the superior and inferior spermatic nerves were transected (SSNx) at the testicular level, ii.) EWAT was extirpated (EWATx), and iii.) testicular nerves and EWAT were left intact (SHAM controls). It was hypothesized that transection of the superior and inferior spermatic nerves would disrupt normal spermatogenesis. The findings indicate a significant reduction in spermatogenic activity and marked seminal tubule atrophy within the EWATx testis, as compared to the SSNx and controls testes, which did not differ significantly from each other. From these data, it is concluded that EWAT, and not testicular innervation, is central to normal spermatogenesis. Testes Syrian hamster Seminiferous tubule Spermatogenesis Superior and inferior spermatic nerve Norepinephrine Male reproduction Gonadal fat pad EWAT lipectomy Epididymal white adipose tissue (EWAT) Biology, general
95	Molecular Mechanism of Heme Acquisition and Degradation by the Human Pathogen Group A Streptococcus Ouattara, Mahamoudou 10 May 2013 (has links) Heme is the major iron source for the deadly human pathogen, Group A Streptococcus (GAS). During infection, GAS lyses host cells releasing hemoglobin and other hemoproteins. This dissertation aims to elucidate the general mechanism by which GAS obtains and utilizes heme as an iron source from the host hemoproteins. GAS encodes a heme relay system consisting of Shr, Shp and the SiaABC transporter. We specifically determine the role of Shr in the heme uptake process, by conducting a detailed functional characterization of its constituent domains. We also undertake to solve the long-standing mystery surrounding the catabolism of heme in streptococci. The studies presented herein established Shr as a prototype of a new family of NEAT-containing hemoproteins receptors. They demonstrate its importance in heme acquisition by GAS and provide a molecular model for heme scavenging and transfer by the protein. We show that Shr modulates heme uptake depending on heme availability by a mechanism where NEAT1 facilitates fast heme scavenging and delivery to Shp, whereas NEAT2 serves as a temporary storage for heme on the bacterial surface. Finally, we identified and characterized for the first time, a heme oxygenase (HO) in the Streptococcus genus which was named HupZ. Sequence comparison between HupZ and several HOs from different structural families indicates that this enzyme is unrelated to any of the previously characterized HOs. However, orthologs of the protein are found in other important pathogens. The structure and the catalytic mechanism of HupZ suggest that it is the representative of a new family of flavoenzymes capable of degrading heme using their reduced flavin cofactor as a source of electrons. Overall, this work contributes significant knowledge to the topic of heme utilization by pathogens and importantly, provides new direct evidence that associates flavins with heme metabolism in bacteria. Thus it sets a new direction in the field and lays the ground for future fundamental and applied discoveries. Heme acquisition Kinetics Protein-protein interaction Structure/Function Heme oxygenase Streptococcus pyogenes
96	Comparison of Nitrile Hydratases in Rhodococcus Rhodochrous DAP 96253 and DAP 96622 Growing on Inducing and Non-Inducing Media Du, Fengkun 26 April 2013 (has links) Nitrile hydratase activity in Rhodococcus rhodochrous DAP 96253 can be induced with multiple inducers that include urea, cobalt (Co), iron (Fe) and nickel (Ni). When induced with Co/urea, cells of R. rhodochrous DAP 96253 expressed the highest level of nitrile hydratase activity (~200 units/min·mg-cdw) when compared with the other inducers tested. Cells induced with Co had the second highest nitrile hydratase activity (~7 units/min·mg-cdw), whereas in the uninduced cells, nitrile hydratase activity was lower than 1 unit/min·mg-cdw. Similarly in R. rhodochrous DAP 96622, when induced with Co/urea, the nitrile hydratase activity of R. rhodochrous DAP 96622 cells was around 50 units/min·mg-cdw which was the highest of all inducers tested. When induced with Co only, the nitrile hydratase activity of R. rhodochrous DAP 96622 was around 20 units/min·mg-cdw, and the nitrile hydratase activity of R. rhodochrous DAP 96622 uninduced was the same as the nitrile hydratase activity of uninduced R. rhodochrous DAP 96253. When Co/urea induced R. rhodochrous DAP 96253 cell lysate was examined on gradient SDS-PAGE and analyzed by Image Quant TL, the nitrile hydratase bands (both α and β subunits) accounted for more than 55% of the total cytosolic proteins. Whereas in Co/urea induced R. rhodochrous DAP 96622, the nitrile hydratase bands accounted for around 25% of the total cytosolic proteins. According to matrix-assisted laser desorption ionization time-of-flight mass spectrometry results, amidase in R. rhodochrous DAP 96253 was approximately 38 kDa from the nitrilase/cyanide hydratase family and amidase in R. rhodochrous DAP 96622 was 55 kDa from the amidase signature family. In addition, the nitrile hydratase regulation system in both R. rhodochrous DAP 96253 and DAP 96622 strains are different. Moreover, the nitrile hydratase regulation system in R. rhodochrous DAP 96253 is different from R. rhodochrous J1. Purified nitrile hydratase from R. rhodochrous DAP 96253 may form a protein complex with glutamine synthetase, resulting in a nitrile hydratase activity of approximately 1500 units/mg-proteins, and nitrile hydratase from R. rhodochrous DAP 96622 is not a protein complex and results in a nitrile hydratase activity of 950 units/mg-proteins. Rhodococcus Nitrile hydratase Nitrilase Amidase Glutamine Synthetase
97	Analysis of Simian Hemorragic Fever Virus Proteins and the Host Cell Responses of Disease Resistant and Susceptible Primates Vatter, Heather 15 April 2013 (has links) African monkey species are natural hosts of simian hemorrhagic fever virus (SHFV) and develop persistent, asymptomatic infections. SHFV was previously shown to also cause a rapid onset fatal hemorrhagic fever disease in macaques. Infection of macaques with a new isolate of SHFV from persistently infected baboon sera, that showed high nucleotide identity with the lab strain LVR, resulted in viremia, pro-inflammatory cytokine and tissue factor production, and symptoms of coagulation defects. Primary macrophages and myeloid dendritic cell cultures from disease-susceptible macaques efficiently replicated SHFV and produced pro-inflammatory cytokines, including IL-6 and TNF-α, as well as tissue factor. Cells from disease resistant baboons produced low virus yields and the immunomodulatory cytokine IL-10. IL-10 treatment of macaque cells decreased IL-6 levels but had no effect on TNF-α levels, tissue factor or virus production suggesting that IL-10 plays a role in modulating immunopathology in disease-resistant baboons but not in regulating the efficiency of virus replication. SHFV is a member of the family Arteriviridae. The SHFV genome encodes 8 minor structural proteins. Other arteriviruses encode 4 minor structural proteins. Amino acid sequence comparisons suggest that the four additional SHFV minor structural proteins resulted from gene duplication. A full-length infectious clone of SHFV was constructed and produced virus with replication kinetics comparable to the parental virus. Mutant infectious clones, each with the start codon of one of the minor structural proteins substituted, were analyzed. All eight SHFV proteins were required for infectious virus production. The SHFV nonstructural polyprotein is processed into the mature replicase proteins by several viral proteases including papain-like cysteine proteases (PLPs). Only one or two PLP domains are present in other arteriviruses but SHFV has three PLP domains. Analysis of in vitro proteolytic processing of C- and N-terminally tagged polyproteins indicated that the PLP in each of the three SHFV nsp1 proteins is active. However, the nsp1α protease is more similar to a cysteine protease than a PLP. Analysis of the subcellular localization of the three SHFV nsp1 proteins indicated they have divergent functions. Simian hemorrhagic fever virus (SHFV) Arterivirus replication Pro-inflammatory cytokines Interleukin-10 (IL-10) Infectious clone Minor structural proteins
98	Perception of Color Vision In the Asian Small-Clawed Otter (Aonyx cinerea) Svoke, Joseph T 07 May 2011 (has links) Color vision can affect our assumptions of an animals’ natural history. It can be determined by testing sensory or perception ability, which was employed here. Two Asian small-clawed otters (Aonyx cinerea), of opposite sexes, housed at ZooAtlanta, were trained via operant conditioning to discriminate stimuli within 7 tasks, primarily in a two-choice fashion. Varying shades of the colors blue, green and red were tested against varying greys, all which differed in intensity, served as the stimuli for the first 4 tasks. The remaining 3 tasks, the colors were tested against each other. The male reached criterion for the first 6 tasks, indicating an ability to discriminate the stimuli based on color. The female however participated only in 2, and could not achieve criterion as set, though there were indications of discrimination ability. Taken together with sensory work on two related otter species, Asian small-clawed otters possess color vision. Asian small-clawed otter Color vision Operant conditioning Dichromacy Color discrimination
99	Neural Crosstalk Between Sympathetic Nervous System and Sensory Circuits to Brown Adipose Tissue Liu, Yang 08 April 2013 (has links) Brown adipose tissue (BAT) is a critical organ for non-shivering thermogenesis, which is under control of both sympathetic and sensory neural innervation. We utilized both a retrograde sympathetic nerve tract tracer pseudorabies virus and an anterograde sensory tract tracer the H129 strain of herpes simplex virus-1 to locate individual neurons across the neuroaxis that are part of the SNS outflow from brain to interscapular BAT and are part of the sensory input to the brain. We found specific neuronal phenotype of the double-infected neurons distributed from the hindbrain to the forebrain with highest densities in several discrete brain regions: the paraventricular hypothalamus (PVH), lateral hypothalamus (LHA), parabrachial nucleus (PB) and raphe pallidus (RPa). The neuroanatomical reality of the SNS-sensory feedback loops suggests coordinated control of BAT thermogenesis at several sites and indicates plasticity of SNS-sensory crosstalk. Sympathetic nervous system Sensory circuits Brown adipose tissue Viral tract tracing
100	In Silico Analysis Shows That Single Aminoacid Variations In Rhesus Macacque Fcγreceptor Affect Protein Stability And Binding Affinity To IgG1 Sanghvi, Rashesh 24 April 2013 (has links) Rhesus macaques are a widely used animal model of human diseases and related immune responses. Fc receptors (FcRs) mediate the interaction between antibody molecules and innate killing mechanisms, consequently eliminating the pathogen. In rhesus macaques, FcRs are highly polymorphic. To evaluate the potential influence of FcgR polymorphisms on the interaction with antibody molecules, we performed in silico analysis using SIFT, Provean, nsSNPAnalyzer, I-Mutant, MuSTAB and iPTREE-STAB web servers. V20G in FcγRI, I137K in FcγRII and I233V in FcγRIII were further analyzed structurally using FOLD-X, AMMP and Chimera to calculate changes in folding and interaction energy and for structure visualization. Results from our analysis suggest that the selected variations destabilize protein structure. Additionally, Q32R increases the binding affinity of FcγRI, whereas A131T decreases the binding affinity of FcγRII towards IgG1. Together, our results indicate that these substitutions might influence effector and regulatory mechanisms resulting from antibody/FcR interactions. FcγR Rhesus Macaque Single nucleotide polymorphism in silico analysis AIDS

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