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An integrin required for the encapsulation immune response in the tobacco hornworm, Manduca sexta L. (Lepidoptera: Sphingidae).Levin, David Michael January 1900 (has links)
Doctor of Philosophy / Department of Entomology / Michael R. Kanost / James R. Nechols / Cellular encapsulation is the immune response in which insects protect themselves from multicellular parasites such as nematodes or parasitoids. During an encapsulation episode, certain insect hemocytes become attracted to a foreign invader and aggregate on its surface. In short order, the invading entity will become entrapped within a capsule comprised of thousands of hemocytes, thus rendering the parasite harmless to the insect host. Although the process of cellular encapsulation has been known for a great many years, very little knowledge yet exists regarding the biochemistry underlying capsule formation. It would seem likely that cell surface adhesion proteins mediate this immune response.
In a series of in vivo encapsulation assays in the tobacco hornworm, Manduca sexta, a collection of anti-hemocyte monoclonal antibodies (mAbs) was screened for their ability to inhibit cellular encapsulation. Two of the mAbs that inhibited this immune response and incidentally specifically bind plasmatocytes, MS13 and MS34, were used to isolate a ≈ 90 kDa protein. Several short peptide sequences contained within this protein were acquired via Edman degradation. Degenerate primers based on two of these peptide sequences and total RNA from M. sexta hemocytes were used to perform RT-PCR and 5´ and 3´ RACE. This resulted in a full-length cDNA sequence of 2426 bp. A 2301 bp open reading frame within this cDNA sequence codes for a protein of 767 residues. This protein, denominated [Beta]Ms1, exhibits significant sequence homology to the [Beta]-subunits of integrins, which are a family of transmembrane, heterodimeric glycoproteins that possess adhesive properties. Analysis of recombinant segments of [Beta]Ms1 showed that the protein produced from the PCR product is the antigen to MS13 and MS34 and that these mAbs bind to the region of the integrin that contains the extracellular binding site. Northern blot analysis of various M. sexta tissues together with immunofluorescence labeling with MS13 and MS34 shows that [Beta]Ms1 is solely expressed in plasmatocytes. The totality of these experiments demonstrates that integrins are essential for the cellular immune response of encapsulation.
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The function and regulation of myosin-interacting guanine nucleotide exchange factor (MYOGEF) and centrosome/spindle pole associated protein (CSPP) during mitotic progression and cytokinesisAsiedu, Michael Kwabena January 1900 (has links)
Doctor of Philosophy / Biochemistry Interdepartmental Program / Qize Wei / This dissertation describes the role of myosin-interacting guanine nucleotide exchange factor (MyoGEF) and centrosome/spindle pole associated protein (CSPP) in mitotic progression and cytokinesis. We have identified three mouse isoforms of CSPP, all of which interact and colocalize with MyoGEF to the central spindle in anaphase cells. The N-terminus of MyoGEF interacts with myosin whereas the C terminus interacts with the N-terminus of CSPP, forming a complex. The N-terminus of CSPP appears to be important for both localization and interaction with MyoGEF. CSPP plays a role in mitotic progression since its depletion by RNAi resulted in metaphase arrest. MyoGEF is required for completion of cytokinesis. Both MyoGEF and CSPP are phosphorylated by mitotic kinases including Plk1 and Aurora. Importantly, MyoGEF is phosphorylated at Thr-574 in mitosis by Polo-like kinase 1, and this phosphorylation is required for activation of RhoA. Thr-543 of MyoGEF is required for Plk1 binding in mitosis and phosphorylation of MyoGEF by Cdk1/cyclinB, possibly at Thr-543 may generate a Plk1 docking site, i.e., Cdk1 can phosphorylate MyoGEF at Thr-543, thereby allowing Plk1 to bind and phosphorylate MyoGEF at Thr-574. Finally, MyoGEF and CSPP are also phosphorylated by Aurora-B kinase in vitro. Taken together, we propose that Aurora-B may phosphorylate and recruit MyoGEF and CSPP to the central spindle, where phosphorylation of MyoGEF at Thr-543 promotes Polo kinase binding and additional phosphorylation of MyoGEF, leading to the activation of RhoA at the cleavage furrow.
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Immune-related protein complexes and serpin-1 isoforms in Manduca sexta plasmaRagan, Emily J. January 1900 (has links)
Doctor of Philosophy / Department of Biochemistry / Michael R. Kanost / Manduca sexta is a large insect species well-suited for biochemical analysis of proteins in the hemolymph (blood) that respond to infection. Insects lack adaptive immunity and rely entirely on innate immunity to prevent and manage infection. Immune response proteins include proteins that bind pathogens and activate serine proteases, which function in proteolytic cascades that trigger effector responses, such as antimicrobial peptide production and prophenoloxidase activation. Phenoloxidase catalyzes melanin synthesis, which leads to microbial killing.
I used MALDI-TOF/TOF mass spectrometry and immunoblotting to identify M. sexta proteins present in putative immune complexes. From analyses of high molecular weight gel filtration fractions of plasma activated by microbial polysaccharides, I detected hemocytin, prophenoloxidase, and cleaved serine protease homologs, suggesting prophenoloxidase and serine protease homologs form large complexes in plasma. I used in vitro bacterial binding assays to identify hemolymph proteins that bind either directly or indirectly to the surface of bacteria or curdlan. Prophenoloxidase, annexin IX, and hemocyte aggregation inhibitor protein were found bound to all the samples tested, indicating they play a role in the early stage of immune response.
Serpins regulate specific active proteases by covalently binding and forming serpin-protease complexes. Serpin-1, an abundant plasma protein, has an alternatively spliced ninth exon encoding 12 serpin-1 isoforms that differ in inhibitory selectivity. RT-PCR showed that all 12 isoforms are expressed in hemocytes, fat body, and midgut. Comparisons of naïve and immune-challenged hemocytes and fat body indicated the immune-related upregulation of serpin-1A but not the other isoforms. Using immunoaffinity chromatography I isolated two serpin-1-protease complexes from plasma after activation with bacterial lipopolysaccharide. MALDI-TOF/TOF analysis of these serpin-1-protease complexes identified the digestive enzyme chymotrypsin as a specific target of serpin-1K. Nine out of the twelve serpin-1 isoforms were identified from control plasma at the protein level using 2D-PAGE. Serpin-1 protease complexes were identified by 2D-PAGE analysis: serpin-1A, E and J were found to be complexed with hemolymph proteinase-8 and an unidentified isoform of serpin-1 was complexed with hemolymph proteinase-1. Discovering the serpin-1 isoforms that inhibit specific proteases enhances our understanding of the regulation of proteolytic cascades in M. sexta.
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Coiled-coil domain-containing protein 69 (CCDC69) acts as a scaffold and a microtubule-destabilizing factor to regulate central spindle assemblyPal, Debjani January 1900 (has links)
Master of Science / Department of Biochemistry / Qize Wei / Proper regulation of mitosis and cytokinesis is fundamentally important for all living
organisms. During anaphase, antiparallel microtubules are bundled between the separating chromosomes, forming the central spindle (also called the spindle midzone), and the myosin contractile ring is assembled at the equatorial cortex. Regulators of central spindle formation and myosin contractile ring assembly are mostly restricted to the interdigitated microtubules of central spindles and they can be collectively called midzone components. It is thought that characteristic microtubule configurations during mitosis and cytokinesis are dictated by the coordinated action of microtubule-stabilizing and -destabilizing factors. Although extensive investigations have focused on understanding the roles of microtubule-bundling/stabilizing factors in controlling central spindle formation, efforts have been lacking in aiming to understand how microtubule-destabilizing factors regulate the assembly of central spindles. This dissertation describes the role of a novel microtubule-destabilizing factor termed CCDC69 (coiled-coil domain-containing protein 69) in controlling the assembly of central spindles and the recruitment of midzone components. Endogenous CCDC69 was localized to the
nucleus during interphase and to the central spindle during anaphase. Exogenous expression of CCDC69 in HeLa cells destabilized microtubules and disrupted the formation of bipolar mitotic spindles. RNA interference (RNAi)-mediated knockdown of CCDC69 led to the formation of aberrant central spindles and interfered with the localization of midzone components such as
aurora B kinase, protein regulator of cytokinesis 1 (PRC1), MgcRacGAP/HsCYK-4, and pololike kinase 1 (Plk1) at the central spindle. CCDC69 knockdown also decreased equatorial RhoA staining, indicating that CCDC69 deficiency can impair equatorial RhoA activation and ultimately lead to cytokinesis defects. Four coiled-coil domains were found in CCDC69 and the
C terminal coiled-coil domain was required for interaction with aurora B. Disruption of aurora B function in HeLa cells by treatment with a small chemical inhibitor led to the mislocalization of CCDC69 at the central spindle. Further, vitro kinase assay showed that Plk1 could phosphorylate CCDC69. Taken together, we propose that CCDC69 acts as a scaffold and a microtubule-destabilizing
factor to control the recruitment of midzone components and the assembly of central spindles.
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Characterization of chitin synthase and chitinase gene families from the African malaria mosquitoZhang, Xin January 1900 (has links)
Doctor of Philosophy / Department of Entomology / Kun Yan Zhu / Chitin metabolism represents an attractive target site for combating insect pests as insect growth and development are strictly dependent on precisely toned chitin synthesis and degradation and this process is absent in humans and other vertebrates. However, current understanding on this process and the involved enzymes is rather limited in insects. In this study, two chitin synthase genes (AgCHS1 and AgCHS2 or AgCHSA and AgCHSB), and 20 chitinase and chitinase-like genes (groups I-VIII) presumably encoding the enzymes for chitin biosynthesis and degradation, respectively, were identified and characterized in African malaria mosquito, Anopheles gambiae. Immunohistochemistry analysis and developmental stage- and tissue-dependent transcript profiling by using reverse transcription PCR, real-time quantitative PCR, and in situ hybridization revealed new information on these genes. Current understanding on chitin synthases is extended by the expression profiles such as the localization of AgCHS1 and AgCHS2 transcripts in eggs, AgCHS2 transcripts in the posterior larval midgut, AgCHS1 and AgCHS2 proteins in the compound eyes, and AgCHS2 enzyme in pupal inter-segments. Chitinase and chitinase-like genes are highly diverse in their gene structure, domain organization, and stage- and tissue-specific expression patterns. Most of these genes were expressed in several stages. However, some genes are stage- and tissue-specific such as AgCht8 mainly in pupal and adult stages, AgCht2 and AgCht12 specifically in foregut, AgCht13 exclusively in midgut.
Functional analysis of each chitin synthase gene was conducted by using the chitosan/dsRNA nanoparticle-based RNA interference (RNAi) through larval feeding. The repression of the AgCHS1 transcripts which are predominantly expressed in carcass initiated
from the mosquito larval feeding of dsRNA suggests the systemic nature of RNAi in mosquito larvae. In addition, silencing of AgCHS1 increased larval susceptibilities to diflubenzuron, whereas silencing of AgCHS2 enhanced the peritrophic matrix disruption and thus increased larval susceptibilities to calcofluor white or dithiothreitol. Furthermore, a non-radioactive method was adapted and optimized to examine the chitin synthase activity in mosquitoes. By using this method, diflubenzuron and nikkomycin Z show limited in vitro inhibition on chitin synthase at high concentration in cell free system, whereas no in vivo inhibition was observed.
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Multiple isoforms of ADAM12 in breast cancer: differential regulation of expression and unique roles in cancer progressionDuhachek Muggy, Sara January 1900 (has links)
Doctor of Philosophy / Department of Biochemistry and Molecular Biophysics / Anna Zolkiewska / The ADAM (A Disintegrin and Metalloprotease) family of multi-domain proteins modulates a number of cellular signaling pathways in both normal and cancerous cells. ADAM12 has been shown to be a candidate cancer gene for breast cancer and its expression is up-regulated in breast tumors. The human ADAM12 transcript is alternatively spliced. One of these splice variants encodes a transmembrane ADAM12 isoform, ADAM12-L, which has been demonstrated to release cell signaling molecules from the cell surface. Another variant encodes a secreted protease, ADAM12-S, which cleaves extracellular matrix proteins and other secreted proteins. Although these variants are expressed from the same promoter, their relative expression levels are highly discordant. Here, I demonstrate variant-specific regulation of ADAM12 transcripts by microRNAs. Members of the microRNA-29 and microRNA-200 families target the unique 3’UTR of the ADAM12-L transcript and cause transcript degradation. Additionally, I show the presence of a novel ADAM12 splicing event in which 9 additional nucleotides are inserted in the region encoding the autoinhibitory pro-domain. I demonstrate that this novel variant is expressed in breast epithelial cells and breast cancer cell lines. The resulting protein isoform does not undergo proteolytic processing to activate the protease. Additionally, trafficking of the novel isoform to the cell surface is impaired and this isoform is localized to the endoplasmic reticulum. Finally, I determined a role for ADAM12-L in the progression of triple negative breast cancers (TNBCs). These tumors are lacking expression of hormone receptors and the HER2 receptor. HER2 is a member of the epidermal growth factor receptor (EGFR) family and the loss of the HER2 receptor causes tumors to rely on EGFR for propagating pro-growth signals. I show here that, in TNBC tumors, ADAM12-L expression is strongly correlated with poor patient prognosis and increased activation of EGFR. These data suggest that in TNBCs, ADAM12-L enhances tumor growth via EGFR activation. Collectively, the data presented here demonstrate (a) transcript-specific regulation of ADAM12 in breast cancer, (b) the existence of a novel splice variant and protein isoform with impaired cellular trafficking, and (c) an important role of the ADAM12-L isoform in EGFR activation in TNBC.
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Select cardiac copper chaperone proteins are up-regulated by dietary copper deficiencyGetz, Jean January 1900 (has links)
Master of Science / Department of Human Nutrition / Denis M. Medeiros / Copper deficiency has been linked with many health problems, among them cardiac hypertrophy. Because of its potential for causing oxidative damage, copper within the cell must be bound to chaperone proteins. In this thesis, we examined the role of dietary copper deficiency in the regulation of select copper chaperone proteins in cardiac tissue of rats. Sixteen weanling male Long-Evans rats were randomized into treatment groups, one group receiving a copper deficient diet (< 1 mg Cu/kg diet) and one group receiving a diet containing adequate copper (6 mg Cu/kg diet) for 5 weeks. Rats were sacrificed and a small blood sample was removed to determine hematocrit. Also, heart and liver tissues were removed for subsequent analysis. Rats fed the copper deficient diet had lower body weights but greater heart weights and heart:body weight. Hematocrit levels and liver copper concentrations were markedly decreased in copper deficient rats. These variables indicated that the copper deficient diet did in fact induce a copper deficiency in these animals. Non-myofibrillar proteins from the hearts were removed and separated by SDS-PAGE. Western Blotting was used to determine the concentrations of CTR1, CCS, Cox17, SCO1, Cox1 and Cox4. No changes were observed in the concentrations of CTR1 and Cox17. CCS and SCO1 were up-regulated as a result of copper deficiency, while Cox1 and Cox4 were both down-regulated. However, use of another antibody against Cox subunits suggested that only the nuclear encoded subunits including subunit IV were decreased, but not subunits I and II. These data provide new insight into the cardiac hypertrophy observed in copper deficiency, which suggests that select chaperone proteins may be up-regulated by a dietary copper deficiency.
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Understanding the mechanism of texturization, and the relationship between properties of wheat gluten and texturized vegetable proteinRoberts, Ryan January 1900 (has links)
Master of Science / Department of Grain Science and Industry / Sajid Alavi / Texturized vegetable protein (TVP) based foods offer several advantages compared to animal protein, including lower costs and improved health benefits. Wheat gluten is often processed using extrusion to produce TVP. Processing aids, such as reducing agents (example, cysteine and sodium metabisulfite) and pH modifiers (example, tetra potassium phosphate) aid in texturization. Reduction of sulfhydryl groups, cleavage of disulfide bonds, and reformation of bonds between elongated protein molecules results in protein aggregation and texturization. This study focused on development of a fundamental understanding of these mechanisms for texturization using analytical tools such as the phase transition analyzer (PTA), in combination with lab- and pilot-scale extrusion. The abovementioned three chemicals were added to four varieties of gluten. The control treatment had no additives. PTA was used to understand the operative flow properties of gluten in an environment similar to an extrusion system. Addition of sulfite (0.18%) and cysteine (0.18%) lowered the thermal softening (Ts:36.6-44.1 °C) and thermal flow (Tf:79.6-105.6 °C) temperatures of all varieties of gluten as compared to the controls (Ts:38.8-48.2 °C; Tf:91.7-112.2 °C). Phosphate (3%) did not have the same lowering effect on Ts (40.2-47.0 °C) and Tf (96.2-108.2 °C), indicating a different mechanism.
Extrusion studies were conducted to gain an understanding of the reformation of disulfide bonds and texturization. Two of the varieties of gluten, a “superior” one that texturizes well and an “inferior” gluten requiring texturizing aids, were processed on a lab-scale extruder. Pilot scale extrusion was used to process the other two glutens (“superior” varieties) to obtain commercial quality products, which were evaluated for degree of texturization (hydration rate, absorption index and integrity). During lab-scale extrusion, texturization was observed only in the case of phosphate and corresponded with an increase in specific mechanical energy (SME) as compared to the control, indicating disulfide bond reformation. Phosphate also led to significantly (p<0.05) better texturization during pilot-scale extrusion, although SME trends were different due to higher in-barrel moisture and a more ideal extrusion system. Fourier Transform Infrared Spectroscopy was used to examine protein structural changes and indicated a loss of α-helix structure in TVP with an increase in β-sheet formation.
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Synthesis, biophysical analysis and biological evaluation of tricyclic pyrones and pyridinones as anti-alzheimer agentsRana, Sandeep January 1900 (has links)
Doctor of Philosophy / Department of Chemistry / Duy H. Hua / The objectives of this research project were to (i) synthesize different bicyclic and tricyclic pyrone and pyridinone compounds; (ii) study the mechanism of action of these compounds in solution as anti-Aβ (amyloid β) agents using different biophysical techniques; and (iii) study the biological activity of pyrone compounds for the counteraction of Aβ toxicity using MC65 cells, a human neuroblastoma cell line and 5X- familial Alzheimer’s disease (5X FAD, a transgenic mice with five different mutations) mice.
A series of tricyclic pyrone and pyridinone compounds were investigated. The tricyclic pyrones and pyridinones were synthesized utilizing a condensation reaction between cyclohexenecarboxaldehye (25) and 4-hydroxy-6-methyl-2-pyone (24) or 4-hydroxy-6-methyl-2-pyridinone (51), respectively. A tricylic pyrone molecule CP2 (2, code name) was synthesized and has an adenine base unit attached to the pyrone core. For structure activity relationship (SAR) studies, the adenine group of CP2 was replaced with other DNA base units (thymine, cytosine and guanine) and various heterocyclic moieties. Since nitrogen containing compounds often exhibit increased bioactivity and brain-penetrating abilities, oxygen atom (O5’) was displaced with a nitrogen atom in the middle ring of the tricyclic pyrone. A condensation reaction of pyrone 51 and 25 was carried out to give the linear pyranoquinoline (52) and the L-shaped pyranoisoquinoline (53).
The neurotoxicity of amyloid-β protein (Aβ) is widely regarded as one of the fundamental causes of neurodegeneration in Alzheimer’s disease (AD). Recent studies suggest that soluble Aβ oligomers rather then protofibrils and fibrils may be the primary toxic species. Different biophysical techniques including atomic force microscopy (AFM), circular dichroism (CD), surface plasmon resonance (SPR) spectroscopy, and protein quantification assays were used to study the mechanism of aggregation of Alzheimer Aβ peptide in solution.
In search of potentially bioactive compounds for AD therapies, MC65 cell line was used as a screening model. Different tricyclic pyrone and pyridinone compounds protect MC65 cells from death. We studied the efficacy of CP2 in vivo by treatment of 5X FAD mice, a robust Aβ42-producing animal model of AD, with a 2-week course of CP2, which resulted in 40% and 50% decreases in non-fibrillar and fibrillar Aβ species respectively.
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