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Glucocorticoids induce amiloride-sensitive ion transport by pathways that are tissue-specificQuesnell, Rebecca R. January 1900 (has links)
Doctor of Philosophy / Department of Anatomy and Physiology / Bruce D. Schultz / The goal of this project was to define mechanisms responsible for Na+ transport in two hormonally-sensitive epithelium, the bovine mammary gland and porcine vas deferens. Glucocorticoid stimulation in these epithelia results in a significant increase in amiloride-sensitive ion transport, suggesting regulation of the epithelial Na+ channel, ENaC. ENaC has typically been described as a heteromultimeric ion channel with at least three different types of subunits, the most common being , β, and γ. Glucocorticoid-induced regulation of these subunits at the transcriptional level appears to be very different in the porcine vas deferens as compared to the bovine mammary gland.
The aims of the study in mammary epithelium were to elucidate the mechanisms by which apical electrolytes and cytokines compromise barrier function in mammary epithelium. The long term goal is to better understand and manage the interaction between ionic composition of milk and breakdown of the gland epithelium that occurs during mastitis. Our results suggest a causal link between changes in milk electrical conductivity and epithelial barrier breakdown that has not been appreciated previously. Results will provide benefits to dairy farmers by characterizing steps that might prevent the development of mastitis or hasten recovery.
The aims of the study using porcine vas deferens epithelial cells include determining the time course, concentration- and structure-dependency for regulation of amiloride-sensitive ion flux by corticosteroids. Corticosteroids caused a concentration-dependent increase in amiloride-sensitive Isc with a rank order of potency of dexamethasone>prednisolone>cortisol. Hill analysis indicates steep concentration dependency. The corticosteroid-induced, amiloride-sensitive current is Na+ absorption as indicated by radiotracer flux measurements. Studies employing selective antagonists (spironolactone, mifepristone) define glucocorticoid receptor mediation. These results suggest that vas deferens epithelia are exquisitely sensitive to corticosteroid exposure. Observed changes in epithelial function in response to corticosteroid exposure would rapidly and chronically affect the luminal environment to which sperm are exposed. Thus, physiological and pharmacological corticosteroid exposure is expected to affect male fertility.
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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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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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Expression and function of drug transporters in an in vitro model of the mammary epithelial barrier (BME-UV)Al-Bataineh, Mohammad M. January 1900 (has links)
Doctor of Philosophy / Department of Diagnostic Medicine/Pathobiology / Ronette Gehring / Milk composition has a dynamic nature, and the composition varies with stage of lactation, age, breed, nutrition and health status of the udder. The changes in milk composition seem to match the changes in the expression of membrane proteins in secretory mammary epithelial cells that are needed for the movement of molecules from blood to milk and vice versa (Nouws and Ziv, 1982). Thus, an understanding of transporter expression, function and regulation in mammary epithelial cells can provide insight into mammary gland function and regulation.
The goal of this project was to elucidate (molecularly and functionally) the role of drug transporters in the barrier function of an epithelial monolayer cultured from an immortalized bovine mammary epithelial cell line (BME-UV). To characterize the regulation (expression and function) of these drug transporters in BME-UV cells after exposure to cytokine TNF-α for selected periods of time. Representative members of drug transporters of the SLC (OCT and OAT) and ABC (P-glycoprotein) superfamilies were chosen for this project.
In the first study, the involvement of a carrier-mediated transport system in the passage of organic cation (TEA) and anion (EsS) compounds was elucidated across the BME-UV monolayer. In the second study, molecular and functional expression of bOAT isoforms in BME-UV cells were studied. The final study characterized the effects of cytokine TNF-α on the expression and function of P-glycoprotein, an efflux pump, in BME-UV cells. Cytokine TNF-α exposure induced the expression of ABCB1 mRNA and increased P-glycoprotein production in BME-UV cells, resulting in a greater efflux of digoxin, a known P-glycoprotein substrate, back into the apical fluid.
The expression, function, and regulation of these transporters in the mammary gland has important implications for understanding the barrier function of the mammary epithelium and, in more specific, for characterizing the role of these transporters in the accumulation and/or removal of specific substrates from milk and/or plasma. Moreover, this study provides an in vitro cell culture model of mammary epithelium to characterize mammary epithelial cell function during inflammation.
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Human Wharton’s jelly cells-isolation and characterization in different growth conditionsSeshareddy, Kiran Babu January 1900 (has links)
Master of Science / Department of Anatomy and Physiology / Mark L. Weiss / Wharton's jelly is a non-controversial source of mesenchymal stromal cells. Isolation of the cells is non-invasive and painless. The cells have been shown to have a wide array of therapeutic applications. They have improved symptoms when transplanted in a variety of animal disease models, can be used in tissue engineering applications to grow living tissue ex vivo for transplantation, and can be used as drug delivery vehicles in cancer therapy. The cells have also been shown to be non-immunogenic and immune suppressive. This thesis focuses on optimizing isolation protocols, culture protocols, cryopreservation, and characterization of cells in different growth conditions.
Results from the experiments indicate that isolation of cells by enzyme digestion yields cells consistently, a freezing mixture containing 90% FBS and 10% DMSO confers maximum viability, and the expression of mesenchymal stromal cell consensus markers does not change with passage and cryopreservation. The results of the experiments also show that cells grow at a higher rate in 5% oxygen culture conditions compared to 21% oxygen culture conditions, serum does not have an effect on growth of the cells, serum and oxygen do not have effects on the expression of mesenchymal stromal cell consensus markers and the cells are stable without nuclear abnormalities when grown in 5% oxygen and serum free conditions for six passages after first establishing in serum conditions.
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Rat umbilical cord derived stromal cells maintain markers of pluripotency: Oct4, Nanog, Sox2, and alkaline phosphatase in mouse embryonic stem cells in the absence of LIF and 2‐MCEHong, James S. January 1900 (has links)
Master of Science / Department of Anatomy and Physiology / Mark L. Weiss / When mouse embryonic stem cells (ESCs) were grown on mitotically inactivated rat umbilical cord-derived stromal cells (RUCs) in the absence of leukemia inhibitory factor (LIF) and 2-mercaptoethanol (2-MCE), the ESCs showed alkaline phosphatase (AP) staining. ESCs cultured on RUCs maintain expression of the following pluripotency genes, Nanog, Sox2 and Oct4 and grow at a slower rate when compared with ESCs grown on mitotically inactivated mouse embryonic fibroblasts (MEFs). Differences in gene expression for the markers of pluripotency Oct4, Sox2 and Nanog, AP staining and ESC growth rate were also observed after LIF and 2-MCE were removed from the co-cultures. Reverse transcriptase polymerase chain reaction (RT-PCR) suggested differences in Sox2 and Nanog mRNA expression, with both genes being expressed at higher levels in the ESCs cultured on RUCs in the absence of LIF/2-MCE as compared to ESCs cultured on MEFs. Semi-quantitative RT-PCR indicated that Nanog expression was higher when ESCs were grown on RUCs in the absence of LIF and 2-MCE as compared to MEFs in the same treatment conditions. Bisulfite-mediated methylation analysis of the Nanog proximal promoter suggested that the maintenance of Nanog gene expression found in ESCs grown on RUCs after culture for 96 hours in the absence of LIF/2-MCE may be due to prevention of methylation of the CpG dinucleotides in the Nanog proximal promoter as compared to ESCs grown on MEFs. Thus, RUCs may release factors into the medium that maintain the pluripotent state of mouse ESCs in the absence of LIF and 2-MCE.
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A novel non-canonical WNT pathway regulates the asymmetric b cell division in Caenorhabditis elegansWu, Mingfu January 1900 (has links)
Doctor of Philosophy / Department of Biology / Michael A. Herman / The polarities of several cells that divide asymmetrically during C. elegans development are controlled by Wnt signaling. LIN-44/Wnt and LIN-17/Fz control the polarities of cells in the tail of developing C. elegans larvae, including the male-specific blast cell, B, which divides asymmetrically to generate a larger anterior daughter and a smaller posterior daughter. We determined that the canonical Wnt pathway components are not involved in the control of B cell polarity. However, POP-1/Tcf is involved and asymmetrically distributed to B daughter nuclei. Aspects of the B cell division are reminiscent of the divisions controlled by the planar cell polarity (PCP) pathway that has been described in both Drosophila and vertebrate systems. We identified C. elegans homologs of Wnt/PCP components and have determined that many of them appear to be involved in the regulation of B cell polarity and POP-1 asymmetric distribution to B daughter nuclei. Thus a non-canonical Wnt pathway, which is different from other Wnt pathways in C. elegans, but similar to the PCP pathways, appears to regulate B cell polarity.
Molecular mechanisms of this PCP pathway were also investigated. We determined that LIN-17/Fz is asymmetrically distributed to the B cell cortex prior to, during, and after, division. Furthermore, the asymmetric localization of LIN-17::GFP is controlled by LIN-44/Wnt and MIG-5/Dsh. The cysteine rich domain (CRD), seven trans-membrane domain and KTXXXW motif of LIN-17 are required for LIN-17 to rescue lin-17, while only seven trans-membrane domains and KTXXXW motif are required for LIN-17 asymmetric localization. MIG-5::GFP asymmetrically localized to the B cell prior to and after division in a LIN-17/Fz dependent manner. We examined the functions of these MIG-5 domains. The DEP domain is required for MIG-5 membrane association, while the PDZ domain is responsible for different levels of MIG-5 in the B daughters. The DEP and PDZ domain are required to rescue B cell polarity defect of mig-5 males, while the DIX domain is not that important. In summary, a novel PCP-like pathway, in which LIN-17 and MIG-5 are asymmetrically localized, is conserved in C. elegans and involved in the regulation of B cell polarity.
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