• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 3
  • 1
  • Tagged with
  • 4
  • 4
  • 2
  • 2
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

THE EFFECTS OF CITRAL ON CASPASE-3 ACTIVATION IN M624 AND HaCaT CELLS

Szkoda, Blake E. January 2016 (has links)
No description available.
2

Low dose UV-B induced keratinocyte exosomes protect Schwann cells against high glucose injury

Pothana, Kartheek January 2020 (has links)
No description available.
3

Cytotoxicity of in vitro exposure of polystyrene latex bead nanoparticles to human keratinocyte (HaCaT) cells and human cervical cancer (HeLa)cells

Phillip, Roy, Zahid, Myra, Shang, Lijun January 2016 (has links)
Yes / Nanoparticles are increasingly used in industry and medicine due to their unique physiochemical properties such as their small size, charge, shape, chemical architecture, large surface area, surface reactivity and media interactions, etc [1-5]. However, very little is still known on the interactions between nanoparticles and the biological system. This study aims to evaluate the cytotoxicity of polystyrene latex bead nanoparticles on HaCat and HeLa cell lines. Carboxyl-modified 20 nm polystyrene NPs core labelled with fluorophore were from Invitogen. We chose to use polystyrene NPs because this specific type of NP is being increasingly characterized for use in nanosensors and drug nanocarrier investigations. 1x 104 cells/100 μl of cell culture medium were plated into 96-well plates in triplicate, measuring activity post 24 hours at concentrations of 10, 50, 100 μg/ml of polystyrene NPs exposure. The extracellular lactate dehydrogenase release was measured by using a colorimetric CytoTox 96 nonradioactive assay kit from Promega and the absorbance were recorded at 450nm (FLUO-star) with Elisa micro plate reader. The MTT assay was used to evaluate mitochondrial activity. This was performed by inserting a premixed optimized dye solution in the culture wells. The Absorbance was recorded at 570 nm, from the recorded absorbance is directly proportional to the number of live cells. The cell lines were kept in a plastic T-75cm2 tissue culture flasks grown in DMEM. We found that cytotoxicity of polystyrene NPs on both cells was concentration dependent. For Hela cells, with exporesure of polystyrene NPs at concentrations of 10, 50, 100 μg/ml for 24 hrs, the percentage cytotoxicity of positive control for LDH assay was 35.9%, 49.5% and 73.4% respectively. With the MTT cell viability assay the percentage MTT reduction of negative control was 88.9%, 42.9% and 26.4% respectively. Cell toxicity increased with increasing polystyrene NPs concentration. For HaCaT cells, the cytotoxic effect is less significant than those on Hela cells. With MTT assay, when compared to HaCaT cells exposed to a negative control containing only PBS, the cell viability decreased as the concentrations of NPs increased. Cells exposed to 100μg/ml of polystyrene NPs for a period of 24 hours compared to those exposed to a positive control (100% cell viability) had an average cell viability of 49%, with those numbers decreasing from 59% for cells exposed to 10μg/ml of polystyrene NPs to 57% for cells exposed to 50μg/ml of polystyrene NPs. Our results indicated that polystyrene NPs acted differently in two different cell types and that cautions should be taken about its cytotoxicity. Further understanding of the mechanism involving the ROS generation could provide more information on how polystyrene NPs increase cytotoxicity.
4

Molecular Actions Of Arecoline, An Alkaloid Implicated In The Manifestation Of Oral Submucous Fibrosis (OSMF)

Singh, Thangam Gajan 04 1900 (has links)
The pathogenesis of oral submucous fibrosis (OSMF) is due to a complex interplay between the production and degradation of extracellular matrix (ECM) protein components. In tissue fibrosis, there is a net accumulation of collagen as a result of an imbalance between enhanced production, deposition and impaired degradation of ECM components. OSMF is a chronic inflammatory condition of the oral cavity and regulation of a number of pro-inflammatory and fibrogenic cytokines such as interleukine-1, -6 and -8 isoforms, TGF-β, PDGF, bFGF, IFN-γ and TNF-α has been reported in OSMF tissues. The expression of these growth factors has a bearing on the epithelial changes as well as proliferation and differentiation of oral fibroblasts into ECM protein producing myofibroblast cells. One key modulator of fibrosis in several organs has been TGF-β. Overproduction of TGF-β mRNA and protein has been reported in several fibrotic disorders including that of skin, lungs, liver, kidney and heart. This is mainly due to stimulation of ECM genes by TGF-β. Although there have been few reports suggesting the over production of TGF-β in OSMF tissues, the specific isoforms involved or the mechanisms are poorly understood. Areca nut components, especially arecoline have been implicated in the pathophysiology of OSMF. Few reports indicate the involvement of arecoline in the regulation of collagen production and activity of collagenases and their inhibitors in oral fibroblast cells. Moreover, the alkaloid is involved in initiating epithelial inflammation by inducing COX-2, prostaglandin E2, IL-1α, IL-6 and IL-8 in KB oral carcinoma cells and oral fibroblast cells. These and other reports strongly suggest that changes in gene expression mediated by Arecoline may be central to the progression of OSMF. Not much is known about arecoline-mediated cellular signaling events except for few recent reports that suggest the activation of MAPK pathways. In neuronal and colonic smooth muscle cells of mouse, rat and rabbit, the actions of Arecoline have been reported to be through the activation of muscarinic acetylcholine receptors. Direct binding of arecoline to human M1, 2 and 3 muscarinic receptor isoforms have been shown in brain tissues. Stimulation of these receptors alters the intracellular levels of Ca+2 and cAMP, which are important second messengers. The cholinergic potential of arecoline may be important for their roles in arecoline-mediated signaling events. The expression of muscarinic acetylcholine receptors has been reported in several cell types besides neuronal and excitatory cells. Although several gene expression changes have been reported following Arecoline treatment of a variety of cells, the mechanism of such regulations is not established. Hence in order to understand the role of arecoline in OSMF disease process, we undertook studies that provide insights into arecoline action in epithelial and fibroblast cells and possible molecular mechanisms. The objectives are to study: 1. The role of arecoline in cellular proliferation, cell-cycle regulation and apoptosis in human normal keratinocytes. 2. Mechanism of regulation of gene expression by arecoline in normal keratinocytes. 3. Mechanism of regulation of gene expression by arecoline in human normal oral fibroblasts. In order to achieve the above objectives, a human keratinocyte cell line, HaCaT and an oral periodontal fibroblast cell line (PDC) were utilized. The cells were treated with arecoline and a variety of assays including RT-PCR analysis of mRNA of several genes, phosphorylation status of MAPK pathway intermediates, cell cycle analysis and other cellular and molecular methods have been employed. Following arecoline treatment, there is induction of oxidative stress, growth arrest and epithelial cell death. Since actions of TGF-β are central to most fibrotic disorders and arecoline has been implicated in OSMF, it is hypothesized that arecoline may influence fibrosis via TGF-β pathway. Towards this, several TGF-β target genes that may have a possible role in fibrosis have been studied in arecoline treated epithelial and fibroblast cells. Since arecoline mediated oxidative stress has been reported, the regulation of genes that are involved in stress response pathway have been studied for induction by arecoline in epithelial cells. The results presented in this thesis suggest the up regulation of oxidative stress-responsive genes in HaCaT cells including HOX-1, FTL, G6PD, GCLC and GRD in HaCaT cells. Oxidative stress is a major inducer of inflammatory response in the epithelial tissues. The expression of IL-1α, an important inflammatory cytokine is induced by arecoline in HaCaT cells in response to oxidative stress via the activation of p38 MAPK pathway. Interestingly, activation of MAPK pathways by arecoline is involved in the regulation of common target genes of arecoline and TGF-β and also in the induction of TGF-β−responsive promoter reporter construct, p3TP-lux activity in HaCaT cells. Due to the involvement of TGF-β in fibrosis, regulation of TGF-β pathway genes by arecoline has been studied both in HaCaT and PDC cells. In HaCaT cells, arecoline induces the expression of TGF-β2 mRNA while TβRII expression is down regulated. The expression of the rest of TGF-β/SMAD pathway genes including TGF-β1, β3, TβRI, SMAD1, 2, 3, 4 and 7 are not affected by arecoline in HaCaT cells. Over expression of TGF-β2 is also observed in most of the OSMF tissues compared to normal oral tissues. However, in normal oral fibroblast cells, we observed that the TGF-β/SMAD pathway genes are not regulated by arecoline. These results suggest the possible involvement of arecoline-mediated induction of TGF-β2 in epithelial cells in OSMF disease development. We investigated the signaling pathways involved in the regulation of TGF-β2 and found that stimulation of M3 muscarinic receptor by arecoline leads to the induction of TGF-β2 expression in HaCaT cells via PKC pathway. TGM-2 is an important TGF-β target gene involved in the cross linking of ECM proteins. Arecoline-mediated induction of TGM2 mRNA and transglutaminase activity are observed in oral fibroblast cells, PDC. The induction of TGM-2 was found to be independent of oxidative stress and TGF-β, but dependent on muscarinic acid receptor activation by arecoline and involves cytosolic cAMP. When tested in OSMF tissues, there was an increased expression of TGF-β2, TSP1 and TGM2 as compared to normal tissues suggesting a possible role of these genes in arecoline-mediated progression of OSMF. Interleukin-8 (IL-8), which is involved in inflammation has been reported to be regulated by TGF-β in a cell type specific manner. In several cell types including human endometrial stromal cells, LnCaP (prostate cancer cells), human retinal pigment epithelial cells and rat lung alveolar epithelial (LM5) cells etc., TGF-β up regulates the expression of IL-8 mRNA. Arecoline was found to down regulate IL-8 expression in PDC cells as measured by RT-PCR. Interestingly, the presence of serum along with arecoline induces the expression of IL-8 in PDC cells suggesting the modulation of arecoline-mediated gene regulation by a serum activated signaling pathway. Intriguingly, arecoline treatment led to down regulation of collagens in PDC cells. However, collagen genes are induced in PDC cells in the presence of HaCaT spent medium by arecoline suggesting a role for factor(s) secreted by epithelial cells in the regulation of collagen genes by arecoline. This factor could be an isoform of TGF-β as shown by blocking the induction of collagens by the TGF-β inhibitor, βLAP. Taken together, all these results indicate the ability of arecoline to cause fibrosis in a tissue environment where both epithelial and fibroblasts respond to arecoline and mutually contribute to the disease manifestation. Major conclusions from this study includes, 1] cell death in epithelial cells due to oxidative stress following arecoline treatment, 2] regulation of gene expression by arecoline involves MAPK, PKC pathways, 3] muscarinic acid receptor and oxidative stress are also important for regulation gene expression by arecoline. The most important inference from this study is the possible paracrine influence of TGF-β isoforms secreted by epithelial cells on the oral fibroblasts in determining the progression of OSMF. In summary, in this thesis, an attempt has been made to study the molecular mechanisms and role of arecoline, an alkaloid in conferring gene expression changes that may lead to the initiation and progression of oral sub mucous fibrosis.

Page generated in 0.0459 seconds