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A characterization of the human G protein-coupled receptor, lysophosphatidic acid1 : its intracellular trafficking and signaling consequences on the tumor suppressor, P53Murph, Mandi Michelle 26 April 2005 (has links)
Lysophosphatidic acid (LPA) is a mitogenic lipid that enhances cell growth, proliferation and motility through binding and activation of at least four receptors, LPA1/Edg2, LPA2/Edg4, LPA3/Edg7, and PPAR and #947;. Here, we show that LPA stimulation inhibits the cell cycle regulator and tumor suppressor, p53. Ten M LPA reduced the cellular levels of total p53 and p53 phosphorylated at serine 15 by approximately 50% in A549 cells and this effect was sustained for at least 6 h. This resulted in a corresponding decrease in p53-mediated transcription. Transient-transfection of the Edg-family LPA receptors, LPA1-3 in HepG2 cells, which do not respond to LPA, also showed this inhibitory response. The response was specific to LPA receptors since neither Gi-coupled M2 muscarinic acetylcholine receptors, nor a mutant LPA1 receptor (LPA1 R124A), which is unable to bind LPA, inhibited p53 activity. Both transient-transfection of the LPA-degrading lipid phosphate phosphatase-1 (LPP-1), or exogenous addition of phospholipase B, which decreases exogenous lysophosphatidate, reversed the LPA receptor-induced decrease in p53-mediated transcription. Although pertussis toxin did not prevent the inhibition of p53, a mutant LPA1 receptor (LPA1 and #8710;361), which lacks the C-terminal PDZ-binding domain, failed to inhibit p53 function. This establishes LPA-mediated inhibition of p53 function requires an interaction with PDZ-containing proteins. These data establish a novel role for LPA-mediated receptor activation in diminishing p53 activity; which, in addition to LPAs well-characterized effects on growth-promoting signaling pathways, is likely to contribute to the survival and proliferation of cancer cells.
Of the Edg-family LPA receptors, the LPA1 receptor is the most widely expressed. In the next study, we investigated the agonist-induced endocytosis of the human LPA1 receptor, bearing an N-terminal FLAG epitope tag, in stably transfected HeLa cells. LPA treatment induced the rapid endocytosis of approximately 40% of surface LPA1 within 15 minutes. Internalization was dose dependent and LPA specific since neither lysophophatidylcholine nor sphingosine-1-phosphate induced LPA1 endocytosis. Removing agonist following incubation resulted in LPA1 recycling back to the surface. LPA1 internalization was strongly inhibited by dominant-inhibitory mutants of both dynamin2 (K44A) and Rab5a (S34N). Finally, our results indicate that LPA1 exhibits basal, LPA-dependent internalization in the presence of serum-containing medium.
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The regulation of cellular trafficking of the human lysophosphatidic acid receptor 1: identification of the molecular determinants required for receptor traffickingUrs, Nikhil Mahabir 16 May 2007 (has links)
The following thesis research was undertaken to gain a better understanding of the mechanisms that regulate the cellular trafficking and signaling of the endothelial differentiation gene (EDG) family of G-protein coupled receptors, LPA1, LPA2, and LPA3. This thesis will specifically focus on the regulation of the trafficking of the LPA1 Lysophosphatidic acid receptor, which is the most widely expressed and has been shown to be a major regulator of migration of cells expressing it.
The initial studies undertaken in this project were aimed at understanding the endocytic pathway followed by the LPA1 receptor. Lysophosphatidic acid (LPA), an abundant serum phospholipid, stimulates heterotrimeric G protein signaling by activating three closely related receptors, termed LPA1, LPA2 and LPA3. In the first part of the project we show that in addition to promoting LPA1 signaling, membrane cholesterol is essential for the association of LPA1 with β-arrestin, which leads to signal attenuation and clathrin dependent endocytosis of LPA1.
The second phase of the project was aimed at elucidating the different structural motifs required for the trafficking and signaling of the LPA1 receptor and helping us gain a more mechanistic view of the processes involved in its regulation. In the second part of the project we show that agonist-independent internalization of the LPA1 receptor is clathrin adaptor, AP-2 dependent and PKC-dependent and that it requires a distal dileucine motif, whereas agonist-dependent internalization of the LPA1 receptor is β-arrestin and clathrin-dependent and requires a cluster of serine residues in the tail region, which is upstream of the dileucine motif.
These studies collectively vastly enhance our understanding of mechanisms that regulate LPA1 trafficking and signaling. These studies can also be applied to other G-protein coupled receptors making the task easier for other scientists to understand this vast family of receptors.
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Lysophosphatidic acid, vitamin D, and p53: a novel signaling axis in cell death and differentiationHurst-Kennedy, Jennifer Lynne 09 September 2009 (has links)
Lysophosphatidic acid (LPA) is the simplest of the glycerol lipids and regulates a number of cellular processes such as morphological changes, migration, proliferation, and inhibition of apoptosis. LPA exerts these effects through activation of the G-protein coupled receptors (GPCRs) LPA1-6 and the intracellular fatty acid receptor peroxisome proliferator-activated receptor-gamma (PPARγ). The overall goal of this thesis was to determine the mechanisms by which LPA enhances cell survival by inhibiting apoptosis. The project was divided into three studies: 1) to determine the mechanism of LPA-mediated inhibition of p53 in A549 lung carcinoma cells, 2) to investigate the regulation of growth plate chondrocytes by LPA, and 3) to determine the mechanisms of LPA-mediated effects in the growth plate. In the first study, evidence is provided that LPA reduces the cellular abundance of the tumor suppressor p53 in A549 lung carcinoma cells. The LPA effect depends upon increased proteasomal degradation of p53 and it results in a corresponding decrease in p53-mediated transcription. The result of LPA-mediated inhibition of p53 in A549 cells is enhanced resistance to chemotherapeutic-induced apoptosis. In the second study, the role of LPA in resting zone chondrocytes (RC cells) was investigated. RC cells are regulated by 24,25-dihydroxyvitamin D3 [24,25(OH)[subscript2]D [subscript 3]] via a phospholipase D-dependent pathway, suggesting downstream phospholipid metabolites are involved. In this study, we showed that 24R,25(OH)[subscript 2]D[subscript 3] stimulates rat costochondral RC cells to release LPA. Additionally, we demonstrated that RC cells respond to LPA with increased proliferation, maturation, and inhibition of apoptosis. In the final study, the mechanism of LPA and 24R,25(OH)[subscript 2]D[subscript 3]-mediated inhibition of chondrocyte apoptosis was further investigated. Our data show that 24R,25(OH)[subscript 2]D[subscript 3] inhibits apoptosis through Ca⁺⁺, PLD, and PLC signaling and through LPA/Gαi/PI[subscript 3]K/mdm2-mediated degradation of p53, resulting in decreased caspase-3 activity. Collectively, our data establish LPA, vitamin D, and p53 as an anti-apoptotic signaling axis.
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Platelet adhesion to proteins in microplates : applications in experimental and clinical research /Eriksson, Andreas, January 2008 (has links)
Diss. (sammanfattning) Linköping : Linköpings universitet, 2008. / Härtill 5 uppsatser.
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Autotaxin, lysophosphatidate and taxol resistanceSamadi, Nasser. January 2009 (has links)
Thesis (Ph.D.)--University of Alberta, 2009. / A thesis submitted to the Faculty of Graduate Studies and Research in partial fulfillment of the requirements for the degree of Doctor of Philosophy, Medical Sciences, Laboratory Medicine and Pathology. Title from pdf file main screen (viewed on October 31, 2009). Includes bibliographical references.
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Lysophosphatidic acid : Physiological effects and structure-activity relationshipsNilsson, Ulrika K. January 2002 (has links)
Lipids havepreviously been considered primarily as building blocks of the cell membrane, but are now also recognized as important cell signaling molecules. Lysophosphatidic acid (LPA) is a glycerophospholipid consisting of a phosphate head group, a linker region, and a lipophilic tail. LPA has earlier been shown to exert a diversity of cellular effects such as aggregation, apoptosis, contraction, migration, and proliferation. The effects of LPA are elicited by activation of its cognate G protein-coupled receptors LPA1, LPA2, and LPA3. In the present study we have used cultures of human smooth muscle cells (SMCs) and erythroleukemia cells (HEL), and isolated human platelets to characterize physiological effects of LPA compared with adrenaline and noradrenaline as well as structure-activity relationships of LPA. SMCs were isolated from biopsies of human myometrium obtained at cesarean sections. We show that cultured myometrial SMCs express multiple LPA and α2-adrenergic receptor subtypes. Treatment of SMCs with LPA and noradrenaline resulted in increases in proliferation. However, LPA elicits a much more pronounced stimulatory effect than noradrenaline. The ability to increase calcium might be one explanation why LPA is more effective. Further studies indicated that several pathways mediate the growth stimulatory effect of LPA where transactivation of epidermal growth factor receptors through matrix metalloproteinases as well as calcium/calmodulin-dependent protein kinases appears to be important. LPA enantiomers and LPA analogues were synthesized and characterized due to their capacity to increase calcium in HEL cells. Our study is the first to show that both natural (R) and unnatural (S) LPA enantiomers are capable of stimulating cells, suggesting LPA receptors are not stereoselective. Moreover, we have synthesized a LPA analogue with higher maximal effect than LPA by reducing the hydrocarbon chain length. In platelets we demonstrated that LPA is a weak calciumelevating compound which failed to stimulate aggregation. However, in combination with adrenaline, another weak platelet agonist, a complete aggregatory response was obtained in blood from some healthy individuals. These results are important since platelet activation is a key step in distinguishing normal from pathological hemostasis. Since LPA is present at high concentrations in atherosclerotic lesions, the synergistic effect of LPA and adrenaline might be a new risk factor for arterial thrombosis. / On the day of the public defence the status of the article IV was: Submitted for publication.
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Role of TRIP6 in LPA-induced cell migrationLai, Yun-Ju. January 2007 (has links) (PDF)
Thesis (Ph.D.)--University of Alabama at Birmingham, 2007. / Title from first page of PDF file (viewed on June 25, 2009). Includes bibliographical references.
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Phospholipases and Reactive Oxygen Species Derived Lipid Biomarkers in Healthy and Diseased Humans and Animals – A Focus on LysophosphatidylcholineEngel, Kathrin M., Schiller, Jürgen, Galuska, Christina E., Fuchs, Beate 30 March 2023 (has links)
Phospholipids (PL) are converted into lipid biomarkers by the action of phospholipases
and reactive oxygen species (ROS), which are activated or released under certain
physiological and pathophysiological conditions. Therefore, the in vivo concentration
of such lipid biomarkers [e.g., lysophospholipids (LPLs)] is altered in humans and
animals under different conditions such as inflammation, stress, medication, and
nutrition. LPLs are particularly interesting because they are known to possess proand
anti-inflammatory properties and may be generated by two different pathways:
either by the influence of phospholipase A2 or by different reactive oxygen species
that are generated in significant amounts under inflammatory conditions. Both lead to
the cleavage of unsaturated acyl residues. This review provides a short summary of
the mechanisms by which lipid biomarkers are generated under in vitro and in vivo
conditions. The focus will be on lysophosphatidylcholine (LPC) because usually, this is
the LPL species which occurs in the highest concentration and is, thus, easily detectable
by chromatographic and spectroscopic methods. Finally, the effects of lipid biomarkers
as signaling molecules and their roles in different human and animal pathologies such
as infertility, cancer, atherosclerosis, and aging will be shortly discussed.
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Development of Therapies to Treat Polycystic Kidney DiseaseFlaig, Stephanie Marge 06 March 2013 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Polycystic kidney diseases (PKD) are genetic disorders characterized by fluid filled cysts in the kidney tubules and liver bile ducts. There are two forms of PKD, autosomal dominant polycystic kidney disease (ADPKD) and autosomal recessive polycystic kidney disease (ARPKD). The focus of the studies in this thesis has been on ADPKD. The disease progresses slowly and the fluid-filled cysts grow in size due to increased rates of cell proliferation and fluid secretion into the cyst lumen. The expanding cysts compromise the normal kidney function and result in a decrease of renal
function to the point of end-stage renal failure in midlife. Cyst enlargement is due, at least in part, to chloride secretion via the cystic fibrosis transmembrane conductance regulator (CFTR) chloride channel. Currently therapy is limited to renal cyst aspiration, dialysis, and eventually renal transplantation after organ failure, thus it has critical to determine possible drug therapies for the treatment of PKD.
Previous studies showed that cyst fluid caused a secretory response in cells lining the cysts. We hypothesized that once the cyst have expanded and become so large that they burst or leak, which could also occur due to renal injury or aging, the cyst fluid may stimulate additional cyst growth. Lysophosphatidic Acid (LPA) was determined to be the active component of human cyst fluid, and we investigated the LPA stimulated signaling pathway.
Our data suggest that the LPA stimulates chloride and fluid secretion by a combination of CFTR and Calcium-Activated chloride channels (CaCC) and that the two channels may functionally be linked to each other. The secretion is not occurring through a cAMP stimulated pathway, and it is possible that TMEM16A, a CaCC, plays a larger role than previously expected.
Previous studies demonstrated that PPARγ agonists, insulin sensitizing drugs used to treat diabetes, inhibit chloride secretion by the collecting duct principal cells by decreasing CFTR synthesis. It was logical therefore to considered PPARγ agonists as long-term treatment for PKD. The first preclinical studied showed that high (20 mg/kg BW) dose pioglitazone, a PPARγ agonist, inhibited cyst growth in the PCK rat model, a
slow progressing model, of PKD. To continue to look at the effects of the PPARγ agonists another preclinical study was completed, which tested if there was a class action of PPARγ agonists and if a lower dose was effective in treating the cystic burden. Using the PCK rat model, and another PPARγ agonist, rosiglitazone, a 24 week study was completed using 3 doses (4, 0.4, and 0.04 mg/kg BW). 4 mg/kg BW rosiglitazone is
analogous to 20 mg/kg BW pioglitazone. The data indicated that the rosiglitazone is effective in lowering the cystic burden, and importantly the low dose proved to be
effective. An additional rat model, the W-WPK rapidly progressing model was used to determine efficacy across multiple models, and to determine if there was a way to track
the progress of the disease in a manner analogous to that used in human patients. The animals were treated with pioglitazone using 2 doses (2 and 20 mg/kg BW), and were
imaged using CT scans to track the progress of the disease. The data suggest that pioglitazone was not as effective in the W-WPK rat model as it was the PCK rat model. There was a trend however, that low dose PPARγ agonist was as effective ad high dose. Even more important, the CT scans proved to be an effective way to track the progress of the disease in animal models.
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Regulation of Lsc activity and role in B cell migration and antigen receptor signaling /Hu, Jiancheng. January 2007 (has links)
Thesis (Ph.D. in Immunology) -- University of Colorado Denver, 2007. / Typescript. Includes bibliographical references (leaves 103-118). Free to UCD affiliates. Online version available via ProQuest Digital Dissertations;
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