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  • 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

Extracellular Pyruvate Kinase M2 regulates tumor angiogenesis

Li, Liangwei 10 May 2014 (has links)
Pyruvate kinase M2 (PKM2) has been studied for decades on its role in cancer metabolism. Recently, PKM2 is highlighted again for its new function: promoting gene transcription by acting as a protein kinase. Moreover, the PKM2 levels in patient circulation have been used as a diagnostic marker for many types of cancers. However, it remains unclear whether PKM2 in blood circulation has any physiological or pathological function. In my dissertation, I demonstrate that PKM2 released from cancer cells facilitates tumor growth by promoting tumor angiogenesis. Our experiments show that PKM2 promotes endothelial cell proliferation, migration and survival. Only the dimeric PKM2, not the tetrameric PKM2 possesses the activity in angiogenesis promotion. Our results further indicate that PKM2 regulates angiogenesis by integrin αvβ3 activation and integrin redistribution. I also found that PKM2 enhances drug resistance of cancer cells expressing integrin αvβ3.
2

Functions of Extracellular Pyruvate Kinase M2 in Tissue Repair and Regeneration

Zhang, Yinwei 09 May 2016 (has links)
Pyruvate kinase M2 (PKM2) is a glycolytic enzyme expressed in highly proliferating cells. Studies of PKM2 have been focused on its function of promoting cell proliferation in cancer cells. Our laboratory previously discovered that extracellular PKM2 released from cancer cells promoted angiogenesis by activating endothelial cell proliferation and migration. PKM2 activated endothelial cells through integrin αvβ3. Angiogenesis and myofibroblast differentiation are key processes during wound healing. In this dissertation, I demonstrate that extracellular PKM2 released from activated neutrophils promotes angiogenesis and myofibroblast differentiation during wound healing. PKM2 activates dermal fibroblasts through integrin αvβ3 and PI3K signaling pathway. I also claim that extracellular PKM2 plays a role during liver fibrosis. PKM2 protects hepatic stellate cells from apoptosis by activating the survival signaling pathway.
3

Pyruvate kinase M2 (PKM2), a glycolytic enzyme, is required to maintain vascular barrier function

Dharaneeswaran, Harita 11 July 2017 (has links)
RATIONALE - Metabolic enzymes, like pyruvate kinase M2 (PKM2), play an essential role in altering endothelial cell (EC) phenotypes and behavior. Extensive research has elucidated the function of PKM2, a rate-limiting glycolytic enzyme, in the context of cancer cells and in activated immune cells, but its role in EC biology is only newly emerging. Recent findings show PKM2 acts as a key regulator of angiogenesis. Where exogenous circulating PKM2 induces EC cell proliferation leading to increased tumor angiogenesis and growth. Also, PKM2 deficient ECs exhibit decreased proliferation and migration. The relevance of PKM2 in modulating vascular barrier function is yet to be defined. OBJECTIVE -This study attempts to elucidate the role of PKM2 in regulating vascular barrier function. METHODS AND RESULTS - In vivo, EC specific deletion of PKM2 promotes increased vascular permeability in pulmonary capillary vessels and increased VEGF-induced acute vessel permeability in mouse dermal vessels. Similarly, in vitro, PKM2 deficient ECs exhibit decreased electrical resistance, disrupted VE-cadherin junctions and gap formations (illustrated via florescent VE-cadherin staining and phosphorylation of VE- cadherin protein at tyrosine residue Y658). Mechanistically, the deletion of PKM2 in ECs leads to increased angiopoietin-2 (Ang-2) expression, a well-known modulator of vascular permeability. Also, deletion of Ang-2 was sufficient to attenuate vascular leakage in PKM2 deficient endothelium, indicating that vascular leaky phenotype observed in PKM2 deficient endothelium is mediated by increased Ang-2 expression. CONCLUSIONS - PKM2, by modulating Ang-2 expression, plays a vital role in maintaining vascular barrier function. / 2019-07-11T00:00:00Z
4

Different Expression of Placental Pyruvate Kinase M2 in Normal, Preeclamptic, and Intrauterine Growth Restriction Pregnancies

Bahr, Brigham L. 10 March 2014 (has links) (PDF)
This thesis will be organized into two chapters discussing the placental expression of two proteins, pyruvate kinase M2 (PKM2) and heat shock protein 27 (HSP 27), in human placentas. Understanding the mechanisms of placental metabolism in healthy and diseased placentas helps us understand how placenta disorders occur and how we can treat these disorders. The goal is to investigate these proteins to gain an understanding of their roles in placental disorders and help decrease maternal and fetal mortality rates. Chapter one covers the background of pyruvate kinase M2 (PKM2) in cancer and embryonic tissues, and the expression of PKM2 in the human placenta. Cancer PKM2 has been studied extensively, but little is know about the role of placental PKM2. Expression of PKM2 is confirmed in normal human placenta samples and described in preeclamptic and intrauterine growth restriction (IUGR) affected human placentas. Proteins associated with elevated PKM2 in cancer are also associated with elevated PKM2 in human placentas. Comparing normal and diseased placenta samples helps understand the similarities between cancer PKM2 and placental PKM2. Understanding the mechanisms of placental metabolism and PKM2 expression in the human placenta will clarify how the placenta is affected by preeclampsia and IUGR and the role placental PKM2 plays in each of these diseases. Chapter two will cover a paper that I wrote on the expression of phosphorylated heat shock protein 27 (HSP27) in the human placenta. Heat shock proteins are involved in the stress response and help inhibit apoptosis. The object of the study was to look for correlations between p-HSP27 and apoptosis in human and ovine placenta samples. P-HSP27 was quantified in human placenta samples and in placenta sampled collected from ovine models. Pregnant control and hyperthermic sheep models were used to quantify expression of p-HSP27 across gestation. This study showed similarities between human IUGR and our ovine IUGR model, suggesting a link between decreased p-HSP27 and increased apoptosis in IUGR.
5

Investigação dos mecanismos moleculares da patogênese da psoríase: participação da enzima glicolítica Piruvato Quinase M2 (PKM2) / Investigation of the molecular mechanisms of pathogenesis of psoriasis: participation of the glycolytic enzyme Pyruvate Kinase M2 (PKM2)

Veras, Flávio Protásio 12 June 2018 (has links)
A psoríase é uma doença inflamatória crônica com uma elevada incidência, que afeta a pele. A patogênese da psoríase caracteriza-se pela participação de inúmeras células, incluindo os queratinócitos que são as principais células efetoras da citocina IL-17, críticas para a doença, que produzidas pelas células T. Evidências crescentes sugerem o importante papel da piruvato quinase M2 (PKM2) na regulação da resposta inflamatória, mas o mecanismo subjacente permanece obscuro. Nesse sentido, no presente estudo investigamos o papel da PKM2 no desenvolvimento da psoríase. Observamos o aumento de PKM2 em biópsia humana, em modelo de psoríase induzida por imiquimode e em modelos espontâneos K14-IL-17Aind e DC-IL-17Aind. Em adição, esse aumento observado na enzima foi predominante nos queratinócitos e isso foi associado a marcadores de ativação de queratinócitos. Utilizando o inibidor de PKM2, Shikonin (SKN), como abordagem farmacológica, observamos que o tratamento com esse composto foi capaz de reverter a psoríase experimental e a reduzir marcadores associados a doença como: K17, LCN2, TNF-?, KC, S100A8, S100A9, IL-6 e IL-17A. Associado a isso, observamos a redução na frequência de células T (?? e ??) produtoras de IL-17 e do número de neutrófilos na pele em modelo de imiquimode após inibição da PKM2. O SKN, também, reduziu o número de neutrófilos no modelo DC-IL-17Aind. Em nosso próximo passo, observamos que queratinócitos HACAT estimulados com IL-17A apresentou um aumento da expressão de PKM2 e que a sua inibição foi associada a redução da ativação de queratinócitos e de mediadores inflamatórios como a IL-8. Além disso, a deleção da PKM2, utilizando a tecnologia CRISPR/Cas9, reduziu a expressão do receptor de IL-17. Por fim, o desenvolvimento da psoríase por imiquimode foi atenuada em animais deficientes para PKM2 em queratinócitos (K14-PKM2fl/+), no qual foi observado a redução de neutrófilos na pele e, além disso, evidenciamos a redução da expressão de IL-17A nesses animais. O conjunto de resultados apresentados nesse trabalho demonstram que a PKM2 apresenta um papel crítico no desenvolvimento da psoríase e que a ativação do receptor de IL-17 promove um aumento da PKM2 em queratinócitos e esta contribui para ativação de mediadores que é responsável diretamente para o desenvolvimento da psoríase. Esses resultados, ainda, sugerem a PKM2 como um biomarcador para diagnóstico da psoríase e consequentemente, um potencial alvo terapêutico para tratamento dessa doença e outras doenças inflamatórias. / Psoriasis is a chronic inflammatory skin disease with high incidence in the global population. The pathogenesis of psoriasis is characterized by involvement of many cells, including keratinocytes that are targets for IL-17-producing T cells. Evidences suggests a critical role of pyruvate kinase M2 (PKM2) in inflammatory response, but the underlying mechanism remains unclear. In this context, here we investigated the role of PKM2 in the development of psoriasis. We observed overexpression of PKM2 in psoriatic human skin, imiquimod-induced psoriasis and spontaneous K14-IL-17Aind and DC-IL-17Aind models. In addition, the overexpression of this enzyme was observed in keratinocytes associated with keratinocytes activation markers. Using the PKM2 inhibitor, Shikonin (SKN), as a pharmacological approach, we observed that the treatment with this compound was able to reduce experimental psoriasis and disease-associated markers such as K17, LCN2, TNF-?, KC, S100A8, S100A9, IL-6 and IL-17A. Moreover, we observed reduction of frequency of IL-17-producing T cells (?? and ??) and the number of neutrophils in the skin after imiquimod application plus inhibition of PKM2. SKN, also, reduced the number of neutrophils in the DC-IL-17Aind model. In our next step, we observed overexpression of PKM2 in human keratinocytes HACAT stimulated with IL-17A and that its inhibition was associated with less keratinocytes activation and inflammatory mediators such as IL-8. In addition, deletion of PKM2, using CRISPR/Cas9 technology, reduced IL-17 receptor expression. Finally, the development of imiquimod-induced psoriasis was attenuated in PKM2-deficient mice in keratinocytes (K14-PKM2f/+), with reduction in the number of neutrophils in the skin. In addition, we evidenced the reduction of IL-17A expression these animals. Taken together, these results demonstrate that PKM2 plays a critical role in the development of psoriasis and that IL-17 receptor activation promotes an increase of PKM2 in keratinocytes and this contributes to the release of mediators that is directly responsible for development of psoriasis. These results, suggest PKM2 as a biomarker for the diagnosis of psoriasis and consequently a potential therapeutic target for the treatment of this disease and other inflammatory diseases.
6

The Role of Hypoxia on Pyruvate Kinase M2, mammalian Target of Rapamycin, Mitochondrial Function, and Cell Invasion in the Trophoblast

Kimball, Rebecca Lutz 01 March 2016 (has links) (PDF)
This thesis will be organized into two chapters discussing the role of hypoxia in the human placenta. The goal of this thesis is to characterize pyruvate kinase M2, mammalian target of rapamycin, mitochondrial function, and cell invasion in hypoxic conditions in the trophoblast. Understanding the mechanisms of placental metabolism can lead to further treatments for placental diseases. Chapter one covers the background of intrauterine growth restriction, hypoxia, placental metabolism, and pyruvate kinase M2 (PKM2). Little is currently understood about the role of the mitochondria in placental diseases. Expression of PKM2, trophoblast cell invasion, and mitochondrial function is shown to be inhibited by hypoxia. PKM2 inhibition decreases trophoblast cell invasion and nuclear expression of PKM2, but increases mitochondrial function. Studying how hypoxia affects the placenta during placental diseases can help clarify the mechanisms by which these diseases occur. Chapter two further characterizes the background of intrauterine growth restriction and hypoxia. It also covers the background of mammalian target of rapamycin. The objective of this chapter was to assess activated mTOR in the trophoblast in hypoxia. Decreased placental and fetal weights, as well as trophoblast cell invasion were observed in hypoxia. A decrease in the activation of mTOR was also found in the hypoxic placenta. This study could provide insight into the physiological relevance of the pathways and could be targeted to help alleviate placental diseases.
7

The Role of Inositol 1,4,5-Trisphosphate Receptor-Interacting Proteins in Regulating Inositol 1,4,5-Trisphosphate Receptor-Dependent Calcium Signals and Cell Survival

Lavik, Andrew R. 27 January 2016 (has links)
No description available.

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