Global ETD Search

81	Signal Transduction in Malignant Cells – Transformation, Activation and Differentiation Kårehed, Karin January 2006 (has links) <p>All aspects of cell life are regulated by signal transduction mechanisms. This thesis describes the regulatory roles of a few key signal transduction molecules involved in three major biological responses. The studied pathways include platelet derived growth factor (PDGF)-BB induced transformation of murine fibroblasts, interferon (IFN)-γ stimulated monocyte activation and all-trans retinoic acid (ATRA) induced myeloid differentiation. </p><p>We found that intact phosphoinositide 3OH-kinase (PI3K) activity is essential in the signaling pathway that leads to the morphological alterations and migration pattern characteristic of PDGF-BB transformed NIH/sis and NIH/COL1A1 fibroblasts. Furthermore, our data indicated that the small Rho-GTPase, Rac1 is the predominant mediator of these signals downstream of PI3K.</p><p>The study of the IFN-γ induced activation of monocytic U-937 cells showed that upregulation of the high affinity receptor for IgG (FcγRI) is dependent on the coordination of several regulatory events: the PKR-mediated serine 727 phosphorylation of Stat1, the expression of the hematopoietic lineage specific transcription factor PU.I, and the activation of the NFκB pathway.</p><p>ATRA-induced differentiation and cell cycle arrest are impaired in U-937 sublines expressing phosphorylation deficient Stat1 (Stat1Y701F and Stat1S727A). The findings in paper III indicated that the expression pattern of the myeloid specific transcription factors Stat2, ICSBP and c/EBPε was altered in the sublines and that intact Stat1 activation is critical for maintaining the balance of the transcriptional network during ATRA induced terminal differentiation.</p><p>Finally, ATRA-induced differentiation and growth arrest were blocked by treatment with the IKKα/β inhibitor BMS345541 or by ectopic expression of the NFκB super repressor IκBα (S32A/S36A). The fact that IκB(AA) sublines differentiated normally in response to vitamin D3, showed that NFκB inhibition specifically affected ATRA induced responses. Notably we suggest that the activity of the NFκB pathway may interfere with the differentiation process via a direct effect on the RAR/RXR mediated transcription.</p> Molecular medicine transformation PDGF PI3K Rho-GTPase U-937 FcγRI macrophage Stat1 PKR NFκB ATRA differentiation Molekylärmedicin
82	RhoGTPase Signaling in Cell Polarity and Gene Regulation Johansson, Ann-Sofi January 2006 (has links) <p>RhoGTPases are proteins working as molecular switches as they bind and hydrolyze GTP. They are in their active conformation when GTP is bound and are then able to interact with their effector proteins, which relay the downstream signaling. When the GTP is hydrolyzed to GDP, the RhoGTPase is inactivated. RhoGTPases have been shown to be activated by a variety of stimuli and they are implicated in regulation of diverse cellular processes, including cell migration, cell cycle progression, establishment of cell polarity and transformation. </p><p>We identified mammalian Par6 as a novel effector protein for the RhoGTPases Cdc42 and Rac1. The <i>Caenorhabditis elegans</i> homologue of Par6 had previously been shown to be essential for cell polarity development in the worm embryo. We found that endogenous Par6 colocalized with the tight junction protein ZO-1 in MDCKII epithelial cells. Par6 also interacted with mammalian Par3, another member of the <i>par</i> (for partitioning defective) gene family, first identified in <i>C.elegans</i>. Endogenous Par3 also localized to tight junctions in epithelial cells. This suggested that Par6 and Par3 are part of a complex regulating cell polarity also in mammalian cells. The interaction between Par6 and activated Cdc42 and Rac1 suggested a role for these RhoGTPases in the regulation of this complex.</p><p>Co-expression of Par6 together with PKCζ, induced a dramatic change in cell morphology. The cells rounded up and long cellular extensions, resembling neurites, were formed. The ability to induce these changes in cell morphology was found to be dependent on the direct interaction between Par6 and PKCζ, as well as on the kinase activity of PKCζ. We observed that cells co-expressing mPar6C and PKCζ contained bundled microtubules and microtubules that hade been acetylated, indicating that the microtubules were stabilized. </p><p>To investigate the roles of RhoGTPases in PDGF-induced gene expression we performed cDNA microarray analyses on AG01518 human foreskin fibroblasts in which we over-expressed the dominant negative forms of Cdc42, Rac1 and RhoA. We found that the expression of 16 genes, out of the 45 up-regulated by PDGF-BB, were inhibited ≥50% in the presence of dominant negative Cdc42, Rac1 or RhoA. 19 other genes were down-regulated by one or two of the dominant RhoGTPases. Our data implied that the expression of many PDGF-BB induced genes can be affected by RhoGTPase signaling. </p><p>In conclusion, the work presented here has increased the knowledge of the involvement of RhoGTPase signaling in establishment of cell polarity and gene regulation.</p> Cell and molecular biology RhoGTPase Par6 cell polarity aPKC epithelial cell PDGF gene regulation microarray Cell- och molekylärbiologi Cell and molecular biology Cell- och molekylärbiologi
83	Roles of the Shb and Cbl Proteins in Signal Transduction and Blood Vessel Formation Lu, Lingge January 2003 (has links) Formation of blood vessels occurs through two processes: vasculogenesis and angiogenesis, which are regulated by various growth factors such as vascular endothelial growth factor, fibroblast growth factor and platelet-derived growth factor. The present study was carried out in order to investigate the roles of the Shb and Cbl proteins in growth factor-mediated signal transduction and blood vessel formation. Shb was found to be involved in NGF-stimulated Rap1 signaling in PC12 cells by forming a complex with CrkII and a 130-135 kDa protein. The Rap1 signaling pathway contributed to NGF-dependent neurite outgrowth. In immortomouse brain endothelial (IBE) cells, Shb increased cell spreading, migration and cytoskeletal rearrangements. Such effects may partly be due to altered Rap1 activation in Shb overexpressing IBE cells. Shb was required for tubular morphogenesis in collagen gels in the presence of FGF-2. In embryoid bodies (EBs) derived from murine embryonic stem cells, Shb up-regulated both VEGFR2 and Tal1 expression at early stages of EB development and thus promoted blood vessel formation both in the absence and in the presence of growth factors. In IBE cells, Cbl positively regulated FGF-2 signaling and increased cell proliferation. Mutation of RING finger alone did not affect blood vessel formation in EBs. However, EBs overexpressing the oncogenic form Cbl 70Z, which had a deletion of the linker region and the first cysteine of the RING finger, exhibited intense CD31 positive sheet-like staining and blood vessel. The results suggested that Cbl had dual roles in endothelial cells: it promoted FGF-2-induced proliferation whereas down-regulated proliferation of endothelial progenitor cells. The present work suggests that Shb and Cbl play a crucial role in cell differentiation and blood vessel formation. Cell biology Shb Cbl FGF-2 NGF PDGF VEGF VEGFR-2 differentiation blood vessel formation PC12 cells endothelial cells embryoid bodies Rap1 CrkII Cellbiologi Cell biology Cellbiologi
84	RhoGTPase Signaling in Cell Polarity and Gene Regulation Johansson, Ann-Sofi January 2006 (has links) RhoGTPases are proteins working as molecular switches as they bind and hydrolyze GTP. They are in their active conformation when GTP is bound and are then able to interact with their effector proteins, which relay the downstream signaling. When the GTP is hydrolyzed to GDP, the RhoGTPase is inactivated. RhoGTPases have been shown to be activated by a variety of stimuli and they are implicated in regulation of diverse cellular processes, including cell migration, cell cycle progression, establishment of cell polarity and transformation. We identified mammalian Par6 as a novel effector protein for the RhoGTPases Cdc42 and Rac1. The Caenorhabditis elegans homologue of Par6 had previously been shown to be essential for cell polarity development in the worm embryo. We found that endogenous Par6 colocalized with the tight junction protein ZO-1 in MDCKII epithelial cells. Par6 also interacted with mammalian Par3, another member of the par (for partitioning defective) gene family, first identified in C.elegans. Endogenous Par3 also localized to tight junctions in epithelial cells. This suggested that Par6 and Par3 are part of a complex regulating cell polarity also in mammalian cells. The interaction between Par6 and activated Cdc42 and Rac1 suggested a role for these RhoGTPases in the regulation of this complex. Co-expression of Par6 together with PKCζ, induced a dramatic change in cell morphology. The cells rounded up and long cellular extensions, resembling neurites, were formed. The ability to induce these changes in cell morphology was found to be dependent on the direct interaction between Par6 and PKCζ, as well as on the kinase activity of PKCζ. We observed that cells co-expressing mPar6C and PKCζ contained bundled microtubules and microtubules that hade been acetylated, indicating that the microtubules were stabilized. To investigate the roles of RhoGTPases in PDGF-induced gene expression we performed cDNA microarray analyses on AG01518 human foreskin fibroblasts in which we over-expressed the dominant negative forms of Cdc42, Rac1 and RhoA. We found that the expression of 16 genes, out of the 45 up-regulated by PDGF-BB, were inhibited ≥50% in the presence of dominant negative Cdc42, Rac1 or RhoA. 19 other genes were down-regulated by one or two of the dominant RhoGTPases. Our data implied that the expression of many PDGF-BB induced genes can be affected by RhoGTPase signaling. In conclusion, the work presented here has increased the knowledge of the involvement of RhoGTPase signaling in establishment of cell polarity and gene regulation. Cell and molecular biology RhoGTPase Par6 cell polarity aPKC epithelial cell PDGF gene regulation microarray Cell- och molekylärbiologi Cell and molecular biology Cell- och molekylärbiologi
85	The Effect of Macrophage-secreted Factors on Preadipocyte Survival Molgat, André 10 January 2013 (has links) Adipose tissue (AT) expansion and remodeling that maintains healthy function relies on stromal preadipocytes capable of differentiating into new adipocytes (adipogenesis). During chronic positive energy balance, a relative deficit in adipogenesis, from either a decrease in preadipocyte number or their capacity to differentiate, leads to excessive adipocyte hypertrophy and AT dysfunction. AT contains macrophages whose number and activation state is dynamically regulated with changes in AT mass. This study aims to investigate the effect of macrophage-secreted factors on preadipocyte survival. To assess the effect of macrophage-secreted factors on preadipocytes, murine 3T3-L1 preadipocytes or human primary preadipocytes were incubated with macrophage-conditioned medium (MacCM), prepared from either murine (J774A.1, RAW264.7, bone marrow-derived) or human (THP-1, monocyte-derived) macrophage models, respectively. MacCM inhibited preadipocyte apoptosis and activated pro-survival signaling in both preadipocyte models. Inhibition of PDGFR, Akt, or ERK1/2 reduced the pro-survival effect of MacCM in 3T3-L1 preadipocytes. Inhibition of reactive oxygen species (ROS) generation, or enhancement of ROS clearance, reduced MacCM-dependent 3T3-L1 preadipocyte survival. Whereas anti-inflammatory activated macrophages retained the ability to prevent preadipocyte apoptosis, pro-inflammatory activated macrophages did not. TNF-α immunoneutralization restored the survival activity of pro-inflammatory MacCM on 3T3-L1 preadipocytes. These studies reveal a novel pro-survival effect of MacCM on preadipocytes, and identify signaling molecules (PDGF, Akt, ERK1/2, and ROS) that underlie this action. Macrophage activation was found to regulate the pro-survival activity of MacCM. These in vitro cell culture studies are consistent with a model in which the extent of preadipocyte apoptosis in vivo may determine preadipocyte number and the ability of AT to expand while maintaining healthy function during chronic positive energy balance. adipocyte preadipocyte metabolism adipose tissue fat macrophage inflammation PDGF TNFalpha apoptosis reactive oxygen species platelet-derived growth factor tumor-necrosis factor alpha
86	Signal Transduction in Malignant Cells – Transformation, Activation and Differentiation Kårehed, Karin January 2006 (has links) All aspects of cell life are regulated by signal transduction mechanisms. This thesis describes the regulatory roles of a few key signal transduction molecules involved in three major biological responses. The studied pathways include platelet derived growth factor (PDGF)-BB induced transformation of murine fibroblasts, interferon (IFN)-γ stimulated monocyte activation and all-trans retinoic acid (ATRA) induced myeloid differentiation. We found that intact phosphoinositide 3OH-kinase (PI3K) activity is essential in the signaling pathway that leads to the morphological alterations and migration pattern characteristic of PDGF-BB transformed NIH/sis and NIH/COL1A1 fibroblasts. Furthermore, our data indicated that the small Rho-GTPase, Rac1 is the predominant mediator of these signals downstream of PI3K. The study of the IFN-γ induced activation of monocytic U-937 cells showed that upregulation of the high affinity receptor for IgG (FcγRI) is dependent on the coordination of several regulatory events: the PKR-mediated serine 727 phosphorylation of Stat1, the expression of the hematopoietic lineage specific transcription factor PU.I, and the activation of the NFκB pathway. ATRA-induced differentiation and cell cycle arrest are impaired in U-937 sublines expressing phosphorylation deficient Stat1 (Stat1Y701F and Stat1S727A). The findings in paper III indicated that the expression pattern of the myeloid specific transcription factors Stat2, ICSBP and c/EBPε was altered in the sublines and that intact Stat1 activation is critical for maintaining the balance of the transcriptional network during ATRA induced terminal differentiation. Finally, ATRA-induced differentiation and growth arrest were blocked by treatment with the IKKα/β inhibitor BMS345541 or by ectopic expression of the NFκB super repressor IκBα (S32A/S36A). The fact that IκB(AA) sublines differentiated normally in response to vitamin D3, showed that NFκB inhibition specifically affected ATRA induced responses. Notably we suggest that the activity of the NFκB pathway may interfere with the differentiation process via a direct effect on the RAR/RXR mediated transcription. Molecular medicine transformation PDGF PI3K Rho-GTPase U-937 FcγRI macrophage Stat1 PKR NFκB ATRA differentiation Molekylärmedicin
87	The Effect of Macrophage-secreted Factors on Preadipocyte Survival Molgat, André 10 January 2013 (has links) Adipose tissue (AT) expansion and remodeling that maintains healthy function relies on stromal preadipocytes capable of differentiating into new adipocytes (adipogenesis). During chronic positive energy balance, a relative deficit in adipogenesis, from either a decrease in preadipocyte number or their capacity to differentiate, leads to excessive adipocyte hypertrophy and AT dysfunction. AT contains macrophages whose number and activation state is dynamically regulated with changes in AT mass. This study aims to investigate the effect of macrophage-secreted factors on preadipocyte survival. To assess the effect of macrophage-secreted factors on preadipocytes, murine 3T3-L1 preadipocytes or human primary preadipocytes were incubated with macrophage-conditioned medium (MacCM), prepared from either murine (J774A.1, RAW264.7, bone marrow-derived) or human (THP-1, monocyte-derived) macrophage models, respectively. MacCM inhibited preadipocyte apoptosis and activated pro-survival signaling in both preadipocyte models. Inhibition of PDGFR, Akt, or ERK1/2 reduced the pro-survival effect of MacCM in 3T3-L1 preadipocytes. Inhibition of reactive oxygen species (ROS) generation, or enhancement of ROS clearance, reduced MacCM-dependent 3T3-L1 preadipocyte survival. Whereas anti-inflammatory activated macrophages retained the ability to prevent preadipocyte apoptosis, pro-inflammatory activated macrophages did not. TNF-α immunoneutralization restored the survival activity of pro-inflammatory MacCM on 3T3-L1 preadipocytes. These studies reveal a novel pro-survival effect of MacCM on preadipocytes, and identify signaling molecules (PDGF, Akt, ERK1/2, and ROS) that underlie this action. Macrophage activation was found to regulate the pro-survival activity of MacCM. These in vitro cell culture studies are consistent with a model in which the extent of preadipocyte apoptosis in vivo may determine preadipocyte number and the ability of AT to expand while maintaining healthy function during chronic positive energy balance. adipocyte preadipocyte metabolism adipose tissue fat macrophage inflammation PDGF TNFalpha apoptosis reactive oxygen species platelet-derived growth factor tumor-necrosis factor alpha
88	The Effect of Macrophage-secreted Factors on Preadipocyte Survival Molgat, André January 2013 (has links) Adipose tissue (AT) expansion and remodeling that maintains healthy function relies on stromal preadipocytes capable of differentiating into new adipocytes (adipogenesis). During chronic positive energy balance, a relative deficit in adipogenesis, from either a decrease in preadipocyte number or their capacity to differentiate, leads to excessive adipocyte hypertrophy and AT dysfunction. AT contains macrophages whose number and activation state is dynamically regulated with changes in AT mass. This study aims to investigate the effect of macrophage-secreted factors on preadipocyte survival. To assess the effect of macrophage-secreted factors on preadipocytes, murine 3T3-L1 preadipocytes or human primary preadipocytes were incubated with macrophage-conditioned medium (MacCM), prepared from either murine (J774A.1, RAW264.7, bone marrow-derived) or human (THP-1, monocyte-derived) macrophage models, respectively. MacCM inhibited preadipocyte apoptosis and activated pro-survival signaling in both preadipocyte models. Inhibition of PDGFR, Akt, or ERK1/2 reduced the pro-survival effect of MacCM in 3T3-L1 preadipocytes. Inhibition of reactive oxygen species (ROS) generation, or enhancement of ROS clearance, reduced MacCM-dependent 3T3-L1 preadipocyte survival. Whereas anti-inflammatory activated macrophages retained the ability to prevent preadipocyte apoptosis, pro-inflammatory activated macrophages did not. TNF-α immunoneutralization restored the survival activity of pro-inflammatory MacCM on 3T3-L1 preadipocytes. These studies reveal a novel pro-survival effect of MacCM on preadipocytes, and identify signaling molecules (PDGF, Akt, ERK1/2, and ROS) that underlie this action. Macrophage activation was found to regulate the pro-survival activity of MacCM. These in vitro cell culture studies are consistent with a model in which the extent of preadipocyte apoptosis in vivo may determine preadipocyte number and the ability of AT to expand while maintaining healthy function during chronic positive energy balance. adipocyte preadipocyte metabolism adipose tissue fat macrophage inflammation PDGF TNFalpha apoptosis reactive oxygen species platelet-derived growth factor tumor-necrosis factor alpha
89	Rôle de la GTPase ARF6 dans l'invasion des cellules du muscle lisse vasculaire Artigalas, Julie 07 1900 (has links) Dans le contexte pathologique de l’athérosclérose, les cellules du muscle lisse vasculaire (CMLV) sont caractérisées par une prolifération et une migration accrue. La stimulation à l’Angiotensine II (Ang II) ou au facteur de croissance dérivé des plaquettes (PDGF) a tendance à promouvoir cette migration anormale. Cependant, ce phénomène seul n’est pas suffisant pour que les CMLV puissent migrer à travers le tissu environnant et envahir l’intima des vaisseaux sanguins. Les CMLV doivent alors dégrader la matrice extracellulaire et développer des structures nécessaires à l’invasion. Ce mouvement cellulaire est à l’origine d’une augmentation de la plaque athéromateuse responsable de nombreuses complications. Des données préliminaires ont montré que des facteurs de croissance ou hormones pouvaient induire l’invasion des CMLV. Dans notre laboratoire, il a été montré que les facteurs d’ADP-ribosylation (ARF) permettent la régulation du remodelage phénotypique des CMLV, et jouent un rôle dans la prolifération et la migration cellulaire. Au cours de cette étude, nous allons donc examiner le rôle de ARF6 dans la formation de structures importantes pour l’invasion et l’activation de métalloprotéinases de la matrice dans les CMLV humaines. En premier lieu, nous avons défini que la stimulation avec du PDGF ou de l’Ang II permet l’activation de la GTPase ARF6. En second lieu, nous avons mis en avant l’impact de la déplétion de ARF6 sur l’invasion cellulaire induite à la suite d’une stimulation avec le PDGF ou l’Ang II. Pour y parvenir, nous avons utilisé deux méthodes d’analyse de l’invasion, tout d’abord de la microscopie sur support gélatineux qui permet d’observer la dégradation de la matrice, ensuite des essais d’invasion sur du Matrigel dans des chambres de Boyden. Pour finir, nous avons voulu définir le mécanisme impliqué dans ce phénomène d’invasion cellulaire chez les CMLV humaines. En somme nous avons montré, l’importance d’ARF6 dans l’invasion induite par des facteurs de croissance ou hormone. Et nous avons soumis l’hypothèse que ce mécanisme passe par l’activation de la voie des MAPK ou PI3K. L’élucidation de ces mécanismes cellulaires pourrait avoir un intérêt quant à l’élaboration de nouvelles stratégies thérapeutiques pour le traitement de l’athérosclérose. / In the pathological setting of atherosclerosis, vascular smooth muscle cells are characterized by an increased proliferation and migration. Stimulation of these cells with Angiotensin II (Ang II) or platelet-derived growth factor (PDGF) usually promotes this abnormal migration. However, this phenotype alone is not sufficient for VSMCs to migrate through surrounding tissues and infiltrate the blood vessels’ intima. VSMCs must also be able to degrade extracellular matrix components and acquire the cellular structures necessary for invasion. The migration of VSMCs to the intima is responsible for the growth of the atherosclerotic plaque which leads to numerous complications. Preliminary data has shown that growth factors and hormones can cause the invasive phenotype of VSMCs. Our group has demonstrated that the ADP-ribosylation factor (ARF) could regulate the phenotypic remodeling of VSMCs and, by extension, their proliferative and migrative capacities. During this study, we will examine the importance of ARF6 in the formation of important invasive cellular structures as well as matrix metalloproteinases activation in human VSMCs. First, we have discovered and defined the connection between agonist stimulation and the activation of the small GTPase ARF6. We have also studied the impact of ARF6 depletion on cellular invasion following PDGF or Ang II stimulation. We have accomplished this using two methods commonly employed to analyze cellular invasion: Gelatine-based matrix degradation assays analyzed by microscopy and invasion assays on Matrigel in Boyden chambers. Lastly, we have tried to uncover the mechanistic behind this invasive phenotype observed in human VSMCs. To summarize, we have demonstrated the importance of ARF6 in growth factors and hormone-induced cellular invasion and we have hypothesized that this activity is mediated by the activation of the MAPK or PI3K signaling pathways. The further characterization of these cellular mechanisms could lead to the discovery of novel therapeutic strategies in atherosclerosis. Muscle lisse vasculaire ARF6 Athérosclérose PDGF Dégradation Invasion Smooth muscle cell Atherosclerosis Degradation
90	Efeitos da fototerapia com laser em baixa intensidade e dos fatores de crescimento PDGF e BMP-2, isolados ou em associação, na diferenciação ósseo/odontogênica de células-tronco de polpa dentária humana / Effects of low intensity laser therapy and growth factors PDGF and BMP-2 on the odontogenic differentiation of dental pulp stem cells Ferreira, Leila Soares 15 September 2011 (has links) A fototerapia com laser em baixa intensidade (FTLBI) é capaz de aumentar o metabolismo celular, o que poderia influenciar na diferenciação ósseo/odontogênica das células-tronco da polpa dentária humada (hDPSCs). O PDGF e o BMP-2 são fatores de crescimento envolvidos na dentinogênese e na reparação tecidual. O PDGF tem papel importante durante o desenvolvimento embrionário, na proliferação e migração celular e na angiogênese, enquanto o BMP-2 está fortemente associado à diferenciação celular em tecidos mineralizados, como o osso e a dentina. Sendo assim, o objetivo do estudo foi analisar os efeitos da FTLBI e dos fatores de crescimento (PDGF-BB ou BMP-2), isolados ou em associação, na diferenciação ósseo/odontogênica das hDPSCs. Para o estudo hDPSCs foram cultivadas em meio regular (G1) e irradiadas (G2), meio mineralizante (G3) e irradiadas (G4), meio mineralizante contendo PDGF-BB (G5) e irradiadas (G6), meio mineralizante contendo BMP-2 (G7) e irradiadas (G8). Para os grupos irradiados, a FTLBI foi realizada no modo pontual e em contato, com um laser de diodo semi-condutor, com área de feixe de 0,028cm2 e comprimento de onda 660nm (InGaAlP-vermelho), utilizando-se os seguintes parâmetros: potência de 20mW, densidade de energia de 5J/cm2, tempo de irradiação de 7 segundos por ponto e 0,14J de energia por ponto. A expressão dos genes relacionados à diferenciação ósseo/odontogênica (DSPP, DMP-1 e OCN) através do PCR quantitativo em tempo real (qRT-PCR), a atividade da fosfatase alcalina e os depósitos de cálcio foram analisados em 3, 7 e 14 dias. Os dados obtidos foram comparados pelo teste ANOVA complementado pelo teste de Tukey (p<0,05). As culturas tratadas com meio mineralizante contendo BMP-2 e irradiadas (G8) foram as que mostraram os maiores índices de diferenciação ósseo/odontogênica nos testes realizados. As expressões de DSPP, OCN e DMP-1, ao menos em 14 dias, foram significantemente maiores no G8 que nos demais grupos experimentais, exceto os grupos G3 e G7. Estes grupos apresentaram expressões de DSPP e OCN semelhantes às do G8 em 14 dias. A maior atividade de ALP foi observada no G8 em 3 dias e a menor no mesmo grupo aos 14 dias. A maior quantidade de depósitos de cálcio também foi encontrada no G8 em 14 dias. A associação de FTLBI e BMP-2 se mostrou capaz de induzir a diferenciação ósseo/odontogênica em células-tronco de polpa dentária humana de forma mais marcante que as demais terapias isoladas ou associadas estudadas. Portanto, o uso de uma terapia associando FTLBI e BMP-2 poderia ser de relevância para o restabelecimento da fisiologia pulpar quando aplicada em casos de exposição deste tecido, uma vez que poderia favorecer a diferenciação das células indiferenciadas da polpa dentária. / Laser phototherapy (LPT) is able to increase cellular metabolism, which in turn could influence the odontogenic differentiation of dental pulp stem cells (hDPSCs). PDGF and BMP-2 are growth factors involved in dentinogenesis and tissue repair. PDGF plays a role in embryonic development, cell proliferation, cell migration, and angiogenesis, whereas BMP-2 is strongly associated with cell differentiation in mineralized tissues such as bone and dentin. The aim of this study was to analyze the effects of LPT and the growth factors PDGF-BB and BMP-2 combined or not on the odontogenic differentiation of hDPSCs. These cells were grown in regular medium (G1) and irradiated (G2), mineralizing medium (G3) and irradiated (G4), mineralizing medium containing PDGF-BB (G5) and irradiated (G6), mineralizing medium containing BMP-2 (G7) and irradiated (G8). For irradiated groups, LPT was performed in punctual and contact mode with a semiconductor diode laser, with a beam spot area of 0.028 cm2 and wavelength of 660nm (InGaAlP-visible red), using the following parameters: power of 20mW, energy density of 5J/cm2 and irradiation time of 7 seconds per point (0,14 J per point). Differentiation was assessed by the following analysis: expression of genes related to odontogenic differentiation (DSPP, DMP-1 and OCN) using quantitative real time PCR (qRT-PCR); alkaline phosphatase activity and calcium deposition using alizarin red staining in 3, 7 and 14 days. Data were compared by ANOVA and Tukey´s test (p<0.05). The cultures treated with mineralizing medium containing BMP-2 and irradiated (G8) showed the highest rate of odontogenic differentiation. The expressions of DSPP, DMP-1 and OCN genes, at least in 14 days, were significantly higher in G8 compared to all other groups, except for the groups G3 and G7. These groups showed similar expressions of DSPP and OCN than G8 in 14 days. G8 showed the highest ALP activity in 3 days and the lowest in 14 days compared to all other groups. The largest amount of calcium deposits was observed in G8 in 14 days. The most striking feature on induction of odontogenic differentiation of hDPSCs was observed when LPT was applied in association with BMP-2. Therefore, the use of a combined LPT and BMP-2 therapy could be of relevance for the re-establishment of pulp physiology when applied in cases of dental pulp exposure by promoting the differentiation of hDPSCs. Alizarin red staining Alkaline phosphatase activity. Atividade da fosfatase alcalina BMP-2 BMP-2 Célula-tronco de polpa dentária Dental pulp stem cell Diferenciação Differentiation Fatores de crescimento Growth factors Laser em baixa intensidade Low intensity laser therapy PCR em tempo Real PDGF PDGF Real-time PCR Vermelho de alizarina

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