DOWNREGULATION OF FGFBP1 DURING EPITHELIAL TO MESENCHYMAL TRANSITION

John Robert Anderson III (13174818)

29 July 2022

<p>  </p> <p>Breast cancer is a disease that impacts nearly one out of three women at some point in their life. Although the scientific community’s understanding of breast cancer development is actively researched, there is still a low 5-year survival rate of 30% following distant metastasis compared to the near 100% survival rate for localized disease. Epithelial to mesenchymal transition (EMT) is a known contributor to metastasis. Cells that undergo EMT shed cell-to-cell junctions and become fibroblastic like cells with differential extracellular matrix organization and increased mesenchymal gene expression. This change allows for greater cell motility and invasive potential, critical for metastasis. Our recent studies with single cell RNA sequencing demonstrate distinct populations of epithelial and mesenchymal cells. Several components of fibroblast growth factor receptor (FGFR) signaling are regulated during EMT. Fibroblast growth factor binding protein 1 (FGFBP1) is a known developmental factor that was observed at low expression in mesenchymal cells, with an unknown role in breast cancer. This study utilizes immunoblotting, mRNA analyses, immunofluorescence staining and novel 3D culture platform to investigate the regulation of FGFBP1 during EMT. FGFBP1 was consistently downregulated in HER2 transformed human mammary epithelial cells (HME2) during transforming growth factor β (TGF-Beta) induced EMT. Since FGFBP1 is acts as a secretory chaperone protein, secretion rate analysis was conducted at time periods throughout EMT showing rapid downregulation of secretion. Characterization of FGFBP1 regulation during EMT could lead to greater understanding of EMT and possibly a more sensitive marker for EMT relative to the current known markers.</p>

epithelial to mesenchymal transition

Breast Cancer

Human Mammary Epithelial Cell

STAT3 and SMAD Signaling in Mouse Models of Oncostatin M-Induced Lung Extracellular Matrix Remodeling

Wong, Steven

28 August 2014

<p>IPF is a respiratory condition of unknown etiology that has poor survival prognosis. The stiffening of the lung associated with this condition is attributed to the irreversible turnover of healthy lung tissue into scar tissue, which affects gas exchange and can eventually lead to organ failure. Numerous studies have implicated the pro-fibrogenic growth factor TGF-β, through activation of the SMAD2/3 pathway, as a central mediator in the pathology of this condition. However, other cytokines, including members of the IL-6/gp130 family such as OSM, and other signaling pathways may be implicated in ECM accumulation in certain conditions. In particular, STAT3 activation and an impairment of the BMP-SMAD1 signaling axis is thought to contribute to lung ECM accumulation. Based on the finding that transient pulmonary overexpression of OSM induces lung ECM accumulation in C57Bl/6 mice, it was hypothesized that OSM-induced ECM remodeling would be associated with STAT3 activation and suppression of the BMP-SMAD1-signaling axis.</p> <p>Findings in this thesis revealed that transient pulmonary overexpression of OSM induces ECM remodeling in both BALB/c and C57Bl/6 mice after seven days, despite a dichotomous response in other experimental models of ECM remodeling. However, parenchyma, but not airway, pathology resolved after 28 days in AdOSM-treated BALB/c mice. Furthermore, OSM-induced ECM remodeling occurred independently of IL-6-associated inflammation as well as TGF-β/SMAD3 signaling. MLF cultures treated with OSM did not directly regulate gene expression of ECM-related genes, suggesting that other cells may be responsible for OSM-induced ECM accumulation <em>in vivo</em>. OSM overexpression <em>in vivo </em>was associated with STAT3 activation and SMAD1 suppression, and an assessment of STAT3 and SMAD signaling <em>in vitro</em> showed that OSM activated the STAT3 pathway in MLF cultures, mouse type two pneumocytes, and human airway cells, while OSM suppressed the SMAD1 pathway in mouse type two pneumocytes, and human airway cells. Collectively, this thesis shows that OSM induces novel pathways in models of lung ECM remodeling, and this may have implications for IPF pathogenesis.</p> / Master of Science (MSc)

Oncostatin M

lung fibrosis

bone morphogenetic protein

transforming growth factor beta

fibroblast

airway epithelial cells

Circulatory and Respiratory Physiology

Circulatory and Respiratory Physiology

Preparation of Heparin Surface for Quantification of Fibroblast Growth Factor-2 (FGF-2) Binding Using Surface Plasmon Resonance (SPR)

Kirtland, David Rand

17 June 2005

A mixed self assembling monolayer (mSAM) chip with attached heparin was developed to analyze heparin-protein interactions using a Reichert Inc, SR7000, surface plasmon resonance (SPR) instrument. The heparin was attached via streptavidin-biotin linkage where the streptavidin was covalently coupled to the mSAM and biotinylated heparin bound to it. These chips were then used to quantify the interactions of fibroblast growth factor-2 (FGF-2) with the surface bound heparin. Kinetic rate constants of association and disassociation were calculated. The association data of FGF-2 with heparin was fit to a single compartment, well-mixed model as the data did not exhibit mass transfer limitations. The results suggested that rebinding was prevalent and observed disassociation rates differed significantly in the presence of competing soluble heparin during disassociation. Our results indicate that the Reichert instrument and mSAM chips can be used to analyze heparin-protein interactions but that a careful protocol, outlined in this thesis, should be followed to obtain optimal data. / Master of Science

Mixed Self-Assembled Monolayer

Mixed Self Assembling Monolayer (mSAM)

Surface Plasmon Resonance (SPR)

Growth Factor

Biosensor

Heparin

Nové metabolické regulátory a prozánětlivé faktory v etiopatogeneze diabetes mellitus 2. typu a obezity: vliv farmakologických a dietních intervencí / Novel metabolic regulators and proinflammatory factors in the etiopathogenesis of type 2 diabetes mellitus and obesity: the influence of pharmacological and dietary interventions

Mráz, Miloš

January 2011

NOVEL METABOLIC REGULATORS AND PROINFLAMMATORY FACTORS IN THE ETIOPATHOGENESIS OF TYPE 2 DIABETES MELLITUS AND OBESITY: THE INFLUENCE OF PHARMACOLOGICAL AND DIETARY INTERVENTIONS MUDr. Miloš Mráz Doctoral Thesis ABSTRACT (EN) Identifying novel factors involved in the etiopathogenesis of obesity, diabetes mellitus and their complications has become one of the primary scopes of metabolic research in the last years. The aim of the present study was to evaluate the role of recently discovered metabolic and inflammatory regulators including fibroblast growth factors 19 and 21 and chemotactic cytokines in the development of obesity and type 2 diabetes mellitus (DM2). A total number of 182 patients were included into the study. They were divided into 3 groups - patients with obesity but without type 2 diabetes mellitus, individuals with obesity and type 2 diabetes mellitus and healthy control normal-weight subjects. Selected interventions included 2 to 3 weeks of very-low-calorie diet (VLCD - energy content 2500 kJ/day), 3 months of administration of PPARα receptor agonist fenofibrate and acute hyperinsulinemia during hyperinsulinemic isoglycemic clamp. Our results indicate that the increase of circulating FGF-21 levels after VLCD and fenofibrate treatment could contribute to positive metabolic effects of these...

Etiopathology Of Oral Submucous Fibrosis : Role Of Areca Nut Constituents And Transforming Growth Factor-β Signalling

Khan, Imran

07 1900

Oral Submucous Fibrosis (OSF) is a chronic inflammatory disease resulting in progressive fibrosis of the oral tissues that can cause difficulty in chewing, swallowing, speaking, and mouth opening. Epidemiological studies have shown that OSF is a precancerous condition and 2-8% of the OSF patients develop squamous cell carcinoma. This disease affects 0.5% of the population in the Indian subcontinent and is now a growing public health issue in many parts of the world. Habit of chewing betel quid has been proposed as an important etiological factor in the development of this disease and is coline, a principle alkaloid of areca nut is considered as major causative factor for OSF development. But the exact molecular mechanism of OSF pathogenesis is not known. Therefore, we set the following objectives for this study: 1) Gene expression profiling of OSF using microarray. 2) Role of areca nut constituents in OSF pathogenesis. 3) Effect of areca nut on epithelial and fibroblast cells. In order to delineate the possible molecular mechanism of OSF pathogenesis, we took microarray approach and identified differentially regulated genes in ten OSF tissues against eight pooled normals using whole human genome oligonucleotide arrays. Microarray results revealed differential expression of 5288 genes (p≤0.05 and Fold change≥1.5), among them 2884 were up-regulated and 2404 were down-regulated. Validation employing quantitative real-time PCR and immunohistochemistry confirmed up-regulation of transforming growth factor-β1 (TGF-β1), TGFBI, THBS1, SPP1, TIG1 and down-regulation of bone morphogenic protein 7 (BMP7), C4orf7 and ALOX12 in OSF tissues. Furthermore, activation of TGF-β pathway was evident in OSF tissues as demonstrated by p-SMAD2 strong immunoreactivity. Analysis of IHC data showed that in all the normal tissues and in 70% of the OSF tissues the expression of TGF-β and BMP7 are inversely correlated. In good correlation, treatment of keratinocytes (HaCaT) by TGF-βdown-regulated BMP7, while BMP7 expression could not be detected in fibroblast cells. Hence, the imbalance between TGF-βand BMP7 signalling, which are positive and negative modulators of extracellular matrix production, respectively may trigger the manifestation of OSF. We also studied the regulation few genes (CTGF, TGM2 and THBS1) identified in OSF microarray in response to TGF-βand arecoline. TGF-βwas able to induce all the above genes in both HaCaT and hGF cells but arecoline could only induce TGM2 in hGF and THBS1 in HaCaT. Therefore TGF-βpathway came out to be the most important pathway in OSF microarray and subsequent validations. But areca nut constituents responsible for TGF-βpathway activation and the source (epithelial or fibroblast cells) through which it activates TGF-βare not known. In an attempt to understand the role of areca nut and its constituents in inducing TGF-βsignalling in epithelial cells, we performed microarray on epithelial cells (HaCaT) treated with areca nut water extract. Surprisingly, 64% of the differentially regulated genes by areca nut water extract matched with TGF-βinduced gene expression profile. To find out areca nut induced genes through TGF-β, epithelial cells were treated with areca nut in presence of ALK5 (TβRI) inhibitor. Out of 64% differentially induced genes, 57% genes induced by areca nut got compromised in presence of ALK5 and 7% were independently induced by areca nut, highlighting the effect of areca nut via TGF-β. Accordingly, areca nut treatment induced both p-SMAD2 and TGF-βdownstream targets TGFBI, TGM2, TMEPAI and THBS1 in HaCaT cells. One possible mechanism of TGF-βsignalling induction by areca nut could be via induced ligand (TGF-β2) and its activator (THBS1). Induction of TGF-β2 ligand by areca nut was shown at both RNA (Real Time) and protein (ELISA) levels. To find out areca nut components responsible for inducing TGF-β signalling, areca nut fractionation was performed which gave three fractions namely, Ethyl acetate (polyphenol), water supernatant (alkaloids) and Dichloromethane (impurity). Out of these; polyphenol and alkaloid fractions were found to be responsible for the induction of TGF-β signalling and its downstream targets. Upon treatment with purified components, catechin and tannin of polyphenol fraction and arecoline, arecaidine and guvacine of alkaloid fraction were found to be responsible for inducing TGF-β signalling, as seen by increased appearance of phopho-SMAD2 in HaCaT cells. Areca nut treatment on human gingival fibroblast cells (hGF) did not induce TGF-β signalling, highlighting that the source of TGF-β induction by areca nut could possibly be the epithelium. Further treatment of areca nut along with TGF-β on hGF cells potentiated TGF-β effect both in terms of TGF-β downstream targets like TGFBI, TGM2, TMEPAI, COL1A1 etc and activation of fibroblast by inducing α-SMA. Increasing concentration of areca nut is cytotoxic on HaCaT cells and pro-proliferative on hGF cells. This could provide a possible explanation for epithelial atrophy and proliferating fibroblast cells in connective tissue of OSF patients. Further exploration on HaCaT cell cytotoxicity by areca nut suggests the involvement of Reactive Oxygen Species (ROS) as a key molecule induced by areca nut. Compromising ROS generation by NAC (N-Acetyl-L-Cysteine) led to reversal of Sub-G1 peak induced by areca nut in HaCaT cells. This highlighted that cell death caused by areca nut could be ROS mediated. Areca nut treatment on hGF cells did not induce ROS generation, leading to no cytotoxicity on these cells. A possible explanation of this differential ROS generation can be due to dose dependent suppression of Catalase activity by areca nut in HaCaT cells but not in hGF cells. We also compared cytotoxicity of areca nut with all the alkaloids and found a good match with arecoline as both of them induce ROS, apoptotic ladder formation, annexin V positivity, suppression of Catalase activity and the cell death induced by them was compromised by NAC. The above results indicated that arecoline could be a mediator of areca nut water extract cytotoxicity on HaCaT cells. Betel nut chewer’s oral epithelium gets regularly exposed to areca nut and hence this exposure could be cytotoxic to oral epithelial cells too. We performed Terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) in normal and OSF tissues. Our data showed 62.5% of OSF patients having significant percentage of epithelial cells with TUNEL positivity (Labeling index = 2-60%) compared to all normal tissues that were TUNEL negative. TUNEL positivity was predominantly seen in the upper keratin and supra basal layer of the epithelium. We also studied proliferation status of OSF epithelium and observed that 3-17% (LI) of epithelial cells in all normal tissues showed Ki-67 positivity in the germinal layer of epithelium. However, 65% of the OSF patients showed staining for Ki-67 (LI=.2-58%) in their epithelium. Also analysis of TUNEL positive and Ki-67 positive sections indicated that OSF patients with high TUNEL positivity have high Ki-67 labeling index, but stains in the supra basal or keratin layer (TUNEL) and basal layer (Ki-67) of epithelium respectively. This induced proliferation of epithelial cells could be the result of heavy apoptosis in the outer epithelium. But as these patients are regularly exposed to areca nut, this increased proliferation may not be able to cope up with the heavy apoptosis induced by areca nut, leading to atrophied epithelium. To understand the germinal status of OSF atrophied epithelium we performed staining for OCT4 in OSF tissues. To our surprise there were no OCT4 positive nuclei in the epithelium of 53% of OSF patients but a regular spread of OCT4 positivity has been seen in the epithelium of normal subjects. In conclusion, this thesis highlights the involvement of TGF-β pathway in OSF patho-physiology. In addition, activation of TGF-β pathway by areca nut constituents has been demonstrated. Moreover, the atrophied epithelium of OSF appears to be a consequence of apoptosis and stem cell deprivation. Taken together, areca nut perhaps causes atrophy of the epithelium and activates TGF-β pathway that may lead to manifestation of OSF.

Inflammatory Diseases

Oral Submucous Fibrosis (OSF)

Oral Submucous Fibrosis Pathogenesis

Fibroblast Cells

Areca Nut

Oral Submucous Fibrosis Microarray

Fibroblasts

Oral Submucous Pathogenesis

Oral Submucous Fibrosis Pathology

Human Gingival Fibroblast Cells (hGF)

TGF-β Pathway

Transforming Growth Factor Beta

Pathology

Nové metabolické regulátory a prozánětlivé faktory v etiopatogeneze diabetes mellitus 2. typu a obezity: vliv farmakologických a dietních intervencí / Novel metabolic regulators and proinflammatory factors in the etiopathogenesis of type 2 diabetes mellitus and obesity: the influence of pharmacological and dietary interventions

Mráz, Miloš

January 2011

NOVEL METABOLIC REGULATORS AND PROINFLAMMATORY FACTORS IN THE ETIOPATHOGENESIS OF TYPE 2 DIABETES MELLITUS AND OBESITY: THE INFLUENCE OF PHARMACOLOGICAL AND DIETARY INTERVENTIONS MUDr. Miloš Mráz Doctoral Thesis ABSTRACT (EN) Identifying novel factors involved in the etiopathogenesis of obesity, diabetes mellitus and their complications has become one of the primary scopes of metabolic research in the last years. The aim of the present study was to evaluate the role of recently discovered metabolic and inflammatory regulators including fibroblast growth factors 19 and 21 and chemotactic cytokines in the development of obesity and type 2 diabetes mellitus (DM2). A total number of 182 patients were included into the study. They were divided into 3 groups - patients with obesity but without type 2 diabetes mellitus, individuals with obesity and type 2 diabetes mellitus and healthy control normal-weight subjects. Selected interventions included 2 to 3 weeks of very-low-calorie diet (VLCD - energy content 2500 kJ/day), 3 months of administration of PPARα receptor agonist fenofibrate and acute hyperinsulinemia during hyperinsulinemic isoglycemic clamp. Our results indicate that the increase of circulating FGF-21 levels after VLCD and fenofibrate treatment could contribute to positive metabolic effects of these...

La fibrose en deux parties : de la paillasse à la souris

Laplante, Patrick

03 1900

L’apoptose des cellules endothéliales (CE) représente un évènement initial dans le développement de plusieurs pathologies fibrotiques telles que le rejet chronique d’allogreffe et la sclérose systémique. Nous avons démontré que les médiateurs issus des CE apoptotiques entraîne la différenciation myofibroblastique et la résistance à l’apoptose, deux mécanismes centraux à la fibrogénèse. L’activation de PI3K (phospatidylinositol-3 kinase) caractérise ces deux mécanismes. Un fragment C-terminal du perlécan (LG3) produit par les CE apoptotiques inhibe l’apoptose des fibroblastes. Les objectifs de ce travail étaient de : 1. définir les récepteurs et la signalisation impliqués dans la réponse anti-apoptotique et 2. caractériser les médiateurs fibrogéniques responsables de la différenciation myofibroblastique. En ce qui a trait à la réponse anti-apoptotique, l’inhibition des intégrines 21 ou des kinases de la famille Src (SFK) chez les fibroblastes prévient la résistance à l’apoptose et la phosphorylation d’Akt normalement induites par le milieu conditionné par des CE apoptotiques (SSC) ou le LG3. Ces résultats suggèrent que le LG3 produit par les CE apoptotiques initie un état de résistance à l’apoptose chez les fibroblastes par des voies α2β1integrines/SFK/PI3K dépendantes. Le LG3 n’induit cependant pas la différenciation myofibroblastique. Nous avons donc caractérisé le milieu SSC de façon à identifier les médiateurs responsables de la différenciation myofibroblastique. Les milieux conditionnés par des CE apoptotiques et non-apoptotiques (respectivement SSC et SSC-ZVAD) ont été analysés comparativement par chromatographie liquide bi-dimensionnelle, immunobuvardage et spectrométrie de masse. Le connective tissue growth factor (CTGF) est le seul facteur fibrogénique connu augmenté dans le milieu SSC. L’inhibition de la caspase-3 chez les CE prévient la relâche de CTGF. Au niveau du fibroblaste, l’inhibition de SFK ou de Pyk2 (proline-rich tyrosine kinase-2) prévient la différenciation myofibroblastique induite par le SSC ou le CTGF in vitro. L’anticorps neutralisant contre le TGF- (Transforming growth factor beta) n’est pas en mesure de bloquer la différenciation myofibroblastique induite par le SSC ou le CTGF. Des injections quotidiennes sous-cutanées de SSC chez la souris C3H pour 3 semaines entraîne une augmentation de l’épaisseur de la peau et des niveaux protéiques d’SMA, de vimentine et de collagène I. Cette réponse fibrogénique est réduite chez les souris qui ont reçu le SSC-ZVAD ou le SSC immunodéplété de son CTGF. Ces résultats apportent de nouvelles issues mécanistiques au niveau de la réponse fibrogénique activée par la mort des CE. L’activation des caspases chez les CE apoptotiques entraîne la production de LG3 et de CTGF qui, à leur tour, activent des voies de signalisation pro-fibrotiques SFK/PI3K dépendantes chez les fibroblastes, et ce indépendamment du TGF-. / Apoptosis of endothelial cells (EC) is an early event in various fibrotic diseases including chronic allograft vasculopathy and systemic sclerosis. We showed previously that mediators released by apoptotic EC activate myofibroblast differentiation and resistance to apoptosis, two mechanisms pivotal to fibrogenesis. PI3K (phospatidylinositol-3 kinase) activation was found to be central to these two mechanisms. A C-terminal fragment of perlecan (LG3) produced by apoptotic EC was found to inhibit apoptosis of fibroblasts. The aims of the present project were : 1. to define the receptors and pathways implicated in this anti-apoptotic response and 2. to characterize the fibrogenic mediators implicated in myofibroblast differentiation. Concerning the anti-apoptotic response, the inhibition of 21 integrin activity in fibroblasts exposed to either medium conditioned by apoptotic EC (SSC) or LG3 prevented resistance to apoptosis and was associated with decreased levels of Akt phosphorylation. Neutralizing Src family kinases (SFK) activity in fibroblasts produced the same effects. These results suggest that LG3 produced by apoptotic EC initiate a state of resistance to apoptosis in fibroblasts via an α2β1integrin/SFK/PI3K dependent pathway. LG3 did not induce myofibroblast differentiation. We went on to identify which mediators present in SSC are implicated in myofibroblast differentiation. Media conditioned by apoptotic and non-apoptotic EC (respectively SSC and SSC-ZVAD) were analyzed comparatively by 2-dimension liquid chromatography, western blotting and mass spectrometry. Connective tissue growth factor (CTGF) was the only known fibrogenic factor increased in SSC. Caspase-3 silencing of EC demonstrated that CTGF is released by apoptotic EC downstream of caspase-3 activation. In fibroblasts, blocking the activation of SFK or silencing the proline-rich tyrosine kinase 2 (Pyk2) blocked myofibroblast differentiation triggered by either SSC or recombinant CTGF in vitro. Exposure to a pan-transforming growth factor (TGF-β) neutralizing antibody failed to attenuate myofibroblast differentiation in fibroblasts exposed to either SSC or CTGF. Subcutaneous injection of mouse SSC to C3H mice daily for three weeks led to increased skin thickness, increased protein levels of αSMA, vimentin and collagen I. This fibrogenic response was blunted in mice injected with either SSC-ZVAD or SSC immunodepleted of CTGF. These results bring new mechanistic insights into the fibrogenic pathways activated by EC death. Caspase activation in apoptotic EC triggers the production of LG3 and CTGF which in turn activate SFK/PI3K dependant pathways in fibroblasts thus activating a TGF-β-independent fibrogenic response.

Apoptose

Apoptosis

Différenciation

Differentiation

Cellule endothéliale

Endothelial cell

Fibroblaste

Fibroblast

Myofibroblaste

Myofibroblast

CTGF

CTGF

Perlécan

Perlecan

Pyk2

Pyk2

Src

Src

PI3K

PI3K

Cardiac cell fate control by the imidazoline I1 receptor/nischarin : application in cardiac pathology

Aceros Muñoz, Henry Adolfo

08 1900

La moxonidine, un médicament antihypertenseur sympatholytique de type imidazolinique, agit au niveau de la médulla du tronc cérébral pour diminuer la pression artérielle, suite à l’activation sélective du récepteur aux imidazolines I1 (récepteur I1, aussi nommé nischarine). Traitement avec de la moxonidine prévient le développement de l’hypertrophie du ventricule gauche chez des rats hypertendus (SHR), associé à une diminution de la synthèse et une élévation transitoire de la fragmentation d’ADN, des effets antiprolifératifs et apoptotiques. Ces effets se présentent probablement chez les fibroblastes, car l’apoptose des cardiomyocytes pourrait détériorer la fonction cardiaque. Ces effets apparaissent aussi avec des doses non hypotensives de moxonidine, suggérant l’existence d’effets cardiaques directes. Le récepteur I1 se trouvé aussi dans les tissus cardiaques; son activation ex vivo par la moxonidine stimule la libération de l’ANP, ce qui montre que les récepteurs I1 cardiaques sont fonctionnels malgré l’absence de stimulation centrale. Sur la base de ces informations, en plus du i) rôle des peptides natriurétiques comme inhibiteurs de l’apoptose cardiaque et ii) des études qui lient le récepteur I1 avec la maintenance de la matrix extracellulaire, on propose que, à part les effets sympatholytiques centrales, les récepteurs I1 cardiaques peuvent contrôler la croissance-mort cellulaire. L’activation du récepteur I1 peut retarder la progression des cardiopathies vers la défaillance cardiaque, en inhibant des signaux mal adaptatifs de prolifération et apoptose. Des études ont été effectuées pour : 1. Explorer les effets in vivo sur la structure et la fonction cardiaque suite au traitement avec moxonidine chez le SHR et le hamster cardiomyopathique. 2. Définir les voies de signalisation impliquées dans les changements secondaires au traitement avec moxonidine, spécifiquement sur les marqueurs inflammatoires et les voies de signalisation régulant la croissance et la survie cellulaire (MAPK et Akt). 3. Explorer les effets in vitro de la surexpression et l’activation du récepteur I1 sur la survie cellulaire dans des cellules HEK293. 4. Rechercher la localisation, régulation et implication dans la croissance-mort cellulaire du récepteur I1 in vitro (cardiomyocytes et fibroblastes), en réponse aux stimuli associés au remodelage cardiaque : norépinephrine, cytokines (IL-1β, TNF-α) et oxydants (H2O2). Nos études démontrent que la moxonidine, en doses hypotensives et non-hypotensives, améliore la structure et la performance cardiaque chez le SHR par des mécanismes impliquant l’inhibition des cytokines et des voies de signalisation p38 MAPK et Akt. Chez le hamster cardiomyopathique, la moxonidine améliore la fonction cardiaque, module la réponse inflammatoire/anti-inflammatoire et atténue la mort cellulaire et la fibrose cardiaque. Les cellules HEK293 surexprimant la nischarine survivent et prolifèrent plus en réponse à la moxonidine; cet effet est associé à l’inhibition des voies ERK, JNK et p38 MAPK. La surexpression de la nischarine protège aussi de la mort cellulaire induite par le TNF-α, l’IL-1β et le H2O2. En outre, le récepteur I1 s’exprime dans les cardiomyocytes et fibroblastes, son activation inhibe la mort des cardiomyocytes et la prolifération des fibroblastes induite par la norépinephrine, par des effets différentiels sur les MAPK et l’Akt. Dans des conditions inflammatoires, la moxonidine/récepteur aux imidazolines I1 protège les cardiomyocytes et facilite l’élimination des myofibroblastes par des effets contraires sur JNK, p38 MAPK et iNOS. Ces études démontrent le potentiel du récepteur I1/nischarine comme cible anti-hypertrophique et anti-fibrose à niveau cardiaque. L’identification des mécanismes cardioprotecteurs de la nischarine peut amener au développement des traitements basés sur la surexpression de la nischarine chez des patients avec hypertrophie ventriculaire. Finalement, même si l’effet antihypertenseur des agonistes du récepteur I1 centraux est salutaire, le développement de nouveaux agonistes cardiosélectifs du récepteur I1 pourrait donner des bénéfices additionnels chez des patients non hypertendus. / Moxonidine, an antihypertensive sympatholytic imidazoline compound, reduces blood pressure by selective activation of non-adrenergic imidazoline I1-receptors (also known as nischarin) in brainstem medulla. Moxonidine prevents left ventricular hypertrophy development in hypertensive rats, associated with reduced cardiac DNA synthesis and early transient increase in DNA fragmentation. It is likely that the anti-proliferative and apoptotic effects occur in fibroblasts, as cardiomyocyte apoptosis may deteriorate cardiac function. The effects also occurred to sub-hypotensive doses, suggesting a blood-pressure-independent mechanism and pointing to a local cardiac action. Imidazoline I1-receptors have been identified in cardiac tissues, and their ex vivo activation by moxonidine stimulates ANP release, demonstrating that cardiac imidazoline I1-receptors are functional without the contribution of the central nervous system. Based on the above studies and on i) the role of natriuretic peptides in inhibition of myocardial cell apoptosis and ii) studies linking imidazoline I1-receptors to the maintenance of the extracellular matrix and PC12 cell survival, we propose that apart from centrally-mediated sympatholytic function, imidazoline I1-receptors in the heart may control cell growth and death. Activation of imidazoline receptors may delay the progression of cardiac pathologies into heart failure by inhibition of maladaptive proliferative signalling and downstream apoptotic pathways. In order to test this hypothesis studies were performed to: 1. Explore the in vivo effects of moxonidine on cardiac structure and function in SHR and cardiomyopathic hamsters. 2. Define the pathways involved in the observed changes following moxonidine treatment, specifically, on inflammatory markers and pathways involved in LVH and cardiac cell survival/death (MAPK and Akt). 3. Explore in vitro the effect of imidazoline I1-receptor activation by moxonidine, on cell survival by over-expressing nischarin in HEK293 cells, to circumvent the lack of specific imidazoline I1-receptor agonists and antagonists. 4. Investigate in vitro, imidazoline I1-receptor localization (cardiomyocytes and fibroblasts), regulation and implication in cell growth/death in response to cardiac remodelling-associated stimuli: norepinephrine, cytokines (IL-1β, TNF-α), and oxidants (H2O2). The studies reveal that hypotensive and sub-hypotensive concentrations of moxonidine improve cardiac structure and performance in SHR by mechanisms that involve inhibition of cytokines, p38MAPK, and Akt signalling pathways. In cardiomyopathic hamsters moxonidine improves cardiac performance, in association with differential inflammatory/anti-inflammatory responses that culminate in attenuated cardiomyocyte death and fibrosis and altered collagen type expression. HEK293 cells, transfected with nischarin cDNA, show increased viability/proliferation in response to moxonidine. The overall survival response is associated with moxonidine’s inhibition of ERK, JNK, and p38MAPK. Nischarin also opposes the reduced cell viability in response to oxidative stimuli (TNF-α, IL-1β and H2O2), with differential responses to moxonidine. Furthermore, the imidazoline I1-receptor is expressed in cardiac fibroblasts and myocytes and its activation inhibits norepinephrine-induced cardiomyocyte death and fibroblast proliferation, through differential effects on MAPKs and Akt. Moxonidine/imidazoline I1-receptor protects cardiomyocytes and facilitates elimination of myofibroblasts in inflammatory conditions, through opposite effects on JNK, p38MAPK and iNOS activity. These studies emphasize the potential importance of imidazoline I1-receptor/nischarin as an anti-hypertrophic and anti-fibrotic target. Identification of the cardio-protective mechanisms of cardiac nischarin could result in specifically-tailored cell/gene-driven nischarin treatments, which could be important for patients with heart disease. Also, while the antihypertensive action of centrally acting compounds is appreciated, new cardiac-selective I1-receptor agonists may confer additional benefit.

Récepteur aux imidazolines I1

Hypertrophie du ventricule gauche

Moxonidine

Hypertension

Défaillance cardiaque

Cardiomyocyte

Fibroblaste

HEK293

Norépinephrine

Cytokines

Imidazoline I1-receptor

Left ventricular hypertrophy

Heart failure

Fibroblast

Norepinephrine

Efeito da Tributirina na fase de iniciação / promoção inicial da hepatocarcinogênese, associada ao desenvolvimento da doença hepática gordurosa não alcoólica em ratos Wistar / Effect of Tributirina in the initiation / initial promotion phase of hepatocarcinogenesis associated with the development of non-alcoholic fatty liver disease in Wistar rats.

Yamamoto, Roberto Carvalho

29 March 2017

O carcinoma hepatocelular (HCC) é a sexta neoplasia mais comum e a terceira causa de mortalidade por câncer no mundo. Está relacionado, principalmente, à exposição a diversos fatores de risco, como a doença hepática gordurosa não alcoólica (NAFLD). O HCC apresenta mau prognóstico; neste sentido, é importante a adoção de medidas de controle, como a quimioprevenção. A quimioprevenção é o método mais apropriado para se evitar o câncer e consiste na prevenção, inibição ou reversão das etapas iniciais da carcinogênese, pela administração de um ou mais compostos químicos sintéticos ou naturais. Diversos compostos presentes nos alimentos podem apresentar atividade quimiopreventiva, dentre esses, a tributirina (TB), pró-fármaco do ácido butírico. Dessa forma, propôs-se avaliar o efeito quimiopreventivo da TB nas etapas de iniciação/promoção inicial, em ratos submetidos ao modelo de hepatocarcinogênese do hepatócito resistente (RH) associado à NAFLD. Ratos Wistar machos foram distribuídos em Grupo dos animais não tratados (NT), e dois outros grupos experimentais, o grupo RH + NAFLD + maltodextrina (grupo controle isocalórico, CI), e o grupo RH + NAFLD + tributirina (grupo TB). Os animais do grupo CI foram tratados diariamente, por gavagem, com emulsão hiperlipídica [1 mL/100 g de peso corpóreo (p. c)], e maltodextrina (300 mg/ 100 g p.c.), enquanto que os animais do Grupo TB foram tratados diariamente, por gavagem, com emulsão hiperlipídica [1 mL/100 g de p. c.], e TB (200 mg/ 100 g de p.c.), durante 13 semanas consecutivas quando foram eutanasiados. Após esse período, a análise por cromatografia a gás revelou que o grupo dos animais tratados com a tributirina apresentou uma concentração de AB 2.118 vezes superior (p < 0.05) às concentrações de AB constatadas no grupo controle. Em relação aos dados de morfometria de LPNs [lesões pré-neoplásicas persistentes (pLPN) ou em remodelação (rLPN)], a atividade quimiopreventiva da tributirina foi observada a partir da redução (p < 0,05) significativa do número de lesões pré-neoplásicas persistentes (pLPN) em comparação ao grupo controle. A área das pLPNs, contudo, foi maior (p < 0,05) no Grupo TB quando comparada à do grupo controle isocalórico. Não foram observadas diferenças estatisticamente significativas (p >= 0,05) no número e na área de rLPN, bem como na % da área do corte do fígado ocupada por LPNs entre os dois grupos experimentais. A quantificação da apoptose por H&E revelou maior (p < 0,05) índice apoptótico em pLPN e em rLPN nos animais tratados com TB, quando comparados aos animais do grupo 6 controle. Nesse sentido, observou-se que os animais tratados com a tributirina apresentaram maior (p < 0,05) ativação de Caspase 3 do que os ratos do grupo controle isocalórico. Em relação à avaliação da proliferação celular, o Grupo TB apresentou redução (p < 0,05) do índice de proliferação tanto em pLPNs como em rLPNs, quando comparado ao do grupo controle isocalórico. Não foi observada diferença estatisticamente significativa (p > 0,05) entre os surroundings dos dois grupos experimentais. A determinação do perfil lipídico sérico revelou que os animais tratados com a tributirina apresentaram menores (p < 0,05) concentrações séricas de LDL-colesterol e maiores (p < 0,05) concentrações séricas de HDL-colesterol, quando comparados às do grupo controle. Além disso, foram observadas menores (p < 0,05) concentrações hepáticas de colesterol no Grupo TB quando comparadas às do Grupo CI. Em relação a análise por PAS, embora, o presente estudo não tenha revelado diferença estatisticamente significativa (p >= 0,05) entre os dois grupos experimentais, o score entre os graus de marcação por PAS apresentou tendência (p = 0,07) a ser maior nos animais tratados com a tributirina quando comparados aos ratos do grupo controle. Em relação à expressão gênica de FGF-21, o Grupo TB apresentou maior (p < 0,05) expressão em comparação a seu grupo controle (Grupo CI). Além disso, esses dados são corroborados por meio da marcação imunoistoquímica de FGF-21, que revelou que os animais tratados com a tributirina apresentaram maior (p < 0,05) score desta marcação quando comparados aos ratos do grupo controle isocalórico. A análise de expressão em nível proteico de PPAR-&#945; revelou que o Grupo TB apresentou maior (p < 0,05) expressão em comparação ao Grupo CI. O presente estudo demonstrou que o tratamento com a tributirina apresentou um efeito quimiopreventivo quando administrada nas etapas de iniciação/promoção inicial em modelo de hepatocarcinogênese associado à NAFLD. Adicionalmente, sugere-se que a atividade como HDACi da TB poderia modular a expressão de genes supressores de tumor, bem como a daqueles relacionados ao metabolismo lipídico, atenuando os fatores de risco relacionados à NAFLD. / Hepatocellular carcinoma (HCC) is the sixth most common neoplasm and the third leading cause of cancer mortality in the world. It is mainly related to exposure to several risk factors, such as non-alcoholic fatty liver disease (NAFLD). HCC presents poor prognosis; In this sense, it is important to adopt control measures, such as chemoprevention. Chemoprevention is the most appropriate method to avoid cancer and consists in the prevention, inhibition or reversal of the early stages of carcinogenesis by the administration of one or more synthetic or natural chemical compounds. Several compounds present in foods may present chemopreventive activity, among them, tributyrin (TB), a prodrug of butyric acid. Thus, it was proposed to evaluate the chemopreventive effect of TB in the initiation / initial promotion stages in rats submitted to the hepatocyte-resistant hepatocyte model (HR) associated with NAFLD. Male Wistar rats were divided into two groups: RH + NAFLD + maltodextrin (isocaloric control group, CI), and RH + NAFLD + tributyrin group (TB group). The animals of the CI group were treated daily with gavage with hyperlipid emulsion [1 mL / 100 g body weight (wt.)], and maltodextrin (300 mg / 100 g body wt.), while the animals of the TB Group were treated daily by gavage with hyperlipid emulsion [1 mL / 100 g of body wt.], and TB (200 mg / 100 g body wt.) for 13 consecutive weeks when they were euthanized. After this period, the gas chromatographic analysis revealed that the group of animals treated with tributyrin had a concentration of AB 2184 times higher (p < 0.05) than the concentrations of AB found in the control group. Regarding the morphometry data of PNLs [persistent pre-neoplastic lesions (pPNL) or remodeling (rPNL)], the chemopreventive activity of tributyrin was observed from a significant (p < 0.05) reduction in the number of pPNL compared to the control group. The area of the pPNLs, however, was higher (p < 0.05) in the TB Group when compared to the isocaloric control group. There were no statistically significant differences (p >= 0.05) in the number and area of rPNL, as well as in the area of the cut of the liver occupied by LPNs between the two experimental groups. The quantification of apoptosis by H&E revealed a higher (p < 0.05) apoptotic index in pPNL and rPNL in the TB treated animals, when compared to the animals in the control group. In this sense, animals treated with tributyrin showed greater (p < 0.05) activation of Caspase 3 than the rats of the isocaloric control group. In relation to the evaluation of cell proliferation, the TB group presented a reduction (p < 0.05) in the proliferation index in both pPNLs and rPNLs, when compared to the isocaloric control group. No statistically significant difference (p> 0.05) was observed between the two experimental groups. The determination of serum lipid profile revealed that the animals treated with tributyrin showed lower (p < 0.05) serum LDL-cholesterol concentrations and higher (p < 0.05) serum HDL-cholesterol concentrations when compared to those in the group control. In addition, lower hepatic concentrations (p < 0.05) of cholesterol were observed in the TB Group when compared to those in the CI Group. Regarding the SBP analysis, although the present study did not reveal a statistically significant difference (p >= 0.05) between the two experimental groups, the score between the PAS presented a tendency (p = 0.07) to be greater in animals 8 treated with tributyrin compared to the rats in the control group. In relation to the gene expression of FGF-21, the TB Group presented higher (p <0.05) expression in comparison to its control group (CI Group). In addition, these data are corroborated by FGF-21 immunohistochemical labeling, which revealed that animals treated with tributyrin showed a higher (p <0.05) score for this marker when compared to the isocaloric control rats. Analysis of protein-level expression of PPAR-&#945; revealed that the TB Group had higher (p <0.05) expression compared to the CI Group. The present study demonstrated that treatment with tributyrin had a chemopreventive effect when administered in the initiation / initial promotion steps in a hepatocarcinogenesis model associated with NAFLD. In addition, it is suggested that the activity as HDACi of TB could modulate the expression of tumor suppressor genes, as well as those related to lipid metabolism, attenuating the risk factors related to NAFLD.

Chemoprevention

Fator de crescimento de fibroblasto 21

Fibroblast growth factor 21

Hepatocarcinogênese

Hepatocarcinogenesis

Non-alcoholic fatty liver disease

PPAR-&#945;

PPAR-&#945;

Quimioprevenção

Tributirina

Tributyrin

Utilisation de cellules souches médullaires en bioingénierie tissulaire du ligament / Use of bone marrow mesenchymal stem cell in bioengineering of ligaments

Zhang, Lei

24 January 2008

Les ligaments jouent un rôle important dans le mouvement et la stabilité des articulations. Les accidents et la fatigue chronique sont les principales raisons des ruptures de ligaments qui n’ont généralement pas de capacité de guérison, ce qui conduit à de graves dysfonctionnements du ligament et des articulations. La construction des ligaments en bioingénierie donne un nouvel espoir thérapeutique. Pour construire un tel tissu, les cellules sont très importantes dans la mise en oeuvre de la construction d’un biotissu ayant de bonnes propriétés tant biologiques que mécaniques. Quelle source cellulaire et quel microenvironnement doivent être utilisés pour la reconstruction des ligaments ? L’objectif de ce travail était d’étudier la différenciation des cellules souches mésenchymateuses médullaires (CSMM) en fibroblaste. Pour ce faire, d’une part, nous avons co-cultivé des CSMM du rat sans contact avec des fibroblastes ligamentaires, et d’autre part, nous avons stimulé mécaniquement les CSMM. Un suivi des ARNm et des protéines associées caractéristiques des ligaments (collagènes I et III et ténascine-C) a été analysés. Nos résultats expérimentaux ont montré que la culture des CSMM dans un microenvironnement fibroblastique de ligaments ou l’étirement favorisent les synthèses de collagènes I et III et de ténascine-C dans les proportions proches des ligaments. L’ensemble de cette étude suggère qu’il est envisageable d’utiliser les CSMM comme source cellulaire, pour une application clinique, en ingénierie tissulaire du ligaments / Ligaments play an important role in the movement and stability of joints. Accidents and chronic fatigues are the main reasons for ligament lesion which usually is difficult for self healing and leads to serious dysfunction of ligaments and joints. The construction of bioengineering ligaments gives a new way to overcome this problem. Cells are very important in the construction of a biotissue with appropriate biological as well as mechanical properties. Which cellular source and microenvironment should be used for the reconstruction of ligaments? The objective of this work is to study the differentiation of bone marrow mesenchymal stem cell (BMSC) into fibroblast. We co-cultured indirectly rat BMSC with ligament fibroblasts or stimulated them by mechanical stretching. After that, the expressions of characteristics mRNA and protein of ligaments (collagen I, III and tenascin-C) have been analyzed. Our experimental results showed that the culture of BMSC in a microenvironment of ligament fibroblast or under stretching favored the syntheses of collagen I, III and tenascin-C in the proportions close to ligaments. In summary, these studies suggest it is feasible to use BMSC as cellular source for a clinical application in tissue engineering of ligaments

Ingénierie tissulaire du ligament

Ligament

Ténascine-C

CSMM

Fibroblaste

Co-culture sans contact

Stretching

Collagène I

Collagène III

Bioengineering of ligaments

Collagen III

Stretching

Collagen I

Ligament

BMSC

Fibroblast

Indirect co-culture

Tenascin-C