B-1 and B-2 B cell responses to lipopolysaccharide: Putative roles in the pathogenesis of periodontitis.

Philips, Julia Rachel

January 2006

Master of Science / Periodontal disease is one of the most widespread diseases in humans and is characterised by chronic gingival inflammation and B cell accumulation and resorption of the crest of alveolar bone with subsequent loss of teeth. Porphyromonas gingivalis has been identified as a putative aetiological agent for periodontitis. The aim of the research presented in this thesis was to investigate, using in vitro systems, the responses of autoreactive B-1 and B-2 cells to enterobacterial and nonenterobacterial lipopolysaccharide (LPS) to shed light on the pathogenesis of chronic periodontitis and other diseases involving B cell accumulation and autoantibody production. The hypotheses tested were: (1) B cells respond differently to enterobacterial and non-enterobacterial LPS. (2) B-1 cells are activated by a lower concentration of LPS than B-2 cells. (3) LPS stimulation results in preferential accumulation of B-1 cells. Findings consistent with these hypotheses would provide new evidence for different roles for B-1 and B-2 cells in immune responses and that LPS stimulation could lead to B-1 cell accumulation in diseases thus characterised. Initial experiments investigated the responses of representative B-1 (CH12) and B-2 (WEHI-279) cell lines to preparations of P. gingivalis and Salmonella enteritidis LPS utilising flow cytometric and quantitative molecular methods. The cell lines responded differently to the two LPS preparations. There were significant but limited effects on viability and proliferation in the WEHI-279 cell line, but no significant changes in mRNA expression levels for genes including Toll-like receptors (TLR2, TLR4, RP105), immunoglobulin (IgM), cytokines (IL-6, IL-10), co-stimulatory molecules (CD80, CD86), and regulators of apoptosis (Bcl-2, Bax). In the CH12 cell line however, LPS stimulation had greater effect. Addition of S. enteritidis LPS from a threshold level of 100ng/mL was found to rescue the cells from death, reflected by the percentage viability and proliferation. Stimulation of CH12 cells with S. enteritidis LPS also led to a decrease in expression of RP105 mRNA, which may be part of a negative feedback loop. Interestingly, stimulation with low concentrations P. gingivalis LPS appeared to inhibit proliferation but high LPS concentrations stimulated proliferation of CH12 cells, although no further significant effects were noted in other analyses. Evidence was found that CH12 cells have a high basal level of activation. This suggests that this line is constitutively activated. Stimulation with P. gingivalis or S. enteritidis LPS did not affect the level of CD80 mRNA expression. It is possible that the CH12 line constitutively expresses a maximal level of CD80 (and possibly CD86) and further stimulation will not cause any increase. Since S. enteritidis LPS appeared to have more pronounced effects on both B cell populations, this LPS was used to further investigate B cell subset responses in a mixed splenocyte culture system. Experiments examining percentage viability and number of viable cells indicated that B-1 and B-2 B cells responded differently to LPS stimulation. A threshold level for B-2 cell response (significant increase in cell number) was found to be 100ng/mL LPS, in contrast to the B-1 B cell subset which were only significantly different to the unstimulated cells when stimulated with 50μg/mL LPS. By examining the expression of CD80, the majority of murine splenic B-1 cells were found to activated prior to any LPS stimulation in vitro. In contrast, the B-2 subset showed significant increase in CD80 expression only at high (≥10μg/mL) LPS concentrations. Studies of the division index of B-1 and B-2 cells showed a significant response in both subsets following stimulation with 1μg/mL and 10μg/mL LPS. However, overall, the results are inconsistent with LPS driving the preferential accumulation of B-1 cells in disease states. These experiments provided useful evidence that supported the idea that B-1 and B-2 cells respond differently to LPS. However, these studies were unable to directly address the role of P. gingivalis LPS in periodontitis. It may be that P. gingivalis LPS could have different effects to S. enteritidis LPS on primary B cells. It is still possible that B-1 cells may be more sensitive to P. gingivalis, as opposed to S. enteritidis LPS. Studies by other groups have suggested that the TH1/TH2 profile is skewed towards TH2 in chronic periodontitis and that P. gingivalis may drive this shift via its ability to signal through TLR2 (and modulate TLR4 signalling). Further, recent studies in our laboratories have found that P. gingivalis gingipains are able to polyclonally activate B cells and to break down both IFNγ and IL-12. Future studies should further examine the effects of B-1 and B-2 interactions in the mixed lymphocyte system together with subsequent studies utilising human periodontitis biopsies. The results presented in this thesis, together with work undertaken by other investigators, suggests that LPS could perturb the normal homeostatic mechanisms of the B-1 B cell-subset and increase polyclonal activation therefore contributing to the genesis of pathologies such as chronic periodontitis.

B-1 B cells

lipopolysaccharide

periodontitis

murine model

B-2 B cells

Altérations physiologiques et récupération à long terme dans un modéle murin de séparation associée à une restriction du temps d'accés à l'alimentation : un outil pour l'étude des conséquences de l'anorexie mentale / Physiological changes and long-term recovery in a murine model of separation associated with a time restricted feeding : tool for the study of consequences of Anorexia Nervosa

Zgheib, Sara

10 September 2014

L'anorexie mentale (AM) est un trouble du comportement alimentaire qui se caractérise par une recherche obsessionnelle de minceur, une forte réduction de la prise alimentaire et une distorsion de l'image de soi. Elle est associée à de multiples perturbations endocriniennes et métaboliques, et à une altération de la masse et de la microarchitecture osseuses. Les facteurs et les mécanismes qui interviennent dans cette maladie sont très mal connus ce qui limite les options thérapeutiques. Il est donc nécessaire de développer un modèle animal qui reproduise les perturbations physiologiques observées en AM et permette d'étudier les facteurs associés à l'altération osseuse. Dans ce but nous avons développé un modèle murin avec une restriction du temps d'accès à l'alimentation associée à un stress induit par la séparation (separation-based anorexia, SBA). Cette phase SBA de 10 semaines est suivie d'une phase de récupération en conditions standard (REC) de 10 semaines. Chez les souris femelles C57B1/6 en fin de croissance rapide, la phase SBA induit une perte rapide et importante du poids corporel. L'analyse de la composition corporelle par DEXA révèle une diminution rapide de près de 40% de la masse grasse ainsi qu'une baisse progressive de la masse maigre et un arrêt de l'acquisition de la masse osseuse. Au niveau des tibias, la densité minérale cortical et la microarchitecture trabéculaire sont altérées. L'observation des frottis vaginaux et la mesure des ovaires révèlent une perturbation importante des fonctions reproductrices. Les tests de tolérance au glucose ont montré que les souris SBA ont une capacité très élevée à corriger la glycémie. Ces animaux sont fortement hypoleptinémiques, et l'axe GH-IGF-1 est très perturbé. L'étude de l'expression génique de différents tissus adipeux a montré une augmentation du niveau des marqueurs de lipogénèse et de lipolyse, ainsi qu'une forte induction du phénotype "adipocyte brun" dans le tissu adipeux sous-cutané. Après deux semaines de REC, les souris SBA retrouvent très rapidement leur poids corporel, leurs masses maigre et grasse. La masse minérale toujours basse à ce stade est corrigée après 10 semaines de REC, ainsi que la microarchitecture osseuse (étude préliminaire). Tous les autres paramètres étudiés sont normalisés, sauf l'hypoleptinémie qui étonnamment persiste même après 10 semaines de protocol REC et malgré la normalisation de la masse adipeuse. D'après ces résultats, on peut conclure que le modèle SBA reproduit de nombreuses perturbations physiologiques observées en AM. La phase de REC révèle que ces souris ont une importante capacité de récupération. L'hypoleptinémie persistante pourrait favoriser la récupération. L'identification des mécanismes impliqués pourrait fournir des pistes thérapeutiques afin de favoriser la reconstitution du capital osseux des patientes anorexiques. / Anorexia nervosa (AN) is an eating disorder mainly developed in adolescent girls and young women. It is characterized by an obsessive search for thinness, a profound undernutrition and a distorted self-image.It is associated with multiple endocrine and metabolic disturbances, decreased bone mass and microarchitectural alteration. Some of the developed adaptations are supposed to be involved in the blockade of the pathologic state. Unfortunately, these adaptations are poorly known and most of them cannot be studied on patients. So it is necessary to develop an animal model which mimics the main consequences observed in human pathology and allows studying the recovery process. For this purpose we adapted a murine model of time restricted feeding associated with chronic stress induced by separation-based anorexia (SBA). C57B1/6 female mice are submitted to a long term SBA protocol (10 weeks) and then a long term phase of recovery (10 weeks). At the beginning of the protocol mice are 8 weeks old, so their fast growth is finishing. SBA protocol induced a rapid and significant loss of body weight. Body composition analysis by DEXA showed a 40% decrease of the fat mass, a progressive loss of lean mass and a blockade of bone mass acquisition. Mice deveoped a high glucose tolerance. The observation of vaginal smears revealed a disruption of the estrous cycle and ovarian histology showed an atrophy of the ovaries. These two alterations suggest a major alteration of reproductive functions. These animals showed a very low leptinemia, and the GH/IGF-1 axis was disrupted. The study of bone alteration by microtomography indicated an alteration of bone microarchitecture and of cortical bone mass, mimicking osteoporosis often described in AN patients. Body weight, lean and fat masses were normalized quickly during the REC protocol. Bone mineral content still low after 2 weeks of REC protocol was fully corrected after 10 weeks. The estrous cycle ovarian size and the GH/IGF-I were normalized. Surprisingly, hypoleptinemia persisted even after 10 weeks of REC and despite the normalization of the fat mass. This result has been confirmed by the low level of leptin gene expression in various adipose tissues. Finally, the SBA protocol is valuable model of AN because numerous physiological alterations described in AN are mimicked in this model. The recovery phase revealed the high capacity of mice to normalize the long term alterations. Persitent hypoleptinemia could contribute to the normalization of body composition. However, the balance between central and peripheral effects of the uncorrected hypoleptinemia remains to be determined. This persisting hypoleptinemia could be used for the revision of the therapeutic strategies aiming to correct AN-induced osteoporosis.

Anorexie mentale

Modèle murin

Physiopathologie osseuse

Anorexia nervosa

Murine model

Osseous physiopathology

Rôle du facteur de transcription STOX1 dans la physiopathologie de la prééclampsie : apport d'un modèle cellulaire et d'un modèle murin de transgénèse additive / Pas de titre en anglais

Gouny-Doridot, Ludivine

27 June 2013

La prééclampsie est une maladie fréquente de la grossesse, caractérisée par l’apparition de novo d’une hypertension et d’une protéinurie à partir de la 20ème semaine d’aménorrhée. Ces symptômes s’aggravent au long de la grossesse, conduisant éventuellement à la mort maternelle en l’absence de prise en charge médicalisée. La thérapeutique définitive l’extraction du placenta, et donc du fœtus, ce qui induit une importante prématurité iatrogène. Les causes restent mal définies, mais il est bien admis que des anomalies au niveau de la mise en place du placenta sont au cœur de sa physiopathologie. Un défaut d’invasion trophoblastique des artères spiralées utérines semble être une constante de la maladie. Des données épidémiologiques démontrent qu’il existe une forte composante génétique dans la prééclampsie, et en 2005, un clonage positionnel dans des familles hollandaises, aboutit à l’identification de STOX1 comme le premier gène lié à cette maladie. STOX1 code un facteur de transcription intervenant dans le contrôle de la prolifération et de l’invasion des trophoblastes. Dans notre laboratoire, l’étude de STOX1 a été initiée par surexpression dans des cellules de choriocarcinome humain (modèle de trophoblastes) suivie d’une analyse transcriptomique. Celle-ci a révélé que les altérations d’expression génique observées suite à la surexpression de STOX1 étaient significativement corrélées à celles trouvées dans des placentas prééclamptiques. La création de souris transgéniques exprimant la version humaine de STOX1 sous le contrôle d’un promoteur ubiquitaire a alors été entreprise. Mes travaux de thèse ont principalement consisté à caractériser le phénotype de ces souris. Nous avons décidé de croiser des mâles transgéniques avec des souris sauvages afin de limiter l’expression du transgène à l’unité fœto-placentaire. Ces souris sauvages développent au cours de leur gestation une hypertension sévère, et une protéinurie. Elles constituent donc un nouveau modèle de prééclampsie. De plus, nous avons observé des anomalies que l’on trouve également chez les patientes : une fibrose rénale, une élévation des taux sériques de facteurs pro-angiogéniques (le récepteur soluble du VEGF et l’endogline soluble). Ces souris ont également des marqueurs d’hypertrophie cardiaque, attestant de l’impact sévère de l’hypertension. Pour mieux comprendre comment STOX1 peut induire ce syndrome, nous avons étudié son impact dans le modèle cellulaire surexprimant STOX1 et nous avons pu montré une altération de la gestion du stress oxydatif et de la fonction mitochondriale. En conclusion, nous avons obtenu et caractérisé un modèle de prééclampsie sévère, le seul existant montrant un phénotype hypertensif très marqué et très précoce. Ce modèle est un outil puissant pour découvrir de nouvelles voies impliquées dans la physiopathologie de la prééclampsie, pour rechercher de potentiels marqueurs diagnostiques précoces, tester des approches thérapeutiques innovantes et explorer les mécanismes responsables des conséquences à long terme de la prééclampsie. / Preeclampsia is a common disease of pregnancy characterized by de novo appearance of hypertension and proteinuria from the 20th week of gestation. These symptoms worsen during pregnancy, possibly leading to maternal death in the absence of medical management. The only final treatment is the extraction of placenta and so fetus, which is responsible to a significant iatrogenic prematurity. The causes remain unclear, but it is well accepted that abnormalities in the development of the placenta are at the heart of its pathophysiology. A lack of trophoblastic invasion of the uterine spiral arteries seems to be a constant of the disease. Epidemiological data show that there is a strong genetic component in preeclampsia, and in 2005, a positional cloning in Dutch families led to the identification of STOX1 as the first gene linked to the disease. STOX1 encode a transcription factor involved in the control of proliferation and invasion of trophoblasts. In our laboratory, the study of STOX1 was initiated by its overexpression in human choriocarcinoma cells (trophoblast model) followed by transcriptome analysis. This revealed that the gene expression changes observed after STOX1 overexpression were significantly correlated with those found in preeclamptic placentas. The creation of transgenic mice expressing the human version of STOX1 under the control of a ubiquitous promoter was then initiated. My work during this thesis consisted primarily to characterize the phenotype of these mice. We decided to cross transgenic males with wild-type mice to limit transgene expression in fetal-placental unit. These wild mice develop during gestation severe hypertension and proteinuria. They therefore constitute a new model of preeclampsia. In addition, we observed anomalies that are also found in patients: renal fibrosis, elevated serum levels of pro-angiogenic factors (soluble VEGF receptor and soluble endoglin). These mice also have markers of cardiac hypertrophy, attesting for the severe impact of hypertension. To better understand how STOX1 can induce the syndrome, we studied its impact on the cell model overexpressing STOX1 and we showed a change in the management of oxidative stress and mitochondrial function. In conclusion, we have obtained and characterized a model of severe preeclampsia, the only existing one showing a very strong and very early hypertensive phenotype. This model is a powerful tool for discovering new pathways involved in the pathophysiology of preeclampsia, for searching potential early diagnostic markers, for testing innovative therapeutic approaches and for exploring the mechanisms responsible for the long-term consequences of preeclampsia.

Prééclampsie

STOX1

Modèle murin

Pathophysiologie

Placenta

Génétique

Preeclampsia

STOX1

Murine model

Pathophysiology

Placenta

Genetics

610

HSCB, a co-chaperone in mitochondrial iron-sulfur cluster biogenesis, is a novel candidate gene for congenital sideroblastic anemia

Crispin, Andrew

01 November 2017

Congenital sideroblastic anemias (CSA) are inherited diseases resulting from defects in heme biosynthesis, mitochondrial iron-sulfur cluster (ISC) assembly, or mitochondrial translation. CSAs are characterized by pathological iron deposits in the mitochondria of bone marrow erythroblasts. Recently the Fleming Lab at Boston Children’s Hospital has reported mutations in HSPA9, a chaperone involved in ISC assembly, as a cause of nonsyndromic CSA. Here we identified a CSA patient harboring two variants in HSCB, encoding a binding partner of HSPA9: a paternally inherited promoter variant (c-134C>A) and a maternally inherited frameshift variant (T87fs) predicted to result in a truncated protein. To better understand the pathophysiology of these variants, we investigated HSCB protein expression and function in patient-derived skin fibroblasts. Patient fibroblasts show evidence of decreased HSCB protein levels. shRNA targeting HSCB was employed to specifically suppress HSCB expression in the K562 erythroid-like cell line model. shRNA-infected K562 cells presented with perturbed iron homeostasis, a shift to glycolytic energy production, and diminished hemoglobinization. Targeted deletion of murine Hscb is embryonic lethal prior day E7.0. Tissue-specific lox-Cre transgenic lines, including Vav-, EpoR- and Mx-Cre demonstrate that Hscb is essential for hematopoiesis and erythropoiesis. Mutant mice present with hematopoietic defects similar to the index patient. Vav-Cre animals die prior to post-natal day 9 with decreased red cell counts, white cell counts, and decreased hemoglobin compared to wild-type animals. Floxed-null EpoR-Cre animals die before embryonic day 13. To excise Hscb specifically in the hematopoietic compartment of adult animals, conditional Mx-Cre animals were generated through bone marrow transplantation and temporally induced with polyinosinic-polycytidylic acid treatment. The animals died 22 days post-injection with decreased red blood cells, white blood cells, hemoglobin, and an overall decline in hematopoiesis of the bone marrow. These data demonstrate that HSCB is required for erythropoiesis and hematopoiesis and that the patient mutations are a pathogenic cause of CSA.

Molecular biology

Erythropoiesis

Iron

Iron-sulfur cluster

Mitochondria

Murine model

Sideroblastic anemia

Efficacy of gelatin gel sheets in sustaining the release of basic fibroblast growth factor for murine skin defects / マウス皮膚欠損創モデルにおける塩基性線維芽細胞増殖因子（bFGF）徐放性ゼラチンゲルシートの有効性

Sakamoto, Michiharu

23 September 2016

京都大学 / 0048 / 新制・論文博士 / 博士(医学) / 乙第13051号 / 論医博第2117号 / 新制||医||1017(附属図書館) / 33141 / (主査)教授 別所 和久, 教授 椛島 健治, 教授 開 祐司 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM

Gelatin gel

Basic fibroblast growth factor

Sustained release

Wound healing

Murine model

Cutometer

490

THE SKELETAL PHENOTYPE OF THE KK/AY MURINE MODEL OF TYPE 2 DIABETES

Nusaiba Nahola Chowdhury (13169310)

08 September 2022

<p> </p> <p>Type-2-diabetes (T2D) is a progressive metabolic disease characterized by insulin resistance and β-cell dysfunction leading to persistent hyperglycemia. It is a multisystem disease that causes deterioration of multiple organ systems and obesity. Of interest, T2D affects the urinary system and is the leading cause of kidney disease. Both T2D and chronic kidney negatively impacts the skeletal system and increases fracture incidence in patients. Therefore, it is important to establish an animal model that captures the complex multiorgan effects that is common in T2D. In this study, we characterized the metabolic phenotype of the KK/Ay mouse model, a polygenic mutation model of T2D. We concluded that KK/Ay mice closely mimic T2D and are hyperglycemic, hyperinsulinemic and insulin resistant. KK/Ay mice have also had worsened kidney function as supported by elevated levels of blood urea nitrogen, phosphorous, creatinine, and calcium in plasma exhibiting the kidney’s inefficiency in clearing waste from the body. Even though we were able to confirm a metabolic phenotype for T2D and diabetic nephropathy, the skeletal effects of the disease were minimal and major differences in bone physiology were driven by sex differences. This study offered valuable insight into preliminary endpoints for the KK/Ay mouse mode that will decide the direction for future use of this model. We plan to use older mice in future studies to allow a longer time for skeletal effects to more prominently manifest.</p>

Diabetes

Type-2-Diabetes

KK/Ay Murine Model

Rôle d’ADAMTSL2 et FBN1 dans l’ossification endochondrale : étude des modèles murins mimant la dysplasie géléophysique / Role of ADAMTSL2 and FBN1 in endochondral ossification : study of murine models miming geleophysic dysplasia

Delhon, Laure

28 November 2017

La dysplasie géléophysique (DG) est une maladie rare qui appartient à la famille des dysplasies acroméliques. Cette pathologie est caractérisée par un retard statural, une brachydactylie, une raideur articulaire, une dysmorphie faciale, une peau épaisse, une atteinte bronchopulmonaire et une surcharge valvulaire cardiaque conduisant le plus souvent à une mort précoce dans les premières années de la vie. Deux modes de transmissions ont été identifiés. Le premier autosomique récessif est dû à des mutations dans le gène ADAMTSL2. Le second, autosomique dominant est dû à un hot-spot de mutations dans les exons 41 et 42 qui codent pour le domaine Transforming Growth Factor (TGF) β-binding protein-like domain 5 (TB5) du gène FBN1. FBN1 et ADAMTSL2 codent pour des protéines sécrétées de la matrice extracellulaire (MEC). FBN1 code pour la fibrilline-1, une composante des microfibrilles qui jouent un rôle dans la biodisponibilité du TGFβ. La protéine ADAMTSL2 fait partie de la famille des ADAMTS mais n’a pas d’activité enzymatique dû à l’absence de domaine catalytique. Sa fonction est encore inconnue. Cependant des partenaires d’ADAMTSL2 ont été identifiés par notre équipe : latent-transforming growth factor beta-binding protein 1 (LTBP1) et FBN1 qui sont directement impliqués dans le stockage de TGFβ. Récemment une autre protéine, FBN2, a aussi été découverte comme partenaire d’ADAMTSL2 (Hubmacher D et. al.). L’objectif de ma thèse était de comprendre le mécanisme physiopathologique de la DG, grâce à l’analyse de modèles murins. Un premier modèle murin pour la forme récessive de la DG appelé CreCMV; Adamtsl2f/f (ou KO) a été généré. L’analyse phénotypique de ces souris a montré un retard statural, des os longs courts, des extrémités courtes. Dans les plaques de croissance des os longs des souris mutantes, nous avons observé une désorganisation des colonnes chondrocytaires associée à une diminution de l’expression du collagène de type 10, marqueur de la différentiation des chondrocytes. L’analyse de la matrice extracellulaire des plaques de croissance a révélé une désorganisation structurale importante. Une diminution de la fibrilline-1 et de LTBP-1 a été observée ainsi qu’une augmentation de l’activation de la voie de signalisation TGFβ au niveau de la plaque de croissance des souris mutantes. Nous avons observé une désorganisation du réseau microfibrillaire sur des cultures de chondrocytes de souris mutantes. Ces résultats nous ont permis de suggérer que la protéine ADAMTSL2 est impliquée dans la structure du réseau microfibrillaire, lieu de stockage du TGFβ et de démontrer un rôle majeur d’ADAMTSL2 dans la régulation de la chondrogenèse. Afin d’étudier la forme dominante de la DG, le modèle FBN1TB5+/- a été généré. Il est issu d’un système knock-in avec une mutation dans l’exon 42 du gène fbn1 qui correspond au domaine TB5 de la fibrilline-1. Nos résultats ont montré une réduction de la taille des souris hétérozygotes et homozygotes en comparaison aux souris sauvages au stade P1 et P30. Au stade P1, nous avons observé des chondrocytes plus larges et une dérégulation des marqueurs de la chondrogenèse au niveau de la plaque de croissance des fémurs des souris hétérozygotes, ainsi que chez les souris homozygotes. De plus, nous avons observé une très forte mortalité des souris homozygotes vers l’âge de 2 ou 3 mois. Nous en avons conclu que des mutations domaine TB5 de la fibrilline étaient liées à un retard statural et donc que FBN1 avait un rôle majeur dans la chondrogenèse. / Geleophysic dysplasia (GD) is a rare disease, which belong to acromelic group. This pathology is characterized by short stature, brachydactyly, joint stiffness, thick skin, facial dimorphism, broncho-pulmonary insufficiency and cardiac disease which lead to an early death in the first years of life. Two mode of inheritance have been identified. The first one, autosomal recessive, is due to mutations in ADAMTSL2 gene. The second, autosomal dominant, is due to hot-spot mutations in exon 41-42 of FBN1 gene, which encode the Transforming Growth Factor (TGF) β-binding protein-like domain 5 (TB5) of the protein. FBN1 and ADAMTSL2 encode secreted proteins of the extracellular matrix (ECM). FBN1 encodes fibrilline-1, component of microfibrillar network, playing a role in the bioavailability of TGF- β. ADAMTSL2 protein belongs to ADAMTS family, but does not have enzymatic activity due to lack of catalytic domain. Its function remains unknown. However, ADAMTSL2 partners have been identified by our team: latent-transforming growth factor beta-binding protein 1 (LTBP1) and FBN1, which are directly implied in storage of TGF-β. Recently, another protein, FBN2, have been identified as an ADAMTSL2 partner (Hubmacher D et. al.). The aim of my study was to understand the physiopathological mechanism of Geleophysic dysplasia by analysing murine models. A first murine model for the GD recessive form, CreCMV; Adamtsl2f/f (KO), have been generated. Phenotypic analysis of these mice showed short stature and shorter long bones and extremities. In long bone growth plate of mutant mice, we observed disorganization of chondrocyte columns, associated with decrease of collagen 10 expression, marker of chondrocyte differentiation. Analysis of ECM in growth plate revealed strong structural disorganization. Decrease of FBN1 and LTBP1 and were observed with an overactivation of TGF-β pathway in growth plate of mutant mice. We observed disorganization of microfibrillar network in chondrocyte cultures of mutant mice. These results suggest that ADAMTSL2 protein is implied in structure of microfibrillar network, where is stored TGF-β, and demonstrate major role of ADAMTSL2 in chondrogenesis. In order to study dominant form of GD, mouse model FBN1TB5+/-, have been generated. The mice were obtained by knock-in system, with mutation in exon 42 of FBN1 gene. Our results showed short stature of heterozygous (HT) and homozygous (Ho) mice compared to wild)type mice, at stage P1 and P30. At stage P1, we observed larger chondrocytes and deregulation of chondrogenesis markers in growth plate of HT and Ho mice. Furthermore, we observed high mortality of Ho mice at 2-3 months. We concluded that mutations in TB5 domain of FBN1 were linked to short stature and thus FBN1 have major role in chondrogenesis.

Matrice extracellulaire

Ossification endochondrale

Plaque de croissance

Fibrilline

ADAMTSL

Modèle murin

Extracellular matrix

Endochondral ossification

Fibrillin

ADAMTSL

Murine model

616.71

Using magnetic resonance imaging to track inflammatory cells in a murine myocardial infarction model

Yang, Yidong

08 April 2009

In cellular MRI, micrometer-sized iron oxide particles (MPIO) are a more sensitive contrast agent for tracking inflammatory-cell migration compared to ultra-small superparamagnetic iron oxide particles (USPIO). Inflammation, which promotes adverse tissue remodeling, is known to occur in the viable myocardium adjacent to the necrosed area after a myocardial infarction (MI). This study investigated the temporal relationship between inflammatory cell infiltration and cardiac function during tissue remodeling post-MI using MPIO-enhanced MRI. The MPIO were injected into 7 C57Bl/6 mice (MI+MPIO group) via intravenous administration. The MI was induced 7 days post-MPIO injection. As control groups, 7 mice (Sham+MPIO group) underwent sham-operated surgery without myocardial injury post-MPIO injection and another 6 mice (MI-MPIO group) underwent MI surgery without MPIO injection. MRIs performed post-MI showed a significant signal attenuation at the MI zone in the MI+MPIO group compared to the control groups. The findings suggested that the inflammatory cells containing MPIO infiltrated into the myocardial injury site. Cardiac function was also measured and correlated with the labeled-cell infiltration at the MI site. This study demonstrated a noninvasive technique for monitoring inflammatory cell migration using the MPIO contrast agent. This MPIO-enhanced MRI technique could provide additional insight concerning cardiac disease progression that would improve therapeutic treatment for MI patients.

Myocardial infarction

Murine model

MPIO contrast agent

Inflammation

Magnetic resonance imaging

Myocardial infarction

Tissue remodeling

Inflammation

Cell migration

Plaque deposition and microglia response under the influence of hypoxia in a murine model of Alzheimer\'s disease

Viehweger, Adrian

03 January 2014

Clinical findings have linked multiple risk factors and associated pathologies to Alzheimer\'s disease (AD). Amongst them are vascular risk factors such as hypertension and pathologies such as stroke. Coexistence of AD and these associated pathologies worsenes dementia, the clinical hallmark of the disease, as compared to pure AD. One general common denominator of these associated pathologies is the presence of hypoxic tissue conditions. It was asked the question, whether there exists a mutual, causal interaction between hypoxia and AD pathology, that could explain the clinical observations. Alternatively, the worsened clinical state of multiple brain pathologies could \"simply\" be the consequence of multimorbidity, i.e. accumulated disease load, without any causal interaction between the constituents. To approach this question whether hypoxia influences AD progression, use was made of a murine animal model of AD (transgenic mice: APPswe, PSEN1dE). Animals of two ages (8 and 14 months, \"young\" and \"old\" respectively) and two genotypes (transgenic and wild- type) were either treated under hypoxia or normoxia, corresponding to 8% and 21% oxygen, for 20 consecutive days. The resulting changes in the brain were assessed with a variety of techniques, namely by histology, ELISA, dot and Western blotting. Additional experiments in primary cell cultures were performed. Animals exposed to hypoxia showed an increased hematocrit (HCT), weight loss, reactive angiogenesis, but no infarctions. This illustrates that our hypoxic treatment put significant stress on the animals, without causing major pathologies. A large number of variables exists that could potentially be measured to assess the effect of hypoxia on AD. The focus was put on three of them: First, there is the Abeta1-42- protein, known to be the Abeta- isoform associated with the most detrimental disease progression. In AD, the self-combinatory Amyloid- beta peptide (Abeta) accumulates in the brain in so- called plaques, which is a main histologic finding of the disease. Its quantity was determined through histology and ELISA. Secondly, it was attempted to estimate the structural quality of the Abeta- protein by assessing the amount of A!- oligomers present. Abeta- protein does self- accumulate in various grades of complexity, i.e. as monomer, oligomer or fibril. Since oligomers are known to be the most neurotoxic \"species\" of the Abeta- protein, it was hypothesized that under hypoxic treatment their quantity could increase. And third, the organism\'s response to the Abeta- protein stimulus was investigated. Microglial cells have been described as the first cells to encounter the Abeta- protein \"threat\" in the shape of plaques, i.e. Abeta- protein aggregates. They then try to encapsulate and subsequently degrade them. Therefore, the attention was put on this cellular population. It was asked whether hypoxia could change the Abeta- protein quantity in the brain. This was assessed in two ways: First histologically, by staining for Abeta- protein depositions and quantifying them. Second, an ELISA was performed. Our findings state that hypoxic treatment does not alter the Abeta1-42 protein load in the brain, neither in young nor old animals, as assessed by histology and by total ELISA quantification of Abeta1-42 protein. Since hypoxia did not alter the quantity of the Abeta- protein, it was asked whether it influenced it qualitatively? If hypoxia increased oligomer formation, this change in the spectrum of the Abeta- species could, without any change in total Abeta- protein load, lead to increased neurotoxicity in animals under hypoxia. Initial experiments showed that oligomer formation in the brain seems to increase. However, this was not statistically significant and future experiments are necessary to evaluate this hypothesis further. It was then asked, whether hypoxia alters the cellular response to the protein. The total number of microglia in the hippocampal dentate gyrus, our structure of interest for practical purposes, and, it can be argued, by extension the brain, changes dynamically with various factors. First, transgenic animals present an increase in microglia. Second, microglia increase with age. Third, microglia decrease under hypoxia, but only do so significantly in old animals. Next, a parameter called \"plaque occupancy\" was coined to assess the microglia function to confront Abeta- plaques. Plaque occupancy is defined as the number of microglia in spatial proximity to one square millimeter of Abeta- plaque. This means, that microglia restricting one plaque are counted, and then normalized to this plaque\'s area. It was hypothesized that hypoxia would decrease plaque occupancy. Indeed, plaque occupancy roughly halved under hypoxia. Summarizing, our results demonstrate that long- term exposure to hypoxia significantly reduces the number of microglia. The reduced number results in significantly reduced plaque occupancy and compromizes the function of microglia to confront Abeta- plaques. The Abeta1-42 load, however, is not affected. On the other hand, Abeta shows an increased trend towards oligomer formation. A variety of possible explanations to these phenomena have been presented, that in our opinion deserve further investigation.

Alzheimersche Erkrankung

Neurodegeneration

APP/PS1 Mausmodell

Mikroglia

Hypoxie

Alzheimer\'s disease

neurodegeneration

APP/PS1 murine model

microglia

hypoxia

ddc:600

Doença esteatóica não alcoólica do fígado: comparação das alterações histológicas hepáticas entre modelo murino e pacientes obesos

Palma, Luana Carneiro

January 2013

Submitted by Ana Maria Fiscina Sampaio (fiscina@bahia.fiocruz.br) on 2013-10-15T15:33:27Z No. of bitstreams: 1 Luana Palma. Doença esteatotica...2012.pdf: 6491139 bytes, checksum: 17714fa9ab206495fbf5e1aa05890deb (MD5) / Made available in DSpace on 2013-10-15T15:33:27Z (GMT). No. of bitstreams: 1 Luana Palma. Doença esteatotica...2012.pdf: 6491139 bytes, checksum: 17714fa9ab206495fbf5e1aa05890deb (MD5) Previous issue date: 2013 / Universidade Federal da Bahia. Salvador, BA, Brasil / Fundação Oswaldo Cruz. Centro de Pesquisas Gonçalo Moniz. Salvador, BA, Brasil / A Doença Esteatótica Não Alcoólica do Fígado (do inglês Nonalcoholic Fatty Liver Disease – NAFLD) é uma doença crônica hepática de caráter espectral, que vai desde a esteatose simples até a esteato-hepatite não alcoólica. A progressão para cirrose e carcinoma hepatocelular têm sido descrita. A NAFLD apresenta aspectos histológicos semelhantes à doença hepática relacionada ao álcool (esteatose, inflamação lobular, corpúsculos de Mallory e fibrose), mas acomete indivíduos com história negativa de consumo excessivo de álcool. A NAFLD é uma das principais doenças crônicas hepáticas mundiais, e os indivíduos obesos representam a maioria dos casos da doença. Os mecanismos envolvidos na progressão da esteatose para esteato-hepatite não são bem compreendidos. Neste aspecto, modelos murinos da NAFLD têm sido frequentemente utilizados para elucidação destes mecanismos. A maioria dos modelos disponíveis é resultante de modificações genéticas e/ou nutricionais e, em geral, não simulam as alterações metabólicas e histológicas comumente vistas em pacientes com NAFLD. Em nosso grupo, foi proposto um novo modelo de NAFLD. Camundongos C57BL/6 alimentados com dieta rica em gordura (High Fat - HF) demonstraram alterações metabólicas e histológicas sugestivas de NAFLD. O objetivo do presente trabalho foi comparar alterações histológicas hepáticas presentes nestes camundongos com as alterações observadas em pacientes obesos. Amostras de fígados de pacientes obesos e de camundongos alimentados com a dieta HF foram utilizadas. Os tecidos hepáticos foram corados em Hematoxilina & Eosina e Picrossírius Red para avaliação das alterações hepáticas (esteatose, balonização, inflamação, corpúsculos de Mallory-Denk e fibrose). Além disso, foi realizada imunoistoquímica para avaliação da presença de células estrelares ativadas e de células progenitoras hepáticas, células envolvidas na fibrose e no desenvolvimento de carcinoma hepatocelular, respectivamente. Os resultados demonstraram que os fígados de todos os pacientes obesos exibiram esteatose macrovacuolar, balonização hepatocelular, inflamação lobular e fibrose perissinusoidal, o que caracterizou estes pacientes como portadores da NAFLD. As mesmas alterações foram observadas em fígados de camundongos alimentados com a dieta HF. As células estrelares ativadas foram observadas em todos os pacientes obesos, assim como em camundongos de dieta HF. As células progenitoras hepáticas foram observadas na maioria dos pacientes obesos. O fígado de todos os camundongos alimentados com dieta HF exibiram células progenitoras hepáticas. A partir dos dados obtidos, pode-se concluir que fígados de camundongos alimentados com dieta HF exibem alterações histológicas hepáticas similares às observadas em pacientes obesos. Isto abre perspectivas para a utilização do modelo proposto em estudos que busquem elucidar os mecanismos envolvidos na patogênese da NAFLD. / Nonalcoholic Fatty Liver Disease (NAFLD) is a chronic liver disease ranging from simple steatosis to nonalcoholic steatohepatitis. The progression to cirrhosis and hepatocellular carcinoma has been reported. The NAFLD shows histological features similar to alcohol-related liver disease (steatosis, lobular inflammation, fibrosis and Mallory-Denk bodies), but affects individuals with no history of excessive alcohol consumption. The NAFLD is a major chronic hepatic disease in the world, and obese individuals represent the majority of cases of the disease. The mechanisms involved in the progression of steatosis to steatohepatitis are not well understood. In this regard, murine models of NAFLD have been frequently used for elucidation of these mechanisms. Most available models are the result of genetic or nutritional modifications, and generally do not mimic metabolic and histologic changes commonly seen in patients with NAFLD. In our group, we have proposed a new model of NAFLD. Mice fed high fat diet (HF diet) demonstrated metabolic and histological features suggestive of NAFLD. The aim of this study was to compare liver histological alterations present in these mice with the changes observed in obese patients. Samples of livers of obese patients and mice fed HF diet were used. For assessment of liver alterations, such as steatosis, ballooning, inflammation, Mallory- Denk bodies and fibrosis, tissues were stained with hematoxylin & eosin and picrossirius red. In addition, the presence of activated stellate and progenitor liver cells was estimated using immunohistochemistry. The results show that the livers of all obese patients exhibited macrovesicular steatosis, hepatocellular ballooning, perisinusoidal fibrosis, and lobular inflammation, which characterized these patients with NAFLD. Similar changes were observed in livers of mice that fed the HF diet. Activated stellate cells were observed in all obese patients as well as in mice HF. Hepatic progenitor cells were observed in most obese patients. The liver of all animals fed the HF diet exhibited liver progenitor cells. From the data obtained, it can be concluded that livers of mice fed with HF diet exhibit liver abnormalities similar to those observed in obese patients. This opens perspectives for the use of the proposed model in studies that seek to elucidate the mechanisms involved in the pathogenesis of NAFLD.

Obesidade

Modelo murino

Patogênese

Nonalcoholic fatty liver disease

Obesity

Murine model

Pathogenesis