Taking Pressure of Anaplastic Thyroid Carcinoma : Molecular Studies of Apoptosis and Interstitial Hypertension

Roswall, Pernilla

January 2006

Molecular mechanisms in the development and progression of thyroid carcinomas are still not fully understood. In the present thesis the highly malignant anaplastic thyroid carcinoma (ATC) was used to study regulation of apoptosis and tumor interstitial fluid pressure (IFP). Addition of a natural estrogen metabolite, 2-Methoxyestradiol (2-ME), induced a G2/M cell cycle arrest and apoptosis in five out of six human ATC cell lines. Treatment with 2-ME induced DNA-fragmentation as well as activation of caspase-3. Inhibitors of JNK and p38 MAPKs activity decreased the effect of 2-ME suggesting involvement in the induction of apoptosis. Solid tumors have an elevated IFP. High IFP forms or reflects a barrier for exchange of molecules between microvessels and surrounding tissue. The mechanisms for the generation of the high IFP were investigated using a specific TGF-β inhibitor in an ATC model in athymic mice. Tumor IFP was lowered in TGF-β inhibitor-treated compared to control mice. Affymetrix microarray analysis showed a decreased expression of macrophage-associated genes in treated tumors. Furthermore, the number and activity of tumor-associated macrophages was reduced after TGF-β inhibition. A decreased protein leakage together with an increased coverage of α-smooth-muscle actin (SMA)-expressing cells indicated vessel normalization. An adjuvant treatment with the TGF-β inhibitor resulted in an increased treatment efficacy of doxorubicin. Thus, TGF-β inhibitor-treatment suggests improved microvessel function which results in a lowering of tumor IFP and increased tumor drug uptake. To create a model for specific inactivation of genes in the thyroid, a transgenic mouse with a thyrocyte-specific expression of Cre recombinase was generated. The thyroglobulin promoter together with an inducible Cre recombinase (creERT2) was used. Two transgenic founder lines were identified expressing cre mRNA solely in the thyroid. Functional activity of the CreERT2 protein was demonstrated by using a ROSA26-LacZ reporter mouse.

Medicine

Anaplastic thyroid carcinoma

Apoptosis

Cre recombinase

2-Methoxyestradiol

Transforming growth factor-β

Transgenic mouse

Tumor-associated macrophages

Tumor interstitial fluid pressure

Medicin

The Role of MMPs, Smad3 and Heat Shock Proteins in TGF-β-Induced Anterior Subcapsular Cataract Development

Banh, Alice

January 2007

Transforming growth factor beta (TGF-β) has been implicated in anterior subcapsular cataract (ASC) development. In the first section of this thesis, an in-vitro rat lens model was used to determine the role of matrix metalloproteinases during TGF-β-induced ASC. In the second part, an in-vivo TGF-β transgenic and Smad3 knockout model was used to examine the role of Smad3 signaling pathway in TGF-β-induced ASC development. Lastly, an in-vitro rat lens epithelial explant culture model was used to investigate the potential role of heat shock proteins (Hsps) in TGF-β-induced epithelial-mesenchymal transition (EMT). Optical, morphological and molecular changes were analyzed in theses studies. Results from cultured rat lenses show a significant increase of back vertex distance variability (decrease of sharpness and focus) during ASC development. Inhibition of MMPs eliminated the TGF-β-induced plaque formation. Similarly, the overexpression of TGF-β1 in transgenic mouse lenses leads to ASC formation and a decrease in lens optical quality in comparison to wild-type lenses, while TGF-β1/Smad3-/- (null) lenses show diminished TGF-β-induced effects. The plaques formed in the TGF-β1/Smad3-/- lenses are substantially smaller than in the TGF-β1/Smad3+/+ lenses. The morphological and molecular changes of TGF-β2/FGF-2 treated rat lens epithelial explants are similar to those found in the TGF-β2 treated rat lenses and transgenic TGF-β1 mouse lenses. Heat shock treatment prior to TGF-β treatment significantly reduced the effects of EMT in rat LECs. In conclusion, MMP inhibition prevented TGF-β-induced ASC formation whereas heat shock treatment and the absence of Smad3 protein expression only reduced the severity of TGF-β-induced effects.

anterior subcapsular cataract formation

transforming growth factor beta

transgenic mouse

rat lens culture

lens epithelial cells

Smad3

MMPs

heat shock proteins

Vision Science and Biology

The Role of MMPs, Smad3 and Heat Shock Proteins in TGF-β-Induced Anterior Subcapsular Cataract Development

Banh, Alice

January 2007

Transforming growth factor beta (TGF-β) has been implicated in anterior subcapsular cataract (ASC) development. In the first section of this thesis, an in-vitro rat lens model was used to determine the role of matrix metalloproteinases during TGF-β-induced ASC. In the second part, an in-vivo TGF-β transgenic and Smad3 knockout model was used to examine the role of Smad3 signaling pathway in TGF-β-induced ASC development. Lastly, an in-vitro rat lens epithelial explant culture model was used to investigate the potential role of heat shock proteins (Hsps) in TGF-β-induced epithelial-mesenchymal transition (EMT). Optical, morphological and molecular changes were analyzed in theses studies. Results from cultured rat lenses show a significant increase of back vertex distance variability (decrease of sharpness and focus) during ASC development. Inhibition of MMPs eliminated the TGF-β-induced plaque formation. Similarly, the overexpression of TGF-β1 in transgenic mouse lenses leads to ASC formation and a decrease in lens optical quality in comparison to wild-type lenses, while TGF-β1/Smad3-/- (null) lenses show diminished TGF-β-induced effects. The plaques formed in the TGF-β1/Smad3-/- lenses are substantially smaller than in the TGF-β1/Smad3+/+ lenses. The morphological and molecular changes of TGF-β2/FGF-2 treated rat lens epithelial explants are similar to those found in the TGF-β2 treated rat lenses and transgenic TGF-β1 mouse lenses. Heat shock treatment prior to TGF-β treatment significantly reduced the effects of EMT in rat LECs. In conclusion, MMP inhibition prevented TGF-β-induced ASC formation whereas heat shock treatment and the absence of Smad3 protein expression only reduced the severity of TGF-β-induced effects.

anterior subcapsular cataract formation

transforming growth factor beta

transgenic mouse

rat lens culture

lens epithelial cells

Smad3

MMPs

heat shock proteins

Vision Science and Biology

Analyse transgener Mauslinien mit zelltypspezifischer Expression fluoreszenter Proteine als Modelle für akute Hirntraumata / Analysis of transgenic Mouse Lines with Cell Type specific Expression of Fluorescent Proteins as Models of acute Brain Trauma

Braun, Christian

23 November 2010

No description available.

500 Naturwissenschaften

Medicine

Fluoreszentes Protein

Transgene Mauslinie

Zellmarkierung

Stammzelldifferenzierung

Schädelhirntrauma

Fluorescent Protein

Transgenic Mouse Line

Cell Tracing

Stem Cell Differentiation

Brain Trauma

42.15

MED 280: Biologie

In Vitro and In Vivo Studies with Measles Virus and its Interaction with the Mouse Innate Immune System

Ha, Michael Neul

21 August 2012

Measles is one of the most contagious diseases known to mankind. Despite the availability of a safe and effective vaccine, approximately 164,000 measles-related deaths were recorded in 2008. The inherent restricted host tropism of MV means that the development of authentic rodent models will be a valuable research tool in testing new vaccines and antivirals. In addition to the receptor requirement, mouse innate immunity has been shown to inhibit MV growth. In this thesis, the contributions of several key components of the mouse innate immune system on the inhibition of MV replication were examined. The transcription factor interferon regulatory factor 3 (IRF3), which normally plays a key role in mediating innate immune signaling, contributed relatively little in inhibiting MV replication both in vitro and in vivo. In contrast, the JAK/STAT pathway and the double-stranded RNA inducible protein kinase, PKR, played more important roles in controlling virus replication. The resurgence of measles in areas where the virus was once thought to be eradicated makes the development of anti-MV treatments essential. Concurrent to the development of an animal model to better study its pathogenesis, we wanted to look at the effect of MV inhibitors on its replication. The MV fusion inhibitor, carbobenzoxy-D-phenylalanine-L-phenylalanine-glycine (ZfFG), was developed in the past to study fusion; however, its mechanism of action has not yet been elucidated. To examine this, spontaneous ZfFG-resistant mutants were generated and characterized. Mutations were found in the HRB region of the fusion (F) protein, and when these were modeled using published paramyxovirus F crystal structures, data suggested that ZfFG targeted a small pocket present between the head and stalk regions of its pre-fusion conformation. An authentic mouse model of measles developed from findings in this study may allow for in vivo efficacy testing of ZfFG in the future.

molecular biology

virology

paramyxovirus

measles

innate immunity

mouse models

transgenic mouse

fusion

fusion inhibitor

FIP

IRF3

microbiology

ZfFG

plasmacytoid dendritic cell

mouse embryonic fibroblast

receptor

0720

In Vitro and In Vivo Studies with Measles Virus and its Interaction with the Mouse Innate Immune System

Ha, Michael Neul

21 August 2012

Measles is one of the most contagious diseases known to mankind. Despite the availability of a safe and effective vaccine, approximately 164,000 measles-related deaths were recorded in 2008. The inherent restricted host tropism of MV means that the development of authentic rodent models will be a valuable research tool in testing new vaccines and antivirals. In addition to the receptor requirement, mouse innate immunity has been shown to inhibit MV growth. In this thesis, the contributions of several key components of the mouse innate immune system on the inhibition of MV replication were examined. The transcription factor interferon regulatory factor 3 (IRF3), which normally plays a key role in mediating innate immune signaling, contributed relatively little in inhibiting MV replication both in vitro and in vivo. In contrast, the JAK/STAT pathway and the double-stranded RNA inducible protein kinase, PKR, played more important roles in controlling virus replication. The resurgence of measles in areas where the virus was once thought to be eradicated makes the development of anti-MV treatments essential. Concurrent to the development of an animal model to better study its pathogenesis, we wanted to look at the effect of MV inhibitors on its replication. The MV fusion inhibitor, carbobenzoxy-D-phenylalanine-L-phenylalanine-glycine (ZfFG), was developed in the past to study fusion; however, its mechanism of action has not yet been elucidated. To examine this, spontaneous ZfFG-resistant mutants were generated and characterized. Mutations were found in the HRB region of the fusion (F) protein, and when these were modeled using published paramyxovirus F crystal structures, data suggested that ZfFG targeted a small pocket present between the head and stalk regions of its pre-fusion conformation. An authentic mouse model of measles developed from findings in this study may allow for in vivo efficacy testing of ZfFG in the future.

molecular biology

virology

paramyxovirus

measles

innate immunity

mouse models

transgenic mouse

fusion

fusion inhibitor

FIP

IRF3

microbiology

ZfFG

plasmacytoid dendritic cell

mouse embryonic fibroblast

receptor

0720

Agents infectieux et rupture de tolérance lymphocytaire B : étude des processus de maturation d'affinité et de différenciation plasmocytaire au cours d'une infection bactérienne dans un nouveau modèle knock-in autoréactif / Infectious agents and B cell tolerance breakdown : study of affinity maturation and plasma-cell differentiation processes during bacterial infection in a new autoreactive knock-in mouse model

Jung, Sophie

10 September 2013

Les maladies auto-immunes, qui touchent plus de 5% de la population, sont induites par une perte de la tolérance aux antigènes du Soi. Ces pathologies, généralement multifactorielles, résultent de l’effet combiné de plusieurs allèles de susceptibilité et de différents facteurs environnementaux. Les agents infectieux ont été tout particulièrement incriminés, mais les mécanismes en jeu restent encore mal élucidés. Les lymphocytes B, qui jouent un rôle central dans la pathogénie de nombreuses maladies auto-immunes, sont susceptibles d’être activés selon différents mécanismes au cours d’un processus infectieux et cette activation peut englober des cellules autoréactives. On ne sait cependant pas si cette activation peut entraîner la production d’auto-anticorps pathogènes de forte affinité et d’isotype IgG à partir du pool de cellules productrices d’auto-anticorps naturels de faible affinité, qui sont présentes de façon constitutive dans le répertoire B de l’individu sain. Nous avons mis au point un nouveau modèle murin knock-in pour des lymphocytes B présentant une affinité intermédiaire pour leur auto-antigène, la protéine HEL2X mutée (Hen-Egg Lysozyme). Ce modèle autoréactif d’affinité intermédiaire SWHEL X HEL2X, élaboré sur un fond génétique non autoimmun, permet de suivre le processus de maturation d’affinité des cellules B anti-HEL en présence de leur auto-antigène HEL2X au cours de l’infection chronique par la bactérie Borrelia burgdorferi. L’infection induit au niveau ganglionnaire une prolifération ainsi qu’une activation lymphocytaire B incluant des cellules anergiques. Certains clones autoréactifs sont capables de gagner les centres germinatifs ganglionnaires, de commuter vers l’isotype IgG et présentent des mutations somatiques au niveau de la région variable de la chaîne lourde de leur immunoglobuline, dans la zone d’interaction avec HEL2X, indiquant un processus de sélection par l’auto-antigène. Malgré un taux augmenté d’auto-anticorps d’isotype IgM, ces animaux ne produisent pas de plasmocytes capables de sécréter des auto-anticorps d’isotype IgG. Nos observations suggèrent l’existence de mécanismes de tolérance périphérique intrinsèques mis en place en particulier au niveau du centre germinatif. Un premier point de contrôle va éliminer les lymphocytes B autoréactifs ayant commuté de classe et présentant des mutations somatiques leur conférant une affinité augmentée pour l’auto-antigène tandis qu’un second point de contrôle va empêcher la différenciation en plasmocytes IgG+.Chez l’individu non prédisposé génétiquement, des mécanismes pourraient ainsi permettre de prévenir le développement d’une auto-immunité pathogène au cours d’un épisode infectieux. / Autoimmune diseases, affecting more than 5% of the population, reflect a loss of tolerance to selfantigens. These multifactorial diseases result from the combined effect of several susceptibility alleles and different environmental factors. Infectious agents have been particularly incriminated but there is no clear understanding of the underlying mechanisms. B lymphocytes, that appear central to the pathogenesis of several autoimmune diseases, may be activated by several mechanisms during infectious processes and this activation can encompass autoreactive cells. Whether or not the lattercan induce the production of high-affinity pathogenic IgG isotype auto-antibodies from the naturally present low-affinity self-reactive B cells is still unknown. To gain further insight into this question, we created a new intermediate affinity autoreactive mouse model called SWHEL X HEL2X. In these mice, knock-in B cells express a B cell receptor highly specific for Hen-Egg Lysozyme (HEL) that recognizes HEL2X mutated auto-antigen with intermediate affinity. This model, generated on a non-autoimmune-prone genetic background, allows the following of anti-HEL B cells affinity maturation process in presence of their auto-antigen during Borrelia burgdorferi chronic bacterial infection. The infection leads to lymph nodes lymphoproliferation and B cell activation including anergic cells. Some autoreactive clones are able to form germinal centers, toswitch their immunoglobulin heavy chain and to introduce somatic mutations in the heavy chain variable regions on amino-acids forming direct contacts with HEL2X, suggesting an auto-antigen-driven selection process. Despite increased levels of IgM autoantibodies, infected mice are unable to generate IgG autoantibody secreting plasma-cells. These observations suggest the existence of intrinsic peripheral tolerance mechanisms operating mainly at the level of germinal centers. The first checkpoint eliminates switched autoreactive B cells with increasing affinity mutations while a secondcheckpoint avoids IgG+ plasma-cell differentiation. Thus, in genetically non predisposed individuals, tolerance mechanisms may be set-up to prevent the development of pathogenic autoimmunity during the course of an infection.

Auto-immunité

Lymphocyte B

Infection bactérienne

Modèles murins transgéniques

Tolérance lymphocytaire B

Autoimmunity

B lymphocyte

Bacterial infection

Transgenic mouse models

B cell tolerance

571.96

572.8

616.97

Analyse neurodegenerativer Prozesse im Gyrus Dentatus im Tg4-42-Mausmodell der Alzheimerdemenz / The analysis of neurodegenerative processes in the dentate gyrus using the Tg4-42 mouse model of Alzheimer's disease

Schubert, Nils

05 April 2018

No description available.

610

Alzheimer's disease

abeta 4-42

transgenic mouse model

neuron loss

hippocampus

Tg4-42

neurogenesis

gliosis

dentate gyrus

Psychiatrie (PPN619876344)

Quantitative analysis of neuropathological alterations in two transgenic mouse models of Alzheimer's disease

Kurdakova, Anastasiia

23 November 2016

No description available.

610

Alzheimer's disease

transgenic mouse model

Tg4-42

5XFAD

Hippocampal neuron loss

Neurodegeneration

Amyloid

Axonal degeneration

Physical and cognitive activity

Environmental enrichment

Stereology

Gene dosage

Medizin (PPN619874732)

Funkce Zinc-finger proteinu 644 (Zfp644) v myším organismu. / Function of Zinc finger protein 644 (Zfp644) in mouse organism.

Szczerkowska, Katarzyna Izabela

January 2022

ZNF644 (Zinc Finger Protein 644) is a C2H2 zinc finger gene encoding a putative transcription regulator, of which a point mutation (S672G) is associated with inherited high myopia in humans. It is also described to be a partner of the G9a/GLP (G9a- euchromatic histone- lysine N-methyltransferase 2, EHMT2; GLP - euchromatic histone-lysine N-methyltransferase 1, EHMT1) complex, known for its essential role in histone methylation, specifically H3K9me1and H3K9me2. It was reported that another transcription factor, WIZ (Widely-Interspaced Zinc Finger-Containing Protein), can bind to this complex and cooperate in gene silencing simultaneously. In order to study Zfp644 impact on myopia, we generated a mouse model, Zfp644S673G that mimics human mutation. In addition, a mouse with a persuasive truncated form of the protein, Zfp644Δ8 was created. Both mouse models went through an examination of retinal function and morphology. Moreover, with use of ultrasonography, different ocular parameters were examined. We conclude, that Zfp644 gene is causative for myopia in mice. Further examinations of Zfp644Δ8 animals show severe symptoms in metabolism and female fertility. To describe the impact of Zfp644 in mouse fertility we performed various experiments including analysis of expression of Zfp644 in reproductive...