Untersuchungen zur Rolle von Klf10 und Klf11 als Mediatoren von NGF- und TGF-β-vermittelten Effekten in Zellen neuraler Herkunft / Investigations into the role of Klf10 and Klf11 as mediators of NGF- and TGF-beta-mediated effects in cells of neural origin

Spittau, Gabriele

17 November 2011

No description available.

000 Allgemeines

Wissenschaft

WKF 300

Agricultural Sciences

Klf10

Klf11

Apoptose

Zellzyklusarrest

TGF-β

NGF

Oli-neu-Zellen

PC12-Zellen

Klf10

KLF11

apoptosis

cell cycle arrest

TGF-β

NGF

Oli-neu-cells

PC12-cells

???

Efeito do tamoxifeno na fibrose, colágeno e expressão do transforming growth factor -B1, -B2 e -B3 na anastomose da via biliar principal deporcos

Siqueira, Orlando Hiroshi Kiono

January 2017

Submitted by Verônica Esteves (vevenesteves@gmail.com) on 2018-01-11T14:41:24Z No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Tese Orlando Siqueira.pdf: 2924925 bytes, checksum: c32bce21e6c777f33da53c373787cb05 (MD5) / Approved for entry into archive by Verônica Esteves (vevenesteves@gmail.com) on 2018-01-11T14:41:40Z (GMT) No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Tese Orlando Siqueira.pdf: 2924925 bytes, checksum: c32bce21e6c777f33da53c373787cb05 (MD5) / Made available in DSpace on 2018-01-11T14:41:40Z (GMT). No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Tese Orlando Siqueira.pdf: 2924925 bytes, checksum: c32bce21e6c777f33da53c373787cb05 (MD5) Previous issue date: 2017 / Universidade Federal Fluminense. Hospital Universitário Antônio Pdro / Introdução: A anastomose término-terminal no tratamento da lesão das vias biliares durante a colecistectomia laparoscópica tem sido associada à formação de estenose. O objetivo deste estudo foi investigar experimentalmente o efeito do tratamento oral com tamoxifeno (tmx) sobre a fibrose, o colágeno e o transforming growth factor TGF-β1, - β2 e - β3 na anastomose da via biliar principal de porcos. Métodos: Vinte e seis porcos foram divididos em três grupos [sham (n = 8), controle (n = 9) e tmx (n = 9)]. Os ductos biliares foram seccionados e anastomosados nos grupos controle e tmx. Tmx (40 mg / dia) foi administrado oralmente ao grupo tmx, e os animais foram eutanasiados após 60 dias. A fibrose foi analisada pela coloração com tricromo de Masson. Picrosirius red foi utilizado para quantificar o teor total de colágeno e a proporção de colágeno tipo I / III. A expressão de mRNA do TGF-β1, -β2 e - β3 foi quantificada usando a reação em cadeia da polimerase em tempo real (qRT-PCR). Resultados: Os grupos de controle e estudo apresentaram fibrose maior do que o grupo sham, e o grupo de estudo apresentou fibrose menor do que o grupo controle (p = 0,011). Os grupos controle e tmx apresentaram maior teor total de colágeno do que o grupo sham (p = 0,003) e não houve diferença significativa entre os grupos controle e tmx. A proporção de colágeno tipo I / III foi maior no grupo controle do que nos grupos sham e tmx (p = 0,015) e não houve diferença significativa entre os grupos sham e tmx. Não houve diferenças significativas na expressão de mRNA de TGF-β1, -β2 e -β3 entre os grupos (p> 0,05). Conclusões: Tmx diminuiu a fibrose e impediu a alteração na proporção de colágeno tipo I / III causada pelo procedimento. / Introduction: End-to-end anastomosis in the treatment of bile duct injury during laparoscopic cholecystectomy has been associated with the formation of stenosis. The aim of this study was to experimentally investigate the effect of oral treatment with tamoxifen (tmx) on fibrosis, collagen and transforming growth factor TGF-β1, - β2 and – β3 on anastomosis of the common bile duct in pigs. Methods: Twenty-six pigs were divided into three groups (sham (n = 8), control (n = 9) and tmx (n = 9)). The bile ducts were sectioned and anastomosed in the control and tmx groups. Tmx (40 mg / day) was administered orally to the tmx group, and the animals were euthanized after 60 days. Fibrosis was analyzed by Masson's trichrome staining. Picrosirius red was used to quantify the total collagen content and the proportion of collagen type I / III. Expression of TGF-β1, -β2 and -β3 mRNA was quantified using the real-time polymerase chain reaction (qRT-PCR). Results: The control and study groups presented higher fibrosis than the sham group, and the study group had lower fibrosis than the control group (p = 0.011). The control and tmx groups presented higher total collagen content than the sham group (p = 0.003) and there was no significant difference between the control and tmx groups. The proportion of type I / III collagen was higher in the control group than in the sham and tmx groups (p = 0.015) and there was no significant difference between the sham and tmx groups. There were no significant differences in TGF-β1, -β2 and -β3 mRNA expression between the groups (p> 0.05). Conclusions: Tmx decreased fibrosis and prevented the change in the proportion of collagen type I / III caused by the procedure.

Lesão das vias biliares

Cicatrização das vias biliares

Estenose das vias biliares

Colágeno

TGF-β

Tamoxifeno

Ducto biliar

Lesão

Cicatrização de ferida

Constrição patológica

Tamoxifeno

Colecistectomia laparoscópica

Bile duct injury

Bile duct wound healing

Bile duct stenosis

Collagen

TGF-β

Tamoxifen

Mechanisms of Tenascin-C dependent tumor migration and metastasis / Mécanismes de migration tumorale et métastase dépendante de la ténascin-C

Sun, Zhen

28 July 2017

Les métastases sont la principale cause de décès chez les patients atteints d’un cancer. Lors du développement métastatique, les cellules tumorales disséminées (CTD) doivent franchir certaines étapes clés avant de coloniser des organes distants de la tumeur primaire. Notre hypothèse est que la TNC pourrait jouer différents rôles dans la migration des cellules cancéreuses et par conséquent dans le développement métastatique. Considérant l’actine comme un réservoir de facteurs de croissance, la TNC pourrait induire la TEM ainsi que la survie et l’extravasation des cellules tumorales. Cependant, des cellules cancéreuses individualisées localement pourraient répondre à la TNC en initiant des changements rapides menant à un phénotype migratoire de type amiboïde. L’objectif de cette thèse a été d’étudier comment la TNC stimule le développement métastatique dans le cancer du sein au niveau cellulaire et moléculaire en utilisant des modèles tumoraux et cellulaires. / A high TNC expression correlates with lung metastagenicity and was shown to promote experimental lung metastasis, but the underlying mechanisms are poorly understood. The results of my thesis have provided insight into the roles of TNC in metastasis suggesting that TNC contributes to extravasation by impacting on survival, endothelialization, EMT and migration. Moreover, I have identified TGF-β signaling and integrin α9β1 as important pathway and molecule, respectively to be employed by TNC. Whether both molecule/pathway play a similar role in the investigated models of breast cancer, osteosarcoma and glioblastoma remains to be seen.

Ténascine-C

Cancer

Cellules tumorales disséminées

Lymphovasculaire invasion

EMT

Amiboïde migration

YAP

TGF- β

Prognostic

Tenascin-C

Cancer

Circulating tumor cell

Lymphovascular invasion

EMT

Amoeboid migration

YAP

TGF- β

Prognosis

572.8

616.99

The role of COCO in ocular angiogenesis

Popovic, Natalija

04 1900

Contexte: La néovascularisation pathologique oculaire entraîne plusieurs troubles de la cécité, y compris la dégénérescence maculaire néovasculaire liée à l'âge (nDMLA) et la rétinopathie de la prématurité (ROP). La nDMLA est la principale cause de cécité dans le monde industrialisé avec un impact socio-économique considérable (1-6). Les thérapies palliatives actuelles reposent sur la suppression du facteur de croissance de l'endothélium vasculaire (VEGF), prouvé sûr et efficace (7-19). Cependant, certains patients résistent aux injections intravitréennes mensuelles répétées d'anti-VEGF, et les conséquences à long terme comprennent une perte de vision supplémentaire et une atrophie géographique (10, 14, 17, 18, 20-27). Cliniquement, il existe un besoin de nouvelles cibles combinatoires ou alternatives dans les cliniques, permettant de réduire les doses d'anti-VEGF, de traiter et d'étendre un intervalle approprié personnalisé à chaque patient non répondeur, et de minimiser la charge des injections répétées (24, 25, 28, 29). La famille TGF-β et sa sous-famille BMP sont cruciales dans l'angiogenèse oculaire physiologique dans un modèle de ROP, et pourraient être des cibles thérapeutiques potentielles chez les patients souffrant d’une nDMLA (30-66). Hypothèse: COCO, un membre de la famille DAN, un modulateur connu des voies BMP et TGF-β, agit comme un facteur neurotrophique sur les progéniteurs de photorécepteurs humains en culture. Nous émettons l'hypothèse que les effets neurotrophiques et anti-angiogéniques de COCO pourraient être des approches thérapeutiques bénéfiques pour empêcher la néovascularisation dans la nDMLA ou la ROP. Objectifs: Objectif 1: Pour évaluer le rôle du COCO sur les maladies oculaires néovasculaires, nous proposons d'étudier ses effets sur la néovascularisation rétinienne et choroïdienne dans le développement et des modèles pathologiques de la DMLA et de la ROP lors d'injections intravitréennes. Objectif 2: Pour comprendre le rôle physiologique et le mécanisme d'action du COCO, nous évaluerons les effets de COCO endogène au cours de l'angiogenèse et du développement vasculaire oculaire. Conclusions: Nous avons découvert un nouvel inhibiteur de l'angiogenèse, COCO, un membre de la famille des protéines DAN. COCO abroge la migration et la prolifération des cellules endothéliales de la veine ombilicale humaine, en partie grâce à sa régulation des voies TGF-β et BMP et à une modification du métabolisme cellulaire et des gènes mitochondriaux. Les injections intravitréennes de COCO suppriment la vascularisation rétinienne en cours du développement et dans un modèle expérimental de ROP. COCO inhibe de la même manière la néovascularisation choroïdienne dans un modèle de DMLA. De plus, COCO empêche l'angiogenèse rétinienne développementale sans affecter le système vasculaire mature. L'examen des souris Dand5 (COCO) KO a également montré un phénotype de développement rétinien léger à P12 ainsi qu'une exacerbation des touffes néovasculaires dans un modèle de rétinopathie induite par l'oxygène. Impact: Nos données montrent que COCO inhibe la néovascularisation rétinienne et choroïdienne et pourrait être une nouvelle thérapie possible pour des maladies oculaires. Nos études fournissent des données sur les impacts de COCO sur le développement vasculaire rétinien, établissent ses caractéristiques moléculaires et déterminent son importance biologique. / Background: Ocular pathological neovascularization leads to several blinding disorders, including neovascular age‐related macular degeneration (nAMD) and retinopathy of prematurity (ROP). nAMD, for instance, is the primary cause of blindness in the industrialized world with a tremendous socioeconomic impact (1-6). Current palliative therapies rely on suppressing vascular endothelial growth factor (VEGF), proven safe and effective (7-19). However, some patients are resistant to monthly repeated intravitreal injections of anti-VEGF, and long-term consequences comprise further vision loss and geographic atrophy (10, 14, 17, 18, 20-27). Clinically, there is a necessity for novel combinatory or synergistic therapeutic targets to reduce anti-VEGF treatment adherence. Novel personalized therapies to each non-responder patient may increase efficiency while minimizing the burden of repeated injections (24, 25, 28, 29). The TGF-β family, specifically the BMPs subfamily of proteins, is crucial in pathological ocular angiogenesis in a model of pre-retinal neovascularization. These alternative pathways could be potential therapeutic targets in nAMD patients as well (30-66). Hypothesis: COCO, a member of the DAN family, is a known modulator of BMP and TGF-β pathways and acts as a neurotrophic factor on cultured human photoreceptor progenitors. We hypothesize that COCO’s neurotrophic and anti-angiogenic effects could exert therapeutic benefits to preclude neovascularization in nAMD or ROP. Objectives: Aim 1: To assess the role of COCO on neovascular ocular diseases, we propose investigating its effects on retinal and choroidal neovascularization in the development and pathological models of AMD and ROP upon intravitreal injections. Aim 2: To understand COCO's physiological role and mechanism of action, we evaluate the exogenous and endogenous effects of COCO during angiogenesis and ocular vascular development. Conclusions: We discovered a novel inhibitor of angiogenesis, COCO, a DAN protein family member. COCO abrogated sprouting migration and cellular proliferation of human umbilical vein endothelial cells, partly through its regulation of TGF-β and BMP pathways and cellular metabolism. Intravitreal injections of COCO suppress retinal vascularization in development and an experimental model of ROP. COCO similarly inhibits choroidal neovascularization in an nAMD model. COCO prevents developmental retinal angiogenesis without affecting the mature vasculature. Examination of Dand5 (COCO) KO mice also shows a mild retinal developmental phenotype at P12 as well as an exacerbation of neovascular tufts in a model of oxygen-induced retinopathy. Impact: Our data show that COCO inhibits retinal and choroidal neovascularization and could be of potential therapeutic use in treating neovascular ocular diseases. Our studies set grounds for understanding the role of COCO during retinal vascular development, characterizing its molecular features, and determining its biologic significance.

DMLA

ROP

Nouvelle protéine anti-angiogénique

Endothélium

Antagoniste du TGF- β et de BMP

Mitochondries

AMD

Novel anti-angiogenic protein

Endothelium

TGF-β, and BMP antagonist

Mitochondria

Regulating Valvular Interstitial Cell Phenotype by Boundary Stiffness

Kural, Mehmet Hamdi

01 June 2014

"A quantitative understanding of the complex interactions between cells, soluble factors, and the biological and mechanical properties of biomaterials is required to guide cell remodeling towards regeneration of healthy tissue rather than fibrocontractive tissue. The goal of this thesis was to elucidate the interactions between the boundary stiffness of three-dimensional (3D) matrix and soluble factors on valvular interstitial cell (VIC) phenotype with a quantitative approach. The first part of the work presented in this thesis was to characterize the combined effects of boundary stiffness and transforming growth factor-β1 (TGF-β1) on cell-generated forces and collagen accumulation. We first generated a quantitative map of cell-generated tension in response to these factors by culturing VICs within micro-scale fibrin gels between compliant posts (0.15-1.05 nN/nm) in chemically-defined media with TGF-β1 (0-5 ng/mL). The VICs generated 100 to 3000 nN/cell after one week of culture, and multiple regression modeling demonstrated, for the first time, quantitative interaction (synergy) between these factors in a 3D culture system. We then isolated passive and active components of tension within the micro-tissues and found that cells cultured with high levels of stiffness and TGF-β1 expressed myofibroblast markers and generated substantial residual tension in the matrix yet, surprisingly, were not able to generate additional tension in response to membrane depolarization signifying a state of continual maximal contraction. In contrast, negligible residual tension was stored in the low stiffness and TGF-β1 groups indicating a lower potential for shrinkage upon release. We then studied if ECM could be generated under the low tension environment and found that TGF-β1, but not EGF, increased de novo collagen accumulation in both low and high tension environments roughly equally. Combined, these findings suggest that isometric cell force, passive retraction, and collagen production can be tuned by independently altering boundary stiffness and TGF-β1 concentration. In the second part, by using the quantitative information obtained from the first part, we investigated the effects of dynamic changes in stiffness on cell phenotype in a 3D protein matrix, quantitatively. Our novel method utilizing magnetic force to constrain the motion of one of two flexible posts between which VIC-populated micro-tissues were cultured effectively doubled the boundary stiffness and resulted in a significant increase in cell-generated forces. When the magnetic force was removed, the effective boundary stiffness was halved and the tissue tension dropped to 65-87% of the peak value. Surprisingly, following release the cell-generated forces continued to increase for the next two days rather than reducing down to the homeostatic tension level of the control group with identical (but constant) boundary stiffness. The rapid release of tension with the return to baseline boundary stiffness did not result in a decrease in number of cells with α-SMA positive stress fibers or an increase in apoptosis. When samples were entirely released from the boundaries and cultured free floating (where tension is minimal but cannot be measured), the proportion of apoptotic cells in middle region of the micro-tissues increased more than five-fold to 31%. Together, these data indicate that modest temporary changes in boundary stiffness can have lasting effects on myofibroblast activation and persistence in 3D matrices, and that a large decrease in the ability of the cells to generate tension is required to trigger de-differentiation and apoptosis. "

tension reduction

TGF-β

fibrin gel

Heart valves

valvular interstitiat cells

myofibroblast

contraction

cell-generated force

residual tension

stiffness

3D

Signal Transduction in Mast Cell Migration

Sundström, Magnus

January 2001

<p>Mast cells are essential effector cells in the immune system as they release several inflammatory mediators. An accumulation of mast cells has been described in inflammatory conditions such as asthma and allergic rhinitis. Increased mast cell number, in the skin and other organs, is also a characteristic in mastocytosis, a disease without an effective treatment. One explanation for the increase in mast cell number is migration of mast cells in the tissue. In our studies we utilised mast cell lines, including HMC-1; cell lines transfected with the <i>c-kit</i> gene; and <i>in vitro</i> developed mast cells.</p><p>Our aim was to characterise, two variants of the HMC-1 cell line; the signalling pathways essential for mast cell migration towards TGF-β and SCF; and the mechanism regulating mast cell accumulation in mastocytosis.</p><p>Our results help to explain inconsistent findings regarding mast cell biology when HMC-1 cells have been used as a model system. The two variants, which we name HMC-1⁵⁶⁰ and HMC-1^{560, 816}, are used in different laboratories around the world. HMC-1⁵⁶⁰ and HMC-1^{560, 816} exhibited different characteristics regarding their karyotype, phenotype as well as their set of activating point mutations in the Kit receptor. Furthermore, divergent signalling pathways are of importance for mast cell migration towards TGF-β and SCF. The classical MAP kinase-signalling cascade was found to be of major relevance for TGF-β-induced migration. In contrast, this pathway had a modest impact on SCF-induced migration, which instead was highly dependent on p38 MAP kinase signalling. Finally, one mechanism for mast cell accumulation in mastocytosis appeared to be an activating point mutation in the gene for the Kit receptor. This mutation appeared to prone transfected cells and mast cell progenitors to a higher rate of migration towards SCF if compared with cells expressing wt Kit receptor.</p><p>In conclusion, our results show the importance of two different MAP kinase signalling pathways and mutations in the Kit receptor for mast cell migration induced by various types of stimuli. This knowledge helps us to understand the mechanism </p>

Genetics

HMC-1

Kit

MAP kinase

mast cells

mastocytosis

p38

SCF

TGF-β

Genetik

Clinical genetics

Klinisk genetik

Tumor Stroma in Anaplastic Thyroid Carcinoma : Interstitial Collagen and Tumor Interstitial Fluid Pressure

Lammerts, Ellen

January 2001

<p>Anaplastic thyroid carcinoma (ATC) is an aggressive malignancy in man with stromal fibrosis as one of the main features. Carcinoma cells synthesized no or little collagen I protein. Pro-α1(I) collagen mRNA was expressed by stromal cells throughout the tumor, but expression of procollagen type I protein was restricted to stromal cells situated close to nests of carcinoma cells. These data suggest that the carcinoma cells stimulated collagen type I deposition by increasing pro-α1(1) collagen mRNA translation. </p><p>Cocultures, of the human ATC cell line KAT-4, with fibroblasts under conditions that allow the study of stimulatory factors on collagen mRNA translation, showed that the KAT-4 cells stimulated collagen type I protein synthesis in fibroblasts. Specific inhibitors of PDGF and TGF-β1 and -β3 were able to inhibit this carcinoma cell-induced stimulation of collagen type I synthesis. These findings suggest that tumor cells were able to stimulate collagen mRNA translation in stromal fibroblasts by, at least in part, transferring PDGF and/or TGF-β1 and -β3.</p><p>Xenograft transplantation of different ATC cell lines into athymic mice demonstrated that the low collagen producing carcinoma cell lines were less tumorigenic compared to non-collagen producing carcinoma cell lines. The morphology of tumors derived from non-collagen producing ATC cell lines showed a well demarked stroma surrounding carcinoma cell nests. </p><p>TGF-β1 and -β3 were found to play a role in generating a high tumor interstitial fluid pressure (TIPF) in experimental KAT-4 tumors. A specific inhibitor of TGF-β1 and -β3 was able to lower TIPF and reduce tumor growth after a prolonged period of treatment, suggesting that TGF-β1 and -β3 have a role in maintaining a stroma that support tumor growth.</p>

Biochemistry

Collagen I synthesis

Fibrosis

Tumor - stroma interactions

PDGF

TGF-β

Inhibitor

Cell cycle

Tumor growth

Hyaluronan

Biokemi

Biochemistry

Biokemi

Mechanisms of Regulation of the Cell Cycle Inhibitor p21^Waf1/Cip1 in TGF-β-Mediated Cell Growth Inhibition

Pardali, Katerina

January 2005

<p>TGF-β is the founding member of a multifunctional family of cytokines that regulate many aspects of cell physiology, including cell growth, differentiation, motility and death and play important roles in many developmental and pathological processes. TGF-β signals by binding to a heterotetrameric complex of type I and type II serine/threonine kinase receptors. The type I receptor is phosphorylated and activated by the type II receptor and propagates the signal to the nucleus by phosphorylating and activating receptor-regulated Smad proteins (R-Smads). Once activated, the R-Smads translocate to the nucleus together with the common partner Smad, Smad4, in heteromeric complexes and regulate transcription of target genes.</p><p>The cell cycle inhibitor p21^Waf1/Cip1 (p21) is induced by a number of factors including p53 and TGF-β, and its high expression is associated with cellular differentiation and senescence. Low levels of p21 are required for the propagation of the cell cycle, where high levels of p21 expression result to cell cycle arrest. The mode of action of p21 is by interacting with and dissociating cyclin E- and cyclin A-CDK complexes. p21 is very potently upregulated by TGF-β in cell types of epithelial origin and this sustained upregulation is of utmost importance for TGF-β to exert its growth inhibitory effect.</p><p>The aim of this study was to clarify the mechanisms by which the cell cycle inhibitor p21 is regulated during the TGF-β-induced cell growth inhibition. During the course of this work we established that TGF-β regulates p21 via the Smad pathway at the transcriptional level and that upregulation of the p21 levels cannot be achieved in the absence of proper Smad signaling. This regulation is achieved by Smad proteins interacting with the transcription factor Sp1 at the proximal <i>p21</i> promoter region. We also established that p21 is regulated by all the TGF-β superfamily pathways as we showed that all type I receptors of the superfamily are able to upregulate p21. Despite that, we demonstrated that p21 induction by other members of the superfamily, such as BMPs, is not sufficient for growth suppression. This is because BMPs regulate additional genes such as <i>Id2</i> that counteract the effect of p21 on cell growth. Furthermore, we examined the homeobox gene <i>Meox2</i>, which is regulated by TGF-β, and established that this factor is important for the sustained p21 regulation and the cell growth inhibitory program exerted by TGF-β. Simultaneously, we examined the cross-talk between Notch and TGF-β signaling pathways and established a synergy between Notch and TGF-β during epithelial cell growth inhibition. We showed that TGF-β-induced growth arrest requires intact Notch signaling. Abrogation of Notch signaling results in a blockage of sustained p21upregulation, required for the TGF-β-induced growth arrest to occur.</p><p>This work contributes substantially to the mechanism of both immediate-early and prolonged-late regulation of p21 by TGF-β-superfamily pathways, leading to cell growth inhibition of epithelial cells.</p>

Cell and molecular biology

TGF-β

cell cycle

p21

Smad

signal transduction

transcription

Cell- och molekylärbiologi

Cell and molecular biology

Cell- och molekylärbiologi

Signal Transduction in Mast Cell Migration

Sundström, Magnus

January 2001

Mast cells are essential effector cells in the immune system as they release several inflammatory mediators. An accumulation of mast cells has been described in inflammatory conditions such as asthma and allergic rhinitis. Increased mast cell number, in the skin and other organs, is also a characteristic in mastocytosis, a disease without an effective treatment. One explanation for the increase in mast cell number is migration of mast cells in the tissue. In our studies we utilised mast cell lines, including HMC-1; cell lines transfected with the c-kit gene; and in vitro developed mast cells. Our aim was to characterise, two variants of the HMC-1 cell line; the signalling pathways essential for mast cell migration towards TGF-β and SCF; and the mechanism regulating mast cell accumulation in mastocytosis. Our results help to explain inconsistent findings regarding mast cell biology when HMC-1 cells have been used as a model system. The two variants, which we name HMC-1560 and HMC-1560, 816, are used in different laboratories around the world. HMC-1560 and HMC-1560, 816 exhibited different characteristics regarding their karyotype, phenotype as well as their set of activating point mutations in the Kit receptor. Furthermore, divergent signalling pathways are of importance for mast cell migration towards TGF-β and SCF. The classical MAP kinase-signalling cascade was found to be of major relevance for TGF-β-induced migration. In contrast, this pathway had a modest impact on SCF-induced migration, which instead was highly dependent on p38 MAP kinase signalling. Finally, one mechanism for mast cell accumulation in mastocytosis appeared to be an activating point mutation in the gene for the Kit receptor. This mutation appeared to prone transfected cells and mast cell progenitors to a higher rate of migration towards SCF if compared with cells expressing wt Kit receptor. In conclusion, our results show the importance of two different MAP kinase signalling pathways and mutations in the Kit receptor for mast cell migration induced by various types of stimuli. This knowledge helps us to understand the mechanism

Genetics

HMC-1

Kit

MAP kinase

mast cells

mastocytosis

p38

SCF

TGF-β

Genetik

Clinical genetics

Klinisk genetik

Tumor Stroma in Anaplastic Thyroid Carcinoma : Interstitial Collagen and Tumor Interstitial Fluid Pressure

Lammerts, Ellen

January 2001

Anaplastic thyroid carcinoma (ATC) is an aggressive malignancy in man with stromal fibrosis as one of the main features. Carcinoma cells synthesized no or little collagen I protein. Pro-α1(I) collagen mRNA was expressed by stromal cells throughout the tumor, but expression of procollagen type I protein was restricted to stromal cells situated close to nests of carcinoma cells. These data suggest that the carcinoma cells stimulated collagen type I deposition by increasing pro-α1(1) collagen mRNA translation. Cocultures, of the human ATC cell line KAT-4, with fibroblasts under conditions that allow the study of stimulatory factors on collagen mRNA translation, showed that the KAT-4 cells stimulated collagen type I protein synthesis in fibroblasts. Specific inhibitors of PDGF and TGF-β1 and -β3 were able to inhibit this carcinoma cell-induced stimulation of collagen type I synthesis. These findings suggest that tumor cells were able to stimulate collagen mRNA translation in stromal fibroblasts by, at least in part, transferring PDGF and/or TGF-β1 and -β3. Xenograft transplantation of different ATC cell lines into athymic mice demonstrated that the low collagen producing carcinoma cell lines were less tumorigenic compared to non-collagen producing carcinoma cell lines. The morphology of tumors derived from non-collagen producing ATC cell lines showed a well demarked stroma surrounding carcinoma cell nests. TGF-β1 and -β3 were found to play a role in generating a high tumor interstitial fluid pressure (TIPF) in experimental KAT-4 tumors. A specific inhibitor of TGF-β1 and -β3 was able to lower TIPF and reduce tumor growth after a prolonged period of treatment, suggesting that TGF-β1 and -β3 have a role in maintaining a stroma that support tumor growth.

Biochemistry

Collagen I synthesis

Fibrosis

Tumor - stroma interactions

PDGF

TGF-β

Inhibitor

Cell cycle

Tumor growth

Hyaluronan

Biokemi

Biochemistry

Biokemi