Adhesion Based Early Detection of Colorectal Cancer

Bodle, Sarah J.

January 2017

No description available.

Biomedical Engineering

colorectal

cancer

diagnostic

CD44

sialyl Lewis A

sialyl Lewis X

The Role of CD44 Variant Isoforms in Gastric Regeneration and Disease

Bertaux-Skeirik, Nina

05 December 2017

No description available.

Physiological Psychology

ulcer repair

stomach

Helicobacter pylori

CD44 variant isoforms

organoids

gastric cancer

A NOVEL ANTI-INFLAMMATORY ROLE OF OSTEOACTIVIN/GPNMB INPOST-TRAUMATIC OSTEOARTHRITIS

Al-Adlaan, Asaad A.

29 November 2017

No description available.

Biomedical Research

Immunology

Molecular Biology

Expressão de CD44 e CD24 em carcinomas mamários ductais invasivos de acordo com análise dos subtipos moleculares e sua relação com fatores prognósticos / CD44 and CD24 expression in ductal invasive breast carcinomas, classified by molecular subtypes and its association with prognostic factors

Bernardi, Maria Auxiliadora

15 September 2011

Carcinomas de mama são heterogêneos e consistem de diversos tipos celulares. Perfis de expressão gênica usando DNA microarrays identificaram quatro subtipos moleculares fundamentais baseados na expressão de receptores hormonais (estrógeno e progesterona) e de fator de crescimento epidérmico (HER2) (luminal tipo A, luminal tipo B, tumores expressando somente HER2 e triplos negativos) refletindo a heterogeneidade molecular dos carcinomas. Sugeriu-se que esta heterogeneidade advém da presença de células tronco tumorais com a capacidade de se diferenciar ao longo de vias divergentes e outros estudos sugeriram que a presença destas células tronco tumorais pode ser evidenciada pela análise fenotípica de CD44 e CD24. Nosso objetivo foi detectar a freqüência de CD24 e CD44 isolados ou combinados, analisados por imunoistoquímica e sua associação com os subtipos moleculares e com diversos marcadores biológicos em 95 casos de carcinoma ductal infiltrativo organizados em um microarranjo tissular (TMA). Realizamos determinações imunoistoquímicas de CD44, CD24, citoqueratinas (CK5, CK6, CK18), claudina 7 e Ki67. Subgrupos moleculares foram definidos pela expressão imunoistoquímica de RE, RP e HER2. Resultados: Os tumores apresentaram uma maior freqüência dos grupos luminais (49,5%) atribuído à alta expressão de RP ou RE (47,4%), e freqüência menor de tumores triplo negativos (21,5%) e HER2 (9,5%). Os fenótipos CD44+CD24- e CD44-/CD24+ estavam respectivamente presentes em 8,4% e 16,8% dos tumores e o fenótipo duplamente positivo foi predominante (45,3%). Ausência de ambas as proteínas foi evidente em 6,3% dos tumores. Tumores com fenótipo CD44+CD24- (definido como um marcador de células tronco tumorais por estudos in vitro) foram mais comuns em tumores triplos negativos mas não demonstraram nenhum tipo de associação com características clinico-patológicas e demais marcadores. Este fenótipo não foi expresso nos tumores HER2 positivos. O fenótipo duplamente positivo CD44+CD24+ mostrou-se mais freqüente nos subtipos luminais ou com alta expressão de HER2. Os fenótipos (CD44-CD24+ e CD44-CD24-) não mostraram associação com os subgrupos. Tumores expressando CD24+ isolado, com grande freqüência deste marcador (74,7%), mostraram significativa associação com positividade do RE, RP e Ki67 e uma significância marginal com marcadores de diferenciação luminal (CK18 e claudina 7, p = 0,14). Nenhuma associação foi observada com tumores CD44+ quando analisado isoladamente. A expressão de claudina 7 e Ki67 não mostrou associação com os subgrupos e a expressão de CK5 apresentou uma tendência a uma maior negatividade nos subtipos luminais e uma freqüência maior de positividade nos tumores HER2 e triplo negativos. De outro lado, associação da freqüência da expressão positiva de CK18 nos subgrupos luminais foi estatisticamente significativa (p = 0,003). Para se determinar se CD24+ e CD44+ e seus subtipos combinados poderiam afetar a sobrevida global e o intervalo livre da doença preparamos curvas de sobrevida de acordo com Kaplan-Meier que foram analisadas estatisticamente (log rank test). A mediana do período de seguimento das pacientes do nosso estudo foi de 4,8 anos (0,36 10,9 anos). Estas análises não demostraram influência dos fenótipos CD44+CD24- ou CD44+ sobre a sobrevida global ou intervalo livre de doença, mas observamos uma tendência a um prognóstico mais favorável. Interessantemente tumores HER2 positivos não expressaram este fenótipo, sugerindo que outros marcadores de células tronco caracterizam estes tumores. O fenótipo CD44-CD24+ mostrou-se mais freqüente nos tumores luminais, mas não apresentou correlação com marcadores clínico-patológicos ou biológicos analisados. Não houve diferenças significativas com respeito a sobrevida global ou intervalo livre de doença . A expressão de CD24+ isolado associou-se a expressão dos marcadores de diferenciação celular e a uma diminuição do intervalo livre de doença. A sobrevida livre de doença (10 anos) indicou uma percentagem de 94,1% para CD24- e 72,1% para os pacientes CD24+ enquanto a sobrevida global foi de 84,2% para os pacientes CD24- e 72,1% para os pacientes CD24+. Citoqueratinas (CK5, CK18) e Ki67 não influenciaram a sobrevida e o intervalo livre de doença. No entanto a expressão positiva de claudina 7, embora não associada à sobrevida global, foi estatisticamente associada ao decréscimo do intervalo livre da doença (p = 0,05). Conclusão: As características dos tumores CD44+CD24- e sua tendência a associação um prognóstico mais favorável parecem não estar de acordo com as propriedades descritas na literatura para células tronco e enfatizam a necessidade de outros marcadores. A determinação da freqüência de CD44+ e claudina 7 positiva pode contribuir para a análise do prognóstico em carcinoma de mama / Background: Breast carcinomas consist phenotypically of diverse cells and exhibit intra tumoral heterogeneity being stratified in several subgroups based in gene expression profiles or histochemical biomarkers. It was suggested that this heterogeneity is derived in part from the transformation of different subsets of cancer stem cells (CSC) in each intrinsic subgroup. The presence of CSC can be evidenced by phenotypic analysis of CD44 e CD24. This study aimed to identify the CD24 and CD44 immunophenotype within invasive ductal breast carcinoma (IDC) subtypes and determine its influence on prognosis as well as its association with the expression of Ki67, citokeratins (CK5, CK6 and CK18) and claudin-7. Methods: Immuno expression of CD44 and CD24 alone or in combination was investigated in 95 IDC cases arranged in a tissue microarray (TMA). The association with intrinsic subgroups defined as luminal A (ER+, PR+, HER2-), luminal B (ER and or PR+, HER2+), HER2 subtype (ER-, PR-, HER2+) and triple negative (ER-, PR-, HER2-), and the other markers and prognosis was analyzed. Results: CD44+CD24- and CD44-CD24+ were respectively presents in 8.4% and 16.8% of the tumors, a lack of both proteins was detected in 6.3%, while CD44+CD24+ was determined in 45.3% of the tumors. Although there was no significant correlation between subgroups and different phenotypes, the CD44+CD24- phenotype was more common in the basal subgroups but the frequency of this subtype has not been associated with clinical characteristic or biological markers. The phenotype was absent in HER2 tumors whereas luminal tumors are enriched in CD44-CD24+ and CD44+CD24+ cells which did not show associations with clinical/biological markers features. There was also no significant association of the subtypes with the event free (DFS) and overall survival (OS) but the CD44+CD24- phenotype showed a more favorable prognostic as compared to CD44-CD44+ phenotype that showed a worse prognosis (p = 0.26) (median follow up, 4.8 years) CD44+ alone was evident in 57.9%, while CD24+ was positive in 74.7% of the tumors, the latter showing a significant association with ER, PR and Ki67 and a marginal association with CK18 and claudin-7. Expression of claudin-7 and Ki67 did not associate with the cancer subgroups, while a positive association between CK18 and the luminal subgroups was found. CD44+ was not significantly associated with OS (p = 0.684) and DFS (p = 0.386) whereas CD24+ expression was also no significantly associated with OS (p = 0.32) but was associated with a decrease in DFS (p = 0.07). CK5, CK18 and Ki67 expression had no influence in OS or DFS, however claudin-7 positive although not statistically associated with OS, was associated with reduced DFS (p = 0.05). Conclusions: The heterogeneity of cells with several CD44CD24 expression may indicate the presence of different stem cell populations. Ocurrence of CD44+CD24- phenotype is more common in triple negative tumors and lower in tumors of luminal type and absent in HER2 tumors. Although not associated significantly with patho-biological markers or OS and DFS, the CD44+CD24- phenotype has a tendency to be a favorable prognostic marker in breast cancer raising the possibilty that the putative tumorigenic ability may no be restricted to cells of this phenotype. The presence of CD44-CD24+ may indicat a worse prognosis. CD24+ was associated with ER, PR, Ki67and showed a marginal association with CK18 and claudin-7. CD24 and Claudin-7 positivity were the only biological markers associated with reduced DFS. These two investigated markers can be used to improve the assessement of prognosis in breast cancer

Antígeno Ki-67

Biologic markers

Breast neoplasms

CD44/CD24

CD44/CD24

Células-tronco neoplásicas

CK18

CK18

CK5

CK5

CK6

CK6

Claudin 7

Claudina 7

Fenótipos

Ki-67 antigen

Marcadores biológicos

Molecullar subtype

Neoplasias da mama

Neoplastic stem cells

Phenotypes

Subtipos moleculares

Isolierung, Kultivierung und magnetische Separation von Vorläuferzellen aus humanem respiratorischem Epithel

Wentges, Marek

20 December 2004

EINLEITUNG: Eine Trachealrekonstruktion bedingt Komplikationen wie z.B. Infektionen und Stenosierungen durch Granulationsgewebe. Diese werden durch ein differenziertes respiratorisches Epithel, das eine mukoziliäre Clearance ermöglicht, deutlich reduziert. Die Basalzellen gelten als die Vorläuferzellen des humanen respiratorischen Epithels (HRE), d.h. sie können sich teilen und besitzen das Potenzial zur Differenzierung. Durch die magnetische Zellseparation (MACS) sollen Vorläuferzellen aus dem HRE angereichert und anschließend kultiviert werden. METHODEN: Die Conchae nasales inferiores von 80 Patienten (mittleres Alter 40 ± 14 Jahre) dienen als Zellquelle für HRE-Zellen, die mittels enzymatischen Verdaus mit Dispase II (2,4 U/ml) aus dem Gewebeverband isoliert werden. Die Kultivierung der HRE-Zellen erfolgt auf Kollagen-A-beschichteten Kulturgefäßen in serumfreiem AECG-Medium. Die Bindungsspezifität von verschiedenen extrazellulären Zellmarkern wie GSA I B4, CD44S und CD44v6 wird immunhistochemisch überprüft. Dabei erweist sich nur CD44v6 als spezifisch für Basalzellen. Die Vorläuferzellen aus dem HRE-Zellgemisch werden durch monoklonale Antikörper gegen CD44v6 und Goat-Anti-Mouse-Microbeads magnetisch konjugiert. Anschließend werden sie mittels MACS positiv selektiert. ERGEBNISSE: Die Präparation der Nasenmuscheln ergibt Einzelzellsuspensionen aus vitalen HRE-Zellen (Vitalität > 80%, n = 30). Eine Beschichtung der Kulturgefäße mit Kollagen A steigert die Adhärenz der HRE-Zellen signifikant (p < 0,0145, n = 5). Die Proliferationskinetik der HRE-Zellkulturen lässt sich durch die Populationsverdoppelungszeit charakterisieren (tPD = 23 ± 3h, n = 3). Während eines Monats wird die Proliferationskapazität der HRE-Zellen durch Zellvermehrung (383fach, n = 6) ermittelt. Die magnetische Separation ergibt eine Zellfraktion (20 ± 2%, n = 5), die sich positiv zu CD44v6 verhält. Anschließend werden die separierten Zellen eine Woche auf Kollagen A kultiviert, wobei sie alle ein adäquates Proliferationsverhalten aufweisen. SCHLUSSFOLGERUNG: Die Ergebnisse zeigen, dass CD44v6 ein spezifischer Marker für Basalzellen ist, der sich für die Anreicherung einer positiven Zellfraktion mittels MACS eignet. In weiteren Studien muss überprüft werden, inwiefern eine solche magnetisch separierte Population aus Basalzellen die Besiedelung eines Trachealersatzes mit einem differenzierten respiratorischen Epithel ermöglicht. / OBJECTIVE: Common problems affecting patients with tracheal replacement are infections and stenosis caused by granulation tissue. These complications can be minimized by establishing a differentiated respiratory epithelium, which facilitates mucocilliary clearance. The basal cells are regarded as the progenitor cells of the human respiratory epithelium (HRE). They are known to divide and possess the ability to differentiate. These cells can be enriched by means of magnetic cell sorting (MACS) for the purpose of cultivation. METHODS: The inferior nasal turbinates of 80 patients (mean age 40 ± 14 years) are used as cell source. The HRE-cells are isolated by a standard preparation using an enzymatic digestion with Dispase II (2,4 U/ml). The HRE-cells are plated on culture dishes coated with Collagen A in serum-free AECG-Medium. Several extracellular cell markers including GSA I B4, CD44S and CD44v6 are tested by immunohistochemistry. Only CD44v6 shows specific staining of basal cells. The progenitor cells of mixed single cell suspensions of HRE-cells are marked with monoclonal antibodies against CD44v6 and are conjugated with Goat-Anti-Mouse-Microbeads. Enrichment of progenitor cells is achieved by MACS using a positive selection protocol. RESULTS: The preparation of the nasal turbinates yields viable single cell suspensions of HRE-cells (viability > 80%, n = 30). Adhesion of HRE-cells is enhanced significantly (p < 0,0145, n = 5) by coating the culture dishes with Collagen A. The kinetics of proliferation of HRE-cell-cultures can be characterized by the population doubling time (tPD = 23 ± 3h, n = 3). In the course of one month the capacity of proliferation is approximated by cell expansion (383fold, n = 6). Magnetic cell sorting results in a cell fraction (20 ± 2%, n = 5) positive for CD44v6. The separated cells are cultured on Collagen A for one week, where they all show adequate proliferation. CONCLUSIONS: The results indicate that CD44v6 is a specific marker for basal cells and enables the enrichment of a positive cell fraction via application of MACS. Further studies will be required to investigate the potential of such a magnetically separated population of basal cells to generate a differentiated respiratory epithelium on a tracheal prosthesis.

Gewebezüchtung

Luftröhre

Vorläuferzelle

Basalzelle

CD44

MACS

tissue engineering

trachea

progenitor cell

basal cell

CD44

MACS

610 Medizin

33 Medizin

YI 6130

YI 6194

YN 5104

YN 5123

ddc:610

Galectins and glycosphingolipids in clathrin-independent endocytosis and cell migration / Galectines et glycosphingolipides dans l'endocytose indépendante de la clathrine et lamigration cellulaire

Lakshminarayan, Ramya

12 June 2012

Les voies d’endocytose qui régissent l’internalisation d’éléments extracellulaires peuvent être classées selon que la protéine de manteau, la clathrine, est impliquée ou non dans le processus. Les voies indépendantes de la clathrine sont utilisées par de nombreuses toxines, des virus et des protéines endogènes. Les mécanismes permettant d’induire le recrutement des protéines cargoes et la déformation de la membrane plasmique dans le contexte de l'endocytose clathrine-indépendant restent encore mal compris. Cette étude montre que la galectine 3, une protéine humaine qui se lie aux glucides, induit la formation d’invaginations de la membrane plasmique de manière indépendante de la clathrine. Les glycosphingolipides (molécules jouant un rôle majeur dans la physiologie de la cellule) sont essentielles pour permettre à la galectine 3 d’induire ces invaginations et d’être internalisée dans la cellule. Les structures tubulaires induites par la galectine 3 présentent une morphologie étonnamment similaire à celle de compartiments intermédiaires de transport décrits dans la littérature pour l’endocytose indépendante de la clathrine. Des cargos utilisant la voie indépendante de la clathrine, tels que CD44 et les intégrines α5 et β1, sont retrouvés dans les tubules induits par la galectine 3. De plus, cette dernière est nécessaire à l’internalisation de CD44. Cela indique donc que la galectine 3 pourrait relier des protéines cargos glycosylés à des glycosphyngolipides de la membrane plasmique et ainsi induire une déformation de la membrane et leur internalisation dans les cellules. Ce mécanisme diffère de celui utilisé par la toxine pentamérique de Shiga et par la toxine cholérique, qui sont leur protéines cargos propores et interagissant directement avec le glycosphyngolipide leur servant de récepteur. Les tubules induits par la galectine 3 sont distincts de ceux induit par les autres lectines. Celles-ci présentent des spécificités différentes de liaison aux glucides, montrant ainsi la l'importance des interactions entre les lectines et les sucres dans ce processus. De plus, nous avons constaté que la galectine 3 module l’équilibre à l’état basal de l’intégrine β1 à la surface de la cellule. Cette protéine étant capitale pour les phénomènes d’adhésion et de migration cellulaires, nous avons donc exploré le rôle conjoint de la galectine 3 et des glycosphingolipides dans la migration cellulaire. La galectine 3 inhibe la migration des cellules humaines de carcinomes mammaires alors qu’elle stimule au contraire celle de cellules de tumeurs mammaires murines. Or, nous avons montré que la régulation par la galactine 3 de la migration de différentes lignées cellulaires est dépendante des glycosphingolipides. Il ressort donc de cette étude que la galectine 3 et les glycosphingolipides contribuent de manière synergique au processus d’induction de déformation de la membrane, à l’endocytose de protéines cargos et à la migration cellulaire. / Endocytic processes which govern the uptake of extracellular material into the cell can be classified based on their dependence on the coat protein, clathrin. Clathrin-independent mechanisms are used by many toxins, viruses and endogenous proteins. How cargo is recruited and membranes are bent is not well understood in these cases. Here, we discovered that galectin 3, a human carbohydrate binding protein induced the clathrin-independent formation of endocytic plasma membrane invaginations. Glycosphingolipids, which have established functions in key physiological processes, were found to be essential for the formation of galectin 3-induced invaginations and for the efficient uptake of the protein into the cell. Galectin 3-induced tubular structures were found to have a strikingly similar morphology to that of the clathrin-independent carriers described in literature. Clathrin-independent endocytic cargoes such as CD44, α5 and β1 integrin were present in galectin 3-induced tubules, and galectin activity and glycosphingolipids were required for the uptake of CD44. This indicated that galectin 3 could link glycosylated cargoes with glycosphingolipids for cargo recruitment and membrane bending. In contrast, the pentameric Shiga and cholera toxins are their own cargoes and drive membrane deformations by directly binding to their respective glycosphingolipid receptors. Galectin 3-induced tubules were distinct from those induced by lectins with different carbohydrate binding specificities, which revealed the importance of lectin-glycan interaction in this process. Further, we observed that galectin 3 modulated the steady state surface dynamics of β1 integrin, a protein which like CD44 is critical for cell adhesion and migration. Subsequently, we explored the interplay of galectins and glycosphingolipids in cell migration. Galectin 3 inhibited cell migration in human breast carcinoma cells, and stimulated migration in a mouse mammary tumor cell line. However, the regulation of migration by galectin 3 was in both cases found to be dependent on glycosphingolipids. In conclusion, galectin 3 and glycosphingolipids synergistically contribute to the clathrin-independent curvature generation process, cargo endocytosis and cell migration.

Galectine

Glycosphingolipides

Endocytose indépendante de la clathrine

Intégrine

CD44

Migration cellulaire

Courbure de la membrane

Toxine de Shiga

Toxine cholérique

Galectin

Glycosphingolipid

Clathrin-independent endocytosis

Integrin

CD44

Cell migration

Membrane curvature

Shiga toxin

Cholera toxin

Rôle de la niche mésenchymateuse dans la régulation du phénotype SP des progéniteurs hématopoïétiques humains / Role of the mesenchymal niche in SP phenotype regulation of human hematopoietic progenitors

Malfuson, Jean-Valère

05 June 2013

L’hématopoïèse est un processus finement régulé pour permettre sa pérennité et son adaptation aux contraintes physiologiques et pathologiques. Ce potentiel repose en grande partie sur les capacités de quiescence, auto-renouvellement, division asymétrique et multipotence des cellules souches hématopoïétiques (CSH). Les CSH et progéniteurs hématopoïétiques (CSPH) sont principalement régulés de façon extrinsèque au sein des niches hématopoïétiques médullaires et cette régulation fait intervenir, des contacts intercellulaires et des facteurs diffusibles. Le phénotype « side-population » (SP), secondaire à l’efflux actif d’un colorant fluorescent (Hoechst 33342) par des pompes de type multidrugresistance, est une caractéristique des cellules souches de la plupart des tissus. Au sein de l’hématopoïèse, le phénotype SP est un excellent moyen pour identifier les CSH murines et est associé à leur quiescence et à leur adhésion à la niche endostéale, mais sa valeur comme marqueur des CSH est plus discutée chez l’homme. Les cellules SP, de par leur nature, sont également étudiées en oncologie, et sont associées aux cellules tumorales les plus résistantes et les plus tumorogènes. La compréhension des mécanismes régulant la fonctionnalité SP devrait permettre d’ouvrir des pistes en physiologie quand à la compréhension de la régulation des CSPH par les niches mésenchymateuses et en pathologie pour cibler les mécanismes de chimiorésistance.Dans ce travail nous montrons pour la première fois chez l’homme que l’acquisition du phénotype SP est un phénomène dynamique et versatile sous le contrôle du stroma médullaire. Le stroma médullaire est en effet capable de maintenir le phénotype SP de CSPH médullaires et d’induire le phénotype SP de CSPH circulants. L’acquisition du phénotype SP par les cellules circulantes nécessite à la fois un « nichage » au sein du stroma et des facteurs diffusibles. Les cellules circulantes capables d’acquérir le phénotype SP contiennent des CSPH au regard de (i) leur expression du CD34, (ii) leur richesse en cellules quiescentes, (iii) leur capacité clonogénique et proliférative en cultures secondaires, (iv) leur expression des gènes de « nichage » et de « souchitude », (v) leur capacité de migration en réponse à un gradient de CXCL12, (vi) leur activité LT-SRC in vivo. De plus nous avons mis en évidence, au sein de ces CSPH SP+CD34+ révélés par le stroma médullaire, une sous-population CD44-/faible qui pourrait contenir les cellules plus immatures en raison de sa quiescence et de l’intensité de son efflux du Hoechst 33342. Les études mécanistiques montrent que l’acquisition du phénotype SP par les cellules circulantes est sous la dépendance de l’intégrine VLA-4 et du CD44. La transduction du signal implique des protéines G et la famille des Src-kinases. Nous montrons également que le stroma médullaire peut induire/maintenir/amplifier la fonctionnalité SP de blastes circulants de leucémie aigüe myéloblastique de façon ß1-intégrine dépendante et que cette fonctionnalité est associée à une capacité d’efflux de Mitoxantrone. Ce mécanisme de modulation de l’activité d’ABC-transporteurs par l’adhésion au stroma correspond à un mécanisme encore jamais décrit de CAM-DR. / Hematopoiesis is a finely tuned process to allow its long-term efficiency and its adaptation to various physiological and pathological stresses. Hematopoietic stem cell (HSC) is the keystone of hematopoiesis through its multipotency, quiescence, asymmetrical division and self-renewing properties. HSC bone marrow (BM) niches mainly regulate hematopoietic stem and progenitor cells (HSPC) through intercellular contacts and diffusible factors. Side-population (SP) cells are characterized by their capability to actively efflux Hoechst 33342 dye through multidrug resistance-like pumps. SP phenotype is a characteristic of stem cells in many tissues and especially, it is a stringent criterion to purify murine HSCs. In mice, this phenotype has been demonstrated to be related to quiescence and resistance to drugs/environmental stresses and to be controlled by endosteal niche adhesion. SP cells are also studied in oncology and are associated to chemo-resistance and tumor initiating capacity. At steady state, SP cells are mainly present in the BM and are mostly absent from the circulation except in stress conditions, raising the hypothesis of the versatility of the SP functionality. Therefore, studying SP phenotype regulation is of importance to understand how BM niches regulate HSPC and how to interfere with cancer cells chemo-resistance.In this work, we demonstrate for the first time and in human that SP phenotype acquisition is a dynamic phenomenon under control of stromal BM cells. Stromal cells from healthy donors maintain SP phenotype of BM HSPC and promote SP phenotype acquisition in circulating ones. SP phenotype promotion depends of stroma nesting and of diffusible factors secretion. This stroma-induced circulating SP cell fraction contains HSPC, as ascertained by (i) CD34 expression, (ii) proportion of cells in G0, (iii) clonogenic and proliferative potential, (iv) nesting and “stemness” gene expression, (v) CXCL12-related migration capability and (vi) LT-SRC activity. Moreover, we describe an SP+CD34+CD44-/low sub-population that could contain most immature HSPCs with regards to their quiescence and Hoechst efflux intensity. Mechanistic studies show that the stoma-mediated SP promoting effect is VLA-4/4ß1-integrin and CD44 dependent, and implicate G-protein and Src-kinase pathways. We also demonstrate that BM stroma from healthy donors can induce/maintain/amplify in a ß1-integrin dependent manner an SP sub-population with mitoxantrone efflux capability in blast cells from acute myeloid leukemia. The existence of a similar mechanism in circulating leukemic blasts suggests the possibility to interfere with the chemo-resistant phenotype of blast cells through integrin/CD44 axis blockade.

Niche hématopoïétique

Cellules stromales mésenchymateuses

Side Population

VLA-4

CD44

ABCG2

Leucémie

Cellule souche hématopoïétique

Hematopoietic niche

Mesenchymal stromal cell

Side Population

VLA-4

CD44

ABCG2

Leukemia

Hematopoietic Stem cell

Etablierung einer Zellkultur von PDL-Fibroblasten aus parodontal erkranktem Zahnhalteapparat des Menschen / Establishing a tissue culture of human PDL-fibroblasts from donors with active periodontitis

Entorf, Anna Maria

16 March 2010

No description available.

610 Medizin, Gesundheit

Medicine

PDL-Fibroblasten

Zellkultur

Antibiotika

CD13

CD29

CD44

CD73

Runx2

Kollagen Typ I

PDL-fibroblasts

tissue culture

antibiotics

CD13

CD29

CD44

CD73

Runx2

collagen type I

44.96 Zahnmedizin

MED 565: Prothetik

Μελέτη της έκφρασης των συνθασών του υαλουρονικού οξέος και του υποδοχέα CD44 σε κυτταρικές σειρές όγκων όρχεων

Κουρτίδης, Κωνσταντίνος

15 February 2012

Η νεοπλασία των όρχεων, αν και σχετικά αποτελεί μια σπάνια μορφή νεοπλασίας (1- 2% όλων των νεοπλασμάτων του άνδρα), είναι ο πιο συχνός όγκος στις ηλικίες 20-40 ετών, αποτελώντας την τρίτη κατά σειρά αιτία θανάτου στις ηλικίες αυτές. Περίπου το 95% των όγκων όρχεων προέρχεται από τα βλαστικά κύτταρα. Η αλληλεπίδραση των κυττάρων με άλλα κύτταρα ή με συστατικά του εξωκυττάριου χώρου, καθώς και η μετακίνηση στο ενδοθήλιο των αρτηριών και στο εξωφλεβικό ιστό, είναι εξαρτημένη από την ενεργότητα των μορίων προσκόλλησης όπως οι ιντεγκρίνες, οι σελεκτίνες και μέλη της υπεροικογένειας των ανοσοσφαιρινών, καντχερίνες και ο CD44. Ο CD44 είναι μια γλυκοπρωτεΐνη και αποτελεί τον κύριο υποδοχέα του ΗA. Η ισομορφή που δεν περιέχει ενδιάμεσα εξώνια ονομάζεται CD44s, ενώ όλες οι υπόλοιπες ισομορφές προκύπτουν με εναλλακτικό μάτισμα δέκα διαφορετικών εξωνίων, παράγοντας πληθώρα διαφορετικών μορίων του CD44. Πληθώρα μελετών υποστηρίζει ότι ο μεμβρανικός υποδοχέας CD44 και το ΗΑ υπερεκφράζονται σε πολλές κακοήθειες και η αλληλεπίδρασή τους διεγείρει σειρά λειτουργιών στα κύτταρα του όγκου που συντελούν στην πρόοδο της νόσου. Η κύρια ισομορφή CD44s εκφράζεται ευρέως στους ιστούς και υπερεκφράζεται σε διάφορους τύπους καρκίνου όπου και συνυπάρχει με το ΗΑ, ενώ κάποιες ισομορφές όπως η CD44v5, CD44v6, παίζουν σημαντικό ρόλο στην επιθετικότητα μερικών τύπων καρκίνου. Η έκφραση του CD44 έχει μελετηθεί μερικώς στους όγκους όρχεων και έχουν δημοσιευθεί αντικρουόμενα ευρήματα, ενώ δεν υπάρχουν διαθέσιμα στοιχεία για την έκφραση των ενζύμων που συνθέτουν το ΗΑ. Στόχος της μεταπτυχιακής εργασίας ήταν να διερευνηθεί η έκφραση των ισομορφών του CD44 και των συνθασών του ΗΑ σε τρεις κυτταρικές σειρές όγκων όρχεων (Σεμίνωμα, Εμβρυϊκό καρκίνωμα, Τερατοκαρκίνωμα). Η μελέτη του υποδοχέα CD44 πραγματοποιήθηκε με RT-PCR και ανοσοαποτύπωση. Σε επίπεδο mRNA βρέθηκε πως η κύρια ισομορφή του CD44 που εκφράζεται στο σεμίνωμα καθώς και σε μη- σεμινωματώδεις όγκους είναι η ισομορφή CD44s. Ακόμη στην κυτταρική σειρά σεμινώματος όρχεων εκφράζονται και άλλες ισομορφές, κυρίως όμως εκφράζονται οι ισομορφές CD44v7-v10, CD44v8-v10, CD44v9-v10 και CD44v10. Στις κυτταρικές σειρές μη σεμινωματωδών όγκων (εμβρυϊκό καρκίνωμα και τερατοκαρκίνωμα) εκτός της CD44s ισομορφής που είναι η κυρίαρχη ισομορφή εκφράζονται και κάποιες άλλες ισομορφές του CD44. Στο εμβρυϊκό καρκίνωμα εκφράζονται οι ισομορφές CD44v5,v8, CD44v9-v10 και CD44v10, ενώ στο τερατοκαρκίνωμα παρατηρείται η έκφραση κυρίως της CD44v5,v8, ενώ εκφράζονται και οι CD44v5,v9, CD44v5, CD44v8-v10, CD44v9-v10 και η CD44v10. Η μελέτη του CD44 σε επίπεδο πρωτεΐνης με το αντίσωμα Hermes-3 κατέδειξε πως η κύρια ισομορφή που εκφράζεται στην κυτταρική σειρά σεμινώματος είναι η CD44s με μοριακό βάρος~90kDa. Ακόμα φάνηκε πως υπάρχει έκφραση και κάποιων ισομορφών και θραυσμάτων του CD44 με μικρότερο μοριακό μέγεθος. Αντίθετα στις κυτταρικές σειρές εμβρυϊκού καρκίνωματος και τερατοκαρκινώματος παρατηρήθηκε η έκφραση μόνο της CD44s ισομορφής. Αντίθετα με την υψηλή έκφραση του CD44s στην κυτταρική σειρά σεμινώματος, παρατηρήθηκε μικρή έκφραση του CD44s στην κυτταρική σειρά εμβρυϊκού καρκινώματος και μια ελάχιστη έκφραση στην κυτταρική σειρά του τερατοκαρκινώματος. Η μελέτη του υποδοχέα CD44 σε επίπεδο ιστού έδειξε ότι η πρωτεΐνη του CD44 εκφράζεται στα κύτταρα του όγκου. Η σηματοδοτική δράση του ΗΑ στα καρκινικά κύτταρα μέσω του υποδοχέα CD44 έχει προταθεί ως βασικό βήμα για την ανάπτυξη και πρόοδο της νόσου. Οι συνθάσες του HA είναι τα ένζυμα που βιοσυνθέτουν το ΗΑ και διακρίνονται σε τρεις ισομορφές τις HAS- 1, HAS-2, HAS-3α, και HAS-3β. Στα πλαίσια της μεταπτυχιακής διατριβής βρέθηκε πως η κυτταρική σειρά σεμινώματος εκφράζει μόνο την ισομορφή HAS-3α, ενώ οι κυτταρικές σειρές εμβρυϊκού καρκινώματος και τερατοκαρκινώματος εμφανίζουν ισχυρή έκφραση της ισομορφής HAS-3α και μικρή έκφραση της HAS-2. / Testicular tumors are present in men aged 15-35 years with increasing incidence in the last 40 years. Approximately 95% of these tumors arise from germ cells. The interaction of cells with other cells or with components of the extracellular matrix (ECM), as well as their locomotion on blood vessel endothelium and extravascular tissue, are substantially dependent on the activity of adhesion molecules such as integrins, selectins, members of the immunoglobulin superfamily, addressins, cadherins, and CD44. CD44 is a glycoprotein and represents the major receptor for HA. The isoform with no variant exons is named CD44s, whereas the other isoforms arise from alternative splicing of the 10 variant exons of the CD44 mRNA, producing a huge variety of diverse CD44 molecules. A lot of studies supports that the membrane receptor CD44 and HA are overexpressed in several malignancies and their interaction trigger fuctions in tumour cells, which conduce to the disease progression. The major isoform is the CD44s which is expressed widely in tissues, whereas is overexpressed in several types of tumours ,coexisting with HA. The expression of CD44 has been partly studied in testicular tumours but controversial findings have been published, whereas no data about the enzymes which synthesize HA are available. The aim of this thesis was to examine the expression of CD44 isoforms and HA synthases in three cell lines (seminoma, embryonic carcinoma, teratocarcinoma). The study of CD44 was conducted by RT-PCR analysis and western blotting. It was found that in mRNA level, the major isoform that is expressed in seminoma and nonseminomas is the CD44s isoform. Moreover, in seminoma cell line, other isoforms are also expressed, namely CD44v7-v10, CD44v8-v10, CD44v9-v10 and CD44v10 isoforms. In nonseminomas cell lines CD44s is expressed as the major isoform , but also other isoforms are expressed. CD44v5,v8, CD44v9-v10 and CD44v10 isoforms are expressed in embryonic carcinoma , whereas in teratocarcinoma the expression mainly of the CD44v5,v8 isoform is observed, together with CD44v5,v9, CD44v5, CD44v8-v10, CD44v9-v10 and CD44v10 isoforms. The study of CD44 in protein level conducted by western blotting using the monoclonal antibody Hermes-3. It was shown that the major isoform expressed in seminoma cell line is CD44s with a molecular mass approximately 90kDa. Moreover it was shown that other CD44 isoforms and CD44 fragments with smaller molecular mass are expressed. On the other hand, in embryonic carcinoma and teratocarcinoma cell lines, the expression only of CD44s isoform was observed. The study of CD44 in tissue level revealed that CD44protein is expressed in tumour cells. The signaling effect of HA in tumor cells through CD44 has been stated to be a crucial step in the development and progression of the disease. The synthases of HA are the enzymes that produce HA and represent three distinct isoforms HAS-1, HAS-2, HAS-3a, and HAS-3b. The findings of this study revealed that seminoma cell line express only HAS-3a isoform, whereas embryonic carcinoma and teratocarcinoma cell lines showed high expression of HAS-3a isoform and low expression of HAS-2 isoform.

Εμβρυϊκό καρκίνωμα

Ισομορφές CD44

Σεμίνωμα

Όγκοι των όρχεων

Τερατοκαρκίνωμα

Υαλουρονικό οξύ

CD44 isoforms

Embryonic carcinoma

Seminoma

Synthases of hyaluronic acid

Teratocarcinoma

Testicular tumours

Receptor of hyaluronic acid

Hyaluronic acid

Expressão de CD44 e CD24 em carcinomas mamários ductais invasivos de acordo com análise dos subtipos moleculares e sua relação com fatores prognósticos / CD44 and CD24 expression in ductal invasive breast carcinomas, classified by molecular subtypes and its association with prognostic factors

Maria Auxiliadora Bernardi

15 September 2011

Carcinomas de mama são heterogêneos e consistem de diversos tipos celulares. Perfis de expressão gênica usando DNA microarrays identificaram quatro subtipos moleculares fundamentais baseados na expressão de receptores hormonais (estrógeno e progesterona) e de fator de crescimento epidérmico (HER2) (luminal tipo A, luminal tipo B, tumores expressando somente HER2 e triplos negativos) refletindo a heterogeneidade molecular dos carcinomas. Sugeriu-se que esta heterogeneidade advém da presença de células tronco tumorais com a capacidade de se diferenciar ao longo de vias divergentes e outros estudos sugeriram que a presença destas células tronco tumorais pode ser evidenciada pela análise fenotípica de CD44 e CD24. Nosso objetivo foi detectar a freqüência de CD24 e CD44 isolados ou combinados, analisados por imunoistoquímica e sua associação com os subtipos moleculares e com diversos marcadores biológicos em 95 casos de carcinoma ductal infiltrativo organizados em um microarranjo tissular (TMA). Realizamos determinações imunoistoquímicas de CD44, CD24, citoqueratinas (CK5, CK6, CK18), claudina 7 e Ki67. Subgrupos moleculares foram definidos pela expressão imunoistoquímica de RE, RP e HER2. Resultados: Os tumores apresentaram uma maior freqüência dos grupos luminais (49,5%) atribuído à alta expressão de RP ou RE (47,4%), e freqüência menor de tumores triplo negativos (21,5%) e HER2 (9,5%). Os fenótipos CD44+CD24- e CD44-/CD24+ estavam respectivamente presentes em 8,4% e 16,8% dos tumores e o fenótipo duplamente positivo foi predominante (45,3%). Ausência de ambas as proteínas foi evidente em 6,3% dos tumores. Tumores com fenótipo CD44+CD24- (definido como um marcador de células tronco tumorais por estudos in vitro) foram mais comuns em tumores triplos negativos mas não demonstraram nenhum tipo de associação com características clinico-patológicas e demais marcadores. Este fenótipo não foi expresso nos tumores HER2 positivos. O fenótipo duplamente positivo CD44+CD24+ mostrou-se mais freqüente nos subtipos luminais ou com alta expressão de HER2. Os fenótipos (CD44-CD24+ e CD44-CD24-) não mostraram associação com os subgrupos. Tumores expressando CD24+ isolado, com grande freqüência deste marcador (74,7%), mostraram significativa associação com positividade do RE, RP e Ki67 e uma significância marginal com marcadores de diferenciação luminal (CK18 e claudina 7, p = 0,14). Nenhuma associação foi observada com tumores CD44+ quando analisado isoladamente. A expressão de claudina 7 e Ki67 não mostrou associação com os subgrupos e a expressão de CK5 apresentou uma tendência a uma maior negatividade nos subtipos luminais e uma freqüência maior de positividade nos tumores HER2 e triplo negativos. De outro lado, associação da freqüência da expressão positiva de CK18 nos subgrupos luminais foi estatisticamente significativa (p = 0,003). Para se determinar se CD24+ e CD44+ e seus subtipos combinados poderiam afetar a sobrevida global e o intervalo livre da doença preparamos curvas de sobrevida de acordo com Kaplan-Meier que foram analisadas estatisticamente (log rank test). A mediana do período de seguimento das pacientes do nosso estudo foi de 4,8 anos (0,36 10,9 anos). Estas análises não demostraram influência dos fenótipos CD44+CD24- ou CD44+ sobre a sobrevida global ou intervalo livre de doença, mas observamos uma tendência a um prognóstico mais favorável. Interessantemente tumores HER2 positivos não expressaram este fenótipo, sugerindo que outros marcadores de células tronco caracterizam estes tumores. O fenótipo CD44-CD24+ mostrou-se mais freqüente nos tumores luminais, mas não apresentou correlação com marcadores clínico-patológicos ou biológicos analisados. Não houve diferenças significativas com respeito a sobrevida global ou intervalo livre de doença . A expressão de CD24+ isolado associou-se a expressão dos marcadores de diferenciação celular e a uma diminuição do intervalo livre de doença. A sobrevida livre de doença (10 anos) indicou uma percentagem de 94,1% para CD24- e 72,1% para os pacientes CD24+ enquanto a sobrevida global foi de 84,2% para os pacientes CD24- e 72,1% para os pacientes CD24+. Citoqueratinas (CK5, CK18) e Ki67 não influenciaram a sobrevida e o intervalo livre de doença. No entanto a expressão positiva de claudina 7, embora não associada à sobrevida global, foi estatisticamente associada ao decréscimo do intervalo livre da doença (p = 0,05). Conclusão: As características dos tumores CD44+CD24- e sua tendência a associação um prognóstico mais favorável parecem não estar de acordo com as propriedades descritas na literatura para células tronco e enfatizam a necessidade de outros marcadores. A determinação da freqüência de CD44+ e claudina 7 positiva pode contribuir para a análise do prognóstico em carcinoma de mama / Background: Breast carcinomas consist phenotypically of diverse cells and exhibit intra tumoral heterogeneity being stratified in several subgroups based in gene expression profiles or histochemical biomarkers. It was suggested that this heterogeneity is derived in part from the transformation of different subsets of cancer stem cells (CSC) in each intrinsic subgroup. The presence of CSC can be evidenced by phenotypic analysis of CD44 e CD24. This study aimed to identify the CD24 and CD44 immunophenotype within invasive ductal breast carcinoma (IDC) subtypes and determine its influence on prognosis as well as its association with the expression of Ki67, citokeratins (CK5, CK6 and CK18) and claudin-7. Methods: Immuno expression of CD44 and CD24 alone or in combination was investigated in 95 IDC cases arranged in a tissue microarray (TMA). The association with intrinsic subgroups defined as luminal A (ER+, PR+, HER2-), luminal B (ER and or PR+, HER2+), HER2 subtype (ER-, PR-, HER2+) and triple negative (ER-, PR-, HER2-), and the other markers and prognosis was analyzed. Results: CD44+CD24- and CD44-CD24+ were respectively presents in 8.4% and 16.8% of the tumors, a lack of both proteins was detected in 6.3%, while CD44+CD24+ was determined in 45.3% of the tumors. Although there was no significant correlation between subgroups and different phenotypes, the CD44+CD24- phenotype was more common in the basal subgroups but the frequency of this subtype has not been associated with clinical characteristic or biological markers. The phenotype was absent in HER2 tumors whereas luminal tumors are enriched in CD44-CD24+ and CD44+CD24+ cells which did not show associations with clinical/biological markers features. There was also no significant association of the subtypes with the event free (DFS) and overall survival (OS) but the CD44+CD24- phenotype showed a more favorable prognostic as compared to CD44-CD44+ phenotype that showed a worse prognosis (p = 0.26) (median follow up, 4.8 years) CD44+ alone was evident in 57.9%, while CD24+ was positive in 74.7% of the tumors, the latter showing a significant association with ER, PR and Ki67 and a marginal association with CK18 and claudin-7. Expression of claudin-7 and Ki67 did not associate with the cancer subgroups, while a positive association between CK18 and the luminal subgroups was found. CD44+ was not significantly associated with OS (p = 0.684) and DFS (p = 0.386) whereas CD24+ expression was also no significantly associated with OS (p = 0.32) but was associated with a decrease in DFS (p = 0.07). CK5, CK18 and Ki67 expression had no influence in OS or DFS, however claudin-7 positive although not statistically associated with OS, was associated with reduced DFS (p = 0.05). Conclusions: The heterogeneity of cells with several CD44CD24 expression may indicate the presence of different stem cell populations. Ocurrence of CD44+CD24- phenotype is more common in triple negative tumors and lower in tumors of luminal type and absent in HER2 tumors. Although not associated significantly with patho-biological markers or OS and DFS, the CD44+CD24- phenotype has a tendency to be a favorable prognostic marker in breast cancer raising the possibilty that the putative tumorigenic ability may no be restricted to cells of this phenotype. The presence of CD44-CD24+ may indicat a worse prognosis. CD24+ was associated with ER, PR, Ki67and showed a marginal association with CK18 and claudin-7. CD24 and Claudin-7 positivity were the only biological markers associated with reduced DFS. These two investigated markers can be used to improve the assessement of prognosis in breast cancer

Antígeno Ki-67

CD44/CD24

Células-tronco neoplásicas

CK18

CK5

CK6

Claudina 7

Fenótipos

Marcadores biológicos

Neoplasias da mama

Subtipos moleculares

Biologic markers

Breast neoplasms

CD44/CD24

CK18

CK5

CK6

Claudin 7

Ki-67 antigen

Molecullar subtype

Neoplastic stem cells

Phenotypes