Etude du rôle de LKB1 dans le foie / LKB1 Roles in the Liver

Just, Pierre-Alexandre

10 December 2014

Les carcinomes hépatocellulaires (CHC) mutés CTNNB1 ont des caractéristiques phénotypiques propres en termes de polarité et de métabolisme (absence de stéatose). Nous avons émis l’hypothèse que ce phénotype pouvait être secondaire à l’activation du gène suppresseur de tumeurs LKB1 qui code une Ser/Thr kinase multitâches.Nous avons tout d’abord montré qu’il existait effectivement un dialogue complexe entre les voies Wnt/β-Caténine et LKB1 dans le foie. Les mutations de CTNNB1 sont en effet capables d’induire l’expression protéique de LKB1 dans des lignées hépatomateuses humaines, et les CHC mutés CTNNB1 présentent une expression protéique accrue de LKB1 et une signature transcriptionnelle d’activation de LKB1. De plus, dans deux modèles murins d’invalidation hépatospécifique de Lkb1, LKB1 est apparu comme requis pour l’activation complète du programme transcriptionnel de β-Caténine mais de façon dépendante du stade de développement et du contexte nutritionnel. Enfin, la signalisation LKB1 est apparue comme nécessaire à la survie des hépatocytes activés pour β-Caténine dans deux modèles murins différents.Nous avons aussi caractérisé les rôles métaboliques de LKB1 dans le foie. L’invalidation hépatospécifique de Lkb1 induisait une augmentation progressive de la masse grasse corporelle avec utilisation préférentielle des glucides comme substrat énergétique. Il existait une activation de la néoglucogenèse hépatique avec hyperglycémie et une lipogenèse accrue avec accumulation hépatocytaire de lipides. Enfin, nous avons mis en évidence une activation paradoxale de la signalisation AKT dans les hépatocytes, même à jeun, et une dépendance énergétique aux acides aminés. Enfin, nous avons identifié une nouvelle isoforme protéique de LKB1 délétée de son domaine N-Terminal et d’une partie de son domaine kinase. D’expression tissulaire préférentiellement musculaire et myocardique, cette isoforme catalytiquement inactive se comportait comme dominant positif sur l’activation de l’AMPK par la forme conventionnelle mais comme dominant négatif dans l’activité polarisation induite par LKB1. Enfin, elle était capable d’induire, en l’absence de la forme conventionnelle, la prolifération cellulaire et la tumorigenèse chez la souris nude. Elle pourrait exercer des rôles métaboliques particuliers dans les tissus fortement oxydatifs et des rôles oncogéniques dans certains contextes. / CTNNB1-Mutated hepatocellular carcinomas (HCC) share a specific polarity and metabolic phenotype without steatosis. We hypothesized that such phenotype could imply the tumor suppressor gene LKB1 that encodes for a multi-Task Ser/Thr kinase.We first demonstrated that a complex crosstalk indeed exists in the liver between LKB1 and the Wnt/β-Catenin pathway. LKB1 proteic expression was controlled by mutant β-Catenin in hepatomatous cell line and CTNNB1-Mutated HCCs had an enhanced LKB1 proteic expression as well a transcriptomic signature of LKB1 activation. In two mouse model of liver-Specific invalidation of Lkb1, we showed that LKB1 was required for full activation of the β-Catenin transcriptomic program, but it depended on the developmental stage and nutritional context. At least, LKB1 appeared to be required for the survival of β-Catenin activated liver cells in two other mouse models.Then, we wanted to caracterize the metabolic roles of LKB1 in the liver. Liver-Specific invalidation of Lkb1 progressively raised the body fat mass and we observed that carbohydrates were preferred as whole-Body energetic fuel. In the liver, gluconeogenesis and lipogenesis were enhanced, resulting in mild hyperglycemia and lipid accumulation in the hepatocytes. At least, we identified an aberrant activation of the AKT signaling in the liver, even during fasting, and an energetic dependence towards amino acids.At least, we identified a novel LKB1 proteic isoform that is deleted of its N-Terminal domain and part of its kinase domain. Highly expressed in the muscle and in the heart, this catalytically inactive isoform however acted as a positive dominant towards AMPK activation by full length LKB1 but as a negative dominant towards LKB1-Induced cell polarization. This isoform is also able to enhance cell proliferation and to induce tumors in a xenograft model, even when expressed alone. It could play specific metabolic roles in oxidative tissues and could be oncogenic in some contexts.

Carcinome hépatocellulaire

LKB1

Beta-caténine

Néoglucogenèse

Isoforme

STK11

Hepatocellular carcinoma

LKB1

Beta-catenin

Gluconeogenesis

Isoform

STK11

Hnf4α and Choline Metabolism Role in β-catenin Activated Liver Carcinogenesis / Le rôle d’Hnfα et du métabolisme de la choline dans les carcinomes hépatocellulaires activés pas la β-caténine

Sartor, Chiara

24 September 2015

La voie de signalisation WNT/β-caténine est impliquée dans de nombreuses processi cellulaires, du développement à la physiologie. Dans le foie adulte, elle est nécessaire pour établir et maintenir la zonation métabolique, condition préalable pour la fonctionnalité de l’organe, mais elle est aussi cause d’un pourcentage non négligeable (11-32%) de carcinomes hépatocellulaires (CHC), qui surviennent après mutation activatrice du gène codant la β-caténine. Mes travaux se sont inscrits dans la continuité de travaux de l’équipe auxquels j’ai participé , et ont eu pour principaux objectifs : (1) d’explorer le rôle du facteur de transcription Hnf4α dans la physiologie et les cancers du foie, en lien avec la signalisation β-caténine ; (2) de déterminer si une imagerie tumorale par tomographie par émission de positrons (TEP) spécifique de la captation de choline pouvait prédire les CHC mutés pour la β-caténine et si le métabolisme de la choline pouvait présenter une piste thérapeutique des cancers du foie.Pour ces deux projets, j’ai eu accès à des cohortes de patients atteints de cancers du foie, mais j’ai également pu bénéficier du modèle gain-de-fonction de la β-caténine développé au laboratoire, qui consiste en une perte du suppresseur de tumeur Apc, frein majeur de la voie β-caténine conduisant à des cancers du foie. Grâce à un modèle d’invalidation hepato-spécifique et conditionnelle du gène Hnf4α, j’ai pu prouver que la perte de Hnf4α mène à une augmentation de la prolifération, du stockage des lipides dans le foie et à une désorganisation de l’architecture zonale hépatique, en particulier celle de la triade portale. J’ai aussi démontré que dans un contexte de carcinome murin invalidé par Apc, le rôle suppresseur de tumeur d’Hnf4α était mineur.Une approche métabolomique avait montré qu’un signal β-caténine perturbait le métabolisme des phospholipides dérivant de la choline. Grâce à une étude parallèle réalisée chez des patients porteurs de CHC d’une part, et dans nos modèles murins d’autre part, nous avons pu mettre en évidence par TEP une fixation accrue de la F-choline dans les tumeurs activées β-caténine. Ce phénotype est spécifique d’une signalisation β-caténine active puisque cette captation accrue n’était pas présente chez les patients porteurs de carcinome hépatocellulaire non mutés ou chez les souris présentant une cancérogenèse indépendante de la β-caténine (modèle DEN). J’ai ensuite étudié le devenir intracellulaire de la choline. En utilisant de la choline radiomarquée j’ai montré in vitro qu’un signal β-caténine aberrant accroit l’incorporation de choline dans les phospholipides, et accroit également son rôle de donneur de groupements méthyles, participant à la méthylation de l’ADN. Cela pourrait expliquer pourquoi l’ADN est hyperméthylé chez les souris avec la perte d’Apc, puisque l’administration d’un régime sans choline et methionine à ces souris réverse le phénotype d’hyperméthylation. L’ensemble de ces résultats suggère que la choline pourrait jouer un rôle important dans la cancérogenèse liée à la β-caténine. Nous proposons que des TEP F-choline pourraient être utilisés pour diagnostiquer les CHC mutés β-caténine, et à terme des thérapies ciblées sur ce métabolisme pourraient être envisagées. / WNT/β-catenin is a pillar during development and in adult physiology. In particular in the adult liver it is a double-edged sword: it is necessary to establish the metabolic zonation, requirement for having a functional organ, but it is also involved in the onset of 11-32% of hepatocellular carcinoma (HCC). My thesis work has been based on the team previous results and it is focused on two main subjects: (1) the first aim was to decipher the role of Hnf4α both in physiology and in HCC development and its relationship with WNT/β-catenin signalling and (2) the second part explores the possible use of Fluoro-choline (FCh) positron emission tomography (PET) in the diagnosis of β-catenin-activated liver tumours.In this study I used cohorts of patients having HCC, but also inducible and hepatospecific knock-out mice for adenomatous polyposis coli (APC) gene (thereafter called ApcKO mice). Apc is the most important negative regulator of β-catenin, and it hepatic loss leads to aberrant activation of β-catenin, disrupting liver zonation and initiating long-term liver cancers. I generated also inducible hepatospecific Hnf4α knock-out mice and I demonstrated an increased proliferation, lipids accumulation and disorganization in the portal triad architecture, together with a mild distruption of liver zonation. Then, looking at cancer onset, I demonstrated that Hnf4α loss is not able per se to initiate liver cancer, and has no tumour suppressor role in β-catenin activated tumours onset and progression.We performed a metabolic analysis of ApcKO livers, showing that β-catenin is able to deregulate lipids metabolism, in particular that of phospholipids derived from choline. In collaboration with clinicians, I studied human patients who underwent FCh/PET, showing that β-catenin-mutated tumours had an increased uptaken of F-Choline whereas non-mutated β-catenin human HCC had not. Similar results were obtained with mice, either ApcKO β-catenin-activated HCC or β-catenin-independent mice HCC, obtained through a N-diethylinitrosamine (DEN) injection.Choline in cells splits in two main pathways: it is both a methyl-group donor and a precursor for phospholipids production. I tested this through radiolabeled fluxes in in vitro experiments. In β-catenin activated hepatocytes and tumours there are more phospholipids and more methyl groups in DNA derived from choline than in control mice. Moreover in ApcKO DNA is hypermethylated, and it is dependent on choline supply from diet.All these results together show the importance for β-catenin activated tumours to have a supply in choline, and so open a way not only in PET exploitation for having a precise diagnosis, but also in deciphering the importance of choline pathway, to possibly develop a targeted therapy.

Foie

Carcinome hépatocellulaire

Β-caténine

Hnf4α

Liver

Hepatocellular carcinoma

Β-catenin

Hnf4α

Dynamique de la jonction adhérente : rôle d'EPLIN dans la stabilité des contacts intercellulaires de l'endothélium vasculaire / Dynamic of adherens junction : role of EPLIN in intercellular contacts stability of vascular endothelium

Pétinot, Adeline

07 October 2011

L'endothelium vasculaire constitue la principale barrière entre le sang et les tissus régulant le passage de macromolécules et de cellules circulantes. Longtemps considéré comme une monocouche passive, l'endothélium joue d'importants rôles dans la régulation de la pression sanguine, de l'hémostase, des réponses immunitaires et inflammatoires. L'adhérence cellule/cellule est initiée dans l'endothélium vasculaire par des interactions homophiliques entre molécules de VE-cadhérine (= jonctions adhérentes). La dynamique de la jonction et du cytosquelette est importante pour le remodelage des jonctions intercellulaires qui a lieu au cours l'angiogenèse, de la vasculogenèse et lors de la réparation de l'endothélium. C'est pourquoi la détermination des mécanismes moléculaires sous-jacents est indispensable à la comprehension de phénomènes physiopathologiques (angiogenèse et progression tumorales, inflammation...). D'après la littérature, la protéine EPLIN intervient dans la formation du complexe E-cadhérine/alpha-caténine/EPLIN et stabilise l'actine corticale. Actuellement décrite comme spécifique des modèles épithéliaux, EPLIN peut-elle intervenir dans la liaison du complexe à base de VE-cadhérine au cytosquelette d'actine? De plus, il paraît essentiel de comprendre le rôle de cette protéine dans les cellules car son expression est fortement diminuée dans la plupart des cancers alors qu'à l'inverse sa surexpression bloque la prolifération cellulaire. / The endothelium forms the main barrier regulating the passage of macromolecules and circulating cells between the blood and tissue. Historically viewed as a passive vascular lining, vascular endothelium plays important roles in the regulation of vascular pressure, hemostasis, immune and inflammatory responses. In vascular endothelium, cell/cell adhesion is mediated by homophilic interactions of VE-cadherin molecules (= adherens junctions). Cytoskeleton and junction dynamics are important for intercellular junctions remodelling that occurs during angiogenesis, vasculogenesis and endothelium repair. So, determining the underlying molecular mechanisms is essential for the comprehension of pathologic phenomena such as angiogenesis, tumor progression or inflammation. We learn from the literature that EPLIN is involved in E-cadherin/α-catenin/EPLIN complex formation and cortical actin stabilization. Usually described as a protein specific of epithelial models, we wondered if EPLIN is able to link VE-cadherin complex to actin cytoskeleton. Furthermore, it seems essential to understand its cellular role since it is downregulated in many cancers while in contrast its overexpression blocks cell proliferation.

Jonction adhérente

VE-acdhérine

Endothélium

Alpha-caténine

EPLIN

Adherens junction

VE-cadherin

Alpha-catenin

EPLIN

570

Efeito α-tomatina na proliferação celular, apoptose e expressão de RNAm dos genes APC, Ciclina A2, Catenina, CASP9, BAK, BAX e BCL-XL em células HT29 /

Ishii, Priscila Lumi.

January 2011

Orientador: Lúcia Regina Ribeiro / Banca: Daniel Araki Ribeiro / Banca: Maria Izabel Souza Camargo / Resumo: A Nutrigenômica é definida como o efeito da dieta na expressão gênica, e a extensão pela qual as diferenças genéticas entre os indivíduos influenciam a resposta a um padrão específico de dieta, à ingestão de alimentos funcionais e à suplementação de micronutrientes, em termos de um resultado para a saúde humana. A α-tomatina é um glicoalcalóide encontrado no tomate (Lycopersicon esculentum) que possui funções biológicas importantes como a redução dos níveis de colesterol LDL, inibição do crescimento de células cancerosas, estimulação do sistema imune e efeito antimetastático. O objetivo deste estudo foi avaliar a citotoxicidade da α-tomatina, os seus efeitos na proliferação celular, na indução de apoptose e expressão de RNAm dos genes APC, Ciclina A2, Catenina, CASP9, BAK, BAX e BCL-XL em células HT29. As células foram cultivadas em meio de cultura DMEM, suplementado com 10% de soro bovino fetal, e tratadas nas concentrações de 0,1, 1 e 10 μg/mL para o ensaio do MTT e proliferação celular. Na análise de apoptose morfológica utilizou-se as concentrações de 0,1, 1 e 2 μg/mL. Já para a avaliação da expressão gênica utilizou-se a concentração de 1 μg/mL. Após 12 horas de tratamento, o RNA das células foi extraído e a expressão dos genes foi avaliada através do método de PCR em tempo real. O gene GPDH foi utilizado como normalizador. A análise estatística foi realizada por ANOVA/Tukey para o ensaio do MTT. Os resultados do ensaio de cinética de proliferação celular, viabilidade celular e avaliação da indução de apoptose foram analisados estatisticamente através de ANOVA/Dunnet, e para a análise da expressão gênica utilizou-se o método de Pfaffl et al. (2002), através do cálculo estimado pelo método ΔΔCt. Os estudos experimentais indicaram que a α-tomatina foi citotóxica apenas na concentração de 10 μg/mL... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Nutrigenomics is defined as the effect of diet on gene expression, and the extent to which genetic differences between individuals influence the response to a specific pattern of diet, intake of functional foods and micronutrient supplementation, in terms of a result for human health. The α- tomatine is highlighted as a glycoalkaloid found in tomato (Lycopersicon esculentum) that has important biological functions such as reducing levels of LDL cholesterol, inhibit cancer cell growth, stimulation of the immune system and antimetastátic effect. In view of these considerations, the objective of this study was to evaluate the cytotoxicity of α-tomatine, their effects on cell proliferation, induction of apoptosis and morphological expression of mRNA of APC gene, Cyclin A2, β-Catenin, CASP9, BAK, BAX and BCL-XL in HT29 cells. The cells were grown in DMEM culture medium supplemented with 10% fetal bovine serum, and treated at concentrations of 0.1, 1 and 10μg/mL for the MTT assay and cell proliferation. In the morphological analysis of apoptosis, we used concentrations of 0.1, 1 and 2μg/mL. As for the evaluation of gene expression we used a concentration of 1 mg/mL. After 12 hours of treatment, the RNA from cells was extracted and gene expression was evaluated by the method of real-time PCR. The gene GPDH was used as normalizer. Statistical analysis was performed by ANOVA / Tukey test for MTT. The test results of kinetics of cell proliferation, cell viability and assessment of apoptosis were analyzed with ANOVA / Dunnet, and for analysis of gene expression we used the method of Pfaffl et al. (2002), by calculating estimated by ΔΔCt. Experimental studies suggested that α-tomatine was cytotoxic only at concentration of 10μg/mL. In the evaluation of cell proliferation were no significant differences in the treatments with α-tomatine, except that for the concentration... (Complete abstract click electronic access below) / Mestre

Citologia.

Alimentos.

Gene expression. eng

Cyclin A2. eng

β-catenin. eng

Expressão imuno-histoquímica da beta-catenina, p-Akt, CD44 e vimentina nos ameloblastomas / Expression immunohistochemistry of beta-catenin, p-Akt, CD44 and vimentin in ameloblastomas

Bianca de Fatima Borim Pulino

12 September 2013

O ameloblastoma é definido como um tumor odontogênico epitelial de crescimento lento e localmente invasivo, que acomete os maxilares com alta taxa de recorrência quando não removido adequadamente. Este trabalho tem por objetivo estudar as expressões imuno-histoquímicas das proteínas -catenina, p-Akt, CD44 e vimentina em ameloblastomas. Para este estudo foram selecionados 40 casos de ameloblastoma, pertencentes aos arquivos do Serviço de Patologia da Disciplina de Patologia Bucal da FOUSP. Para a realização das reações imuno-histoquímicas foi utilizada a técnica da estreptavidina-biotina e os cortes submetidos aos anticorpos anti--catenina, anti-pAkt, anti-CD44 e anti-vimentina separadamente. O padrão de marcação celular da -catenina nos ameloblastomas foi: marcação citoplasmática, nuclear e de membrana em 33 (82,5%) casos, marcação citoplasmática e de membrana em 7 (17,5%) casos; quanto à sua localização, em 21 (52,5%) casos marcações central e periférica, em 15 (37,5%) casos observou-se marcação central, em, 4 (10%) marcação periférica. Com relação à proteína p-AKT em 36 (90%) casos o padrão de marcação celular foi citoplasmático, sendo em 4 (10%) casos evidenciado o padrão citoplasmático e nuclear. De todos os casos analisados quanto a localização da marcação do p-AKT, 23 (57,5%) casos com marcação nas áreas central e periférica e 17 (42,5%) apresentaram marcação periférica. Nenhuma das lâminas estudadas apresentou marcação exclusiva em áreas centrais da lesão. Para a proteína CD44, 27 (67,5%) casos dos ameloblastomas estudados apresentou marcações citoplasmática e de membrana, enquanto 13 (32,5%) casos mostraram apenas marcações citoplasmáticas. No que diz respeito a localização, 28 (70%) casos apresentaram marcações centrais e periféricas concomitantes, 11 (27 %) casos marcações centrais, e 1 (2,5%) caso marcação periférica. 37 (92,5%) dos casos incluídos nesta pesquisa apresentou marcação citoplasmática para vimentina, sendo 3 (7,5%) casos negativos para a proteína. Dentre os casos com positividade, 22 (55%) referiram-se à região central 14 (7,5%) para as regiões central e periférica , e 1 (2,5%) caso para a região periférica. De acordo com os resultados obtidos, acredita-se que as áreas central e periféricas do tumor possuem células responsáveis pela proliferação e invasividade do tumor, assim como a presença de células tronco responsáveis pela invasividade do tumor, também estão presentes nessas áreas. / The ameloblastoma is defined as an epithelial odontogenic tumor of slow growth, and locally invasive, affecting the jaws with a high rate of recurrence if not removed properly. This study aims to study the immunohistochemical expression of the protein -catenin, p-Akt, CD44 and vimentin in ameloblastomas. For this study we selected 40 cases of ameloblastoma, from the archives of the Pathology of Oral Pathology FOUSP. To carry out the reactions immunohistochemical technique was used streptavidin-biotin and cuts subjected to anti--catenin, anti-pAkt, anti-CD44 and antivimentin separately. The pattern of cell labeling of -catenin in ameloblastomas was: cytoplasmic, nuclear and membrane in 33 (82.5%) cases, cytoplasmic membrane in 7 (17.5%) cases, as regards its location in 21 (52.5%) cases markings central and peripheral in 15 (37.5%) cases observed central marking in, 4 (10%) peripheral marking. With respect to the p-AKT protein in 36 (90%) cases, the staining pattern was cytoplasmic cell, and 4 (10%) patients demonstrated the nuclear and cytoplasmic pattern. In all cases analyzed as marking the location of the p-AKT, 23 (57.5%) cases with marking the central and peripheral areas and 17 (42.5%) had peripheral marking. None of the studied thin sections show labeling exclusively in the central areas of the lesion. For protein CD44, 27 (67.5%) cases of ameloblastomas studied showed markings and cytoplasmic membrane, while 13 (32.5%) cases showed only cytoplasmic markings. Regarding localization, 28 (70%) presented concomitant central and peripheral markings, 11 (27%) patients central markings, and 1 (2.5%), peripheral marking case. 37 (92.5%) of the cases included in this study showed cytoplasmic staining for vimentin, and 3 (7.5%) cases negative for protein. Among the positive cases, 22 (55%) referred to the central 14 (7.5%) for the central and peripheral, and 1 (2.5%) case for the peripheral region. According to the obtained results, it is believed that central and peripheral areas of the tumor cells have responsible for the proliferation and invasiveness of the tumor, as well as the presence of stem cells responsible for tumor invasiveness, are also present in these areas.

Ameloblastoma

beta-Catenina

Imuno-histoquímica

Proliferação de células

Ameloblastoma

beta-Catenin

Cell proliferation

Immunohistochemistry

The multifaceted roles of CD177 in mammary tissue development and breast cancer

Kluz, Paige Nicole

01 December 2018

Aiming to identify immune molecules with a novel function in cancer pathogenesis, we found the cluster of differentiation 177 (CD177), a known neutrophil antigen, expression to be positively correlated with relapse-free (RFS), metastasis-free (MFS) or overall survival (OS) in several solid cancers including those from breast, prostate, cervix, and lung. To study the role of CD177 in breast cancer, we generated a total body Cd177 knockout mouse. These mice had no profound phenotype at 3 - months of age or younger. The only phenotype found at this age was reduced peripheral neutrophil counts, but no difference in their ability to clear infections. Upon further analysis these mice developed an age dependent hyperproliferative mammary gland phenotype at 10 - months of age that was lost in mice 15 - months and older. Focusing on breast cancer, we found that CD177 is expressed in normal breast epithelial cells and is significantly reduced in invasive cancer. We found that CD177 suppresses breast cancer pathogenesis. To understand the mechanism behind CD177 mediated suppression of breast cancer, we performed mass spectrometry on the purified CD177 complex. Mass spectrometry and co-immunoprecipitation results revealed CD177 interacts with β-Catenin and glycolytic enzymes PFK, aldolase A, GAPDH and enolase-ɑ. Further studies revealed that mechanistically CD177 forms a complex with ECadherin and β-Catenin at adherens junctions. This physical interaction between CD177, E-Cadherin and β-Catenin prevents β-Catenin activation via the canonical WNT. We also found CD177 suppressed WNT/β-Catenin signaling independent of E-Cadherin with an unknown protein. Thus, we identified a novel protein complex involving CD177 and proteins from adherens junctions that can suppress cancer formation via inhibiting the WNT/β-Catenin signaling pathway, a key cellular biological process relevant to the oncogenesis of multiple cancer types and tissue development. The lack of WNT/β- Catenin signaling control explains how mice without CD177 develop hyperproliferation of mammary epithelium in the mouse mammary gland. Interestingly, this phenotype is lost with age, possibly due to a decrease in WNT/β-Catenin signaling resulting from a decrease in progesterone and estrogen. In addition to CD177’s role in the regulation of WNT/β-Catenin signaling we also identified that CD177 plays a role in cancer cell metabolism. Since metabolism plays a significant role in cancer and CD177 interacts with glycolytic enzymes, we sought to determine if CD177 plays a role in metabolism. CD177 appears to interact with glycolytic enzymes, PFK, aldolase A, GAPDH, and ɑ-enolase and ultimately suppresses their mRNA expression. Furthermore, we found novel localization of CD177 at the mitochondrion, thus providing a potential explanation as to how an extracellular membrane bound protein such as CD177 interacts with glycolytic enzymes. Metabolic analysis of CD177 expression on cancer cells revealed that CD177 leads to a decrease in glucose uptake and a slight decrease in basal glycolysis, but an increase in lactate concentration. Further metabolic profiling also revealed that CD177 expression results in a significant decrease in glycolytic capacity (ECAR). Expression of CD177 also resulted in a significant decrease in basal respiration, ATP production, maximal respiration, and spare capacity (OCR) as well as an increase in reactive oxygen species. These data reveal that CD177 plays a novel role in cancer cell metabolism.

beta-Catenin

Breast Cancer

CD177

E-Cadherin

Metabolism

Wnt

Nuclear localization and transactivation of sys-1/β-catenin, a regulator of Wnt target gene expression and asymmetric cell division

Wolf, Arielle Koonyee-Lam

01 May 2019

Human β-catenin is a dual-functioned protein responsible for regulating cell-cell adhesion and gene transcription. To activate gene transcription, β-catenin must be shuttled into the nucleus where it interacts with various co-activators to activates gene transcription. Various studies have identified proteins that bind to specific amino acid sequences in β-catenin for proper gene transcription regulation. Compared to the single beta-catenin in most animals, C. elegans surprisingly contains four β-catenins. Though structurally similar, these beta-catenins became distinct during nematode evolution, resulting in four β-catenins that differ in functions. SYS-1 is one such β-catenin that loses its adhesion ability and is specialized in activating transcription of genes in the nucleus. Across different animals, β-catenin shares similar amino acid sequences and structure. SYS-1, while it shares the similar structure to other β-catenins, is the most divergent C. elegans beta-catenin when comparing amino acid sequences. In addition, while SYS-1 interacts with homologs of proteins that bind to and regulate human β-catenin, the binding sites of those proteins to SYS-1 is unknown. Here, we identify novel sites for beta-catenin’s gene transcription role within SYS-1 that greatly differed from human β-catenin. We also identify a novel mechanism for beta-catenin nuclear import, which is still largely unknown in any system, by identifying a candidate importer that associates with SYS-1 is required for SYS-1 dependent cell fate. In summary, though SYS-1 has a well-conserved function dictating cell fate in response to developmental signals, it has evolved novel regulatory, functional and localization mechanisms and therefore serves as a model for the plasticity nuclear importer that helps shuttle SYS-1 into the nucleus identified specific regions in SYS-1 that is involved in activating transcription which will result in cell fate changes.

asymmetric cell division

b-catenin

nuclear export

nuclear import

SYS-1

transactivation

Cell Biology

β-CATENIN REGULATION OF ADULT SKELETAL MUSCLE PLASTICITY

Wen, Yuan

01 January 2018

Adult skeletal muscle is highly plastic and responds readily to environmental stimuli. One of the most commonly utilized methods to study skeletal muscle adaptations is immunofluorescence microscopy. By analyzing images of adult muscle cells, also known as myofibers, one can quantify changes in skeletal muscle structure and function (e.g. hypertrophy and fiber type). Skeletal muscle samples are typically cut in transverse or cross sections, and antibodies against sarcolemmal or basal lamina proteins are used to label the myofiber boundaries. The quantification of hundreds to thousands of myofibers per sample is accomplished either manually or semi-automatically using generalized pathology software, and such approaches become exceedingly tedious. In the first study, I developed MyoVision, a robust, fully automated software that is dedicated to skeletal muscle immunohistological image analysis. The software has been made freely available to muscle biologists to alleviate the burden of routine image analyses. To date, more than 60 technicians, students, postdoctoral fellows, faculty members, and others have requested this software. Using MyoVision, I was able to accurately quantify the effects of β-catenin knockout on myofiber hypertrophy. In the second study, I tested the hypothesis that myofiber hypertrophy requires β-catenin to activate c-myc transcription and promote ribosome biogenesis. Recent evidence in both mice and human suggests a close association between ribosome biogenesis and skeletal muscle hypertrophy. Using an inducible mouse model of skeletal myofiber-specific genetic knockout, I obtained evidence that β-catenin is important for myofiber hypertrophy, although its role in ribosome biogenesis appears to be dispensable for mechanical overload induced muscle growth. Instead, β-catenin may be necessary for promoting the translation of growth related genes through activation of ribosomal protein S6. Unexpectedly, we detected a novel, enhancing effect of myofiber β-catenin knockout on the resident muscle stem cells, or satellite cells. In the absence of myofiber β-catenin, satellite cells activate and proliferate earlier in response to mechanical overload. Consistent with the role of satellite cells in muscle repair, the enhanced recruitment of satellite cells led to a significantly improved regeneration response after chemical injury. The novelty of these findings resides in the fact that the genetic perturbation was extrinsic to the satellite cells, and this is even more surprising because the current literature focuses heavily on intrinsic mechanisms within satellite cells. As such, this model of myofiber β-catenin knockout may significantly contribute to better understanding of the mechanisms of satellite cell priming, with implications for regenerative medicine.

skeletal muscle

image analysis

ribosome biogenesis

β-catenin

plasticity

Cellular and Molecular Physiology

Exercise Physiology

Endothelial differentiation and angiogenesis regulation

Dixelius, Johan

January 2002

<p>Angiogenesis can be defined as the formation of new blood vessels from pre-existing ones. Angiogenesis is required for development and maintenance of our vascular system and thus of fundamental importance to our existence. The endothelial cells that line the inside of the vessels de-differentiate, migrate, proliferate and re-differentiate during angiogenesis. Angiogenesis is tightly regulated, controlled by several angiogenic factors of various classes that promote angiogenesis but also by anti-angiogenic factors that counteract the effect of the pro-angiogenic factors. We have examined three factors involved in angiogenesis regulation, Vascular endotelial growth factor (VEGFR) -3, the matrix protein laminin-1 and the collagen XVIII derived fragment endostatin. </p><p>Five tyrosine phosphorylation sites in the cytoplasmic tail of VEGFR-3 were identified by phosphopeptide mapping (PPM). The data was confirmed by PPM using point-mutated receptors generated by site-directed mutagenesis.</p><p>Laminin-1 was found to promote angiogenesis in the chicken chorioallantoic membrane assay and in a synergistic fashion together with suboptimal levels of fibroblast growth factor 2 (FGF-2) in embryoid bodies. Laminin-1 also promoted endothelial tubular morphogenesis in vitro, and upregulated the expression of the endothelial differentiation marker Jagged-1. </p><p>Endostatin was shown to affect endothelial FGF-2-induced cell survival and morphogenesis. This was a result of direct binding to endothelial cells and induction of tyrosine phosphorylation of many proteins including the adaptor protein Shb. The apoptotic and morphogenic responses induced by endostatin was shown to be dependent on Shb. Further, endostatin inhibited endothelial migration and affected molecules implicated in migration. In particular, FGF-2 induced actin reorganization, and β-catenin regulation was modulated by endostatin. </p>

Genetics

Angiogenesis

VEGFR-3

Laminin

endostatin

FGF-2

b-catenin

Genetik

Clinical genetics

Klinisk genetik

Wnt/β-Catenin Signalling in Parathyroid Tumours

Björklund, Peyman

January 2007

<p>Primary hyperparathyroidism (pHPT) due to parathyroid tumours with hypersecretion of parathyroid hormone and hypercalcaemia is a common disease with incompletely understood etiology affecting more than 1 % of the population, primarily postmenopausal women. In secondary hyperparathyroidism (sHPT), parathyroid tumours develop in response to calcium and vitamin D deficiency generally in patients with uraemia. HPT is usually treated by surgical removal of enlarged parathyroid glands.</p><p>The aim of this thesis was to examine the Wnt/β-catenin signalling pathway in parathyroid tumours.</p><p>Aberrantly accumulated β-catenin was found in all analysed pHPT and sHPT tumours, with a stabilising homozygous mutation (Ser37Ala) in 7.3% of the pHPT tumours. Truncation of the APC protein was not found. MYC, a β-catenin target gene was overexpressed in a substantial fraction of pHPT and sHPT parathyroid tumours. </p><p>A parathyroid tumour cell line (sHPT-1) was established from a hyperplastic gland removed at operation of a patient with sHPT. The cells produced parathyroid hormone and grew with a doubling time of approximately 72 hours. Stabilised nonphosphorylated transcriptionally active β-catenin was expressed. Efficient transfection of siRNA against β-catenin decreased expression of cyclin D1 and MYC, and inhibited cell growth with ensuring cell death. </p><p>The Wnt coreceptor LRP5 was found expressed with an internal deletion of 142 amino acids (LRP5Δ) in 86% and 100% of pHPT and sHPT tumours, respectively. Stabilising mutation of β-catenin and expression of LRP5Δ was mutually exclusive. Expression of LRP5Δ was required to maintain the nonphosphorylated transcriptionally active ß-catenin level, MYC expression, parathyroid cell growth in vitro, and tumour growth in transplanted SCID mice. Wnt3 ligand and LRP5Δ strongly activated transcription, and LRP5Δ was insensitive to inhibition by DKK1.</p><p>Aberrant accumulation of β-catenin by stabilising mutation or expression of LRP5Δ appears as a common pathogenic pathway for hyperparathyroid disease. LRP5Δ in particular presents a potential target for therapeutic intervention.</p>

Surgery

Hyperparathyroidism

β-catenin

Mutation

Human parathyroid cell line

LRP5

Alternative splicing

Kirurgi