Caracterização molecular dos genes ospC1, ospG e ospF em diferentes sorotipos de Escherichia coli enteroinvasora / Molecular characterization of the ospC1, ospG and ospF genes in serotypes different of the enteroinvasive Escherichia coli

Silva, Renée de Nazaré Oliveira da

29 November 2012

Escherichia coli enteroinvasora (EIEC) é um dos agentes etiológicos da disenteria bacilar, caracteriza-se pela destruição do epitélio do cólon provocado pela resposta inflamatória induzida após invasão da mucosa por bactérias. Cepas de EIEC são bioquímica, genética e patogênica semelhante a Shigella spp. A patogenicidade de EIEC e Shigella dependem da presença da pInv plasmídeo, que contém os genes necessários para a colonização bacteriana na mucosa intestinal. Recentemente, demonstrou-se que genes plasmidias ospC1, ospG e ospF de S. flexneri estão envolvidos na inibição da resposta inflamatória em células epiteliais intestinais, um fator importante na iniciação da colonização bacteriana e produção de doença. Como a EIEC mostrou doença menos grave, foi analisada as sequências de aminoácido, avaliada a transcrição destes genes plasmídiais e resposta inflamatória modulada por este micro-organismo na célula epitelial intestinal Caco-2. As células Caco-2 foram infectadas em momentos diferentes com 11 sorotipos de EIEC e S. flexneri (M90T). Os dados sobre a capacidade de invasão e sobrevivência de bactérias, expressão de genes de bactérias e da quimiocina IL-8 foram obtidos por CFU, RT-PCR, e ELISA, respectivamente. A significância estatística foi avaliada por ANOVA de dois fatores. Os 11 sorotipos de EIEC estudados apresentaram similaridade de 100% com S.flexneri para OspC1 e OspF,contudo, foram diferentes na homologia do OspG. Quando comparamos as sequências de aminoácido dos 11 sorotipos observamos 100% de similaridade entre eles para OspG, sugerindo o envolvimento destas proteínas na modulação da resposta imune induzida por estes micro-organismos. Os sorotipos de EIEC apresentam diferenças na capacidade de invasão dos enterócitos. Algumas diferenças significativas foram observadas na transcrição dos genes e na produção de IL-8. Os sorotipos de EIEC O29: H-e O167: H-apresentou um baixo transcrição de genes ospC1 e ospF, e um aumento significativo na produção de IL-8 quando comparado com outros sorotipos. Além disso, demonstrou que a maior transcrição destes genes por alguns sorotipos de EIEC parecem estar relacionados com a menor indução de IL-8. Estes dados sugerem que as proteínas OspC1 e OspF desempenham um papel na resposta inflamatória. No entanto, não se observou relação na transcrição ospG para a produção de IL-8. Estes resultados sugerem que as proteinas efetoras OspC1 e OspF estão envolvidas na inibição da resposta inflamatória em células epiteliais do intestino favorecendo a invasão da EIEC. / Enteroinvasive E. coli (EIEC) is one of the etiological agents of bacillary dysentery, it is characterized by the destruction of the colonic epithelium caused by the inflammatory response induced upon invasion of the mucosa by bacteria. Strains of EIEC are biochemical, genetic and pathogenic similar to Shigella spp. The pathogenecity of EIEC and Shigella depend on the presence of the plasmid pInv, which contains the genes necessary for bacterial colonization in the intestinal mucosa. Recently, it was demonstrated that the plasmid genes ospC1, ospG and ospF of S. flexneri are involved in inhibition of the inflammatory response in intestinal epithelial cells, an important factor in the initiation of bacterial colonization and production of disease. As EIEC has showed less severe disease, we evaluated the transcription of these plasmid genes and inflammatory response modulated by this microorganism in the intestinal epithelial cell Caco-2. The Caco-2 cells were infected in different times with 11 serotypes of EIEC and S. flexneri M90T strain. The data about sequences of amino acids, invasiveness and survival of bacteria, bacterial genes expression, and chemokine IL-8 were obtained by CFU, RT-PCR, and ELISA, respectively. The statistical significance was evaluated by two-way ANOVA. All EIEC serotypes studied showed 100% similarity with S.flexneri to OspC1 and OSPF, however, were different in the homology of OspG. Compared the amino acid sequences of the 11 serotypes observed 100% similarity between them to OspG, suggesting the involvement of them in modulating of the immune response induced by these microorganisms. There were no differences in the invasion the enterocytes among EIEC serotypes. However, some significant differences were observed in the transcription of those genes and production of IL-8. The EIEC serotypes O29:H- and O167:H- showed a low transcription of genes ospC1 and ospF, and a significant increase in production of IL-8 when compared with other serotypes. Furthermore, it was shown that the high transcription of ospF and ospC1 by some EIEC serotypes are related to low induction of IL-8. These data suggested that the proteins OspC1 and OspF play a role in the inflammatory response. However, we did not observed association between ospG transcription to the production of IL-8. These results lead us to believe that the effector proteins OspF and OspC1 are involved in inhibition of the inflammatory response in intestinal epithelial cells favoring the EIEC invasion.

Escherichia coli enteroinvasora

Shigella flexneri

Células epiteliais intestinais

Diarreia

Diarrhea

Enteroinvasive Escherichia coli.

Inflammatory response

Intestinal epithelial cells

OspC1

OspC1

OSPF

OspF

OspG

OspG

Resposta inflamatória

Shigella flexneri

Mecanismos de ação de metaloproteases endógenas na injúria de queratinócitos humanos induzida pelo veneno de Loxosceles laeta e a SMase I. / Action mechanisms of endogenous metalloproteinases in human keratinocytes injury induced by Loxosceles laeta spider venom and SMase I.

Corrêa, Mara Adriana

14 December 2009

O envenenamento por aranhas Loxosceles é caracterizado pelo desenvolvimento de dermonecrose. A expressão de metaloproteases induzidas pelas esfingomielinases do veneno pode estar envolvida no loxoscelismo cutâneo. Os resultados mostraram que o veneno de Loxosceles laeta e a proteína recombinante SMase I foram capazes de: induzir a expressão de metaloproteases (MMP-2, MMP-7 e MMP-9); diminuir a expressão de alguns marcadores de superfície e causar morte celular. A indução de MMP-7, como produto da ação do veneno e da SMase I de L. laeta, não foi reportada em outras espécies do gênero. O uso de inibidores de metaloproteases, como a tetraciclina, impediu a morte celular e reduziu a expressão de MMPs. A galardina, um composto que inibe metaloproteases da família das adamlisinas e das MMPs, evitou a clivagem dos marcadores MCP, 2-microglobulina, MHCI, EPCR em queratinócitos humanos tratados. Os resultados revelam que a inibição das metaloproteases de matriz extracelular e da família das adamlisinas pode ser uma alternativa eficaz no tratamento do loxoscelismo cutâneo. / The envenomation by Loxosceles spider characterized by the development of dermonecrosis. Metalloproteinases expression, induced by venom sphingomyelinases, may be involved in cutaneous loxoscelism. The results showed that Loxosceles laeta venom and the recombinant protein SMase I were able to: induce the expression of matrix metalloproteinases (MMP-2, MMP-7 e MMP-9); reduce the expression of some surface markers and cause cell death. The induction of MMP-7, as a product of venom and SMase I action, has not been reported for other genus species. The use of metalloproteinase inhibitors, such as tetracycline, prevented cell death and reduced MMPs expression. Galardin, a compound that inhibits metalloproteinases from the adamlisins family and MMPs, avoided the cleavage of MCP, 2-microglobulin, MHCI and EPCR on the surface of the treated human keratinocytes. These data indicate that inhibition of metalloproteinases can be an effective alternative on the cutaneous loxoscelism treatment.

Loxosceles laeta

Loxosceles laeta

Arachnids

Aracnídeos

Aranhas

Células epiteliais

Epithelial cells

Lipídeos

Lipids

Metalloproteinases

Metaloproteinases

Poison of animal origin

Spiders

Veneno de origem animal

Prise en charge des thymomes chez l'homme : développement de cultures de cellules épithéliales dérivées de tumeurs pour la compréhension des dérégulations de la cellule tumorale / Management of human thymomas : development of thymic epithelial cell cultures derived from tumors for the understanding of tumoral cells dysregulation

Maury, Jean-Michel

23 May 2019

Les tumeurs épithéliales thymiques (TET) humaines sont rares (250 - 300 cas/an en France). On distingue les thymomes de type A, AB ou B d'évolution lente avec une survie actuarielle > 95% à 5 ans pour les stades précoces et les carcinomes thymiques d'évolution plus sévère avec une survie actuarielle à 5 ans < 20% pour les stades IV. La pierre angulaire du traitement des TET est l'exérèse chirurgicale complète, facteur pronostique le plus significatif identifié à ce jour. Les récidives des TET, essentiellement pleurales pour les thymomes et générales pour les carcinomes thymiques, sont de prise en charge complexe. Les avancées thérapeutiques sont limitées notamment par l'absence de modèles d'étude de la cellule épithéliale thymique tumorale. Dans le cadre d'une prise en charge multidisciplinaire des récidives pleurales métastatiques, nous avons développé la pleurectomie de cytoréduction associée à une chimio hyperthermie (cisplatine/ mitomycine ; 42°C) intra thoracique (CHIT) pour la prise en charge des métastases pleurales de thymome. Chez des patients sélectionnés (n=19), la médiane de survie sans récidive était de 53 mois et les survies actuarielles à 1 an et 5 ans étaient respectivement de 93% et 86%. Cette technique chirurgicale innovante a permis de développer une alternative à la morbide pleuro pneumonectomie. L'efficacité de la CHIT pose des questions sur le rôle de l'hyperthermie et sur le type de chimiothérapie à associer. Avec pour objectif d'améliorer la prise en charge des patients, la connaissance de la biologie tumorale thymique et l'identification de potentielles cibles thérapeutiques sont des voies de recherche importantes pour améliorer la survie des patients. Nous avons développé des cultures de cellules épithéliales thymiques dérivées in vitro de 12 TET (11 thymomes A, AB ou B et un carcinome thymique), caractérisées par leur potentiel prolifératif et leur expression de cytokératine. La voie PI3K / Akt / mTOR joue un rôle clé dans de nombreux cancers ; plusieurs études de phases I / II ont rapporté un effet positif des inhibiteurs de mTOR pour le contrôle de l'évolution du thymome chez les patients. Nous avons mis en évidence l'expression et l'activation des effecteurs mTOR, Akt et P70S6K dans les thymomes et dans les cellules épithéliales thymiques dérivées in vitro. Nous avons montré l'efficacité de la rapamycine, inhibiteur de mTOR, à réduire la prolifération cellulaire (30%) sans induire de mort cellulaire. Nos résultats suggèrent que l'activation de la voie Akt / mTOR participe à la prolifération cellulaire associée à la croissance tumorale. Nous avons établi un nouvel outil permettant l'étude de la dérégulation cellulaire au cours des thymomes. Dans un contexte de tumeurs rares, ces cellules permettront d'aborder des études mécanistiques in vitro et de tester l'efficacité de drogues anti tumorales / Human thymic epithelial tumors (TETs) are rare (250 – 300 cases/ year in France). We distinguish thymomas (A, AB and B subtypes) with indolent evolution (5 years actuarial survival in early stages >95%) and more aggressive thymic carcinomas (5 years actuarial survival <20% in stage IV). Surgical complete resection when feasible is the corner stone of a multimodal therapy and the most significant factor on survival. Relapse of TETs principally in pleura for thymomas (75%) and general for thymic carcinomas are difficult to treat. Therapeutics advances are limited given the lack of studies models of tumoral thymic epithelial cell. In a multidisciplinary approach for the treatment of metastatic pleural relapse of thymomas we developed an innovative surgical technique: cytoreductive pleurectomy associated with hyper thermic intra pleural chemotherapy (Cysplatin/ Mitomycin; 42°C) (ITCH). In selected patient (n=19), ITCH provides an efficient alternative to the morbid pleuro pneumonectomy. The median of free disease survival was 53 months, one year and five years actuarial survival were respectively 93% and 86%. However, the effectiveness of ITCH procedure questions on the played role ok hyperthermia, on the choice of chemotherapy association. With the aim to improve TETs therapies, the knowledge of TETs biology to identify potential target therapies is currently challenging. We developed an in vitro study model of tumoral thymic epithelial cells derived from 12 TETs (11 A, AB and B thymomas and one thymic carcinoma) characterized by their proliferative abilities and the cytokeratin expression. The PIK3 / Akt / mTOR pathway is implicated in numerous cancers. Several phase I, II studies advocate the potential role of mTOR inhibitors in the control of the metastatic disease. We highlighted the expression and the activation of mTOR, Akt and P70S6K effectors in TETs and in thymic epithelial cells in vitro derived. We showed the efficacy of rapamycin (mTOR inhibitor) in the inhibition (-30%) of in vitro cell proliferation without cell death induction. Our results suggest the implication of the PIK3 / Akt / mTOR pathway in the tumoral cell growth. We established a new tool to study cell dysregulation in TETs. In the context of rare tumors, these cells could allow in vitro mechanistic studies and test the efficacy of new anti tumoral therapies

Tumeurs thymiques

Chirurgie

Plèvre

Akt/ mTOR

Rapamycine

Prolifération cellulaire

Thymic tumors

Surgery

Pleura

Tumoral thymic epithelial cells

Akt/ mTOR

Rapamycin

Cell proliferation

570

Thymic stromal cells : population dynamics and their role in thymopoiesis

Gray, Daniel Herbert Donald

January 2003

Abstract not available

T cells -- Differentiation

T cells -- Receptors

Epithelial cells

Thymus -- Immunology

Thymus -- Physiology

Monoclonal antibodies

Cell surface antigens

Lymphocytes

Chemokines -- Receptors

Flow cytometry

Relationship of epithelial cells and nerve fibres to experimentally induced dentoalveolar ankylosis in the rat.

Di lulio, Darren Scott

January 2007

The current study investigated the distribution of periodontal epithelial cells and nerve fibres within the furcations of rat maxillary molar teeth subjected to hypothermic injury. The upper right first molars of 30 Sprague-Dawley rats were subjected to a single 20 minute application of dry ice in order to produce aseptic necrosis within the periodontal ligament, while the contralateral first molar served as an untreated control. Five animals were each sacrificed via cardiac perfusion after 7, 10, 14, 18, 21 and 28 days respectively and the maxillae were dissected out. After fixation in paraformaldehyde and processing, the tissues were embedded in paraffin wax and cut into 7µm serial coronal sections through the furcation region. Consecutive sections were then stained with H&E, cytokeratin AE1/AE3 and PGP 9.5 immunostains. Light microscopic examination of the H&E stained sections revealed that ankylosis had not developed in all of the experimental teeth, and in some of the observation groups fewer teeth were ankylosed than unaffected. The morphology of the ankylotic areas appeared to change with time, initially consisting of fine bony trabeculae, then progressing to solid bone occupying the entire furcation before becoming less solid again by the latest observation periods. Root resorption was often seen adjacent to areas of ankylosis, but the cementum of the tooth root at the point of ankylotic union was usually intact and free of resorption. Changes within the pulp chambers of the experimental teeth were also noted, with reduction in cellularity and tissue disorganisation initially, then increasing cellularity and formation of a cementum-like material on the chamber walls later. Cytokeratin AE1/AE3 immunostaining successfully identified epithelial cells within the periodontal ligament and their distribution around control teeth was similar to previous reports. Counting of these cells revealed lower numbers around experimental teeth, with the lowest counts around experimental teeth which had developed ankylosis. No change in the epithelial cell counts was detected over time, and these cells did not appear to regenerate after necrosis regardless of whether or not ankylosis developed. Statistical analysis indicated that the probability of ankylosis decreased as the number of epithelial cells increased. The PGP 9.5 immunostain identified periodontal nerve fibres, but the use of this stain was quite technique sensitive. The furcations of the molar teeth were noted to have relatively sparse innervation, with most of the visible nerve fibres being closely associated with blood vessels and located in the outer two-thirds of the ligament. Counting of the nerve fibres revealed fewer fibres around experimental teeth compared to control teeth, especially in the part of the ligament closest to the tooth root. There was no relationship detected between nerve count and time or between nerve and epithelial cell counts. Resorption was found to be more prevalent in experimental teeth, and the probability of resorption in a given tooth decreased as the epithelial cell count increased. The findings of this study suggest that the epithelial cells within the periodontal ligament have a protective function in the prevention of dentoalveolar ankylosis and resorption. Evidence of an intimate interrelationship between periodontal nerve fibre and epithelial cell numbers could not be confirmed. The null hypothesis that epithelial cell rests of Malassez do not provide a protective function against ankylosis and external root resorption was rejected, and the null hypothesis that nerve fibres and epithelial cells are not inter-dependent was retained. / http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1297409 / Thesis (D.Clin.Dent.) -- School of Dentistry, 2007

Epithelial cells.

Ankylosis.

Rats.

Teeth--Roots.

Periodontal ligament.

Resorption (Physiology)

Effects of Th-1 and Th-2 Cytokines and Reactive Oxygen Species on Normal Human Bronchial Epithelial Cells

Kampf, Caroline

January 2001

<p>Epithelial damage and shedding of the epithelium are common observations in many airway diseases such as asthma, Sjögren’s syndrome, chronic obstructive pulmonary disease and cystic fibrosis. The ability of the cells to attach to each other and/or to the matrix seems to be altered. In the present study, cultured normal human bronchial epithelial cells were used as a model system. The desmosomes and also the focal adhesions were investigated to see if changes in these structural components as well as metabolic alterations could explain the observed shedding of the epithelium.</p><p>Inflammatory mediators such as tumor necrosis factor alpha (TNF-α), interferon gamma (IFN-γ), interleukin-1 beta (IL-1β), interleukin-4 (IL-4), interleukin-5 (IL-5), interleukin-13 (IL-13), hypochlorous acid (HOCl) and nitric oxide (NO) are present in increased amounts in inflammation. The Th-1 cytokines, IFN-γ and TNF-α, as well as HOCl and NO affected the number of desmosomes and their ability to attach to each other. Interestingly, the Th-2 cytokines IL-4, IL-5 and IL-13 did not affect the cell-cell adhesion. HOCl and NO also affected the focal adhesions of the cells. </p><p>Both morphological and functional studies indicated that TNF-α, IFN-γ, HOCl and NO affect the mitochondria. A decreased glucose oxidation rate could result in a decreased production of ATP, which in turn could lead to inhibition of many cellular activities including an impaired ability of the ciliary activity in bronchial epithelial cells and mucus transport. The antioxidant N-acetyl-L-cysteine and the nitric oxide synthase inhibitor N-propyl-L-arginine inhibited these effects of HOCl. This indicates that HOCl can induce damage both by induction of free radicals and also through an increased production of NO. TNF-α and IFN-γ also induced an increased production of NO. N^ω-monomethyl-L-arginine reduced the cytokine-induced production of NO. The NO donor DETA NONOate reduced the total protein biosynthesis as well as the DNA content. NO can react with superoxide anions generated by inflammatory cells in the airways to form peroxynitrite ions, which in turn could generate hydroxyl radicals. These toxic ions may contribute to damage of the airway epithelial cells. </p><p>In conclusion, pro-inflammatory cytokines such as TNF-α, IFN-γ and also the reactive oxygen species HOCl and NO could contribute to airway epithelial shedding by affecting the adhesion properties of the epithelial cells. More generalized morphological and metabolic changes could be other contributing factors, together with the increased production of NO.</p>

Cell biology

ytokines

desmosomes

focal adhesions

free radicals

hypochlorous acid

nitric oxide

normal human bronchial epithelial cells

Cellbiologi

Cell biology

Cellbiologi

Untersuchungen zur chemischen Transformation von intestinalen Epithelzellen der Ratte und des Menschen durch 2-Hydroxyamino-1-methyl-6-phenylimidazo(4,5-b)pyridin / Investigations to chemical transformation of rat and human intestinal epithelial cells by 2-hydroxyamino-1-methyl-6-phenylimidazo(4,5-b)pyridine

Fuchs, Iris Judith

January 2006

Die Zahl der Kolonkarzinome in den westlichen Industrieländern steigt in den letzten Jahren stetig an. Zu den Verbindungen, die mit der Zubereitung der Nahrung entstehen, mit ihr aufgenommen werden und die Kolonkanzerogenese möglicherweise begünstigen, gehört das heterozyklische aromatische PhIP, das bei der Erhitzung proteinreicher Nahrungsmittel entsteht. Neben zahlreichen Fütterungsversuchen an Nagern existieren auch Zellkulturmodelle zur Untersuchung der molekularen Mechanismen der PhIP-induzierten Kolonkanzerogenese. Die chemische Transformation von Zellen sollte durch wiederholte Exposition gegenüber dem hydroxylierten Metaboliten des Kanzerogens (N2-OH-PhIP) erzielt werden. Es wurden IEC-18-Zellen der Ratte und HCEC-Zellen des Menschen zur Untersuchung verwendet. Die Behandlung der IEC-18-Zellen führt nach 25 Behandlungszyklen mit Konzentrationen von 5 bis 20 µM nicht zur Transformation der Zellen. Die Anwesenheit von N2-OH-PhIP führt zu einer zehnfach erhöhten Induktion der GST-Aktivität, insbesondere der Untereinheiten GST-A1, -A3, -Pi und -T2, die für die effiziente Detoxifizierung des N-Acetoxy-Metaboliten vom N2-OH-PhIP verantwortlich sind. Bereits nach drei Behandlungen mit 1,5 µM N2-OH-PhIP konnte eine maligne Transformation der HCEC-Zellen erzielt werden. Die Zellen zeigten die charakteristischen Zeichen der Transformation: veränderte Wachstumseigenschaften wie klonales dreidimensionales Zellwachstum („pilling up“), Hemmung der Zell-Zell-Kontaktinhibierung, verkürzte Populationsverdopplungszeiten und tumorigene und metastasierende Eigenschaften. Außerdem exprimierten die N2-OH-PhIP-exponierten humanen Kolonzellen mit steigender Anzahl der Behandlungen größere Mengen des trunkierten APC-Proteins. Die bekannten PhIP-spezifischen Mutationen im APC-Gen resultieren in der Expression eines trunkierten Proteinproduktes und werden als frühe Ereignisse in der Kolonkanzerogenese betrachtet. Die zusammenfassende Betrachtung aller Ergebnisse zeigt, dass die IEC-18-Zelllinie zur chemischen Transformation durch N2-OH-PhIP ungeeignet ist. Dagegen wurde erstmalig eine vollständige chemische Transformation von Humandickdarmepithelzellen in vitro durch Exposition der humanen Kolonepithelzelllinie HCEC gegenüber dem Kolonkarzinogen N2-OH-PhIP erzielt. / In the last few years a strong increase in the incidence of colorectal cancer has been observed. As to the specific components in processed food responsible for the induction of colon cancerogenesis / it has been suggested that heterocyclic aromatic amines (HAA), e.g. the most abundant HAA 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP), which is formed in protein rich food, when it is cooked at high temperatures or over an open flame, might be involved in this process. Whereas a number of in vivo-models to study PhIP-mediated colon carcinogenesis are known, only a limited number of cell culture systems to study the HAA-mediated transformation of intestinal epithelial cells do in fact exist. In the present study IEC-18 cells (rat intestinal epithelial cells) and HCEC cells (human colon epithelial cells) were incubated with N2-OH-PhIP, the N-hydroxylated metabolite of PhIP. The IEC-18 cells could not be transformed despite 25 treatment cycles with 5 to 20 µM N2-OH-PhIP. This might be due to the fact that GST activity as well as the expression of the GST -A1, -A3, -Pi and -T2 units, which are responsible for the detoxication of the N-acetoxy derivative of PhIP were strongly induced by N2-OH-PhIP. In contrast, HCEC cells were malignantly transformed when exposed three times to 1.5 µM N2-OH-PhIP. The chemically-treated cells showed a reduced population doubling time, they lost cell-cell contact inhibition and started pilling up. Furthermore, if HCEC cells were injected subcutaneously into SCID mice tumors developed at the site of injection in all animals tested. The transformed HCEC cells also express high amounts of truncated APC protein, which in vivo appears at an early stage of colon cancerogenesis. Taken together, it has been shown that IEC-18 cells are not suitable for chemical transformation studies with the HAA metabolite N2-OH-PhIP. For the first time it has been shown that the HAA metabolite N2-OH-PhIP is indeed able to malignantly transform human colon epithelial cells in vitro.

maligne Transformation

Kolonkrebs

heterozyklische aromatische Amine

intestinale Epithelzellen

colorectal cancer

heterocyclic aromatic amines

intestinal epithelial cells

malignant transformation

Natural sciences and mathematics

Effects of Th-1 and Th-2 Cytokines and Reactive Oxygen Species on Normal Human Bronchial Epithelial Cells

Kampf, Caroline

January 2001

Epithelial damage and shedding of the epithelium are common observations in many airway diseases such as asthma, Sjögren’s syndrome, chronic obstructive pulmonary disease and cystic fibrosis. The ability of the cells to attach to each other and/or to the matrix seems to be altered. In the present study, cultured normal human bronchial epithelial cells were used as a model system. The desmosomes and also the focal adhesions were investigated to see if changes in these structural components as well as metabolic alterations could explain the observed shedding of the epithelium. Inflammatory mediators such as tumor necrosis factor alpha (TNF-α), interferon gamma (IFN-γ), interleukin-1 beta (IL-1β), interleukin-4 (IL-4), interleukin-5 (IL-5), interleukin-13 (IL-13), hypochlorous acid (HOCl) and nitric oxide (NO) are present in increased amounts in inflammation. The Th-1 cytokines, IFN-γ and TNF-α, as well as HOCl and NO affected the number of desmosomes and their ability to attach to each other. Interestingly, the Th-2 cytokines IL-4, IL-5 and IL-13 did not affect the cell-cell adhesion. HOCl and NO also affected the focal adhesions of the cells. Both morphological and functional studies indicated that TNF-α, IFN-γ, HOCl and NO affect the mitochondria. A decreased glucose oxidation rate could result in a decreased production of ATP, which in turn could lead to inhibition of many cellular activities including an impaired ability of the ciliary activity in bronchial epithelial cells and mucus transport. The antioxidant N-acetyl-L-cysteine and the nitric oxide synthase inhibitor N-propyl-L-arginine inhibited these effects of HOCl. This indicates that HOCl can induce damage both by induction of free radicals and also through an increased production of NO. TNF-α and IFN-γ also induced an increased production of NO. Nω-monomethyl-L-arginine reduced the cytokine-induced production of NO. The NO donor DETA NONOate reduced the total protein biosynthesis as well as the DNA content. NO can react with superoxide anions generated by inflammatory cells in the airways to form peroxynitrite ions, which in turn could generate hydroxyl radicals. These toxic ions may contribute to damage of the airway epithelial cells. In conclusion, pro-inflammatory cytokines such as TNF-α, IFN-γ and also the reactive oxygen species HOCl and NO could contribute to airway epithelial shedding by affecting the adhesion properties of the epithelial cells. More generalized morphological and metabolic changes could be other contributing factors, together with the increased production of NO.

Cell biology

ytokines

desmosomes

focal adhesions

free radicals

hypochlorous acid

nitric oxide

normal human bronchial epithelial cells

Cellbiologi

Cell biology

Cellbiologi

A Comparative Study On The Sensitivity Of Cells Of Different Lineages To Plant Ribosome Inactivating Protein - Abrin

Bora, Namrata

09 1900

Proteins with selective toxicity have been investigated for use in many ways. One class of proteins, ribosome-inactivating proteins (RIPs), is found throughout the plant kingdom as well as in lower organisms like certain fungi and bacteria. These are a group of proteins that has the property of damaging the ribosomes in an irreversible manner. They are N-glycosidases that modify the 28S rRNAs to render them incapable of sustaining further translation. RIPs have been divided into two groups, i.e. type I RIPs, which are single polypeptide chains and type II RIPs, which are heterodimeric. Abrin is a type II RIP, isolated from the seeds of Abrus precatorius plant commonly known as jequirity plant. It is a heterodimeric glycoprotein consisting of an A and a B subunit linked together by a single disulfide bond. The toxicity of the protein comes from the A subunit harboring the RNA-N- glycosidase activity which catalyses the depurination of a specific adenine residue at position 4324 on the 28S rRNA. The depurination of the adenine prevents the formation of a critical stem loop structure to which the elongation factor -2 (EF-2) binds during the translocation step of the translation, thus stalling the translation machinery of the cells. The B subunit of abrin is a galactose specific lectin. The lectin activity enables the protein toxin to bind to the cell surface glycoproteins and/or glycolipids. Binding of abrin is followed by internalization of the protein by receptor mediated endocytosis and transport to the Endoplasmic reticulum (ER) by the retrograde transport pathway. Inside the ER, the single disulfide bond linking the two subunits, is reduced which is important for the A subunit toxicity. The A subunit then translocates into the cytosol using the ER-associated degradation (ERAD) pathway and cleaves the specific adenine residue on the 28S rRNA of the 60 S ribosome involved in active translation and thereby inhibiting the protein synthesis. In addition to its ability to inhibit translation, abrin induces apoptosis in cells. Earlier work from our laboratory has shown that abrin-induced apoptosis follows the intrinsic pathway of apoptotic cell death. The treated cells show mitochondrial membrane potential loss followed by caspases -9 and -3 activation and DNA fragmentation. RIPs have been used primarily in immunotherapy because of their toxicity at very low concentrations (picomolar). With the development of monoclonal antibodies as tool for targeting cell surface markers, the possibility to couple antibodies to RIPs and thus deliver the toxic protein directly to specific cells becomes feasible. Abrin, as one such potent RIP, has gained interest in the field of medicine and immunotherapeutics. Abrin can also be a candidate for use in bioterrorism and warfare. Therefore, it is very important to first understand the inhibitory effect of abrin and the extent of its toxicity on cells. Earlier studies from our laboratory have focused on the sensitivity and mechanism of cell death induced by abrin in Jurkat cells, a T –cell line. In the present study, we attempted to investigate the overall toxicity of the molecule with respect to both properties, inhibition of protein translation and induction of apoptosis, in different lineages of cells. We have carried out a comparative study on abrin toxicity on human cell lines from two different cell lineages namely hematopoietic and epithelial. The thesis is divided into introduction and two chapters. In the introduction, we have presented the general properties of this family of proteins, with a brief history; classification and distribution of plant RIPs and their enzymatic properties. The chapter also deals with possible usage of these proteins, mainly in the field of immunotherapy. We have introduced, abrin, the protein of our interest in this chapter. The structure of abrin is described and also the biological effects of the toxin are discussed in brief. The chapter one deals with the translation inhibitory property of the protein, abrin. As mentioned earlier, abrin inhibits protein synthesis via the RNA-N-glycosidase activity residing in its A-chain. We have presented the general cytotoxic pathway of type II RIPs in this chapter. It deals with the internalization and transport of the toxin to their site of action, the cytosol. As reported earlier, our results confirmed that abrin inhibited protein synthesis in all cells. Abrin mediated inhibition of translation was dose dependent. Though the inhibition was common to all the cells from both the lineages, the sensitivity of the cells towards the toxin and kinetics of this inhibition event differed significantly. The kinetics of inhibition of protein synthesis is faster in case of hematopoietic cells as compared to the epithelial cells even at lower doses of the toxin. These differences were not due to variations in the ability of protein synthesis of cells. The chapter also discusses binding of the protein to cells. Our data suggest that binding of abrin to the cells is not responsible for the variations observed in the translation inhibitory property of the protein except in Raji cells. The B-cell line Raji was found to be least sensitive towards the toxin. Our studies show that due to presence of high sialic acid residues on the surface of these cells, Raji cells are refractory to abrin mediated inhibition of protein synthesis. The second chapter presents our data on cell death upon abrin treatment. This part is divided into an introduction and two sections, A and B. In the introduction, different cell death modalities are discussed along with recent findings in the field of programmed cell death. Section A deals with abrin induced apoptosis in epithelial cells. We have compared the extent of abrin-triggered apoptosis in these cells. Some of the early events known in the apoptotic cascade of abrin are compared. Though apoptosis is observed in these cells, our data suggest a delay in the apoptotic trigger in the epithelial cells showing that epithelial cells can survive the stress induced by abrin for a longer time. When treated with other apoptotic agents, like etoposide, these cells are found to be resistant. Therefore, though there is a delay in the trigger of apoptosis, we have shown that the cells tested from the epithelial lineage undergo apoptosis on abrin treatment. Section B, discusses the ability of the protein to induce cell death in hematopoietic cells. We have presented studies on cell death other than apoptosis, detected in these cells upon abrin treatment. We found that some of the cell lines tested undergoes more necrosis than apoptosis with abrin treatment. When the status of the mitochondria was checked, we found that in U266B1 cells, a B-cell line, there was mitochondrial stress as well as reactive oxygen species (ROS) production. But these cells died by necrosis. The data obtained from this study show the involvement of lysosomes and cathepsins in abrin induced cell death in U266B1 cells. Though other cells also undergo necrosis, these events were unique to U266B1 cells.

Cell Biology

Cell Pathology

Inactivating Protein

Plant Ribosome

Abrin

Cell Death

Apoptosis

Epithelial Cells - Apoptosis

Hematopoietic Cells - Apoptosis

Ribosome Inactivating Proteins (RIPs)

Cell Biology

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

Banh, Alice

January 2007

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

anterior subcapsular cataract formation

transforming growth factor beta

transgenic mouse

rat lens culture

lens epithelial cells

Smad3

MMPs

heat shock proteins

Vision Science and Biology