The role of Mullerian differentiation in epithelial ovarian carcinogenesis

Woo, Michelle

05 1900

Ovarian cancer is a fatal disease because of the lack of symptoms and markers for early detection. Most ovarian neoplasms resemble and are classified according to the complex characteristics of Mullerian duct epithelia. We tested the hypothesis that Mullerian epithelial characteristics influence early ovarian neoplastic progression. The most common type of ovarian cancer is the serous carcinoma which resembles Mullerian-derived oviductal epithelium. We discovered that oviduct-specific glycoprotein (OVGP1), a tubal differentiation marker, was present in inclusion cysts, which are the preferential sites for malignant transformation, and in most low grade serous tumors, but absent in ovarian surface epithelium and most high grade carcinomas. OVGP1 was almost entirely limited to ovarian neoplasms with the notable exception of endometrial hyperplasia and carcinoma. A new antibody against OVGP1 detected elevated serum levels from most women with low grade ovarian cancers compared to normal controls. OVGP1 also identified a subset of patients with high grade serous carcinomas who had a more favorable outcome. To examine whether the differentiated phenotype of early ovarian neoplasms alters invasiveness, we established the first permanent cell line for serous borderline ovarian tumors (SBOT), which are differentiated but noninvasive. The results revealed a striking phenotypic similarity between two lines regardless of their cytogenetic diversity. They retained Mullerian epithelial characteristics in vitro, as demonstrated by their morphologic appearance and the differentiation markers keratin, E-cadherin, CA125 and OVGP1. Neither disruption of the growth pattern nor manipulations of the cadherin profile induced invasivenesss. Induction of invasiveness by SV40 early genes was associated with a loss in morphologic differentiation and of differentiation markers but increased motility. MMP secretion was independent of the invasion status. Our findings indicate that OVGP1 is an indicator of early ovarian epithelial neoplasia. It can be detected in the sera from women with early ovarian cancer, and thus, may be a new promising diagnostic marker for the early detection of ovarian cancer. In addition, the results show that Mullerian differentiation does not directly prevent invasiveness, but it diminishes in parallel with invasion caused by other factors. The lack of invasiveness by SBOT cells may depend on factors that regulate motility. / Medicine, Faculty of / Obstetrics and Gynaecology, Department of / Graduate

ovarian cancer

detection marker

serous borderline ovarian tumours

oviduct-specific glycoprotein

Mullerian differentiation

invasion

Post-transcriptional Regulation Of Gene Expression : Role Of 3' Untranslated Region Of FSHBeta mRNA

Manjithaya, Ravi R.

08 1900

No description available.

Gene Expression - Enzyme

mRNA

Enzymes

Gonadotropin

3' Untranslated Region

Glycoprotein Hormones

Cell Physiology

Immunochemical Studies On The Major Cross-Reacting Allergens From The Pollen Of Parthenium Hysterophorous

Gupta, Neetu

January 1995

No description available.

Allergy

Profilin

Immunology

Parthenium - Allergy

Glycoprotein

Parthenium hysterophorous

Allergens

Parthenium Pollen

Pan-allergen

Immunology

The Role of Corticosteroids in Nitrogen Excretion of the Gulf Toadfish (Opsanus beta)

Rodela, Tamara

January 2011

In contrast to most teleost fish that are ammoniotelic, the gulf toadfish (Opsanus beta) is both facultatively ureogenic and ureotelic. In vivo pharmacological manipulations were used to show that lowering circulating cortisol levels or blocking glucocorticoid receptors (GR) enhanced both urea excretion and urea pulse size. These findings demonstrated that changes in pulsatile urea excretion in the toadfish are mediated by the permissive action of cortisol through GRs. Measurement of urea transport across isolated basolateral gill membranes revealed a cortisol-sensitive carrier mechanism. Cortisol infusion in vivo significantly reduced urea transport capacity, suggesting that cortisol inhibits the recruitment of urea transport proteins (UT) to the basolateral membrane to ultimately decrease the size of the urea pulse in toadfish. A 1.2 kb fragment of the upstream transcription start site for the toadfish urea transporter (tUT) gene was isolated and in silico analysis revealed the presence of several putative glucocorticoid response element (GRE) half sites. Toadfish provided with this regulatory sequence in a reporter gene construct showed increased reporter gene transcription driven by cortisol. The data indicated that cortisol-mediated upregulation of tUT mRNA by GREs may be necessary to maintain tUT activity. Four Rhesus (Rh) glycoproteins (Rhag, Rhbg, Rhcg1, Rhcg2) were isolated from toadfish; these sequences grouped with those of other vertebrates coding for membrane channels that transport ammonia. In vivo increases in circulating cortisol reduced branchial Rh glycoprotein expression and decreased ammonia excretion. These changes were accompanied by cortisol-induced increases in glutamine synthetase activity, an enzyme that captures ammonia for urea synthesis. Taken together, the data indicated that cortisol reduces the loss by branchial excretion of ammonia, instead favouring biochemical pathways that convert ammonia to urea. This thesis confirms that nitrogen excretion in toadfish is controlled and regulated in fashions unlike those in other teleosts. The results demonstrate the importance of the GR signaling pathway in mediating changes in both urea and ammonia transport through molecular mechanisms. As a whole, the data provide a new understanding of branchial nitrogen excretion in the gulf toadfish and enhance our evolutionary perspective of the integrated biological systems involved in nitrogen excretion in fish.

Nitrogen excretion

Urea

Ammonia

Cortisol

Glucocorticoid receptor

Teloest

Opsanus beta

Rhesus glycoprotein

Urea transport

Análise genotípica da linhagem RT2 de Aspergillus nidulans e caracterização de sua glicoproteína antiinflamatória. / Genotypic analysis of Aspergillus nidulans RT2 strain and characterization of its antiinflammatory glycoprotein.

Jean Cesar Farias de Queiroz

22 February 2008

A transformação de Aspergillus nidulans, com RNA de macrófagos de ratos, resultou na linhagem RT2, produtora de uma glicoproteína antiinflamatória. Nosso objetivo foi avaliar esta linhagem genenomicamente e caracterizar esta glicoproteína quanto à natureza bioquímica e sua atividade. Para tal, foi realizado RAPD e análise fenotípica desta linhagem. A Nandina foi purificada e submetida à espectrometria de massa para sequenciamento e identificação dos carboidratos. Testes da atividade antiinflamatória in vivo foram realizados em peritonite e edema de pata e inibição dos receptores de glicocorticóides. Os testes in vitro, sobre a produção das COXs e de PGE2, foram realizados em cultura de macrófagos. Os resultados mostraram que a linhagem RT2 é resultante da UT448, mas contém diferenças em seu genoma. A proteína purificada possui 40KDa. A espectrometria de massa caracterizou dois fragmentos da proteína e sua glicosilação. Os testes in vivo mostraram que a proteína inibe o edema e o influxo leucocitário e que esta atividade não é dependente de glicocorticóides, mas sim da inibição in vitro de COX-2, mas não de COX-1 e nem de PGE2. / Aspergillus nidulans transformation with rat macrophage RNA results on RT2 strain, producer of an antiinflammatory glycoprotein. Our objective was to evaluate this strain genomically and characterize biochemically and activity of its glycoprotein. To this, RAPD and fenotipical analysis were performed. The Nandin was purified and mass spectrometry analyzed to sequencing and carbohydrates analysis. Antiinflammatory activity testes in vivo in peritonitis and edema, and glucocorticoid receptors inhibition were performed. The in vitro testes, over expression and activity of COXs and PGE2, were performed in macrophage culture. The results show that RT2 strain came from UT448, but have genomics differences. The purified glycoprotein has been 40KDa. The mass spectrometry sequenced two protein fragments and showed that glycosylation. The in vivo testes showed that the glycoprotein has antiinflammatory activity inhibiting the edema and leukocyte influx. The RU38486 experiments evidenced that activity is not glucocorticoid receptors dependent, but in vivo inhibition of COX-2, but not COX-1 neither its product PGE2.

Aspergillus nidulans

Antiinflamatório

COX-2

Glicoproteína

Nandina

Aspergillus nidulans

Antiinflammatory

COX-2

Glycoprotein

Nandin

Roles of stanniocalcin-1 on tumorigenicity of hepatocellular carcinoma and regulation of macrophage functions

Leung, Chi Tim

04 February 2020

The glycoprotein stanniocalcin-1 (STC1) is a paracrine factor in mammals which plays roles in various (patho)physiological functions, such as inflammation and carcinogenesis. Considerable numbers of studies showed dysregulation of STC1 expression in different types of human cancers. A previous study from our group, using clinicopathological data of 216 hepatocellular carcinoma (HCC) patients revealed greater STC1 gene expression in tumors than the paired normal samples. However, patient samples with greater STC1 level exhibited smaller tumor size. In fact, multiple cell types, growth factors and matrix components in tumor microenvironment (TME) control cancer progression. Emerging evidence support the important role of infiltrating immune cells on tumor progression. Among those, tumor associated macrophages (TAM) in TME is known to be an essential driver of tumor inflammation and progression, exerting a yin-yang influence to determine if the tumor is suppressed or paving the way to metastasize. Hepatocellular carcinoma (HCC) is mainly caused by chronic inflammation. With hindsight, the roles of STC1 in inflammation and carcinogenesis were documented. However, the observation on the negative correlation of STC1 expression with tumor size in HCC patients and the roles of STC1 on the interactions between tumor cells and macrophages are not clear. In Chapter 2, the inverse correlation of STC1 expression with tumor size was addressed. Human metastatic HCC cell line, MHCC97L which was stably transfected with empty vector (P) and STC1 (S1) were used. Nude mice xenograft model showed that tumor size and volume formed from S1 cells were significantly smaller than that from P cells. The observation agreed with the clinical data aforementioned. In vitro studies demonstrated S1 cells had lower plating efficiency, migratory and proliferative potential, illustrating a lower tumorigenicity. Biochemical analyses on the rate of glycolysis, extracellular O2 consumption, ATP production and Western blot studies on mTOR/p70S6K/rpS6 pathway showed the S1 cells adopted a lower energy metabolism. The data may explain the negative correlation between STC expression level and tumor size. In cancer microenvironment, infiltration of host immune cells, especially macrophages, contributes to inflammation and tumor progression. In Chapter 3, it was hypothesized that cancer cell-derived STC1 alter macrophage functions. Therefore, the effects of STC1-overexpressing MHCC97L on macrophages were studied. To mimic their interactions, Boyden chamber insert model was adopted to co-culture MHCC97L (97L/P and 97L/S1) and THP-1. Our data illustrated 97L/S1 suppressed migratory response of THP-1, with or without the addition of monocyte chemoattractant protein 1 (MCP-1) as the chemoattractant. Quantitative PCR showed downregulation of cytokine/chemokine receptors (CCR2, CCR4, CSF-1R) in THP-1 when co-cultured with 97L/S1. This prompted us to study the alterations of pathways related to cell motility in THP-1 by 97L/S1. Transcriptomic analysis detected 1784 differentially expressed genes (DEGs) between THP-1 cells co-cultured with 97L/P and 97L/S1. Ingenuity Pathway Analysis (IPA) prioritized an inhibition of RhoA signaling, which is known to stimulate cell motility. Western blotting analysis supported the IPA prediction and the cell migration data to show a significant reduction of MLC2 phosphorylation, leading to impaired formation of stress fibers, cell contraction and cell motility. The preceding chapters focused on cancer cell-derived STC1 on HCC cells or THP-1 derived macrophages. In Chapter 4, it was hypothesized that macrophage-derived STC1 may also play a role in macrophage differentiation and inflammation, which modulate tumorigenicity of HCC during macrophage-cancer cell interactions. Thus, the roles of endogenous STC1 in macrophage differentiation and functions were investigated. Using human leukemia monocytic cell line THP-1, a pilot study showed a treatment with phorbol 12-myristate 13-acetate (PMA) significantly upregulated STC1 expression and pro-inflammatory cytokines. In follow-up studies, THP-1 was pharmacologically stimulated to differentiate into (i) classically activated macrophages (CAM)/ M1 state, and (ii) alternatively activated macrophages (AAM)/ M2 state. Greater STC1 expression was found to be associated with CAM. To examine the role of STC1 in CAM, siRNASTC1 was used for gene knockdown. Conditioned medium collected from siRNASTC1-treated CAM inhibited migration of HCC cell line Hep3B. Transcriptomic analysis of siRNASTC1-treated CAM revealed an upregulation on TBC1D3G gene, which is involved in the release of extracellular vesicles (EVs) in macrophage to mediate inflammation. This study demonstrated the association between STC1 and macrophage-mediated inflammation. Collectively, the above studies elucidated the influence of STC1 on cancer cell metabolism, macrophage differentiation and function. It warrants further investigations to unravel the therapeutic potential of STC1 in inflammation and carcinogenesis.

Effect of day of hatch inoculation with Enterobacteriaceae on inflammation and enteric permeability in broilers

Chasser, Kaylin M.

04 October 2021

No description available.

Animal Sciences

Enterobacteriaceae

inflammation

alpha-1-glycoprotein

yolk sac retention

fluorescein isothiocyanate dextran

broiler

Gelace mucinu – příprava artificiálních modelů pro studium biologických mukózních systémů / Mucin hydrogels - artificial models of native mucus systems

Mikušová, Janka

January 2021

The scope of this masters thesis is the preparation of a model mucin system and its utilization as an artificial model of the native mucus system. The creation of this model system, according to several designed methods was a part of experimental part of the thesis. The preparation of mucin system comprised of physical and chemical methods of hydrogel formation, screening and characterisation of the various physical conditions of the mucin properties on its molecular level, and the preparation of sorbent with sorption surface containing mucin. Methods of light scattering, namely dynamic light scattering (DLS), used for mucin particles size change monitoring, and electroforetic light scattering (ELS), used for Zeta potential change monitoring, were used for the screening of the impact of physical factors on the properties of mucin.For the characterisation of impact of the temperature on changes in mucin sctructure was, apart from monitoring of light scattering, used also a diferential scanning calorimetry (DSC), which registered temperature value, at which mucin thermal denaturation occurs. In the next part of the thesis we subdued the created sorption surfaces to various physical-chemical analyses, which task is the characterisation and projection of surface and confirmation of mucin presence.Substancial part in monitoring and characterisation of changes in surface sctructure of sorption surface was accomplished by Fourier transform infrared spectroscopy (FTIR). Scanning electron microscophy (SEM) was used for the final, more detailed, projection of the mucin enriched, sorbent surface structure. Suggested methods of mucin hydrogel, didnt prove sufficient results for the possibility of application of hydrogel as a artificial model of real mucus system, but the sorbent application was indicated as a suitable alternative and an instrument for the further mucin behaviour research and possibly subsequent bacterial adhesion, which represents the first step in the formation of the bacterial biofilm.

Příprava inhibitorů Neuraminidasy vhodných pro teranostiku / Synthesis of Neuraminidase binders suitable for theranostics

Berenguer Albiñana, Carlos

January 2018

Influenza viruses cause respiratory illnesses which can vary in severity depending on the strain of the virus, as well as the age and health condition of the host. Influenza remains a major threat to public health due to its nature prone to suffer mutations. As a result, vaccines have to be reformulated annually and new strains may cause sporadic global pandemics. Furthermore, the recent emergence of resistant strains of the virus against the current standard of care (oseltamivir and zanamivir) underlines the need of novel anti-influenza therapeutics. The aim of this dissertation work is to contribute to the discovery of new anti-influenza inhibitors either by rational drug-design and optimization of oseltamivir structure, or by developing screening assays suitable for the discovery of novel inhibitors of the enzymes neuraminidase or RNA-polymerase. Scheme 1. Overview of the strategy used for the development of new anti-influenza therapeutics. The dashed arrows indicate the inhibitors that were converted into probes and their corresponding target enzymes Two main modification points were explored for the improvement of oseltamivir properties (Scheme 1); modifications at carbon C-3 aimed to overcome oseltamivir resistance caused by common mutations like H274Y, meanwhile modifications at carbon C-5...

Příprava inhibitorů Neuraminidasy vhodných pro teranostiku / Synthesis of Neuraminidase binders suitable for theranostics

Berenguer Albiñana, Carlos

January 2018

Influenza viruses cause respiratory illnesses which can vary in severity depending on the strain of the virus, as well as the age and health condition of the host. Influenza remains a major threat to public health due to its nature prone to suffer mutations. As a result, vaccines have to be reformulated annually and new strains may cause sporadic global pandemics. Furthermore, the recent emergence of resistant strains of the virus against the current standard of care (oseltamivir and zanamivir) underlines the need of novel anti-influenza therapeutics. The aim of this dissertation work is to contribute to the discovery of new anti-influenza inhibitors either by rational drug-design and optimization of oseltamivir structure, or by developing screening assays suitable for the discovery of novel inhibitors of the enzymes neuraminidase or RNA-polymerase. Scheme 1. Overview of the strategy used for the development of new anti-influenza therapeutics. The dashed arrows indicate the inhibitors that were converted into probes and their corresponding target enzymes Two main modification points were explored for the improvement of oseltamivir properties (Scheme 1); modifications at carbon C-3 aimed to overcome oseltamivir resistance caused by common mutations like H274Y, meanwhile modifications at carbon C-5...