Adhesion molecules in Drosophila EGFR signalling and retinal development

Mao, Yanlan

January 2008

No description available.

610

NF-ĸB mediated signaling mechanisms in epidermal homeostasis and carcinogenesis

Lorenz, Verena Natalie

30 May 2013

Der Transkriptionsfaktor NF-κB ist von großer Bedeutung, da er verschiedene zelluläre Prozesse wie Proliferation, Apoptose, Invasion oder Inflammation beeinflusst. Im Gegensatz zu den meisten anderen Zelltypen ist in der humanen Epidermis ein wachstumsinhibierender Effekt mit der Aktivierung von NF-ĸB assoziiert. Die epidermale Homöostase dient der Aufrechterhaltung der intakten Hautbarriere und beschreibt das Gleichgewicht zwischen proliferierenden und differenzierenden epidermalen Keratinozyten. Schädliche äußere Einflüsse wie übermäßige Sonnenlichtexposition können die epidermale Homöostase stören, was zur Entstehung epidermaler Neoplasien wie aktinischer Keratosen oder Plattenepithelkarzinomen beiträgt. Das Ziel dieser Arbeit war die Expressions- und Funktionsanalyse der einzelnen NF-κB Proteinuntereinheiten in humanen Keratinozyten in vitro. Die siRNA-vermittelte transiente Reduktion von c-Rel beeinflusste deutlich das Zellschicksal von Keratinozyten. Obwohl vorangegangene Experimente durch eine stärkere Zellproliferation nach Inhibierung der NF-ĸB Proteine p50 und p65 das Gegenteil suggerierten, konnte für die Reduktion von c Rel ein inhibierender Effekt auf das Zellwachstum festgestellt werden. Außerdem zeigten sich eine veränderte Zellzyklusphasenverteilung sowie eine Akkumulation mitotischer Zellen mit aberranter, hauptsächlich monopolarer Spindelformation. Die zusätzlich detektierte Apoptose-Induktion könnte aus dem verlängerten mitotischen Arrest der c-Rel Knockdown Keratinozyten resultieren. Insgesamt lässt sich ein regulatorischer Effekt von c-Rel beim Eintritt in die Mitose oder der mitotischen Progression vermuten, wobei die beteiligten Zielgene noch zu identifizieren sind. Des Weiteren bewirkte der c-Rel Knockdown phänotypische Veränderung von HaCaT Keratinozyten mit tendenziell spindelzellartiger Elongation und einem insgesamt veränderten Wachstumsmuster. Die Adhäsion und besonders die Wundheilung von c-Rel reduzierten HaCaT Zellen war vermindert, möglicherweise bedingt durch ein reduziertes Stressfaservorkommen. Dieser Effekt zeigte sich allerdings nicht in c Rel herunter regulierten primären Keratinozyten, was auf Mutationen der spontan immortalisierten HaCaT Keratinozytenzelllinie zurückzuführen sein könnte. Zusammenfassend konnte in dieser Arbeit ein neuer Aspekt der einzelnen NF-ĸB Proteine aufgezeigt werden, besonders in Bezug auf die Proteinuntereinheit c-Rel. Hieraus resultiert ein besseres Verständnis der vielfältigen und komplexen Regulation von NF-κB abhängigen Funktionen und deren Effekte auf die epidermale Homöostase.

570

NF-κB

epidermal homeostasis

c-Rel

HaCaT keratinocytes

Biologie (PPN619462639)

Mechanism of action of novel single arm alkylating "combi-molecules" and bi-functional "bis-combi-molecules"

Al-Safadi, Sherin.

January 2008

Overexpression of the epidermal growth factor receptor (EGFR), a member of the ErbB family, and its closest homologue HER2, have been associated with aggressive tumour progression and reduced sensitivity to DNA-damaging agents. In order to block the proliferation of refractory tumors overexpressing EGFR, a novel strategy has been developed that sought to design molecules capable of not only blocking EGFR-TK, but also damaging DNA. These molecules, termed combi-molecules (CMs), have been shown to degrade under physical conditions to release another inhibitor of EGFR, and to be potent against tumor cells of various origins including breast, prostate and carcinoma of the vulva. However, despite their potency, their growth inhibitory IC50 values were still in the high micromolar range. In order to augment the potency of the CMs, here they were re-designed to contain two quinazoline moieties and a central N,N-bis(2-aminoethyl)methylamine spacer which, following degradation, could yield higher concentrations of free inhibitors and a more cytotoxic bifunctional DNA damaging species. Here, we describe the mechanism of action of the first prototype of this approach, JDE52, which we now classify as a double-arm CM, in comparison with ZRBA1, its closest single-arm counterpart. The results indicated that JDE52 was capable of inducing significant blockade of EGFR, DNA single-strand breaks and inter-strand cross-links. ZRBA1, its single-arm counterpart, was capable of only forming DNA single-strand breaks. The fluorescent property of FD105, the secondary inhibitor that both JDE52 and ZRBA1 are capable of releasing, has permitted the analysis of its levels in tumor cells by UV flowcytometry. It was found that JDE52 was indeed capable of significantly releasing higher levels of fluorescence (p<0.05) in human tumor cells, compared with levels of fluorescence released by ZRBA1. More importantly, JDE52 induced higher levels of apoptosis and cell killing than ZRBA1. Apoptosis was triggered by JDE52 at a faster rate than ZRBA1. The results in toto suggest that the superior potency of JDE52, when compared with ZRBA1, may be imputed to mechanisms associated with the generation of higher levels of FD105 intracellularly, and the induction of DNA cross-links, which are known to be more cytotoxic. These combined mechanisms (blockade of EGFR-TK and formation of cross-links) contributed to an accelerated rate of apoptosis in cells treated with JDE52. This study conclusively demonstrated that designing molecules as prodrugs of high levels of quinazoline inhibitors of EGFR and bifunctional DNA cross-linking species is a valid strategy to enhance the potency of CMs against refractory tumors.

Quinazolines -- pharmacokinetics.

Triazenes -- pharmacokinetics.

Prostatic Neoplasms -- metabolism.

Personalized Medicine: Development of a Predictive Computational Model for Personalized Therapeutic Interventions

Kureshi, Nelofar

02 August 2013

Lung cancer is the leading cause of cancer-related deaths among men and women. Non-Small Cell Lung Cancer (NSCLC) constitutes the most common type of lung cancer and is frequently diagnosed at advanced stages. In the past decade, discovery of Epidermal Growth Factor Receptor (EGFR) mutations have heralded a new paradigm of personalized treatment for NSCLC. Clinical studies have shown that molecular targeted therapies increase survival and improve quality of life in patients. Despite these advances, the realization of personalized therapies for NSCLC faces a number of challenges including the integration of clinical and genetic data and a lack of clinical decision support tools to assist physicians with patient selection. This thesis demonstrates the development of a predictive computational model for personalized therapeutic interventions in advanced NSCLC. The findings suggest that the combination of clinical and genetic data significantly improves the model’s predictive performance for tumor response than clinical data alone.

The trafficking and signaling of EGF receptors in hepatocyte rafts /

Wang, Ye, 1975-

January 2007

Membrane rafts are small plasma membrane domains that contain high levels of cholesterol and sphingolipids. They have been implicated in processes as diverse as signal transduction, endocytosis and cholesterol trafficking. Traditional methods for the biochemical preparation of lipid rafts involve the extraction of membranes with nonionic detergents followed by the separation of a low-density, detergent-resistant membrane fraction on density gradients. Because of concerns regarding the possible introduction of artifacts through the use of detergents, several methods were developed for the isolation of lipid rafts that do not involve detergent extraction. / In this study, we compared three different biochemical methodologies of membrane rafts preparation from purified rat liver PM. Only detergent-resistant membranes (DRMs) fulfill the requirements of membrane rafts. We subsequently found using the low dose of EGF (1 ug/100 g BW); the content of EGFR in PM-DRMs did not changed significantly following EGF administration. When a higher dose of EGF (5 ug/100 g BW) is administrated we observed a rapid and almost complete disappearance of EGFR (around 80%) from both PM and DRMs fractions. Interestingly, following the administration of a low or high dose of EGF, the pool of EGFR in the PM-DRMs fraction becomes highly Tyr-phosphorylated. In accordance with the higher level of EGFR Tyr-Phosphorylation, EGF induced an augmented recruitment of Grb2 and Shc proteins to PM-DRMs compared with whole PM. / Furthermore neither high nor low dose of EGF affects the caveolin content in DRMs and PM. These observations suggest that EGFR located in DRM are competent for signaling and non-caveolae PM rafts are involved in the compartmentalization and presumably internalization of the EGFR.

Membrane Microdomains -- metabolism.

Liver -- chemistry.

Detergents -- pharmacology.

Signal Transduction.

Evaluating the effects of multiple environmental stressors on the behaviour and physiology of a freshwater prey fish

2015 April 1900

The skin of many fishes contains large epidermal club cells (ECCs) that are known to release chemicals (alarm cues) that warn other fishes of danger. Initial research on ECCs focussed on their role in predator avoidance behaviour, however later research revealed that these cells might also have immune functions. Anthropogenic activities have dramatically increased over the past decades, with the consequence that many organisms simultaneously get exposed to multiple environmental stressors. We have seen considerable reductions in stratospheric ozone with a concomitant increase in global ultraviolet radiation (UVR). Metal pollution associated with industrial activity is also increasing on a global scale. Cadmium (Cd) is one such ubiquitous pollutant which is known to be toxic to organisms at extremely low concentrations. The main goal of my PhD research was to understand how multiple environmental stressors play a role in altering ECC investment and chemically-mediated predator-prey interactions by indirectly elucidating the evolutionary role of ECCs. The first experiment investigated the effects of in vivo ultraviolet radiation (UVR) exposure on ECC investment, physiological stress responses and potency of alarm cues in fathead minnows (Pimephales promelas). Subsequently, I investigated the interactive effects of UVR and/or waterborne cadmium (Cd) exposure using the same end points. I found that minnows exposed to UVR, either in the presence or absence of Cd, showed consistent decrease in ECC investment compared to non-exposed controls. There was a significant increase in cortisol levels of UVR exposed minnows compared to unexposed minnows. However, the combined exposure of UVR and Cd reduced cortisol levels relative to that in UVR only exposure. Surprisingly, there was no difference in the potency of the cues prepared from the skin of UVR and/or Cd exposed or non-exposed fish indicating that UVR and/or Cd exposure combined may have little influence on chemically-mediated predator-prey interactions. In aquatic systems, much of the negative effects of UVR are minimized by dissolved organic carbon (DOC) which is known to attenuate rates of UVR across the water column. In my third study, I investigated if DOC played a role in ameliorating the effects of in vivo UVR exposure on physiological stress and ECC investment in fathead minnows. I used two sources of DOC, a commercial soil based DOC (Sigma Aldrich Humic Acid) and a terrigenous source of DOC (Luther Marsh Natural Organic Matter). I found that fish exposed to UVR, in the presence of either source of DOC, in the presence and absence of UV blocking filter, maintained high ECC investment and reduced cortisol levels compared to fish exposed to UVR only. Studies that have examined factors that influence ECC investment have often been hampered by large variation in baseline levels of ECC. The larger the baseline variation in ECC number, the more difficult it is to elucidate factors responsible for changes in ECC investment. While I did not find this problematic in my work with UVR and Cd, others have failed to find effects in manipulative experiments. Consequently, my fourth study examined between and within variation in ECC investment across multiple sites in Saskatchewan and tried to investigate if holding fish under controlled laboratory conditions for up to 28 days would help reduce variation in ECC investment between and within populations. I found some evidence that I could reduce within population variation in ECC investment through time, but could not reduce among-population variation in mean ECC investment.

Epidermal club cells

Cortisol

Cadmium

UV radiation

Alarm cues

Dissolved organic carbon

Role of Patched1 in Epidermal Homeostasis

Rehan Villani

Unknown Date

Abstract – The Role of Patched1 in Epidermal Homeostasis Hedgehog (Hh) signalling is a critical pathway involved in the development of many, if not all, organ systems. However the abnormal activation of Hh signalling in fully developed adult organs leads to cancer. Mutation of the Hh signal receptor, Patched1 (Ptc1), causes Naevoid Basal Cell Carcinoma Syndrome, which presents with developmental defects and cancer predisposition. The activation of Hh signalling is seen in a wide range of non-inherited cancer types also, including Medulloblastoma and Basal Cell Carcinoma (BCC) of the skin. BCC is the most common form of human cancer and over 90% of cases are linked to abnormally high Hh signalling. Hh signalling is known to regulate hair follicle morphogenesis during development and more recently has been linked to modulation of the embryonic epidermal stem cell compartment. However both the mechanisms behind this process and the mechanism behind its induction of BCC are still uncharacterised. The aim of this project was to determine the role of Ptc1 in the skin, particularly the adult stem cell compartment, and the role of Hh signalling in BCC formation. The deletion of Ptc1 specifically in the adult epidermis was enabled by the creation of a K14-Cre Recombinase induced Ptc1 Conditional (K14-Cre:Ptc1C/C) transgenic mouse line. Proliferation was increased throughout the epithelia and BCC-like lesions developed within 4 weeks of Ptc1 deletion. This indicates that Hh signalling plays a critical role in repressing cell turnover in the interfollicular epithelium (IFE) and bulge region in the adult despite being previously reported not to play a role in this area. Ptc1 deletion in the epithelia was also found to promote the IFE lineage over hair follicles and expand the expression of many proposed stem cell markers, including K15, Sox9 and p63. K14-Cre:Ptc1C/C transgenic mice also exhibited a severe growth defect, linked to low levels of Igf1 hormone in the serum. Igf1 binding protein alteration in the skin was determined to be the most likely cause and prompted the investigation of Igf axis signalling in Ptc1 deleted epidermis. Insulin-like growth factor binding protein 2 was found to localise to the bulge or stem cell region of the hair follicle, and was increased in K14-Cre:Ptc1C/C epidermis. Igfbp2 was coincident with a loss of PI3K/Akt signal translation. The majority of human BCC samples also expressed Igfbp2 at much higher levels than surrounding normal tissue indicating these results are relevant to the human BCC condition also. Interestingly Hh activation was also shown to increase p38 MAPK throughout the epidermis indicating it is a universal target of Hh signalling in the skin. In summary we have found that Hh signal activation in the epidermis promotes the bulge/stem cell and interfollicular lineages of the skin at the expense of hair follicles. Finally the modulation of PI3K/Akt signalling by Igfbp2 in the bulge is perhaps mediating the effect of Hh signalling via the promotion of the bulge lineage leading to the development of BCC.

patched1

skin

hedgehog

epidermal

homeostasis

insulin-like growth factor

tyrosine kinase

Spinal cord injury : development of protection and repair strategies in rats /

Erschbamer, Matthias,

January 2007

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 5 uppsatser.

Regulation of vertebrate gastrulation by ErbB signaling

Nie, Shuyi.

January 2007

Thesis (Ph. D.)--University of Alabama at Birmingham, 2007. / Title from first page of PDF file (viewed Oct. 31, 2007). Includes bibliographical references.

The epidemiology, biology and genetics of human astrocytic tumours /

Bäcklund, Magnus,

January 2005

Diss. (sammanfattning) Stockholm : Karol. inst., 2005. / Härtill 4 uppsatser.