The embryonic epidermis of Xenopus tropialis: developing a model system for the study of mucociliary epithelia

Dubaissi, Eamon

January 2011

Mucociliary epithelia are found in the human airways and act as the first line of defence against inhaled foreign agents. Mucus traps potentially damaging particles and the cilia transport the mucus away from the airways to remove the threat. Modelling mucociliary epithelia for research purposes is challenging. This is because the airways are enclosed and are thus difficult to study directly. Instead, tissue is extracted or in vitro techniques are employed. Whilst these systems are useful, there is a need for accessible in vivo models to complement them. In this thesis I assess a new model system for studying mucociliary epithelia. This system is the larval epidermis of the amphibian, Xenopus tropicalis. Its epidermis comprises multi-ciliated cells that beat in a polarised direction reminiscent of those found in the human airways. It is also proposed to have a number of other cell types including mucus-secreting cells, but very little is known about them. The epidermis is open and accessible to manipulation meaning that it has great potential to be used in the study of mucociliary epithelia in live, native conditions. Such a system would be a valuable addition to the current models employed. However, the epidermis has not been thoroughly characterized before so its utility as a model system remains speculative.To develop and evaluate this new model, I fully characterize the epidermis, showing that it has five distinguishable cell types. This includes a population of cells called ionocytes that are shown to be essential for the health and function of the epidermis. I also test for the presence of mucins, the structural component of mucus, secreted from the epidermis in order to evaluate the proposal that mucus-secreting cells are present in the epidermis. A mucin-like protein called otogelin is identified. After characterizing the epidermal cell types, I compare them to the human mucociliary epithelium and consider potential applications and future perspectives for this model.

571.53

Understanding Mechanics and Polarity in Two-Dimensional Tissues

Staple, Douglas

21 March 2012

During development, cells consume energy, divide, rearrange, and die. Bulk properties such as viscosity and elasticity emerge from cell-scale mechanics and dynamics. Order appears, for example in patterns of hair outgrowth, or in the predominately hexagonal pattern of cell boundaries in the wing of a fruit fly. In the past fifty years, much progress has been made in understanding tissues as living materials. However, the physical mechanisms underlying tissue-scale behaviour are not completely understood. Here we apply theories from statistical physics and fluid dynamics to understand mechanics and order in two-dimensional tissues. We restrict our attention to the mechanics and dynamics of cell boundaries and vertices, and to planar polarity, a type of long-ranged order visible in anisotropic patterns of proteins and hair outgrowth. Our principle tool for understanding mechanics and dynamics is a vertex model where cell shapes are represented using polygons. We analytically derive the ground-state diagram of this vertex model, finding it to be dominated by the geometric requirement that cells be polygons, and the topological requirement that those polygons tile the plane. We present a simplified algorithm for cell division and growth, and furthermore derive a dynamic equation for the vertex model, which we use to demonstrate the emergence of quasistatic behaviour in the limit of slow growth. All our results relating to the vertex model are consistent with and build off past calculations and experiments. To investigate the emergence of planar polarity, we develop quantification methods for cell flow and planar polarity based on confocal microscope images of developing fly wings. We analyze cell flow using a velocity gradient tensor, which is uniquely decomposed into terms corresponding to local compression, shear, and rotations. We argue that a pattern in an inhomogeneously flowing tissue will necessarily be reorganized, motivating a hydrodynamic theory of polarity reorientation. Using such a coarse-grained theory of polarity reorientation, we show that the quantified patterns of shear and rotation in the wing are consistent with the observed polarity reorganization, and conclude that cell flow reorients planar polarity in the wing of the fruit fly. Finally, we present a cell-scale model of planar polarity based on the vertex model, unifying the themes of this thesis.

info:eu-repo/classification/ddc/570

ddc:570

Biophysik

Inhibition of Phosphatidylinositol 3-kinase Does Not Alter Forskolin- Stimulated CL^- Secretion by T84 Cells

Dickson, Jeffrey L., Conner, Tracy D., Ecay, Tom W.

01 January 2000

Wortmannin is a potent inhibitor of phosphatidylinositol 3-kinase (PI3K) and membrane trafficking in many cells. To test the hypothesis that cystic fibrosis transmembrane conductance regulator (CFTR) traffics into and out of the plasma membrane during cAMP-stimulated epithelial Cl- secretion, we have studied the effects of wortmannin on forskolin-stimulated Cl- secretion by the human colonic cell line T84. At the PI3K inhibitory concentration of 100 nM, wortmannin did not affect significantly forskolin-stimulated Cl- secretion measured as short-circuit current (I(SC)). However, 500 nM wortmannin significantly inhibited forskolin-stimulated I(SC). cAMP activation of apical membrane CFTR Cl- channels in α-toxin-permeabilized monolayers was not reduced by 500 nM wortmannin, suggesting that inhibition of other transporters accounts for the observed reduction in T84 Cl- secretion. Forskolin inhibits apical endocytosis of horseradish peroxidase (HRP), but wortmannin did not alter forskolin inhibition of apical HRP endocytosis. In the absence of forskolin, wortmannin stimulated HRP endocytosis significantly. We conclude that, in T84 cells, apical fluid phase endocytosis is not dependent on PI3K activity and that CFTR does not recycle through a PI3K-dependent and wortmannin-sensitive membrane compartment.

endocytosis

epithelia

short-circuit current

wortmannin

Biomedical Sciences

Calcium sparks enhance the tissue fluidity within epithelial layers and promote apical extrusion of transformed cells / カルシウムスパークは上皮層での組織流動性を亢進し、変異細胞の管腔側への逸脱を促進する

Kuromiya, Keisuke

23 March 2023

京都大学 / 新制・課程博士 / 博士(医科学) / 甲第24533号 / 医科博第147号 / 新制||医科||10(附属図書館) / 京都大学大学院医学研究科医科学専攻 / (主査)教授 篠原 隆司, 教授 松田 道行, 教授 伊藤 貴浩 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

calcium sparks

cell competition

apical extrusion

epithelia

phoshpo-SILAC screening

491

Aberrant splicing of the p63 gene in the accelerated development of epithelial cancer

Pitt, Keshia

12 February 2024

p63, a homologue of the transcription factor p53, is essential for maintaining the proliferative capacity of epithelial stem cells. The p63 gene yields two major isoforms transcribed from dual promoters at its N-terminus and at least three different splice variants at its C-terminus. The TAp63 isoform functions as a p53-like tumor suppressor and transactivates p53 gene targets. In contrast, ΔNp63α predominates in epithelial stem cells and regulates their proliferative potential, whilst also acting as an oncogene by suppressing the function of both p53 and TAp63 in a dominant-negative manner. ΔNp63α is frequently upregulated in human epithelial cancers and has been theorized to play a role in tumorigenesis. Our prior studies found that an aberrantly spliced ΔNp63α isoform heterozygous for a lack of exon 4-coded sequences (hereafter referred to as Δ4) appeared to be specifically expressed in squamous cell carcinomas, suggesting a potential link between this new isoform and a specific type of cancer. Our study aimed to elucidate the involvement of this aberrantly spliced p63 isoform in the initiation and/or development of epithelial cancer. We established a p63+/Δ4 mouse model to obtain a baseline for the effect of one aberrant allele on both embryonic and adult mouse development. We found that p63+/Δ4 mouse embryos developed normally and that over a period of 74 weeks, the p63+/Δ4 mice developed normally and lived lifespans equivalent to their wildtype counterparts, though a small proportion of the p63+/Δ4 colony showed minor issues with inflammation. After our initial observations, we established an experimental mouse model to test the effect of oncogenic stimulation on p63+/Δ4 mice. In the first model, we administered the oral carcinogen 4-nitroquinoline 1-oxide to mirror the histological and molecular changes seen in human oral carcinogenesis. We observed significant dysplasia in the tongue epithelia of p63+/Δ4 mice compared to that of wildtype. With this data, we developed the hypothesis that expression of Δ4 accelerates tumorigenesis in the presence of oncogenic stimulation. To further test this possibility, we generated a second mouse model: a triple transgenic Cre-inducible mouse model under the control of epithelial cell-specific promotor gene, keratin 14 (K14). This cross introduced a mutated Kras gene to the p63+/Δ4 lineage, as well as to control wildtype mice bred with the same Cre elements. Upon administration of tamoxifen, genetic recombination caused expression of both mutant Kras G12D and Δ4 in K14-positive tissues and subsequent malignant transformation. Among these K14-positive tissues were the oral epithelia, which presented with dysplasia more severe than that of control mice expressing either Kras or Δ4 alone and which matched the phenotype-genotype associations observed in our 4NQO experiment. Lastly, we attempted to create an antibody specific to Δ4 that could eliminate the need for our current two-antibody identification strategy. Though we did not succeed, we found value in elucidating the genetic sequence requirements to create the artificial peptide that we used for mouse immunization. We attempted to optimize established hybridoma protocols and developed a Δ4-specific screening process to determine viable candidates for expansion. In conclusion, this study is the first characterization of a hitherto unknown mutant splice variant of a gene vital to stem cell maintenance and epithelial development. It is the first demonstration of this gene mutation’s responsibility for the acceleration of squamous cell carcinoma, which carries implications for potential therapeutic treatments. / 2026-02-12T00:00:00Z

Molecular biology

Cancer

Epithelia

p63

Squamous cell carcinoma

Stem cells

Transforming factor beta

Characterization of the endocytic pathways regulating riboflavin (vitamin B2) absorption and trafficking in human epithelial cells

Foraker, Amy Beth

08 March 2007

No description available.

riboflavin

receptor-mediated endocytosis

clathrin

dynamin 2 GTPase

caveolin 1

human epithelia

Räumliche und zeitliche Aspekte der intrazellulären pH-Regulation in Epithelien / Spatial and temporal characteristics of intracellular pH-regulation in epithelial cells

Schewe, Bettina

January 2008

Die Speicheldrüsen der Schmeißfliege Calliphora vicina produzieren bei Stimulierung mit dem Neurohormon Serotonin (5-Hydroxytryptamine, 5-HT) einen KCl-reichen Primärspeichel. Der transepitheliale K+-Transport wird durch eine apikal lokalisierte vakuoläre H+-ATPase (V-ATPase) energetisiert. Stimulierung der Speicheldrüsen mit 5-HT aktiviert die apikale V-ATPase, die Protonen aus der Zelle in das Drüsenlumen transportiert. Trotz des auswärts gerichteten Protonentransportes führt die 5-HT-Stimulierung kurioserweise zu einer intrazellulären Ansäuerung. Die Ursachen dieser 5-HT-induzierten Ansäuerung waren unzureichend untersucht. Deshalb war das Ziel dieser Arbeit die Identifikation aller Transporter, die an der intrazellulären pH-(pHi)-Regulation in unstimulierten Speicheldrüsen von Calliphora vicina beteiligt sind und an der Entstehung und Regulation der 5-HT-induzierten pHi-Änderungen mitwirken. Von besonderem Interesse war hierbei die funktionelle Mitwirkung der V-ATPase, deren Beteiligung an der pHi-Regulation in tierischen Zellen bisher wenig untersucht war. Wesentliche Ergebnisse dieser Arbeit waren: • Messungen des pHi-Wertes in der unstimulierten Drüse zeigten, dass vor allem die V-ATPase und mindestens ein Na+-abhängiger HCO3--Transporter an der Aufrechterhaltung des Ruhe-pHi beteiligt sind. • Zur Wiederherstellung des Ruhe-pHi nach einer intrazellulären Ansäuerung (NH4Cl-Vorpuls) tragen ebenfalls im Wesentlichen die V-ATPase und mindestens ein Na+-abhängiger HCO3--Transporter bei. Der Na+/H+-Antiporter hat in der unstimulierten Drüse keinen messbaren Einfluss auf den Ruhe-pHi. • Die Wiederherstellung des Ruhe-pHi nach einer intrazellulären Alkalisierung (Na-acetat-Vorpuls) ist Cl--abhängig, aber auch unter extremen Bedingungen waren die Zellen noch in der Lage sich vollständig von einer intrazellullären Alkalisierung zu erholen. Einen entscheidenden Anteil daran hat offenbar die hohe intrazelluläre Puerkapazität. • Ein Na+-abhängiger Glutamat-Transporter ist per se kein pHi-regulierender Transporter, seine Aktivität hat jedoch Einfluss auf den Ruhe-pHi in der unstimulierten Speicheldrüse von Calliphora vicina. • 10 nM 5-HT induzieren in den Calliphora Speicheldrüsen eine intrazelluläre Ansäuerung. An dieser Ansäuerung ist der Na+/H+-Antiporter entscheidend beteiligt. Auch eine klare Cl--Abhängigkeit der 5-HT-induzierten Ansäuerung konnte beobachtet werden. Wahrscheinlich ist eine gekoppelte Aktivität von Na+/H+-Antiporter und Cl-/HCO3--Antiporter. • Messungen mit einem O2-empndlichen Fluoreszenzfarbstoff zeigten, dass Stimulierung der Speicheldrüsen mit 5-HT die Zellatmung aktivierte. Der cAMP- und der IP3/Ca2+-Weg tragen auf komplexe Weise zu der 5-HT-induzierten Aktivierung der Zellatmung und damit auch zu den 5-HT-induzierten pHi-Änderungen bei. • Mit molekularbiologischen Untersuchungen ist es gelungen den Na+-abhängigen Glutamat-Transporter, den Na+/H+-Antiporter, die Carboanhydrase und die Untereinheit C der V-ATPase in den Calliphora Speicheldrüsen direkt nachzuweisen. Zudem konnte erstmals der direkte Nachweis für die Expression eines nH+/K+-Antiporters in den Speicheldrüsen von Calliphora vicina erbracht werden. Diese Arbeit trug ganz wesentlich zum Verständnis der pHi-Regulation in der unstimulierten und stimulierten Speicheldrüse von Calliphora vicina bei. Mechanismen die zur Aufrechterhaltung und Wiederherstellung des Ruhe-pHi nach einer intrazellulären Ansäuerung bzw. Alkalisierung beitragen, konnten mit pHi-Messungen und auch molekularbiologisch nachgewiesen werden. Die Mechanismen, welche die 5-HT-induzierte intrazelluläre Ansäuerung verursachen, konnten ebenfalls aufgeklärt werden. Zudem wurde an den Calliphora Speicheldrüsen eine neue optische Methode zur Messung des O2-Verbrauchs in tierischen Geweben etabliert. / The tubular salivary glands of the blowfly Calliphora vicina consist of a single layer of epithelial cells. Stimulation with the neurohormone serotonin (5-hydroxytryptamine,5-HT) induces the secretion of a KCl-rich primary saliva. Transepithelial K+-transport is energized by a vacuolar-type H+-ATPase (V-ATPase) which is located in the apical membrane. 5-HT stimulates the apical V-ATPase which transports protons out of the cells into the lumen of the glands. Despite this outward directed proton transport, 5-HT stimulation leads to an intracellular acidication. The causes of this intracellular acidication were poorly understood. Therefore the aim of this thesis was the identication of all pHi regulating transporters which are involved in pHi regulation in the unstimulated salivary glands of Calliphora vicina and which contribute to the 5-HT-induced pHi changes. Of special interest was the functional role of the V-ATPase,whose contribution to pHi regulation in animal cells is, as yet, not well studied. Key results were: • pHi measurements in unstimulated glands showed that mainly the V-ATPase and at least one Na+-dependent HCO3--transporter are involved in maintenance of resting pHi. • V-ATPase and at least one Na+-dependent HCO3--transporter are also necessary for the recovery from an intracellular acidication (NH4Cl prepulse). • Recovery from an intracellular alkali load (Na-acetate prepulse) is partially Cl--dependent. • A Na+ dependent gluatamate-transporter is present in Calliphora salivary glands and its activity aects the resting pHi. • 10 nM 5-HT induce an intracellular acidication. This acidication is Na+-dependent, EIPA-sensitive and also Cl--dependent. No DIDS-sensitivity was observed. A coupled activity of a Na+/H+-antiporter and a Cl-/HCO3- -antiporter was suggested. • Using O2-sensitive fluorescent microbeads I could show that 5-HT stimulation of the Calliphora salivary glands activates cellular respiration. The cAMP and Ca2+-signalling pathways contribute in a complex manner to the 5-HT-induced activation of cellular respiration and consequently, also to the 5-HT-induced intracellular acidication. • The expression of a Na+ dependent glutamate-transporter, a Na+/H+-antiporter, a carbonic anhydrase, subunit C of the V-ATPase and a nH+/K+-antiporter were determined on mRNA level by RT-PCR. This thesis contributes signicantly to the understanding of pHi regulation in unstimulated and stimulated salivary glands of Calliphora vicina. Mechanisms which contribute to the maintenance and recovery of resting pHi were identied by using pHi measurements and molecular biological techniques. Mechanisms which are responsible for the 5-HT-induced intracellular acidication were also clarified. Furthermore a new optical method for measuring O2 consumption in animals cells was established by using the Calliphora salivary glands as a model.

pH-Regulation

V-ATPase

Speichelsekretion

Epithelien

Calliphora

pH-regulation

V-ATPase

saliva secretion

epithelia

Calliphora

Life sciences

Endogenous and Exogenous Regulation of Exhaled Ions in Patients with Cystic Fibrosis

Wheatley, Courtney M.

January 2013

Exercise has become a vital component of the therapy regimen prescribed to cystic fibrosis (CF) patients due to its systemic benefits, such as increased sputum expectoration, attenuation of the expected 2-3% annual decline in pulmonary function, and extended life expectancy. However, exercise still is not viewed as being as beneficial as pharmacological treatments by many CF patients and can be intimidating. My aims in this study were two-fold; first, to determine the ideal exercise intensity for individuals with CF; and second, to determine if exercise at this ideal intensity could provide improvements in ion regulation in the lungs, which was measured using exhaled breath condensate (EBC) collection and nasal potential difference (NPD), that were comparable to one of their standard pharmacological therapies, albuterol. I hypothesized that with moderate intensity exercise, Na⁺ absorption would decrease from baseline due to Na⁺ channel inhibition, rather than increase or remain unchanged, as was expected with albuterol, and cause an even greater increase Cl- secretion compared to albuterol due to activation of both CF-dependent and independent Cl- efflux with exercise. CF (n=14) and healthy (n=16) subjects completed three visits, a baseline screening and two treatment visits. I collected EBC at baseline, 30- and 60-minutes post-albuterol administration on one visit, and at baseline and during three separate 15 min exercise bouts at low, moderate and high intensity on the other visit. Following the EBC collection, NPD was performed at 30- and 80-minutes post albuterol or following moderate and high intensity exercise. We also measured spirometry and diffusing capacity of the lungs for nitric oxide (DLNO) during each visit at the various time points. In CF subjects, moderate intensity exercise resulted in greater improvements in DLNO (39 ± 29vs.15 ± 22% change from baseline, exercise vs. albuterol respectively), similar levels of bronchodilation compared to 60-minutes post-albuterol administration, no change in Na⁺ absorption, and a four-fold increase in Cl- secretion. Our results suggest that moderate intensity exercise is the best dose for CF patients, and can provide comparable changes as its pharmacological counterpart albuterol, when compared over a short term duration.

epithelia sodium channel

exercise

exhaled breath condensate

nasal potential difference

Pharmaceutical Sciences

Cystic Fibrosis

Regulation Of Long-Range Planar Cell Polarity By Fat- Dachsous Signaling

Sharma, Praveer Pankaj

14 January 2014

Planar cell polarity (PCP) is the organization of cellular characteristics within the plane of a tissue. PCP manifests both structurally, as in the directionality of insect bristles or mammalian skin hair, or dynamically, as in vertebrate neurulation, gastrulation, and oriented cell division in the kidney. Two well-conserved pathways are known to regulate PCP in invertebrates and in vertebrates: the Frizzled/PCP pathway and the Fat-Dachsous (Ft-Ds) pathway. The latter consists of the cadherins Ft and Ds, along with the Golgi kinase Four-jointed (Fj) and the transcriptional co-repressor Atrophin (Atro). Ft and Ds can bind each other, suggesting a mechanism for signal transduction. Fj phosphorylates Ft and Ds, modulating their binding affinities for each other. Atro is proposed to link Ft-Ds signaling with downstream events in the nucleus during eye development. The details of Ft-Ds binding, and the consequences of their interactions with other members of the pathway are poorly understood. In this work, I quantitatively analyzed Ft-Ds pathway mutant clones for their effects on ommatidial polarity in the Drosophila eye. My findings suggest that the Ft-Ds pathway regulates PCP independently of asymmetric cellular accumulation of Ft or Ds. I found that Atro has a position-specific role in regulating polarity in the eye, that Fj dampens clonal polarity signals, and that asymmetric accumulation of the atypical myosin Dachs is not essential for production and propagation of a long-range PCP signal. My observations suggest that Ft and Ds interact to modulate a secondary signal that regulates long-range polarity, that signaling by the Ds intracellular domain is dependent on Ft, and that ommatidial fate specification is genetically separable from long-range signaling.

polarity

fat

dachsous

atrophin

four-jointed

planar cell polarity

pcp

drosophila

genetics

clones

epithelia

ommatidia

eye

photoreceptor

0369

Regulation Of Long-Range Planar Cell Polarity By Fat- Dachsous Signaling

Sharma, Praveer Pankaj

14 January 2014

Planar cell polarity (PCP) is the organization of cellular characteristics within the plane of a tissue. PCP manifests both structurally, as in the directionality of insect bristles or mammalian skin hair, or dynamically, as in vertebrate neurulation, gastrulation, and oriented cell division in the kidney. Two well-conserved pathways are known to regulate PCP in invertebrates and in vertebrates: the Frizzled/PCP pathway and the Fat-Dachsous (Ft-Ds) pathway. The latter consists of the cadherins Ft and Ds, along with the Golgi kinase Four-jointed (Fj) and the transcriptional co-repressor Atrophin (Atro). Ft and Ds can bind each other, suggesting a mechanism for signal transduction. Fj phosphorylates Ft and Ds, modulating their binding affinities for each other. Atro is proposed to link Ft-Ds signaling with downstream events in the nucleus during eye development. The details of Ft-Ds binding, and the consequences of their interactions with other members of the pathway are poorly understood. In this work, I quantitatively analyzed Ft-Ds pathway mutant clones for their effects on ommatidial polarity in the Drosophila eye. My findings suggest that the Ft-Ds pathway regulates PCP independently of asymmetric cellular accumulation of Ft or Ds. I found that Atro has a position-specific role in regulating polarity in the eye, that Fj dampens clonal polarity signals, and that asymmetric accumulation of the atypical myosin Dachs is not essential for production and propagation of a long-range PCP signal. My observations suggest that Ft and Ds interact to modulate a secondary signal that regulates long-range polarity, that signaling by the Ds intracellular domain is dependent on Ft, and that ommatidial fate specification is genetically separable from long-range signaling.

polarity

fat

dachsous

atrophin

four-jointed

planar cell polarity

pcp

drosophila

genetics

clones

epithelia

ommatidia

eye

photoreceptor

0369