Η μελέτη της επίδρασης του οξειδωτικού στρες στην οκλουδίνη, βασικού δομικού μορίου των στενών δεσμών (tight junctions) του αιματοεγκεφαλικού φραγμού σε επίμυες. Μελέτη της πιθανής προφυλακτικής επίδρασης αντιοξειδωτικών παραγόντων

Μαυράκης, Αδαμάντιος

15 September 2014

Ο αιματο-εγκεφαλικός φραγμός (ΑΕΦ) παίζει έναν καθοριστικό ρόλο στην ομοιόσταση του Κεντρικού Νευρικού Συστήματος. Οι στενοσύνδεσμοι (TJ) των ενδοθηλιακών κυττάρων των εγκεφαλικών τριχοειδών συνεισφέρουν σημαντικά στη λειτουργία του ΑΕΦ περιορίζοντας την παρακυτταρική διάχυση. Η οκλουδίνη, μια διαμεμβρανική πρωτεΐνη, αποτελεί μείζον συστατικό των TJ και παίζει σημαντικό ρόλο στη ρύθμιση της λειτουργίας τους. Το οξειδωτικό στρες αποτελεί κοινό χαρακτηριστικό πολλών νευροεκφυλιστικών και νευροφλεγμονωδών παθήσεων και η δυσλειτουργία των TJ με τη συνοδό διαταραχή του ΑΕΦ, συνδέονται με αυτό. Το αυξημένο οξειδωτικό φορτίο στα πλαίσια της αποφρακτικής χολόστασης έχει αποδειχθεί σε διάφορα όργανα αρουραίων μεταξύ των οποίων και ο εγκέφαλος. Στην παρούσα μελέτη χρησιμοποιήθηκε ένα πειραματικό μοντέλο αρουραίων με απολίνωση του χοληδόχου πόρου (BDL), για να εξεταστεί η επίδραση της χολόστασης στην εντόπιση της οκλουδίνης στο ενδοθήλιο εγκεφαλικών τριχοειδών με τη χρήση ηλεκτρονικού μικροσκοπίου. Αρσενικοί αρουραίοι Wistar χωρίστηκαν τυχαίως σε δύο ομάδες. Ομάδα Ι ψευδώς χειρουργημένοι αρουραίοι και ομάδα ΙΙ αρουραίοι που υπεβλήθησαν σε απολίνωση χοληδόχου πόρου (BDL) και οι δύο την ίδια ημέρα 0. Την 10η μετεγχειρητική ημέρα, όλα τα επιζήσαντα ζώα θυσιάστηκαν δια αποκεφαλισμού. Μετά από κατάλληλη προετοιμασία για σήμανση με ανοσοχρυσό της οκλουδίνης, δείγματα από το μετωπιαίο λοβό, το μεσεγκέφαλο και την παρεγκεφαλίδα από κάθε ομάδα παρατηρήθηκαν με ηλεκτρονικό μικροσκόπιο για διαφορές στην εντόπιση της οκλουδίνης σε σχέση με τη διενδοθηλιακή σχισμή. Τα αποτελέσματα ανέδειξαν μετακίνηση της οκλουδίνης μακριά από την περιοχή των στενοσυνδέσμων του τριχοειδικού ενδοθηλίου. Σημαντική αύξηση της απόστασης της οκλουδίνης από τη διενδοθηλιακή σχισμή παρατηρήθηκε στο μεσεγκέφαλο και στην παρεγκεφαλίδα και όχι στο μετωπιαίο λοβό, σε σχέση με την ομάδα ελέγχου (control). Τα συγκεκριμένα αποτελέσματα υπαινίσσονται μια εκλεκτική ως προς την περιοχή αποδιοργάνωση της οκλουδίνης σε απάντηση στην ηπατική δυσλειτουργία και ένα σημάδι δυσλειτουργίας των TJ με λογικό συνεπακόλουθο τη δυσλειτουργία και του ΑΕΦ. Προκαταρκτικά δεδομένα της χρήσης αντιοξειδωτικών παραγόντων, όπως η αλλοπουρινόλη, αφήνουν να διαφανεί ένας προστατευτικός ρόλος όσον αφορά τη μετατόπιση της οκλουδίνης σε BDL αρουραίους. Εν συντομία, η παρούσα πειραματική μελέτη παρουσιάζει την επίδραση του οξειδωτικού στρες, στην εντόπιση της πρωτεΐνης των στενοσυνδέσμων οκλουδίνη στο ενδοθήλιο των εγκεφαλικών τριχοειδών αγγείων σε αρουραίους με απολίνωση χοληδόχου πόρου. Για τη μελέτη χρησιμοποιήθηκαν τεχνικές ανοσοσήμανσης συνδυαζόμενες με ηλεκτρονική μικροσκοπία και παρουσιάστηκαν δεδομένα εκλεκτικής ως προς την περιοχή εγκεφαλικής δυσλειτουργίας στην ηπατική πάθηση με δυνητική συσχέτιση με τις κλινικές εκδηλώσεις της ηπατικής εγκεφαλοπάθειας. / The blood–brain barrier (BBB) plays a critical role in central nervous system homeostasis. Interendothelial tight junction (TJ) protein complexes of the brain microvasculature have a major contribution to the BBB function by limiting paracellular diffusion Occludin, a transmembrane protein, is a major component of the TJ which plays a significant role in its regulation. Oxidative stress is a major underlying cause of neurodegenerative and neuroinflammatory disorders while TJ dysfunction leading to BBB disruption is associated with it. The development of increased oxidative stress in the context of obstructive cholestasis has been proven in various rats' organs including the brain. The present study used a rat model with bile duct ligation, to examine the effect of cholestasis, to the localization of occludin in brain capillary endothelium by means of electronic microscopy. Male Wistar rats were randomly divided into Group I, rats subjected to sham operation, and Group II, rats subjected to bile duct ligation (BDL) on day 0 and on post-operative day 10 all surviving animals were sacrificed by instant decapitation. After specific treatment for immunogold labeling of occludin, samples from frontal cortex, midbrain and cerebellum from each group were observed for differences in occludin location in relation to the interendothelial cleft. The results demonstrated a dislocation of occludin away from the tight junction sites of brain endothelial cells. A significant increase of the occludin-interendothelial cleft distance was demonstrated in the midbrain and the cerebellum samples but not in the frontal cortex, compared to the control group samples. These findings imply a brain region selective derangement of occludin in response to liver disease and a sign of TJ impairment and thus, a speculated BBB dysfunction. Preliminary data of use of antioxidant agents, as allopurinol, imply a protective effect concerning the dislocation of occludin in BDL rats. In brief, this experimental study demonstrates the effect of oxidative stress, in the location of TJ protein occludin in brain capillary endothelium of BDL rats. The study used immunolabeling techniques combined with electron microscopy and presented data of region-specific brain abnormalities in liver disease with potential correlation with clinical manifestations of hepatic encephalopathy.

Οκλουδίνη

Στενοσύνδεσμοι

Εγκεφαλικό ενδοθήλιο

Οξειδωτικό στρες

616.81

Occludin

Tight-junctions

Brain endothelium

Electron microscopy

Oxidative stress

Obstructive cholestasis

Blood-brain barrier

The use of Gibson Assembly for DNA cloning / Användning av Gibson Assembly för att klona DNA

Johansson, Samuel

January 2022

This thesis report revolved around the cloning process of plasmids. Attempts of cloning the red fluorescent protein mCherry, and the green fluorescent protein EGFP from various plasmids, into other plasmids containing different cell-junction/cytoskeleton plasmids were made. These plasmids were first amplified using PCR, and then cloned using Gibson-Assembly, and then transfected into live HEK293T or MDCK-II cells. After the transfection, the cells were examined in a microscope. The results showed no signal or localization for the cloned plasmids in their respective corresponding channel, 561 nm for the red fluorescent protein mCherry or 488 nm for the green fluorescent protein EGFP. The step that went wrong was the PCR step in the cloning process, since the backbone vector was not successfully amplified. The reasons for this was either that the backbone vector was too long, the primers regions were to rich with Guanine and Cytoseine, or the primers being too long. / Den här tesen kretsade kring kloningsprocessen för plasmider. Det gjordes försök att från plasmider klona in det röda fluorescerande proteinet mCherry, samt det gröna fluorescerande proteinet EGFP in i andra plasmider som innehöll olika cell-junction proteiner. Både det fluorescerande fragmenten och plasmid-vektorerna innehållande cell-junction proteinerna amplifierades med PCR. Sedan gjordes Gibson-Assembly som var själva kloningsmetoden. Efter det transfekterades HEK293T, samt MDCK-II celler med lösningen från Gibson-Assembly kloningen. Dessa celler undersöktes sedan i mikroskop. Resultatet visade inga tydliga signaler varken i 561 nm kanalen (mCherry), eller i 488 nm kanalen (EGFP), vilket betyder att kloningen inte fungerade. Steget som gick fel var PCR-steget i själva kloningsprocessen, då plasmid-vektorerna inte amplifierades. Anledningen till detta var antingen att själva plasmid-vektorerna var för långa, primer regionerna hade för mycket Guanin och Cytosin, eller att alla primers själva var för långa.

Plasmid

Primer

Cloning

PCR

Gibson-Assembly

Transfection

Fluorescent protein

Fluorescent imaging

mCherry

EGFP

Zona-Occludens 1

Occludin

alphaTubulin

Cx-43-7

Plasmid

Primer

Kloning

PCR

Gibson-Assembly

Transfektion

Fluorescerande protein

Fluorescerande avbildning

mCherry

EGFP

Zona-Occludens 1

Occludin

alphaTubulin

Cx-43-7

Physical Sciences

Fysik

Stress oxydatif cérébrovasculaire et rupture de la barrière hémato-encéphalique dans le syndrome de Wernicke-Korsakoff expérimental

Beauchesne, Élizabeth

03 1900

Le syndrome de Wernicke-Korsakoff (SWK) est un désordre neuropsychiatrique causé par la déficience en thiamine (DT). Dans la DT expérimentale comme dans le SWK, on observe une mort neuronale et des hémorragies dans certaines régions précises du diencéphale et du tronc cérébral. Les lésions diencéphaliques du SWK sont particulièrement sévères et entraînent souvent des séquelles amnésiques permanentes. Le lien entre la dysfonction métabolique induite par la DT et la mort neuronale n’est pas connu. Des rapports précédents ont démontré que la perméabilité de la barrière hémato-encéphalique (BHE) était altérée et ce, précédant l’apparition du dommage neuronal, suggérant un rôle critique de la dysfonction vasculaire. Les jonctions serrées (JS) interendothéliales, la base anatomique de la BHE, constituent un réseau moléculaire incluant l’occludin et les zonula occludens (ZOs). Cette thèse démontre une perte d’expression et une altération de la morphologie de ces protéines en relation avec la dysfonction de la BHE dans le thalamus de souris déficientes en thiamine, fournissant une explication pour la présence d’hémorragies. Le stress oxydatif peut entraîner des dommages directs aux protéines des JS et interférer avec leurs mécanismes de régulation. De plus, l’oxyde nitrique (NO) peut induire la métalloprotéinase matricielle-9 (MMP-9) impliquée dans la dégradation de ces protéines. L’endothélium vasculaire cérébral (EVC) semble être une source importante de NO dans la DT, l’expression de l’oxyde nitrique synthase endothéliale (eNOS) étant sélectivement induite dans les régions vulnérables. Le NO peut réagir avec les espèces réactives oxygénées et former du peroxynitrite, entraînant un stress oxydatif/nitrosatif endothélial. Les résultats présentés démontrent que la délétion du gène de eNOS prévient le stress oxydatif/nitrosatif cérébrovasculaire, l’extravasation des immunoglobulins G (IgGs) et l’altération de l’occludin et des ZOs dans le thalamus de souris déficientes en thiamine. De plus, cette délétion prévient l’induction de l’expression de MMP-9 dans l’EVC. Des résultats similaires ont été obtenus avec l’antioxydant N-acétylcystéine (NAC). Les mécanismes précis par lesquels les espèces réactives altèrent les protéines des JS sont inconnus. Caveolin-1, une composante majeure du caveolæ de l’EVC, est impliquée dans la régulation de l’expression des protéines des JS, et celle-ci est modulée par le stress oxydatif/nitrosatif; l’altération de l’expression de caveolin-1 a été récemment associée à la rupture de la BHE. Les résultats présentés démontrent que l’expression de caveolin-1 est sélectivement altérée dans l’EVC du thalamus de souris déficientes en thiamine, coïcidant avec la rupture de la BHE, et démontrent que la normalisation de l’expression de caveolin-1 par le NAC est associée avec l’atténuation du dommage à la BHE. Pris ensemble, ces résultats démontrent un rôle central du stress oxydatif/nitrosatif cérébrovasculaire, particulièrement celui provenant de eNOS, dans l’altération des JS de la BHE via des dommages directs et via l’induction de MMP-9 et de caveolin-1. Cette rupture de la BHE contribue par conséquent à la mort neuronale dans le thalamus, puisque la prévention des altérations cérébrovasculaires par la délétion du gène de eNOS et le NAC atténue significativement la mort neuronale. L’administration précoce d’antioxydants en combinaison avec la thiamine devrait donc être une considération importante pour le traitement du SWK. / Wernicke-Korsakoff syndrome (WKS) is a neuropsychiatric disorder caused by thiamine deficiency (TD). In experimental TD as in WKS, neuronal cell death and hemorrhages are observed in specific diencephalic and brainstem areas. Diencephalic lesions in WKS are especially severe and often lead to permanent amnesic symptoms. The link between TD-induced metabolic dysfunction and neuronal cell death is unknown. Previous reports have shown that blood-brain barrier (BBB) permeability was impaired and that this occurred prior to the onset of neuronal damage, suggesting a critical role for vascular dysfunction. Interendothelial tight junctions (TJs), the anatomical basis of the BBB, constitute a molecular network comprising occludin and zonula occludens (ZOs). This thesis shows a loss of expression and alterations in the morphology of these proteins in relation to BBB dysfunction in the thalamus of thiamine-deficient mice, providing an explanation for the presence of hemorrhages. Oxidative stress can lead to direct oxidative damage to TJ proteins and interfere with their regulation mechanisms. Also, nitric oxide (NO) can induce matrix metalloproteinase-9 (MMP-9) involved in the degradation of these proteins. Cerebral vascular endothelium (CVE) seems to be an important source of NO in TD, since endothelial nitric oxide synthase (eNOS) expression is selectively induced in vulnerable areas. NO can react with reactive oxygen species and form peroxynitrite, leading to endothelial oxidative/nitrosative stress. Results have show that eNOS gene deletion prevents cerebrovascular oxidative/nitrosative stress, immunoglobulins G (IgGs) extravasation and occludin and ZOs alterations in the thalamus of thiamine-deficient mice. Also, eNOS gene deletion prevents the induction of MMP-9 in CVE. Similar results have been obtained with the antioxidant N-acetylcysteine (NAC). Precise mechanisms by which reactive species alter TJ proteins are unknown. Caveolin-1, a major component of CVE caveolæ, is involved in the regulation of TJ protein expression, and is modulated by oxidative/nitrosative stress; alteration in caveolin-1 expression has been recently associated with BBB breakdown. The present results show that caveolin-1 expression is selectively altered in CVE of the thalamus of thiamine-deficient mice, and show that normalization of caveolin-1 expression by NAC is associated with the attenuation of BBB damage. Taken together, these results demonstrate a central role for cerebrovascular oxidative/nitrosative stress, especially coming from eNOS, in BBB TJ protein alterations via direct damage and via induction of MMP-9 and caveolin-1. As a result, BBB breakdown contributes to neuronal cell death in the thalamus, since prevention of cerebrovascular alterations by eNOS gene deletion and NAC significantly attenuates neuronal cell death. Early administration of antioxidants combined with thiamine should therefore be an important consideration for the treatment of WKS.

Syndrome de Wernicke-Korsakoff

Déficience en thiamine

Barrière hémato-encéphalique

Occludin

Zonula occludens

Oxyde nitrique synthase endothéliale

Stress oxydatif/nitrosatif

Métalloprotéinase matricielle-9

Caveolin-1

Mort neuronale

Wernicke-Korsakoff syndrome

Thiamine deficiency

Blood-brain barrier

Endothelial nitric oxide synthase

Oxidative/nitrosative stress

Matrix metalloproteinase-9

Neuronal cell death

Stress oxydatif cérébrovasculaire et rupture de la barrière hémato-encéphalique dans le syndrome de Wernicke-Korsakoff expérimental

Beauchesne, Élizabeth

03 1900

Le syndrome de Wernicke-Korsakoff (SWK) est un désordre neuropsychiatrique causé par la déficience en thiamine (DT). Dans la DT expérimentale comme dans le SWK, on observe une mort neuronale et des hémorragies dans certaines régions précises du diencéphale et du tronc cérébral. Les lésions diencéphaliques du SWK sont particulièrement sévères et entraînent souvent des séquelles amnésiques permanentes. Le lien entre la dysfonction métabolique induite par la DT et la mort neuronale n’est pas connu. Des rapports précédents ont démontré que la perméabilité de la barrière hémato-encéphalique (BHE) était altérée et ce, précédant l’apparition du dommage neuronal, suggérant un rôle critique de la dysfonction vasculaire. Les jonctions serrées (JS) interendothéliales, la base anatomique de la BHE, constituent un réseau moléculaire incluant l’occludin et les zonula occludens (ZOs). Cette thèse démontre une perte d’expression et une altération de la morphologie de ces protéines en relation avec la dysfonction de la BHE dans le thalamus de souris déficientes en thiamine, fournissant une explication pour la présence d’hémorragies. Le stress oxydatif peut entraîner des dommages directs aux protéines des JS et interférer avec leurs mécanismes de régulation. De plus, l’oxyde nitrique (NO) peut induire la métalloprotéinase matricielle-9 (MMP-9) impliquée dans la dégradation de ces protéines. L’endothélium vasculaire cérébral (EVC) semble être une source importante de NO dans la DT, l’expression de l’oxyde nitrique synthase endothéliale (eNOS) étant sélectivement induite dans les régions vulnérables. Le NO peut réagir avec les espèces réactives oxygénées et former du peroxynitrite, entraînant un stress oxydatif/nitrosatif endothélial. Les résultats présentés démontrent que la délétion du gène de eNOS prévient le stress oxydatif/nitrosatif cérébrovasculaire, l’extravasation des immunoglobulins G (IgGs) et l’altération de l’occludin et des ZOs dans le thalamus de souris déficientes en thiamine. De plus, cette délétion prévient l’induction de l’expression de MMP-9 dans l’EVC. Des résultats similaires ont été obtenus avec l’antioxydant N-acétylcystéine (NAC). Les mécanismes précis par lesquels les espèces réactives altèrent les protéines des JS sont inconnus. Caveolin-1, une composante majeure du caveolæ de l’EVC, est impliquée dans la régulation de l’expression des protéines des JS, et celle-ci est modulée par le stress oxydatif/nitrosatif; l’altération de l’expression de caveolin-1 a été récemment associée à la rupture de la BHE. Les résultats présentés démontrent que l’expression de caveolin-1 est sélectivement altérée dans l’EVC du thalamus de souris déficientes en thiamine, coïcidant avec la rupture de la BHE, et démontrent que la normalisation de l’expression de caveolin-1 par le NAC est associée avec l’atténuation du dommage à la BHE. Pris ensemble, ces résultats démontrent un rôle central du stress oxydatif/nitrosatif cérébrovasculaire, particulièrement celui provenant de eNOS, dans l’altération des JS de la BHE via des dommages directs et via l’induction de MMP-9 et de caveolin-1. Cette rupture de la BHE contribue par conséquent à la mort neuronale dans le thalamus, puisque la prévention des altérations cérébrovasculaires par la délétion du gène de eNOS et le NAC atténue significativement la mort neuronale. L’administration précoce d’antioxydants en combinaison avec la thiamine devrait donc être une considération importante pour le traitement du SWK. / Wernicke-Korsakoff syndrome (WKS) is a neuropsychiatric disorder caused by thiamine deficiency (TD). In experimental TD as in WKS, neuronal cell death and hemorrhages are observed in specific diencephalic and brainstem areas. Diencephalic lesions in WKS are especially severe and often lead to permanent amnesic symptoms. The link between TD-induced metabolic dysfunction and neuronal cell death is unknown. Previous reports have shown that blood-brain barrier (BBB) permeability was impaired and that this occurred prior to the onset of neuronal damage, suggesting a critical role for vascular dysfunction. Interendothelial tight junctions (TJs), the anatomical basis of the BBB, constitute a molecular network comprising occludin and zonula occludens (ZOs). This thesis shows a loss of expression and alterations in the morphology of these proteins in relation to BBB dysfunction in the thalamus of thiamine-deficient mice, providing an explanation for the presence of hemorrhages. Oxidative stress can lead to direct oxidative damage to TJ proteins and interfere with their regulation mechanisms. Also, nitric oxide (NO) can induce matrix metalloproteinase-9 (MMP-9) involved in the degradation of these proteins. Cerebral vascular endothelium (CVE) seems to be an important source of NO in TD, since endothelial nitric oxide synthase (eNOS) expression is selectively induced in vulnerable areas. NO can react with reactive oxygen species and form peroxynitrite, leading to endothelial oxidative/nitrosative stress. Results have show that eNOS gene deletion prevents cerebrovascular oxidative/nitrosative stress, immunoglobulins G (IgGs) extravasation and occludin and ZOs alterations in the thalamus of thiamine-deficient mice. Also, eNOS gene deletion prevents the induction of MMP-9 in CVE. Similar results have been obtained with the antioxidant N-acetylcysteine (NAC). Precise mechanisms by which reactive species alter TJ proteins are unknown. Caveolin-1, a major component of CVE caveolæ, is involved in the regulation of TJ protein expression, and is modulated by oxidative/nitrosative stress; alteration in caveolin-1 expression has been recently associated with BBB breakdown. The present results show that caveolin-1 expression is selectively altered in CVE of the thalamus of thiamine-deficient mice, and show that normalization of caveolin-1 expression by NAC is associated with the attenuation of BBB damage. Taken together, these results demonstrate a central role for cerebrovascular oxidative/nitrosative stress, especially coming from eNOS, in BBB TJ protein alterations via direct damage and via induction of MMP-9 and caveolin-1. As a result, BBB breakdown contributes to neuronal cell death in the thalamus, since prevention of cerebrovascular alterations by eNOS gene deletion and NAC significantly attenuates neuronal cell death. Early administration of antioxidants combined with thiamine should therefore be an important consideration for the treatment of WKS.

Syndrome de Wernicke-Korsakoff

Déficience en thiamine

Barrière hémato-encéphalique

Occludin

Zonula occludens

Oxyde nitrique synthase endothéliale

Stress oxydatif/nitrosatif

Métalloprotéinase matricielle-9

Caveolin-1

Mort neuronale

Wernicke-Korsakoff syndrome

Thiamine deficiency

Blood-brain barrier

Endothelial nitric oxide synthase

Oxidative/nitrosative stress

Matrix metalloproteinase-9

Neuronal cell death

Development of Sensitive In Vitro Assays to Assess the Ocular Toxicity Potential of Chemicals and Ophthalmic Products

McCanna, David

January 2009

The utilization of in vitro tests with a tiered testing strategy for detection of mild ocular irritants can reduce the use of animals for testing, provide mechanistic data on toxic effects, and reduce the uncertainty associated with dose selection for clinical trials. The first section of this thesis describes how in vitro methods can be used to improve the prediction of the toxicity of chemicals and ophthalmic products. The proper utilization of in vitro methods can accurately predict toxic threshold levels and reduce animal use in product development. Sections two, three and four describe the development of new sensitive in vitro methods for predicting ocular toxicity. Maintaining the barrier function of the cornea is critical for the prevention of the penetration of infections microorganisms and irritating chemicals into the eye. Chapter 2 describes the development of a method for assessing the effects of chemicals on tight junctions using a human corneal epithelial and canine kidney epithelial cell line. In Chapter 3 a method that uses a primary organ culture for assessing single instillation and multiple instillation toxic effects is described. The ScanTox system was shown to be an ideal system to monitor the toxic effects over time as multiple readings can be taken of treated bovine lenses using the nondestructive method of assessing for the lens optical quality. Confirmations of toxic effects were made with the utilization of the viability dye alamarBlue. Chapter 4 describes the development of sensitive in vitro assays for detecting ocular toxicity by measuring the effects of chemicals on the mitochondrial integrity of bovine cornea, bovine lens epithelium and corneal epithelial cells, using fluorescent dyes. The goal of this research was to develop an in vitro test battery that can be used to accurately predict the ocular toxicity of new chemicals and ophthalmic formulations. By comparing the toxicity seen in vivo animals and humans with the toxicity response in these new in vitro methods, it was demonstrated that these in vitro methods can be utilized in a tiered testing strategy in the development of new chemicals and ophthalmic formulations.

in vitro

Alternative Methods

alamarBlue

rhodamine

tight junctions

bovine lens

viability

toxicity

mitochondria

mitochondria integrity

benzalkonium chloride

sodium dodecyl sulphate

sodium lauryl sulfate

scanning electron microscopy

Draize

Draize maximal average scores

zonula occludens

cosmetic directive

PETA

humane society

animal league

ICCVAM

ECVAM

JaCVAM

BCOP

bovine cornea

ocular irritants

ocular irritation

ocular toxicity

human corneal epithelial cells

vitro

confocal

confocal microscopy

metabolic activity

optical quality

reactive oxygen species

contact lens

contact lens care solutions

barrier function

microbial keratitis

mulitipurpose solutions

tight junction

cell damage

claudin

ZO-1

occludin

MDCK

Madin

Madin-Darby

canine kidney cells

cornea

human cornea

human corneal epithelium

epithelial cell line

human corneal epithelial cell line

sodium fluorescein

sodium fluorescein permeability

fluorescein permeability

ocular surface

cell monolayer

Araki-Sasaki

cell physiology

risk assessment

safety assessment

ScanTox

scanning laser

lens epithelium

corneal cells

in vitro model

ophthalmic formulations

multiple instillation

back vertex

animal testing

rabbit testing

alternatives to animal testing

cultured bovine lens

toxicity of chemicals

irritation

irritants

laser scanner

organ culture

delayed toxicity

toxins

hydrogen peroxide

cornea toxicity

cornea toxicity models

prediction of human toxicity

no observable adverse effect level

lowest observable adverse effect level

NOAEL

LOAEL

toxicity thresholds

safety factors

cornea

uncertainty factors

preservatives

disinfectants

ophthalmic products

preclinical

preclinical testing

epithelial barrier

drug penetration

clinical confocal microscopy

animal rights

rabbit cornea

human cornea

human clinical effects

toxic

animal rights activist

sensitive measures

toxic effect

toxicity threshold

agar overlay

agar diffusion

agar overlay method

agar diffusion method

cytochrome

cytochrome c

apoptosis

necrotic

apoptotic

necrosis

caspase

rhodamine 123

resazuran

resorufin

cell death

cell viability

metabolic dye

microsomal

microsomal enzymes

cytotoxicity

cytotoxic

cytotoxic effect

MTT

XTT

WST-1

plasma membrane

mitochondrial

mitochondrial morphology

ocular toxicity potential

ocular toxicity

human corneal epithelial

cell line

confocal analysis

corneal epithelium

cell fluorescence

alamarBlue assay

rhodamine dye

animal welfare

toxic injury

degraded mitochondria

epithelial monolayer

disinfectants

membrane integrity

eye toxicity

eye

viability dye

toxicity in humans

human toxicity

effects on the mitochondria

mitochondrial toxicity

in vitro battery

in vitro test battery

ophthalmic eye drop

direct contact

product safety

cytotoxicity potential

molecular

molecular biology

refine reduce replace

sensitivity and relevance

sensitivity

relevance

rabbit ocular irritation test

product development

cytotoxicity models

cytotoxicity alternative methods

replacements for animal testing

three r's

beagle

tiered testing

tiered testing strategy

replacements animal testing

mechanistic toxicity

cornea mitochondria

dose response

threshold

Vision Science and Biology

Development of Sensitive In Vitro Assays to Assess the Ocular Toxicity Potential of Chemicals and Ophthalmic Products

McCanna, David

January 2009

The utilization of in vitro tests with a tiered testing strategy for detection of mild ocular irritants can reduce the use of animals for testing, provide mechanistic data on toxic effects, and reduce the uncertainty associated with dose selection for clinical trials. The first section of this thesis describes how in vitro methods can be used to improve the prediction of the toxicity of chemicals and ophthalmic products. The proper utilization of in vitro methods can accurately predict toxic threshold levels and reduce animal use in product development. Sections two, three and four describe the development of new sensitive in vitro methods for predicting ocular toxicity. Maintaining the barrier function of the cornea is critical for the prevention of the penetration of infections microorganisms and irritating chemicals into the eye. Chapter 2 describes the development of a method for assessing the effects of chemicals on tight junctions using a human corneal epithelial and canine kidney epithelial cell line. In Chapter 3 a method that uses a primary organ culture for assessing single instillation and multiple instillation toxic effects is described. The ScanTox system was shown to be an ideal system to monitor the toxic effects over time as multiple readings can be taken of treated bovine lenses using the nondestructive method of assessing for the lens optical quality. Confirmations of toxic effects were made with the utilization of the viability dye alamarBlue. Chapter 4 describes the development of sensitive in vitro assays for detecting ocular toxicity by measuring the effects of chemicals on the mitochondrial integrity of bovine cornea, bovine lens epithelium and corneal epithelial cells, using fluorescent dyes. The goal of this research was to develop an in vitro test battery that can be used to accurately predict the ocular toxicity of new chemicals and ophthalmic formulations. By comparing the toxicity seen in vivo animals and humans with the toxicity response in these new in vitro methods, it was demonstrated that these in vitro methods can be utilized in a tiered testing strategy in the development of new chemicals and ophthalmic formulations.

in vitro

Alternative Methods

alamarBlue

rhodamine

tight junctions

bovine lens

viability

toxicity

mitochondria

mitochondria integrity

benzalkonium chloride

sodium dodecyl sulphate

sodium lauryl sulfate

scanning electron microscopy

Draize

Draize maximal average scores

zonula occludens

cosmetic directive

PETA

humane society

animal league

ICCVAM

ECVAM

JaCVAM

BCOP

bovine cornea

ocular irritants

ocular irritation

ocular toxicity

human corneal epithelial cells

vitro

confocal

confocal microscopy

metabolic activity

optical quality

reactive oxygen species

contact lens

contact lens care solutions

barrier function

microbial keratitis

mulitipurpose solutions

tight junction

cell damage

claudin

ZO-1

occludin

MDCK

Madin

Madin-Darby

canine kidney cells

cornea

human cornea

human corneal epithelium

epithelial cell line

human corneal epithelial cell line

sodium fluorescein

sodium fluorescein permeability

fluorescein permeability

ocular surface

cell monolayer

Araki-Sasaki

cell physiology

risk assessment

safety assessment

ScanTox

scanning laser

lens epithelium

corneal cells

in vitro model

ophthalmic formulations

multiple instillation

back vertex

animal testing

rabbit testing

alternatives to animal testing

cultured bovine lens

toxicity of chemicals

irritation

irritants

laser scanner

organ culture

delayed toxicity

toxins

hydrogen peroxide

cornea toxicity

cornea toxicity models

prediction of human toxicity

no observable adverse effect level

lowest observable adverse effect level

NOAEL

LOAEL

toxicity thresholds

safety factors

cornea

uncertainty factors

preservatives

disinfectants

ophthalmic products

preclinical

preclinical testing

epithelial barrier

drug penetration

clinical confocal microscopy

animal rights

rabbit cornea

human cornea

human clinical effects

toxic

animal rights activist

sensitive measures

toxic effect

toxicity threshold

agar overlay

agar diffusion

agar overlay method

agar diffusion method

cytochrome

cytochrome c

apoptosis

necrotic

apoptotic

necrosis

caspase

rhodamine 123

resazuran

resorufin

cell death

cell viability

metabolic dye

microsomal

microsomal enzymes

cytotoxicity

cytotoxic

cytotoxic effect

MTT

XTT

WST-1

plasma membrane

mitochondrial

mitochondrial morphology

ocular toxicity potential

ocular toxicity

human corneal epithelial

cell line

confocal analysis

corneal epithelium

cell fluorescence

alamarBlue assay

rhodamine dye

animal welfare

toxic injury

degraded mitochondria

epithelial monolayer

disinfectants

membrane integrity

eye toxicity

eye

viability dye

toxicity in humans

human toxicity

effects on the mitochondria

mitochondrial toxicity

in vitro battery

in vitro test battery

ophthalmic eye drop

direct contact

product safety

cytotoxicity potential

molecular

molecular biology

refine reduce replace

sensitivity and relevance

sensitivity

relevance

rabbit ocular irritation test

product development

cytotoxicity models

cytotoxicity alternative methods

replacements for animal testing

three r's

beagle

tiered testing

tiered testing strategy

replacements animal testing

mechanistic toxicity

cornea mitochondria

dose response

threshold

Vision Science and Biology