Acellular mechanisms of extracellular matrix degradation

Thurstan, Sarah Ashley

January 2013

Exposure of the skin to ultraviolet radiation (UVR) results clinically in the formation of deep wrinkles and mottled pigmentation and histologically, in a vast remodelling of the dermal extracellular matrix (ECM), in particular the elastic fibre network. Fibrillin microfibrils and fibulin-5 are early biomarkers of photoageing, where a loss of these fibres from the dermal epidermal junction is apparent. A study by our group showed that isolated fibrillin microfibrils and fibronectin which are rich in amino acids which absorb energy from UVR (UV-chromophores) are susceptible to UVR-induced damage, whilst UV-chromophore poor collagen type I is not. This research, with other earlier studies, indicates that acellular mechanism may work in tandem with cell-mediated up-regulation of matrix metalloproteinases (MMPs) in the progression of photoageing. This thesis aims to: i) test whether acellular mechanisms of photoageing are a result of direct photon absorption and/or the photodynamic production of reactive oxygen species (ROS); ii) assess the functional consequences of UVB degradation on the susceptibility of fibrillin microfibrils to MMPs and; iii) assay whether ECM proteins are differentially susceptible to solar simulated radiation (SSR) or UVA (315-400nm) alone using physiologically relevant doses of irradiation. Isolated proteins were exposed to UVB (280-315nm) in depleted-O2 conditions and in the presence of deuterium oxide. Depleted-O2 conditions decreased and deuterium oxide conditions increased UVR-induced degradation. Isolated proteins also show a similar pattern of degradation when exposed to H2O2 as an exogenous source of ROS. These results indicate that ROS play an important role in the differential degradation of dermal proteins. MMPs-3 and -9 are both upregulated in the skin after exposure to UVR and have the ability to degrade elastic fibre components. After exposure to UVB, damaged fibrillin microfibrils become more susceptible to degradation by both MMPs-3 and -9. Chromophore-rich fibrillin microfibrils and fibronectin are susceptible to degradation by both SSR and UVA alone, whereas chromophore-poor collagens type I and VI and tropoelastin are not. These results support our previous findings that amino acid composition of proteins is a good indicator of their relative susceptibility to UV-induced damage with a physiologically relevant irradiation system. In conclusion this work shows that ROS are an important mediator of acellular mechanisms of photoageing and that amino acid composition is a good indication of relative susceptibility of proteins to both ROS and UVR. The ability to predict ROS-susceptible proteins also has wider implications for human ageing as a whole.

616.5

Effect of various additives on the UV stability of polyethylene and polypropylene films

Eyenga, Imona Ilanga

31 July 2008

Please read the abstract in the section, 00front, of this document / Dissertation (MEng)--University of Pretoria, 2008. / Chemical Engineering / unrestricted

Polymers deterioration

Ultraviolet radiation

Polyethylene

Polypropylene

UCTD

Study of short-wave ultraviolet treatments (UV-C) as a non-thermal preservation process for liquid egg products

Mendes de Souza, Poliana

19 July 2012

La viabilidad de los tratamientos con radiación ultravioleta (UV-C) a 254 nm como proceso no térmico para la conservación de ovoproductos líquidos fue evaluada desde el punto de vista de la eficiencia en la descontaminación y sus efectos en los atributos de calidad. Los estudios cinéticos sobre la inactivación de microorganismos inoculados y de los principales grupos de microorganismos alterantes sirvieron para discriminar los parámetros más relevantes del tratamiento con UV-C. Los estudios de vida útil sirvieron para evaluar las ventajas aportadas por esta tecnología frente a tratamientos térmicos tradicionales. Las fracciones de huevo (clara, yema y huevo entero) tratadas con UV-C fueron analizadas en cuanto a los cambios de pH, color, estabilidad de lípidos (TBARS, colesterol y valor de peróxidos), efectos en las proteínas (oxidación proteica, DSC, SDS-PAGE), propiedades reológicas (viscosidad dinámica, comportamiento de flujo, viscosidad en función de la temperatura), propiedades funcionales (emulsionantes y espumantes), composición nutricional (vitaminas y minerales), composición de componentes saludables (carotenoides), y cito-genotoxicologia. Finalmente, la aceptación sensorial de los ovoproductos líquidos tratados por UV-C y de productos preparados con ovoproductos líquidos tratados por UV-C (mayonesa, bizcocho y pudin) fueron evaluadas por medio de pruebas triangulares y afectivas. El tratamiento con UV-C demostró ser una excelente alternativa a la pasteurización térmica. En microorganismos inoculados, se demostró una reducción de 5 Log tanto para Gram(+) como para Gram(-) en un equipo comercial para tratamientos en régimen continuo (UVivatec�). En tandas, los resultados también mostraron decrecimientos importantes en el recuento de microorganismos inoculados, aunque serían necesarios tiempos largos de tratamiento para producir una descontaminación comparable a la pasteurización térmica. Los ovoproductos líquidos tratados con UV-C fueron estables durante 8 / Mendes De Souza, P. (2012). Study of short-wave ultraviolet treatments (UV-C) as a non-thermal preservation process for liquid egg products [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/16696 / Palancia

Ultraviolet

Eggs

Safety

Quality

Microbiology

Sensorial

Ultraviolet Band Based Underwater Wireless Optical Communication

Sun, Xiaobin

05 1900

Underwater wireless optical communication (UWOC) has attracted increasing interest for data transfer in various underwater activities. However, the complexity of the water environment poses considerable challenges to establish aligned and reliable UWOC links. Therefore, solutions that are capable of relieving the requirements on positioning, acquisition and tracking (PAT) are highly demanded. Different from the conventional blue-green light band utilized in UWOC, ultraviolet (UV) light is featured with low solar background noise, non-line-of-sight (NLOS) and good secrecy. The proposed work is directed towards the demonstration and evaluating the feasibility of high- speed NLOS UWOC for easing the strict requirement on alignment, and thus circumvent the issues of scintillation, deep-fading, and complete signal blockage presented in conventional LOS UWOC. This work was first started with the investigation of proper NLOS configurations. Path loss (PL) was chosen as a figure-of-merit for link performance. With the understanding of favorable NLOS UWOC configurations, we established a 377-nm laser-based, the first-of-its-kind NLOS UWOC link. The practicality of such NLOS UWOC links has been further tested in a field trial. Besides the underwater communication links, UV-based NLOS is also appealing to be the link for direct communication across the wavy water-air interface. Investigations for such a direct communication link have been carried out to study data rate, coverage and robustness to the dynamic wave movement, based on the performance of different modulation schemes, including non-return-to-zero (NRZ)-OOK and quadrature amplitude modulation (QAM)-orthogonal frequency division multiplexing (OFDM). Further this study, an in-Red Sea canal field in-situ test has been conducted, showing strong robustness of the system. In addition, an in-diving pool drone-aided real-application deployment has been carried on. The trial results indicate link stability, which alleviates the issues brought about by the misalignment and mobility in harsh environments, paving the way towards real applications. Our studies pave the way foreventual applications of UWOC byrelieving the strict requirements on PAT using UV-based NLOS. Such modality is much sought-after for implementing robust, secure, and high-speed UWOC links in harsh oceanic environments.

Underwater optical communication

Ultraviolet

Non-line-of-sight

The Fluctuating Intergalactic Radiation Field at Redshifts Z = 2.3-2.9 From He II and H I Absorption Toward He 2347-4342

Shull, J. Michael, Tumlinson, Jason, Giroux, Mark L., Kriss, Gerard A., Reimers, Dieter

10 January 2004

We provide an in-depth analysis of the He II and H I absorption in the intergalactic medium (IGM) at redshifts z = 2.3-2.9 toward HE 2347-4342, using spectra from the Far Ultraviolet Spectroscopic Explorer and the Ultraviolet-Visual Echelle Spectrograph on the Very Large Telescope. Following up on our earlier study, we focus here on two major topics: (1) small-scale variability (Δz ≈ 10-3) in the ratio η = N(He II)/N(H I) and (2) an observed correlation of high-η absorbers (soft radiation fields) with voids in the (H I) Lyα distribution. These effects may reflect fluctuations in the ionizing sources on scales of 1 Mpc, together with radiative transfer through a filamentary IGM whose opacity variations control the penetration of 1-5 ryd radiation over 30-40 Mpc distances. Given the photon statistics and backgrounds, we can measure optical depths over the ranges 0.1 < τHe II < 2.3 and 0.02 < τH I < 3.9 and reliably determine values of η ≈ 4τHe II/τH I over the range 0.1-460. Values η = 20-200 are consistent with models of photoionization by quasars with observed spectral indices α s = 0-3. Values η > 200 may require additional contributions from starburst galaxies, heavily filtered quasar radiation, or density variations. Regions with η < 30 may indicate the presence of local hard sources. We find that η is higher in "void" regions, where H I is weak or undetected and ∼80% of the path length has η > 100. These voids may be ionized by local soft sources (dwarf starbursts) or by QSO radiation softened by escape from the active galactic nucleus cores or transfer through the "cosmic web." The apparent differences in ionizing spectra may help to explain the 1.45 Gyr lag between the reionization epochs of H I (zH I ∼ 6.2 ± 0.2) and He II (zHe II ∼ 2.8 ± 0.2).

intergalactic medium

quasars: absorption lines

ultraviolet: galaxies

The Mercury Photosensitized Reactions of Some Hydocarbons

Dickinson, Ermintrude

06 1900

The problem was to study several hydrocarbons when they were subjected to ultraviolet light of 2536 Å in the presence of mercury vapor. It would be expected from the work of Stallings that the rupture of any tertiary hydrogen bond in the molecule would be the predominant effect. However, secondary and primary bond splitting would occur as well as some C-C bond rupturing, but these could be expected to a lesser degree than the first, since the t-hydrogen has the greatest reactivity.

mercury

hydrocarbons

chemistry

ultraviolet light

Mercury.

Hydrocarbons.

Vacuum Ultraviolet Spectroscopy of the Cyanogen Halides

Richardson, Albert William

10 1900

<p> In Part I of this thesis, the design, construction, and calibration of a twenty-one foot off-plane Eagle vacuum spectrograph, a Lyman source, and predispersion unit are described.</p> <p> In Part II, the results of an investigation of the electronic absorption spectra of the cyanogen halides, obtained with the apparatus described in Part I, are given. Several electronic absorption systems have been observed for each of the cyanogen halides. These have been correlated and assigned to electronic transitions. Vibrational analyses have been made and the excited state dimensions have been determined by a quantitative application of the Franck-Condon principle for two absorption systems of each of the cyanogen halides.</p> / Thesis / Doctor of Philosophy (PhD)

Réponse des fibroblastes dermiques humains suite à un stress génotoxique induit par un régime d'irradiation chronique aux rayons ultraviolets de type-B

Drigeard Desgarnier, Marie Catherine

24 April 2018

L’exposition aux rayonnements ultraviolets (UV) solaires est un facteur de risque puisqu’ils induisent des dommages sur l’ADN responsables des mutations signatures retrouvées dans les cancers cutanés. Les principaux dommages induits sont les dimères cyclobutiliques de pyrimidine (CPD) et les photoproduits 6-4 de pyrimidine pyrimidone (6-4 PP). Étant très mutagènes, la cellule a mis en place des mécanismes de protection afin d’éliminer le dommage avant la survenue de mutations. La voie de réponse au dommage (DDR) est activée suite à une agression aux UV afin de détecter et signaler le dommage à la voie signalétique appropriée (réparation, mort cellulaire). La voie DDR est bien définie après une exposition à une dose unique d’UV, mais les conséquences d’une irradiation chronique aux UV (CLUV) et sa pré-stimulation précédant une dose unique sont méconnues. Nos résultats attestent que la CLUV impacte différemment le cycle cellulaire et la voie de réparation comparée à une dose unique d’UV. De même, elle induit des changements transcriptomiques et protéomiques affectant différentes voies de la DDR. Nous avons aussi démontré que la pré-stimulation par la CLUV améliore la réparation des CPD bien que le traitement CLUV induise des CPD résiduels. Cette augmentation de réparation est confirmée par l’augmentation du niveau de DDB2 et XPC au niveau de la chromatine, deux protéines essentielles dans la reconnaissance du dommage induit par les UV. Finalement, nos analyses confirment la persistance et la tolérance des CPD résiduels dans le génome s’accumulant préférentiellement dans l’hétérochromatine et semblent favoriser l’instabilité chromosomique. Ces données permettent de démontrer les conséquences d’un conditionnement cellulaire sur la modulation de différents mécanismes cellulaires, apportant indéniablement un apport dans la compréhension de la néoplasie induite par les UV. / Ultraviolet (UV) solar exposure is a risk factor for humans since they are responsible for skin cancer induction. UV is a genotoxic agent compromising DNA integrity, resulting in modifications of its structure by pyrimidine dimerization. This dimerization induces conformational changes, which are the consequence of DNA distortion. The two main types of UV-induced DNA damage are the cyclobutane pyrimidine dimers (CPD) and the 6-4 pyrimidine pyrimidone (6-4 PP). Both are involved in mutagenesis by the induction of signature mutations found in cutaneous cancers. Therefore, it is important to understand the fate of these damage and their consequences on the genome. However, cells have protection mechanisms to eliminate damage before their conversion into mutations. These mechanisms allow the activation of the DNA damage response pathway (DDR) in order to detect and signal the damage using the appropriate signalling pathway. Depending on the severity and the amount of DNA damage, cells will repair them or simply eliminate the cell with damaged DNA using the appropriate cell death pathway. While the activation and cellular consequences of these pathways has been well studied after a single UV dose, in real life, we are more exposed to repeated chronic low UV doses (CLUV). Likewise, we do not know the influence of cell conditioning on the different DDR responses, i.e., are cells able to improve their cellular stress response after a pre-stimulation by a CLUV? Thus, we have studied the differences in the activation and regulation of the DDR pathway after a single UV irradiation, a CLUV treatment, and a pre-stimulation by the CLUV treatment followed by a single UV irradiation. We have analyzed more extensively the nucleotide excision repair (NER) pathway, which is activated after UV-induced DNA damage. First, we have developed a chronic irradiation protocol to study its impact on the main DDR mechanisms but also to understand the potential changes induced by such a treatment. Our results demonstrate that CLUV differently affects cell cycle and NER compared to a single UV dose. Furthermore, CLUV induces both transcriptomic and proteomic changes, highlighting the importance to determine the consequences associated with a CLUV irradiation. Our results confirm that the DDR response can be modulated depending on the type of UV protocol used. Subsequently, we were particularly interested in the NER pathway, which is the main mechanism activated after the damage signalling. We have shown that the CLUV treatment induced CPD that are not repaired, but that CLUV pre-stimulation improve the NER efficiency of newly formed CPD which is up to 6 times faster compared to cells receiving only a single UV dose. We then studied the protein levels of DDB2 and XPC, two proteins involved in the DNA damage recognition in the NER pathway. We have quantified their regulation following a CLUV treatment. Our analysis shows that DDB2 and XPC are 2 to 3 times more abundant at the chromatin after a CLUV treatment, suggesting an adaptive potential of the NER pathway. Finally, the consequences of the residual CPD induced by the CLUV treatment have been studied and our analysis shows that they are tolerated in the genome since cells are able to divide even in their presence. These residuals damage are preferentially found at heterochromatin level and at the TT dipyrimidine site, but seem to promote chromosomal instability as we found an increase of sister chromatid exchange. Our results shed some light of key element regarding cell conditioning by the CLUV treatment as well as the potential adaptive cellular mechanisms involved. Finally, this thesis brings new information in the understanding and the modulation of the DDR pathway according to the use of UV regimen.

Fibroblastes

ADN -- Lésions

Structure and Function of the Viscous Capture Spiral and its Relationship to the Architecture of Spider Orb Webs

Stellwagen, Sarah Day

05 September 2015

Spider orb-webs have evolved to intercept prey, absorb and dissipate the kinetic energy from prey impact, and retain prey until a spider can subdue their catch. Orb-web structure and function engages scientists from many disciplines, including engineering, behavior, materials science, ecology, and evolution. This dissertation examines the sticky capture spiral component of an orb-web. This composite material is made of supporting fibers covered in sticky glue droplets. These threads are both adhesive and extensible, and their performance is influenced by ambient conditions. The questions I addressed are framed in an ecological context, although they also add to our understanding of materials science. The results of the first study showed that temperature increased the viscosity of glycoproteins within Argiope aurantia droplets, mediating the effect of daily humidity changes, an important environmental effect on the glue's performance. The second study demonstrates that capture spiral droplets of spiders that build webs in habitats ranging from full sun to shade and nocturnal species (Argiope aurantia, Leucauge venusta, Neoscona crucifera, Verrucosa areenata, Micrathena gracilis) is resistant to degradation after a day's worth of UVB exposure. Conversely, after the equivalent of two days of UVB exposure the glue degrades in webs built by M. gracilis that build webs in the shade and N. crucifera, a nocturnal species. The less harsh UVA has little affect on capture spiral glue function, both for species that build webs in full sun and those that build webs at night. The third study documented web asymmetry in Argiope trifasciata orb-webs and identified differences in droplet characteristics across the webs. These spiders differently allocated resources, with the bottom region of the web having twice the droplet volume as the top, and half the ratio of aqueous to glycoprotein material as the inner droplets. Additionally, during foraging times, the bottom of the web experiences higher humidity than the top, which has the potential to increase droplet toughness in this region. This study expands the understanding of web asymmetry by examining the differences in glue characteristics as an additional level of flexibility for web fine-tuning. / Ph. D.

rb-web

glycoprotein

Temperature

ultraviolet

asymmetry

Efficacy of Ultraviolet Treatments for the Inhibition of Pathogens on the Surface of Fresh Fruits and Vegetables

Yaun, Brian Robert

08 July 2002

Two studies investigating the use ultraviolet light at a wavelength of 253.7nm (UVC) into the inhibition of Salmonella spp. and Escherichia coli O157:H7 were conducted. The objectives of these studies were: to determine the rates for the destruction of Salmonella and Escherichia coli O157:H7 on the surface of agar and to investigate its effectiveness on the surface of fresh produce. Multiple replications of different doses and cocktail concentrations were performed and resulted in a 5 log reduction of Escherichia coli O157:H7 at doses exceeding 8.4 mW / cm2, while a 5 log reduction for Salmonella spp. was observed at doses exceeding 14.5 mW / cm². Samples of Red Delicious apples, green leaf lettuce and tomatoes were subjected to different doses ranging from 1.5 __ 24 mW / cm2 of UVC to determine effective log reductions of microbial populations. UVC applied to apples inoculated with E. coli O157:H7 resulted in the highest log reductions of approximately 3.3 logs at 24 mW/cm2. Lower log reductions (2.19 logs) were seen on tomatoes inoculated with Salmonella spp. and leaf lettuce (2.65 and 2.79) inoculated with both Salmonella spp. and E. coli O157:H7 respectfully. Due to the low capital involved in initiating a UVC system, the use of ultraviolet energy may prove to be a beneficial mechanism to decrease pathogens on fresh produce if used in conjunction with strict adherence to a sanitation program, Good Manufacturing Practices and Good Agricultural Practices in ensuring the safety of fresh produce. / Master of Science

Ultraviolet light

E. coli O157:H7

Salmonella