Role of the JNK Signal Transduction Pathway in Cell Survival: a Dissertation

Lamb, Jennifer A.

15 December 2004

The c-Jun NH2-terminal kinases (JNK) are evolutionarily conserved serine/threonine protein kinases that are activated by proinflammatory cytokines, environmental stress, and genotoxic agents. These kinases play key regulatory roles within a cell by coordinating signals from the cell surface to nuclear transcription factors. JNK phosphorylates the amino terminal domain of all three Jun transcription factors (JunB, c-Jun and JunD) all members of the AP-1 family. The activated transcription factors modulate gene expression to generate appropriate biological responses, including cell migration, proliferation, differentiation and cell death. The role of the JNK signaling pathway in cell death/apoptosis is controversial, both pro-apoptotic and pro-survival roles have been attributed to JNK. The mechanism that enables the JNK signaling pathway to mediate both apoptosis and survival is unclear. The aim of this study is to examine the role of TNF-stimulated JNK activation on cell survival. The proinflammatory cytokine TNF, is known to activate JNK and induce apoptosis. To test whether the JNK signaling pathway contributes to TNF-induced apoptosis, the response of wild type and Jnk1-/- Jnk2-/- (JNK deficient fibroblasts) fibroblasts to TNF was examined. JNK deficient fibroblasts are more sensitive to TNF-induced apoptosis than wild-type fibroblasts. The TNF-sensitivity cannot be attributed to altered expression of TNF receptors or defects in the NF-кB or AKT pathways, known anti-apoptotic signal transduction pathways. (In fact, TNF stimulated NF-кB activation provides a major mechanism to account for survival in both wild-type and JNK deficient cells.) However this increased TNF-sensitivity can be attributed to JNK deficiency. Apoptosis is suppressed in JNK deficient cells when transduced with JNK1 retrovirus. These data implicate the JNK signaling pathway in cell survival. The AP-1 family of transcription factors is a target of the JNK signal transduction pathway. In addition JNK is required for the normal expression of the AP-1 family member, JunD. Previous studies have indicated that JunD can mediate survival. Interestingly, JNK deficient and JunD null cells display similar phenotypes: premature senescence and increased sensitivity to TNF induced apoptosis. In fact, the TNF-sensitivity is also suppressed in JNK deficient fibroblasts transduced with JunD retrovirus. Although JunD can replace the survival signaling role of JNK, phosphorylation of JunD is essential to inhibit TNF induced apoptosis. JNK deficient cells transduced with phosphomutant JunD retrovirus maintain TNF-sensitivity. Activated transcription factors modulate gene expression. It is most likely that JunD functions by regulating the expression of key molecules that act to inhibit TNF-stimulated apoptosis. Microarray analysis comparing wild-type with JNK deficient fibroblasts revealed that the expression of the survival gene, cIAP-2, was induced by TNF in only wild-type fibroblasts. Furthermore, protein expression of cIAP-2 was induced by TNF in only wild-type fibroblasts. Analysis of the cIAP-2 promoter revealed two critical NF-кB binding sites and one AP-1 binding site. Luciferase reporter assays indicated key roles for both NF-кB and the AP-1 component, JunD in TNF-induced cIAP-2 gene expression. These experiments establish that the JNK/JunD pathway collaborates with NF-кB pathway to increase the expression of the anti-apoptotic protein cIAP-2 in TNF treated cells. Without this collaboration, the JNK pathway mediates apoptosis. The integration of JNK signaling with other signaling pathways represents a mechanism to account for the dual ability of the JNK pathway to mediate either survival or apoptosis. The dynamic coordination of signals within and between pathways is critical. The future challenge will be to fit the details of individual signaling pathways into the context of signaling networks.

Signal Transduction

Mitogen-Activated Protein Kinases

Proto-Oncogene Proteins c-jun

Cell Survival

Transcription Factor AP-1

Academic Dissertation

Life Sciences

Medicine and Health Sciences

Stochastic models for biological systems

Ali, Mansour Fathey Yassen

09 December 2003

The aim of this thesis is to define and study stochastic models of repairable systems and the application of these models to biological systems, especially for cell survival after irradiation with ionizing radiation.

stochastic models

repairable systems

renewal theory

reliability theory

markov processes

irradiation

cell survival

biological systems

60K10

60K20

90B25

92C50

92B05

60J25

27 - Mathematik

ddc:570

Improving Stem Cell Survival and Differentiation in Ischemic and Inflammatory Tissues

Li, Xiaofei

29 December 2016

No description available.

Materials Science

Ischemic disease

tissue regeneration

stem cell therapy

cell survival and differentiation

biomaterials

thermosensitive hydrogel

oxygen release

imaging

hypoxia-sensitive

anti-inflammation

Absence of nonlinear responses in cells and tissues exposed to RF energy at mobile phone frequencies using a doubly resonant cavity

Kowalczuk, C., Yarwood, G., Blackwell, R., Priestner, M., Sienkiewicz, Z., Bouffler, S., Ahmed, I., Abd-Alhameed, Raed, Excell, Peter S., Hodzic, V., Davis, C., Gammon, R., Balzano, Q.

January 2010

A doubly resonant cavity was used to search for nonlinear radiofrequency (RF) energy conversion in a range of biological preparations, thereby testing the hypothesis that living tissue can demodulate RF carriers and generate baseband signals. The samples comprised high-density cell suspensions (human lymphocytes and mouse bone marrow cells); adherent cells (IMR-32 human neuroblastoma, G361 human melanoma, HF-19 human fibroblasts, N2a murine neuroblastoma (differentiated and non-differentiated) and Chinese hamster ovary (CHO) cells) and thin sections or slices of mouse tissues (brain, kidney, muscle, liver, spleen, testis, heart and diaphragm). Viable and non-viable (heat killed or metabolically impaired) samples were tested. Over 500 cell and tissue samples were placed within the cavity, exposed to continuous wave (CW) fields at the resonant frequency (f) of the loaded cavity (near 883 MHz) using input powers of 0.1 or 1 mW, and monitored for second harmonic generation by inspection of the output at 2f. Unwanted signals were minimised using low pass filters (</= 1 GHz) at the input to, and high pass filters (>/= 1 GHz) at the output from, the cavity. A tuned low noise amplifier allowed detection of second harmonic signals above a noise floor as low as -169 dBm. No consistent second harmonic of the incident CW signals was detected. Therefore, these results do not support the hypothesis that living cells can demodulate RF energy, since second harmonic generation is the necessary and sufficient condition for demodulation.

Animals

Cell Line

Cell survival

Cellular phone

Cricetinae

Electromagnetic fields

Humans

Male

Mice

Nonlinear dynamics

Organ specificity

Radio waves

Tissue survival

REF 2014

Tea phenols in bulk and nanoparticle form modify DNA damage in human lymphocytes from colon cancer patients and healthy individuals treated in vitro with platinum-based chemotherapeutic drugs

Alotaibi, Amal, Bhatnagar, P., Najafzadeh, Mojgan, Gupta, K.C., Anderson, Diana

03 September 2012

No / Tea catechin epigallocatechin-3-gallate (EGCG) and other polyphenols, such as theaflavins (TFs), are increasingly proving useful as chemopreventives in a number of human cancers. They can also affect normal cells. The polyphenols in tea are known to have antioxidant properties that can quench free radical species, and pro-oxidant activities that appear to be responsible for the induction of apoptosis in tumor cells. The bioavailability of these natural compounds is an important factor that determines their efficacy. Nanoparticle (NP)-mediated delivery techniques of EGCG and TFs have been found to improve their bioavailability to a level that could benefit their effectiveness as chemopreventives. AIM: The present study was conducted to compare the effects of TFs and EGCG, when used in the bulk form and in the polymer (poly[lactic-co-glycolic acid])-based NP form, in oxaliplatin- and satraplatin-treated lymphocytes as surrogate cells from colorectal cancer patients and healthy volunteers. NPs were examined for their size distribution, surface morphology, entrapment efficiency and release profile. Lymphocytes were treated in the Comet assay with oxaliplatin and satraplatin, washed and treated with bulk or NP forms of tea phenols, washed and then treated with hydrogen peroxide to determine single-strand breaks after crosslinking. The results of DNA damage measurements by the Comet assay revealed opposite trends in bulk and NP forms of TFs, as well as EGCG. Both the compounds in the bulk form produced statistically significant concentration-dependent reductions in DNA damage in oxaliplatin- or satraplatin-treated lymphocytes. In contrast, when used in the NP form both TFs and EGCG, although initially causing a reduction, produced a concentration-dependent statistically significant increase in DNA damage in the lymphocytes. These observations support the notion that TFs and EGCG act as both antioxidants and pro-oxidants, depending on the form in which they are administered under the conditions of investigation.

Antineoplastic agents

Antioxidants

Catechin

Cell survival

Chemoprevention

Cisplatin

Colonic neoplasms

DNA damage

Flavonoids

Humans

Lymphocytes

Nanoparticles

Particle size

Polymers

Reactive oxygen species

Tea

Étude de l’effet de la metformine sur la survie cellulaire et sur la réparation de l’ADN chez la levure

Piette, Benjamin L.

07 1900

Jusqu’à présent, la metformine a principalement été employée comme médicament contrôlant l’hyperglycémie des personnes atteintes de diabète de type II. Des études épidémiologiques ont démontré que les personnes, prenant de la metformine, développent moins de cancers. Par exemple, la prise de metformine réduit respectivement de 78% et de 46% les chances de développer un cancer hépatique ou pancréatique. Récemment, il a été montré que la metformine permet de réduire le développement de tumeur au niveau de la peau, suite à l’exposition à des rayons UVB. Dans cette étude, j’ai démontré que la présence de metformine permet une meilleure survie de la levure Saccharomyces cerevisiae suite à l’exposition à des rayons UVC ou UVA. De plus, j’ai démontré que la présence de metformine augmente le recrutement de l’histone Htz1 à la chromatine. Pour une souche htz1Δ, le niveau de survie suite à l’exposition aux rayons UVA est considérablement diminué. Htz1 permet le recrutement de Rad14 au site de dommages à l’ADN faits par les rayons UV. Htz1 est donc important pour la détection de ces sites. Enfin, le recrutement nucléaire de Rad14 en présence de metformine a considérablement augmenté. En absence de Rad14, le niveau de survie suite à l’exposition aux rayons UVA diminue significativement. Donc, Htz1 et Rad14 sont deux protéines clés dans la protection contre les rayons UV apportés par la metformine. En conclusion, avec les différents résultats de cette étude, il est possible de dire que la metformine permet une forme de protection contre les rayons UVC et UVA. / Recently, metformin has been widely used to treat hyperglycemia of humans that have type II diabetes mellitus. Recently, some epidemiological studies have showed that populations of individuals being treated with metformin showed lower incidence of cancer. For example, there is a 78 % and 46 % reduction in the incidences of liver and pancreatic cancers, respectively. It has also been demonstrated that metformin protects against skin cancers caused by ultraviolet radiation-B (UVB) DNA damage. In this study, I have demonstrated that metformin significantly protects the budding yeast Saccharomyces cerevisiae from ultraviolet radiation-C (UVC) and from ultraviolet radiation-A (UVA)-induced death. I also showed that metformin increases the recruitment of the histone Htz1 linked to chromatin. In an htz1Δ strain, the metformin protection from UVAinduced death is significantly reduced. Htz1 is important for the recruitment of Rad14 to sites of DNA damage, important for the detection of these sites. Furthermore, nuclear recruitment of Rad14 was significantly increased in cells previously treated with metformin. In the absence of Htz1, the survival rate to UVA exposure in presence of metformin drops significantly. So, Htz1 and Rad14 are two key proteins involved in the protection by metformin against UV DNA damage. With all the results of this study, it was shown that metformin can confer some protection against UVC and UVA for yeast.

Metformine

Survie cellulaire

Réparation de l’ADN

Rayons ultraviolets

Rayons UVA

Rayons UVC

Rad14

Htz1

Metformin

Cell survival

DNA repair

Ultraviolet rays

UVC

UVA

Radiobiološki efekti niskih pre-iradijacionih doza jonizujućeg zračenja na humane ćelijske linije HT29 i MRC5 / Radiobiological effects of low-dose pre-irradiation on human cell lines HT29 and MRC5

Đan Igor

20 May 2016

<p>Radioterapija (RT) je jedan od najvažnijih modaliteta lečenja solidnih malignih tumora i koristi je vi&scaron;e od 50% pacijenata (52,3%) sa malignim tumorima. Nauka koja proučava efekte elektromagnetnog zračenja na biolo&scaron;ke sisteme naziva se radiobiologija. Radiobiologija se fokusira na odgovor ćelija, tkiva i organizma kao celine na jonizujuće zračenje i proučava mehanizme radiobiolo&scaron;kog odgovora. Izlaganje ćelija niskim dozama JZ koje su nakon određenog vremenskog intervala praćene uobičajenim radioterapijskim dozama naziva se radioadaptivno zračenje. Adaptivni odgovor u sebi može da sadrži nekoliko fenomena: hiperradiosenzitaciju/radiorezistenciju, &ldquo;bystander&rdquo; efekat i radioadaptivni efekat u užem smislu. O molekularnim mehanizmima koji stoje iza navedenih efekata ne zna se dovoljno. U ovom radu ispitivan je odgovor malignih i zdravih ćelija na različite modalitete jonizujućeg zračenja u cilju boljeg poznavanja puteva ćelijske smrti i preživljavanja. Potpuno razumevanje molekularnih puteva koji vode u apoptozu ili u preživljavanje ćelija nakon izlaganja jonizujućem zračenju moglo bi koristiti u iznalaženju novih i efikasnijih strategija i modaliteta lečenja malignih tumora u cilju njihove potpune eredikacije. U istraživanju su kori&scaron;tene dve humane ćelijske linije ćelijska linija humanog kolorektalnog karcinoma HT-29 i ćelijska linija humanih fetalnih fibroblasta pluća MRC-5. Ćelije su zračene u dva režima različitim pre-iradijacionim dozama(0,03; 0,05 i 0,07Gy) i istom kurativnom dozom (2Gy) tokom 4 dana. Vi&scaron;ekratna primena niskih doza JZ nije značajno smanjila vijabilnost HT-29 ćelija, dok su dve radioadaptivne doze (0,05+2Gy i 0,07+2Gy), adekvatne doze JZ za radioterapijski postulat po&scaron;tede zdravih ćelija i bolji antitumorski efekat u odnosu na neradioadaptivno zračenje od 2Gy u toku 4 dana. Pokazana je mogućnost modulisanja ćelijskog odgovora na JZ uz pomoć niskih doza JZ koje su praćene dozom od 2Gy (radioadaptivni tip zračenja) u oba dizajnirana režima zračenja. Stepen o&scaron;tećenja hromozoma za većinu isporučenih doza pokazao dozno zavisni trend. Dozno-zavisno o&scaron;tećenje naslednog materijala izazvano radioadaptivnim zračenjem potvrđuje hipotezu da je stepen o&scaron;tećenja zdravih, MRC-5, ćelija manji nego u ćelijama kolorektalnog adenokarcinoma. Fragmentacija DNK je zabeležena za pojedine doze JZ u obe ćelijske linije, a uočena je i razlika u odgovoru zdrave i tumorske ćelijske linije. Detekcijom mutacija primarne sekvence fragmenta p53 gena pokazano je da se broj mutacija povećava sa povećanjem doze JZ. Oba režima radioadaptivnog zračenja, u obe ćelijske linije izazivaju vi&scaron;i nivo ekspresije p53. Ekspresija p38 MAPK proteina u HT-29 ćelijama bila je niža za sve isporučene doze JZ u odnosu na nezračene ćelije. U MRC-5 ćelijama, povi&scaron;ena ekspresija p38 MAPK utvrđena je samo u uzorcima koji su jednokratno primili samo niske doze JZ i dozu od 2Gy dnevno tokom 4 dana, u odnosu na nezračenu kontrolu. Razlike u ekspresiji ispitivanih proteina dobijene nakon primene dva režima radioadaptivnog zračenja posledica su delovanja niskih pre-iradijacionih doza JZ na modulisanje radiobiolo&scaron;kog odgovora obe ćelijske linije. Nivo ekspresije Bcl-2 i Bax proteina i njihov međusobni odnos, u obe ćelijske linije, su odraz različitog radiobiolo&scaron;kog odgovora ispitivanih ćelija koji zavisi od primenjenog režima zračenja.</p> / <p>Radiotherapy (RT) is one of the most important treatment modality for solid malignant tumors and it is applied in more than 50% of the patients (52.3%). Radiobiology id scientific discipline which studies the effects of electromagnetic irradiation on biological systems. Radiobiology focuses on the response of the cells, tissues and the organism as a whole to ionizing radiation and studying the mechanisms of radiobiological response. Exposure of cells to low-dose irradiation (priming dose) followed by challenging doses is called radioadaptive radiation. Adaptive response is described as several phenomena: hyperradiosensitivity / radiorezistence, &quot;bystander&quot; effect and radioadaptive effect in sensu strict. Molecular mechanisms underlying the above effects are not sufficiently known. In this study, the response of malignant and healthy cells on various modalities of ionizing radiation is explored in order to improve knowledge of pathways of cell death and survival. Fully understanding the molecular pathways leading to apoptosis or cell survival after exposure to ionizing radiation may be used in finding new and more effective strategies and modalities for the treatment of malignant tumors. The study used two human cell lines: human colorectal cancer HT-29 cell line and the human fetal lung fibroblast MRC-5. The cells were irradiated in two modalities using different pre-irradiation doses (0.03, 0.05 and 0,07Gy) and the same challenging dose (2Gy) for 4 days. Everyday use of low-dose did not significantly reduce the viability of HT-29 cells, while two radioadaptive doses (0.05 + 2Gy and 0.07+2Gy), are adequate doses for sparing healthy cells with better anti-tumor effects. The possibility of modulating the cellular response to the ionizing radiation was shown using low-doses followed by 2Gy (radioadaptive radiation) in both designed regimes of radiation. The level of chromosomal damage showed a dose-dependent trend. Dose-dependent damage to the genetic material caused by radiation confirms the hypothesis that the degree of damage to MRC-5 cells is smaller than the HT29 cells. DNA fragmentation differed between HT29 and MRC-5 cells. Detection of mutations in p53 gene fragment sequence increased with increasing doses. Both irradiation modalities, in both cell lines induce a higher level of p53 expression. Expression of p38 MAPK protein in the HT-29 cells was lower for all delivered doses compared to nonirradiated. In MRC-5 cells, increased expression of the p38 MAPK was found only in the samples that had only received on first day low-doses compared to the control nonirradiated cells. Differences in the expression of the tested proteins reflect different molecular mechanisms activated in normal and tumor cells. The level of Bcl.2 and Bax expression also reflected different radiobiological responses between normal and tumor cells, which depended on the applied irradiation regime.</p>

THE CRITICAL ROLE OF CD4+ TH CELLS IN CD8+ CTL RESPONSES AND ANTI-TUMOR IMMUNITY

2012 April 1900

The goal of this body of research was to elucidate the mechanism by which CD4+ T cells provide help for CD8+ cytotoxic T lymphocyte (CTL) responses in different immunization types. The establishment of diseases, such as chronic infections and cancers, is attributed to severe loss of or dysfunctions of CD4+ T cells. Even in acute infections, CD4+ T cell deficiency leads to poor memory responses. While the role of CD4+ T cells is being increasingly appreciated in these diseases, the timing and nature of CD4+ T help and associated molecular mechanisms are not completely understood. Growing evidence suggests that, depending on the type of infections or immunizations, the requirements of CD4+ T cells can vary for optimal CD8+ CTL responses. In order to understand the modulatory effects of CD4+ T cells for optimal CD8+ CTL responses, two distinct immunization types were chosen. These include: 1) non-inflammatory dendritic cell (DC) immunization, which fails to provide inflammatory/danger signals; and 2) inflammatory adenovirus (AdV) immunization, which provides profound inflammatory/danger signals. This allowed us to study CD4+ T cell’s participation under different inflammatory conditions. The studies described in Chapters 2 and 3 of this thesis were performed to further understand the concept of how CD4+ T cells mediate optimal CD8+ CTL responses. This has been called the “new dynamic model of CD4+ T helper – antigen (Ag)-presenting cells (Th-APCs),” proposed in 2005 by our laboratory. The study described in Chapter 2 shows that Th-APCs participate not only in augmenting CTL-mediated immune responses, perhaps during early phase, but also in regulating cellular immunity, perhaps during a later phase. Through enhanced IL-2, CD80 and CD40L singnaling, and weaker peptideMHC I (pMHC) signaling, Th-APCs stimulated naïve CD8+ T cells to differentiate into effector CTLs, capable of developing into, central memory CTLs. Th-APC-stimulated CD4+ T cells behaved like Th cells in function, augmenting the overall magnitude of CTL responses. In contrast, Th-APCs were able to kill DCs and other Th-APCs, predominantly through perforin-mediated pathway. The experiments described in Chapter 3 revealed a novel co-operative role of cognate Th-CTL interactions, contrary to previously known immune-regulatory mechanisms among Th-Th or CTL-CTL interactions. In our experiments, Th cells, via CD40L, IL-2, and acquired pMHC-I signaling, enhanced CTL survival and transition into functional memory CTLs. Moreover, RT-PCR, flow cytometry and western blot analysis demonstrate that increased survival of Th cell-helped CTLs is matched with enhanced Akt1/NF-κB activation, down-regulation of FasL and TRAIL, and altered expression profiles with up-regulation of prosurvival (Bcl-2) and down-regulation of proapoptotic (NFATc1, Bcl-10, Casp-3, Casp-4, Casp-7) genes/ molecules. Finally, helped CTLs were also able to induce protection against highly metastasizing tumor challenge, explaining why memory CTLs generated under cognate Th1’s help show survival and recall advantages. The studies in Chapter 4 showed how the precursor frequency (PF) of CD8+ T cells impacts CD4+ T helper requirements for functional CTL responses. At endogenous PF, CD4+ T helper signals were necessary for both primary and memory CTL responses. At increased PF, CD4+ T help, and its CD40L but not IL-2 signal became dispensable for primary CTL responses. In contrast, memory CTL responses required CD4+ T cell signals, largely in the form of IL-2 and CD40L. Thus, these results could impact the development of novel immunotherapy against cancers, since their efficacy would be determined in part by CD4+ T help and CD8+ T cell PF. Finally, the study showed the importance of CD4+ T cells for multiple phases of AdV transgene product-specific CTL responses. These include: a) cognate CD4+ T cells enhanced CTL responses via IL-2 and CD40L signaling during primary, maintenance and memory phases; b) polyclonal CD4+ T environment enhanced the survival of AdV-specific CTL survival, partially explaining protracted CTL contraction phase; and c) during the recall phase, the CD4+ T environment, particularly memory CD4+ T cells, considerably enhanced not only helped, but also unhelped, memory CTL expansion. Thus, these results suggest the participation of both cognate and polyclonal CD4+ T cells for multiple phases of AdV-specific CTLs. Taken together, the current work delineated the critical roles of CD4+ T cells in different stages of CTL responses and in the development of anti-tumor immunity. The results presented here will significantly advance our current understanding of immunity to cancers, autoimmunity and chronic infections, since pathogenesis of these diseases is largely determined by CD4+ T helper functions. As most immunization procedures use the principle that is based on functions of memory cells, the knowledge gained from this work will also have a major impact on designing vaccines against intractable diseases, including cancers and chronic infections. Moreover, in advanced tumors, vaccines developed using this knowledge may act synergistically with other cancer treatments such as irradiation, chemotherapy and microsurgery, minimizing their side effects and prolonging the lives of patients.

Cognate CD4+ Th help

peptide-MHC complexes

IL-2, CD80 and CD40L signaling

CTL survival

memory development

apoptosis and cell survival pathway

anti-tumor immunity

CD8+ T precursor frequency

Adenoviral immunization

Multiscale modeling for radiation protection and cancer treatment : from nanodosimetry to cell response / Modélisation multi-échelle pour la radioprotection et le traitement du cancer : de la nanodosimétrie à la réponse cellulaire

Cunha, Micaela

14 June 2016

L'interaction des rayonnements ionisants avec le vivant est marquée par des phénomènes stochastiques importants aussi bien en termes de dosimétrie physique que des effets biologiques induits. Cette thèse aborde trois problématiques de la thérapie et de l'estimation du risque des radiations pour la santé, à l'aide d'outils de modélisation et de simulations Monte Carlo. En effet, des calculs de l'énergie spécifique dans des volumes de différentes tailles ont montré que les amplitudes des fluctuations dépendent fortement de la taille de la cible. Elles sont particulièrement grandes dans le cas des cibles nanométriques. À partir de ces calculs, une étude sur la taille des dosimètres implantables pour le monitorage des traitements de radiothérapie a montré que des dimensions au moins micrométriques sont nécessaires pour assurer des mesures fiables. Les mêmes calculs ont permis l'analyse des effets de faibles doses d'irradiation, notamment la compatibilité de différentes tailles de cibles avec des données expérimentales d'aberrations chromosomiques. Les résultats suggèrent que l'activation du réseau mitochondrial peut être liée au déclenchement de mécanismes de radiorésistance dans les cellules CAL51. Finalement, un nouveau modèle (NanOx) de prédiction de l'efficacité de l'hadronthérapie (radiothérapie par faisceaux d'ions) est présenté et appliqué à la lignée cellulaire V79. Ce modèle est complètement stochastique et intègre les calculs de dosimétrie à plusieurs échelles pour modéliser des effets locaux et non locaux pouvant correspondre respectivement à des lésions de l'ADN et à un stress oxydatif / The interaction between ionizing radiation and living tissues is characterized by stochastic phenomena with non-negligible consequences both in terms of physical dosimetry and induced biological effects. The present work addresses three issues concerning radiotherapy and the estimation of radiation risks for health, by means of modeling tools and Monte Carlo simulations. Indeed, specific energy calculations in volumes of different sizes showed that the level of fluctuations strongly depends on the target size. Such fluctuations are especially high in the case of nanometric targets. Based on these calculations, a study about the size of implantable dosimeters employed in the monitoring of radiotherapy treatments demonstrated that these dosimeters should have at least micrometric dimensions in order to ensure reliable measurements. The same calculations have allowed the analysis of the effects of low doses of radiation, namely the compatibility between different target sizes and experimental data regarding chromosomal aberrations. The results suggest that the activation of the mitochondrial network may be linked to the triggering of radioresistance mechanisms for the CAL51 cell line. Finally, a new model (NanOx) to predict the effectiveness of particle therapy (radiotherapy with ion beams) is presented and applied to the V79 cell line. Such a model is completely stochastic and integrates the dosimetry calculations at multiple scales for modeling local and non-local effects, which can correspond respectively to DNA lesions and cellular oxidative stress

Hadronthérapie

Efficacité biologique relative

Survie cellulaire

Énergie spécifique

Monte Carlo

Modélisation

Dosimétrie

Effects locaux et non locaux

Particle therapy

Relative biological effectiveness

Cell survival

Specific energy

Monte Carlo

Modeling

Dosimetry

Local and non-local effects

537.535

Recherche de nouvelles substances naturelles d'intérêt dans la prévention de la fibrose rénale d'origine médicamenteuse / Research of new natural substances of interest in the prevention of drug induced renal fibrosis

Bunel, Valérian

03 November 2014

Les reins sont les organes cibles de nombreuses molécules toxiques. Les cellules épithéliales du tubule proximal rénal sont particulièrement vulnérables vis-à-vis de xénobiotiques utilisés comme médicaments ou non. Ces agressions peuvent être corrélées à une augmentation du stress oxydatif et induire la mort cellulaire. Elles peuvent également mener à la perte des caractéristiques phénotypiques des cellules épithéliales, initiant leur dédifférenciation en cellules mésenchymateuses et éventuellement en fibroblastes, principaux responsables de la fibrose rénale.<p>Les stratégies de protection – notamment implémentées en clinique lors de l'administration de médicaments néphrotoxiques – reposant sur une approche pharmacologique restent rares.<p>A partir de données de médecines traditionnelles, nous avons sélectionné une série de plantes considérées utiles pour le traitement ou la prévention de troubles associés aux maladies rénales :Angelicae sinensis radix, Eleutherococci radix, Ginseng radix, Schisandrae chinensis fructus et Silybi mariani fructus.<p>A l'aide d'un modèle in vitro reposant sur l'emploi de la lignée cellulaire HK-2, nous avons examiné si ces produits pouvaient apporter une protection efficace vis-à-vis de 3 xénobiotiques néphrotoxiques :les acides aristolochiques, le cisplatine et la ciclosporine. Cinq phénomènes impliqués dans la néphrotoxicité et couramment retrouvés lors du développement de la fibrose rénale ont été investigués :(i) la mortalité cellulaire et l'apoptose ;(ii) la génération de stress oxydatif ;(iii) la modulation des capacités de régénération ;(iv) la production de matrice extracellulaire ;et (v) l'activation de la voie de signalisation de la β-caténine. <p>Parmi les 5 plantes étudiées sur ce modèle, celle présentant l'activité la plus intéressante vis-à-vis de l'un des 3 toxiques a été investiguée plus en détails afin d'identifier le(s) composé(s) responsable(s) de sa bioactivité. Les résultats ont indiqué que l'extrait méthanolique d'Angelica sinensis était le plus efficace pour réduire la néphrotoxicité induite par le cisplatine. Ces principes actifs – l'acide férulique, le Z-ligustilide et le E-ligustilide – ont été testés selon la même méthodologie. <p>L'acide férulique a été le plus efficace pour améliorer la survie cellulaire et diminuer l'apoptose induite par le cisplatine. Il a également permis de réduire la production de matrice extracellulaire, de stimuler les capacités de régénération de cellules saines et d'inhiber partiellement la voie de signalisation de la β-caténine. Il n'a toutefois pas été capable de limiter la génération de stress oxydatif induite par le traitement au cisplatine. <p>L'acide férulique semble être un candidat prometteur pour protéger les tubules rénaux vis-à-vis du cisplatine et pourrait contribuer à limiter l'initiation et le développement de la fibrose rénale. <p>/<p>The kidneys are targets of numerous toxic compounds. Proximal tubular epithelia cells are particularly vulnerable to xenobiotics used as drugs or not. These injuries can be associated with an increased oxidative stress and can trigger cell death. They can also lead to the loss of phenotypic characteristics of epithelial cells and initiate their dedifferentiation in mesenchymal cells, eventually evolving in fibroblasts, major actors responsible for renal fibrosis. <p>Protective strategies – including those implemented in clinical practice during the administration of nephrotoxic drugs – relying on a pharmacological approach remain seldom.<p>By means of data issuing from traditional medicines, we selected a series of herbs potentially useful for the treatment or prevention of troubles associated with kidney diseases: Angelicae sinensis radix, Eleutherococci radix, Ginseng radix, Schisandrae chinensis fructus and Silybi mariani fructus.<p>Using an in vitro model based on HK-2 cell line, we examined if these herbal products could bring an effective protection towards 3 nephrotoxic drugs: aristolochic acids, cisplatin and ciclosporin. Five phenomena involved in nephrotoxicity and regularly occurring during the progression of renal fibrosis were investigated: (i) cell death and apoptosis; (ii) oxidative stress generation; (iii) modulation of regeneration capacities; (iv) extracellular matrix production; and (v) β-catenin pathway activation.<p>Among the 5 herbs that were studied, the one presenting the most interesting effects towards one of the 3 toxicants has been investigated in details in order to identify the compound(s) responsible for its bioactivity. Results indicated that the crude methanolic extract of Angelica sinensis was the most potent for reducing cisplatin-induced nephrotoxicity. Its active principles – ferulic acid, Z-ligustilide and E-ligustilide – were tested according to the same methods.<p>Ferulic acid was the most potent compound for improving cell survival and for alleviating cisplatine-induced apoptosis. It also allowed to restrain the extracellular matrix production, enhanced the regeneration capacities of healthy cells and partially inhibited the activation of the β-catenin pathway. It was however ineffective in preventing the generation of oxidative stress induced during cisplatin treatment. <p>Ferulic acid appears as a promising candidate for protecting renal tubules against cisplatin's nephrotoxicity and could contribute to limit the onset and progression of renal fibrosis. / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished

Sciences pharmaceutiques

Kidneys -- Fibrosis

Xenobiotics -- Metabolism

Oxidative stress

Reins -- Fibrose

Xénobiotiques -- Métabolisme

Stress oxydatif

Panax ginseng

néphroprotection

matrice extracellulaire

collagen

cisplatin

cell survival

&

apoptosis

Angelica sinensis

in vitro

HK-2

découverte de médicament

fibrose rénale

collagène