Global ETD Search

321	Implication des effecteurs épigénétiques et apoptotiques dans l’hypospermatogenèse induite par les perturbateurs endocriniens / Involvement of epigenetic and apoptotic effectors in the hypospermatogenesis induced by endocrine disruptors Meunier, Léo 22 June 2010 (has links) Un certain nombre d’études épidémiologiques ont montré au cours des cinquante dernières années une augmentation des infertilités, des malformations de l’appareil reproducteur masculin et des cancers testiculaires. Une des hypothèses est que, l’exposition durant la vie foetale ou néonatale à des composés présents dans l’environnement capables d’interférer avec le système hormonal (perturbateurs endocriniens), serait responsable de l’augmentation de l’incidence de ces pathologies. Les molécules qui sont suspectées d’avoir des effets néfastes à long terme sur le tractus génital mâle possèdent des activités de type estrogénique ou antiandrogénique. Parmi les mécanismes impliqués dans l’effet à long terme, un certain nombre d’auteurs mettent en avant l’intervention de mécanismes de type épigénétiques. Dans ce contexte, nous avons utilisé deux types de modèles expérimentaux reposant sur l’exposition développementale de rats à ces composés : un modèle d’exposition néonatale à un estrogène (estradiol benzoate) et un modèle d’exposition foetale à un antiandrogène (flutamide). Les deux modèles expérimentaux induisent chez le rongeur un phénotype d’hypospermatogenèse. Dans le cas de l’exposition néonatale à l’estradiol benzoate nous montrons que l’hypospermatogenèse observée chez les animaux à l’âge adulte est due à l’activation chronique de l’apoptose des cellules germinales testiculaires. Cette apoptose mettrait en jeu, par un mécanisme post-transcriptionnel, la diminution à long terme de l’expression de protéines clés de la machinerie épigénétique de méthylation de l’ADN, les ADN méthyltransférases (DNMT 3A, 3B et 1), et du facteur antiapoptotique, MCL-1. D’un point de vue fonctionnel, la chute d’expression des DNMTs se traduit notamment par l’augmentation d’expression des éléments transposables LINE-1 et du gène Ibtk normalement contrôlés par méthylation de l’ADN. En amont, la chute d’expression des DNMTs et de MCL-1 serait dépendante de l’augmentation d’expression d’autres effecteurs épigénétiques, les microRNAs de la famille miR-29. Dans le cas de l’exposition in utero au flutamide, notre travail indique que l’apoptose chronique des cellules germinales serait liée à la diminution à long terme de l’expression des inhibiteurs d’apoptose cIAP1 et cIAP2, et une augmentation d’expression de leur inhibiteur SMAC/DIABLO. En revanche, l’absence de mort des cellules somatiques testiculaires (Sertoli et Leydig) dans ce modèle serait due à l’augmentation d’expression spécifiquement dans ces cellules des inhibiteurs d’apoptose XIAP et SURVIVIN. Par ailleurs, le phénotype d’apoptose observé à l’âge adulte impliquerait également une altération précoce de l’expression des DNMTs. En conclusion, nous apportons une réponse mécanistique au phénotype de programmation foetale/néonatale d’apoptose des cellules germinales testiculaires adultes. En effet, l’augmentation des miR-29s provoquerait : (1) une chute d’expression des DNMTs altérant ainsi le profil de méthylation des gènes, et (2) une chute d’expression de facteurs protégeant les cellules germinales contre l’apoptose comme le facteur MCL-1. / During the five past decades, a number of epidemiological studies have indicated a higher incidence of infertility problems, male reproductive tract abnormalities and testicular cancers. Among the different hypotheses proposed, fetal or neonatal exposure to environmental compounds that can interfere with endocrine system, termed endocrine disruptors, may be at the origin of the rising incidence of these diseases. The molecules that are supposed to have long term adverse effects on the male genital tract have estrogenic or antiandrogenic properties. Some authors have suggested that the long term effects of endocrine disruptors could be mediated through epigenetic mechanisms. In this context, we have used two types of experimental models based on developmental exposure to these compounds: one model of neonatal exposure to an estrogen (estradiol benzoate) and another model of fetal exposure to an antiandrogen (flutamide). The two experimental models induce a phenotype of hypospermatogenesis in rodents. In the context of neonatal exposure to estradiol benzoate we show that the hypospermatogenesis observed in adult animals is the consequence of a chronic activation of the apoptotic process of testicular germ cells. This cell death process seem to involve the decrease of the key epigenetic effectors of DNA methylation machinery DNA methyltransferases (DNMT3A, 3B & 1), and of the antiapoptotic protein MCL-1 through post transcriptional mechanisms. In term of functional consequences the decrease of DNMTs proteins leads to increased expression of transposable element LINE-1 and Ibtk gene that are normally controlled by DNA methylation. Upstream DNMTs and MCL-1 decrease may be triggered by the increase of other epigenetic factors, the microRNAs belonging to miR-29 family. Concerning in utero exposure to flutamide, our work indicate that the chronic apoptotic process of germ cells may be linked to long term decrease of the inhibitors of apoptosis cIAP1 & 2, and an increase of proapoptotic factors SMAC/DIABLO. On the other hand, the lack of testicular somatic cell death in this model may be the result of higher expression of inhibitors of apoptosis XIAP and SURVIVIN in these cells. Besides, the apoptotic process observed at the adult age may also involve a precocious alteration of DNMTs expression. In summary, our work provides a mechanistic view to the fetal/neonatal programming of adult germ cell death. Indeed, the increased levels of miR-29s may induce: (1) a decrease in DNMTs expression levels that consequently could alter the methylation pattern of some genes, and (2) a decrease in factors that normally prevent germ cells death such as MCL-1. Perturbateurs endocriniens Infertilité Cancer Testicule Épigénétique Apoptose ADN méthyltransférases MicroRNAs Programmation développementale Cellules germinales Hormones Reproduction Endocrine disruptors Infertility Cancer Testicle Epigenetic Apoptosis DNA methyltransferases MicroRNAs Developmental programming Germ cells Hormones Reproduction
322	Programmation néonatale de l’infertilité mâle : rôle de la dérégulation de l’expression des microARNs dans l’apoptose des cellules germinales / Neonatal programming of male infertility : role of microRNAs expression deregulation in germ cell death Lakhdari, Nadjem 19 December 2013 (has links) Un certain nombre d’études épidémiologiques font état d’une augmentation de l’infertilité masculine durant ces cinquante dernières années, en particulier dans les pays industrialisés, mais aussi d’une augmentation des malformations de l’appareil reproducteur masculin telles que la cryptorchidie (absence de migration des testicules dans les bourses) ou l’hypospadias (malformation du pénis), et des cancers testiculaires. Des données expérimentales suggèrent que ces anomalies du tractus génital mâle sont liées. Ces symptômes forment le syndrome de dysgénésie testiculaire. Les causes d’apparition ce syndrome semblent être d’origine environnementale. En effet, les évolutions relativement rapides de ce syndrome suggèrent des facteurs dynamiques, en lien avec le mode de vie ou l’environnement. Une des hypothèses est que, l’exposition durant la vie fœtale ou néonatale à des composés présents dans l’environnement capables d’interférer avec le système hormonal (perturbateurs endocriniens environnementaux, PEEs), serait responsable de l’augmentation de l’incidence de ces pathologies. Au banc des principaux accusés, les molécules qui possèdent des activités de type estrogénique ou antiandrogénique. A ce jour, les mécanismes d’action à l’origine du syndrome de dysgénésie testiculaire sont encore mal connus. Certaines études suggèrent des mécanismes de type épigenétique dans les effets à long terme des PEEs. L’objectif de notre travail était d’identifier et caractériser les mécanismes d’action de type épigenétique impliqué dans l’infertilité mâle. Pour cela, nous avons utilisé un modèle expérimental (rats nouveau-nés) reposant sur une exposition développementale à un estrogène (estradiol benzoate). Ce modèle induit chez le rat adulte un phénotype d’hypospermatogenèse liée à une à apoptose chronique des cellules germinales testiculaires. Nous montrons que ce phénotype est lié à l’altération de deux voies, impliquant en amont des effecteurs épigénétiques. La première voie implique la famille des miR-29s. Ainsi, nous observons une augmentation de l’expression des miR-29a, b, c qui provoque une diminution de deux de ses cibles: la protéine antiapoptotique MCL-1 et les enzymes de méthylation de l’ADN DNMTs. La chute des DNMTs entraine une hypométhylation globale (estimée à travers le gène Line-1) et spécifique du facteur de choc thermique HSF1. Ceci provoque une réexpression de ces facteurs entrainant l’apoptose des cellules germinales adultes. La deuxième voie implique le miR-18a. L’augmentation de son expression provoque une chute de l’expression de sa cible HSF2 qui régule la protéine de choc thermique HSP70/HSPA2. Le faible taux d’HSPA2 est une autre explication de l’apoptose des cellules germinales dans notre modèle. Nous montrons aussi que ce phénotype est irréversible lorsque l’exposition à lieu chez le nouveau-né alors qu’il est réversible quand l’exposition à lieu à l’âge adulte. Ces données suggèrent que l’exposition néonatale à l’estradiol benzoate induit une programmation développementale de l’hypospermatogenèse.Enfin, les anomalies tissulaires d’expression des miRNAs se retrouvent au niveau sanguin, suggérant leur utilisation potentielle comme biomarqueurs. Nous avons validé cet aspect chez l’homme en montrant que l’expression des miR29s et du miR-18a était plus élevée chez les patients oligo- ou azoospermiques que les chez patients normospermiques.En conclusion, nos résultats indiquent que l’hypospermatogenèse due à une apoptose chronique des cellules germinales observée chez l’animal adulte après exposition néonatale à l’EB met en jeu une modification d’expression de plusieurs effecteurs épigénétiques clés: miR-29s, miR-18a et DNMTs. De plus, les miR-29s et miR-18a pourraient être de nouveaux biomarqueurs circulants non invasifs de la stérilité masculine dans le contexte d’une oligo ou azoospermie chez l'homme. / Epidemiological studies have reported an increase in male infertility over the past fifty years, especially in industrialized countries, but also an increase in malformations of the male reproductive tract such as cryptorchidism (no migration of the testes into the scrotum) and hypospadias (malformation of the penis), and testicular cancers. Experimental data suggest that these abnormalities of the male genital tract are related. These symptoms form the testicular dysgenesis syndrome. The causes of the occurrence of this syndrome appear to be environmental in origin. Indeed, the relatively rapid evolution of this syndrome suggests dynamic factors related to lifestyle or environment. One hypothesis is that exposure during fetal or neonatal life to compounds present in the environment can interfere with the hormonal system (environmental endocrine disruptors), would be responsible for the increased incidence of these pathologies. Bench of the main accused, molecules that have estrogenic or anti-androgenic activity types. To date, the mechanisms of action behind the testicular dysgenesis syndrome are poorly understood. Some studies suggest that epigenetic mechanisms are at playThe objective of our work was to identify and characterize the epigenetic mechanisms of action involved in male infertility induced by neonatal exposure to xenoestrogen. For this, we used an experimental model based on a developmental exposure to estrogen (estradiol benzoate). This model induced in adult rats a hypospermatogenesis phenotype due to chronic apoptosis of germ cells.We show that this phenotype is related to an alteration of two pathways, involving upstream effectors epigenetic. The first pathway involves the family of miR- 29s. Thus, we observe an up-regulation of miR -29a, b, c, which causes a decrease in two of his targets: the anti-apoptotic protein MCL- 1 and the enzymes of DNA methylation DNMTs. Falling DNMTs leads to a global hypomethylation (estimated through the Line -1 gene) and to specific hypomethylation of the heat shock factor, HSF1. This causes a re-expression of factors that induce apoptosis in adult germ cells. The second pathway involves up-regulation of miR -18a that causes a down-regulation of its target HSF2 which regulates the heat shock protein HSP70/HSPA2. The down-regulation of HSPA2 is another explanation of germ cell apoptosis in our model. We also show that this phenotype is irreversible when the estrogen exposure takes place in the newborn whereas it is reversible when exposure takes place in adulthood, suggesting that neonatal exposure to estradiol benzoate induced a developmental programming of hypospermatogenesis.Finally, abnormal tissue expressions of miRNAs are found in the blood, suggesting their potential use as biomarkers. We validated this aspect in humans showing that the expression of miR29s and miR-18a was higher in patients with decrease or no sperm counts compared to normal sperm count. In conclusion, our results indicate that hypospermatogenesis due to chronic germ cell apoptosis observed in adult animals after neonatal exposure to EB involves a change in expression of several key epigenetic effectors: miR-29, miR-18a and DNMTs. In addition, miR-29 and miR-18a could be new non invasive circulating biomarkers of men infertility. Perturbateurs endocriniens Infertilité Testicules Apoptose Protéines de choc thermiques HSF1 HSF2 HSP70/HSPA2 MicroRNAs , programmation développementale Cellules germinales Reproduction Cancer Épigénétique Endocrine Disruptors Infertility Testes Apoptosis Heat shock proteins HSF1 HSF2 HSP70/HSPA2 MicroRNAs Developmental programming Germ cells Reproduction Cancer Epigenetic
323	Insights Into Molecular Regulation Of Cardiomyocyte Differentiation Of Mouse Pluripotent Stem Cells Abbey, Deepti 07 1900 (has links) (PDF) Pluripotent stem cells (PSCs) are specialized cells, which have remarkable ability to maintain in an undifferentiated state and are capable of undergoing differentiation to three germ-layer lineage cell types, under differentiation-enabling conditions. PSCs include embryonic stem (ES)-cells, embryonal carcinoma (EC)-cells and embryonic germ (EG)-cells. ES-cells are derived from the inner cell mass (ICM) of day 3.5 blastocysts (mouse). On the other hand, EC- and EG-cells have different source of origin and exhibit some differences in terms of their differentiation abilities and culture requirements. These PSCs act as an ideal in-vitro model system to study early mammalian development and cell differentiation and, they could potentially be used for experimental cell-based therapy for a number of diseases. However, one of the problems encountered is the immune rejection of transplanted cells. For this, immune-matched induced pluripotent stem (iPS)-cells have been derived from somatic cells, by forced expression of a few stemness genes. Although, human PSCs lines are being experimented, their cell-therapeutic potential is still far from being thoroughly tested due to lack of our understanding regarding lineage-specific differentiation, homing and structural-functional integration of differentiated cell types in the host environment. To understand these mechanisms, it is desirable to have fluorescently-marked PSCs and their differentiated cell-types, which could facilitate experimental cell transplantation studies. In this regard, our laboratory has earlier generated enhanced green fluorescent protein (EGFP)-expressing FVB/N transgenic ‘green’ mouse: GU-3 line (Devgan et al., 2003). This transgenic mouse has been an excellent source of intrinsically green fluorescent cell types. Recently, we have derived a ‘GS-2’ ES-cell line from the GU-3 mouse line (Singh et al., 2012). Additionally, we envisaged the need for developing an iPS-cell line from the GU-3 mouse and then use them for studying cell differentiation. Thus, aims of the study described in the thesis are to: (1) develop an experimental system to derive EGFP-expressing fluorescently-marked iPS-cell line from a genetically non-permissive FVB/N mouse strain, characterize the established iPS-cell line and achieve differentiation of various cell types from EGFP-expressing iPS-cell line; (2) to study differentiation phenomenon, in particular to cardiac lineage, using select-cardiogenesis modulators and (3) to assess the gene-expression profiles and signaling system associated with cardiomyocyte differentiation of PSCs. This thesis is divided into four chapters with the 1st chapter being a review of literature followed by three data chapters. In the chapter I of the thesis, a comprehensive up-to¬date review of literature is provided pertaining to PSCs, their classification, derivation strategies especially for reprogramming of somatic cells for iPSC generation, their differentiation potential and characterization, particularly to cardiac lineage. Various molecular regulators involved in cardiac differentiation of PSCs with emphasis on epigenetic regulation involving DNA methylation and signaling pathways involved are described in detail. Subsequently, various approaches used for enhanced cardiac differentiation of PSCs and the therapeutic potential of PSC-derived differentiated cell types to treat disease(s) are discussed. Chapter-II describes the successful establishment of a permanent iPS-cell line (named ‘N9’ iPS-cell line) from the non-permissive FVB/N EGFP-transgenic GU-3 ‘green’ mouse. This chapter provides results pertaining to detailed derivation strategy and characterization of the ‘N9’ iPS-cell line which includes colony morphology, expansion (proliferation) efficiency, alkaline phosphatase staining, pluripotent markers’ expression analysis by qPCR and immunostaining approaches and karyotyping analysis. Further, in order to thoroughly assess the differentiation competence of the ‘N9’ iPS¬cell line, assessment of in-vitro and in-vivo differentiation potential of the ‘N9’ iPS-cell line by embryoid body (EB) formation and teratoma formation in nude mice and its detailed histological analysis showing three germ layer cell types and their derivatives were performed, followed by the generation of chimeric blastocysts by aggregation method. This established N9 iPS-cell line could potentially offer a suitable model system to study cardiac differentiation along with other established PSC lines such as the GS-2 and D3 ES-cell lines and the P19 EC-cell line. Following the establishment of the system to study cardiac differentiation of PSC lines, efforts were made to understand the biology of cardiac differentiation of PSCs (wild¬type and EGFP-transgenic PSC lines and P19 EC-cell line) using small molecules as modulators. Data pertaining to this is described in Chapter-III. The possible involvement of epigenetic regulation of cardiogenesis for example, DNA methylation changes in cardiogenesis-associated genes is studied using 5-aza cytidine as one of the chromatin modifiers. In order to understand the cardiac differentiation phenomenon, as a consequence of using 5-aza cytidine in cell culture, it was important to investigate its ability to induce/mediate cardiac differentiation. This involved an assessment by quantitating the cardiac beating phenotype and correlating this with enhanced cardiac-gene expression profiles. Further, DNA methylation regulation of cardiogenesis¬associated genes is described using various DNA methylation analysis techniques. Moreover, the possible involvement of other signaling members in mediating the cardiac differentiation is also studied using the P19 EC-cells. Results pertaining to the above findings are described in detail in the Chapter-III. Chapter-IV is focused on various efforts made towards investigating the ability of ascorbic acid to enhance cardiac differentiation of mouse ES-cells (GS-2 and D3 lines). Ascorbic acid has been implicated to be influencing cardiogenesis and it is reported to enhance differentiation of various cell types under certain culture conditions. Results pertaining to enhancement of cardiac differentiation of PSCs using ascorbic acid are presented in this chapter. This included assessment by quantitating cardiac beating phenotype and its correlation with enhanced cardiogenesis-associated gene expression profiles. Besides, estimation on the sorted cardiomyocyte population, derived from PSCs was also made using mature-cardiac marker. The possible underlying signaling mechanism involved was also studied in detail, using specific inhibitors for pERK (U0126), integrin signaling (pFAK; PP2) and collagen synthesis (DHP), in order to ascertain their involvement in ascorbic acid-mediated cardiac differentiation of mouse ES-cells. Subsequent to the three data chapters (II-IV), separate sections are provided for ‘Summary and Conclusion’ and for ‘Bibliography’, cited in the thesis. The overall scope of the study has been to understand the basic biology of cardiac differentiation from PSCs (EC-cells, iPS-cells and transgenic and wild-type ES-cells) and to assess, by using certain small molecules, whether PSCs could be coaxed to enhance the differentiation to a particular cell type (cardiac). The data contained in this thesis addresses the above theme. Molecular Regulation Cardiac Differentiation Cell Differentiation Pluripotent Stem Cells Embryonic Stem Cells Embryonal Carcinoma Cells Cardiomyocytes Cardiomyocyte Differentiation Mouse Pluripotent Stem Cells Pluripotent Stem Cells (PSCs) Stem Cell Research Embryonic Germ Cells EC-cells ES-cells Molecular Biology
324	Zur Rolle von Stra8 in pluripotenten Stammzellen / On the role of Stra8 in pluripotent stem cells Kotzenberg, Linda 25 January 2011 (has links) No description available. 610 Medizin, Gesundheit Medicine Stra8 Keimzell-spezifisch Stammzellen Pluripotenz Embryonalen Stammzellen multipotent adult Germline Stem Cells Stra8 multipotent adult germline stem cell 44 M
325	Topographie molekularer Faktoren der Keimzellentwicklung während der frühembryonalen Entwicklung des Kaninchens / Topography of molecular factors regulating primordial germ cell development in the early rabbit embryo Hopf, Clas 20 April 2011 (has links) No description available. 610 Medizin, Gesundheit Medicine Kaninchen primordiale Keimzellen Keimzellentwicklung Blimp1 PRDM1 BMP2 BMP4 rabbit embryo primordial germ cells blimp1 prdm1 bmp2 bmp4 bonemorphogenetic proteins 44.36
326	Pluripotency of multipotent adult germ-line stem cells: analysis of apoptotic and epigenetic features / Pluripotenz der multipotenten adulten Keimstammzellen: Analyse der apoptotischer und epigenetischer Merkmale Khromov, Tatjana 29 November 2011 (has links) No description available. 500 Naturwissenschaften MED 301 Biology (incl. Psychology) Stammzellen Keimzellen Apoptosen Epigenetik ES Zellen maGS Zellen Stem cells Germ cells ES cells maGSC Apoptosis Epigentics 42.00 42.13 42.15 42.20 42.23
327	Characterization of the Role of <i>aeneas</i> in Primordial Germ Cell Migration and Blastoderm Cellularization / Charakterisierung der Funktion von <i>aeneas</i> in der Migration Primordialer Keimzellen und der Zellularisierung des Blastoderms Graf, Roland Jan 22 June 2007 (has links) No description available. 570 Biowissenschaften Biologie Drosophila melanogaster Synzytiales Blastoderm Primordiale Keimzelle Zellularisierung Migration Drosophila melanogaster syncytial blastoderm primordial germ cell cellularization migration 42.23 WKF 000: Ontogenese Ontogenie Embryologie {Entwicklungsbiologie}
328	Molecular Mechanisms Controlling Guided Germ Cell Migration in Zebrafish / Molekulare Mechanismen zur Kontrolle der gezielten Zellwanderung primordialer Keimzellen im Zebrafisch Boldajipour, Bijan 11 August 2009 (has links) No description available. 570 Biowissenschaften Biologie Zebrafisch Keimzelle Zellwanderung Chemokine CXCL12 Decoy Rezeptor CXCR7 Zebrafish germ cell cell migration chemokine CXCL12 decoy receptor CXCR7 42.15 42.23 WH WK
329	Radiation-induced deregulation of PiRNA pathway proteins : a possible molecular mechanism underlying transgenerational epigenomic instability Merrifield, Matthew, University of Lethbridge. Faculty of Arts and Science January 2011 (has links) PiRNAs and their Piwi family protein partners are part of a germline specific epigenetic regulatory mechanism essential for proper spermatogenesis, silencing of transposable elements, and maintaining germline genome integrity, yet their role in the response of the male germline to genotoxic stress is unknown. Ionizing radiation (IR) is known to cause transgenerational genome instability that is linked to carcinogenesis. Although the molecular etiology of IR-induced transgenerational genomic instability is not fully understood, it is believed to be an epigenetically mediated phenomenon. IR-induced alterations in the expression pattern of key regulatory proteins involved in the piRNA pathway essential for paternal germline genome stability may be directly involved in producing epigenetic alterations that can impact future generations. Here we show whole body and localized X-irradiation leads to significant altered expression of proteins that are necessary for, and intimately involved in, the proper functioning of the germline specific piRNA pathway in mice and rats. In addition we found that IR-induced alterations to piRNA pathway protein levels were time and dose dependent. / ix, 123 leaves : ill. (some col.) ; 29 cm Ionizing radiation -- Research Genetic toxicology -- Research Mice as laboratory animals Rats as laboratory animals Dissertations, Academic
330	Chosen Children? : An empirical study and a philosophical analysis of moral aspects of pre-implantation genetic diagnosis and germ-line gene therapy Zeiler, Kristin January 2005 (has links) With pre-implantation genetic diagnosis (PGD), genetic testing and selective transfer of embryos is possible. In the future, germ-line gene therapy (GLGT) applied to embryos before implantation, in order to introduce missing genes or replace mutant ones, may be possible. The objective of this dissertation is to analyse moral aspects of these technologies, as described by eighteen British, Italian and Swedish gynaecologists and geneticists. The objective is systematised into three parts: research interviews and qualitative analysis, philosophical analysis, and elaboration of a framework that supports the combination of analytic methods. PGD was described as positive since it enabled some couples at risk for a genetic disease to have a child without the disease. PGD was described as in different senses ‘better’ than methods for prenatal diagnosis and selective termination of pregnancy. It was also described as positive since it provided couples at risk with one more option, even if it did not result in the birth of a healthy child. However, interviewees were concerned about the difficulty of defining and evaluating genetic disease. They were also concerned about patients’ choices, and about exaggerated use or misuse. Whereas PGD gave rise to ambivalence in terms of how to understand, describe and evaluate it, GLGT was often described as unrealistic or undesirable. The results of the qualitative analysis are used in a philosophical analysis of the concepts of choice, autonomous choice, ambivalence, trust and ambivalence in trust relations. A set of distinct characteristics of each concept are elaborated. The results of the philosophical analysis are used in the discussion of the results of the qualitative analysis. The study shows that the technologies imply both ‘new’ ways to perform ‘old’ medical practices and ‘new’ practices. Old moral questions are reformulated. New moral questions are added. Against the background of this, the concept of genetic identity is discussed. Key words: empirical ethics, pre-implantation genetic diagnosis, germ-line gene therapy, qualitative research, philosophical analysis, medical progress, genetic disease, choice, autonomous choice, ambivalence, trust, genetic identity. Empirical ethics pre-implantation genetic diagnosis germ-line gene therapy qualitative research philosophical analysis medical progress genetic disease choice auautonomous ambivalence trust genetic identity Genterapi biologisk etik medicinsk etik preimplanatorisk genetisk diagnostik Philosophy subjects Filosofiämnen

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