Global ETD Search

181	Role of Th2 cytokines and polymorphonuclear cells in allograft rejection in mice Surquin, Murielle 08 October 2007 (has links) Acute allograft rejection remains a major problem in solid organ transplantation, because rejection may lead to acute or chronic loss of graft function. The failure of certain anti-rejection prophylactic treatments suggests that several unexpected pathways might be involved in the rejection process.<p>The aim of our experiments was to investigate the effector mechanisms responsible for skin graft rejection in mice. To adress this question, we took advantage of the possibility to restrict the alloimmune response to isolated allogeneic MHC class II molecules or to isolated minor transplantation antigens, combined with the possibility to study separately the response of CD4+ or CD8+ T cells in mice deficient for Th1 or Th2 cytokines or cytotoxic molecules. We used the bm12 skin graft combination (C57BL/6 H2Kbm12 grafted on C57BL/6 H2Kb) as a model of single MHC class II disparity and the b2microglobulin skin graft model (C57BL/6 b2m+/+ grafted on C57BL/6 b2m-/-) as a model of minor transplantation antigen disparity. Our goal was to engage a limited number of effectors, trying in a second time to block each rejection pathway selectively. <p>We showed that Fas/FasL-mediated CD4+ T cells cytotoxicity, eosinophil recruitment, activation and degranulation induced by Th2 derived cytokines, and CD4-derived IFN-g production are involved in the rejection of grafts bearing either a single MHC class II disparity or b2m-derived minor histocompatibilty antigens. In addition, rejection of MHC class II disparate skin grafts also includes the participation of neutrophils, in particular conditions where the occurrence of the Th2/eosinophil pathway was prevented. <p>Altogether, our data show a multiplicity and a redundancy of the effector pathways participating in allograft rejection. Among the different effectors pathways identified, including effectors from both innate and adaptive immune systems, some act synergistically, whereas others act as alternative pathways, depending of the degree of donor-recipient mismatch. / Doctorat en Sciences médicales / info:eu-repo/semantics/nonPublished Médecine pathologie humaine Cytokines Neutrophils Transplantation of organs, tissues, etc Homografts Graft rejection Mice as laboratory animals Cytokines Neutrophiles Greffe (Chirurgie) Homogreffes Rejet (Biologie) Souris (Animaux de laboratoire) transplantation neutrophiles Th2 cytokines souris
182	Invalidation des gènes codant pour les facteurs Rhésus Rhcg et Rhbg: analyse du phénotype des souris invalidées Biver, Sophie 29 March 2007 (has links) Les reins jouent un rôle majeur dans la régulation de l'homéostasie acide-base. La production et l'excrétion rénale d'ammonium assurent environ deux tiers de l'excrétion nette d'acides dans les conditions normales et jusqu'à 90% en situation d'acidose métabolique. Bien que l'excrétion d'ammonium soit un processus finement régulé et capital au maintien de l'équilibre acido-basique, à ce jour aucun transporteur spécifique d'ammonium n'a été décrit chez les mammifères. Les protéines Rhésus Rhcg et Rhbg, membres distants de la famille des transporteurs d'ammonium Mep/Amt, semblaient de bons candidats à cette fonction. L'invalidation du gène Rhcg puis celle de Rhbg ont donc été entreprises chez la souris afin d'estimer leur rôle potentiel dans le transport de l'ammonium. / Doctorat en sciences, Spécialisation biologie moléculaire / info:eu-repo/semantics/nonPublished Sciences exactes et naturelles Biologie Rh factor Homeostasis Ammonium -- Physiological transport Acidosis Mice as laboratory animals Facteur Rh Homéostasie Ammonium -- Transport physiologique Acidose métabolique Souris (Animaux de laboratoire) facteurs Rhésus transport ammonium
183	Capacité de reproduction de la souris et infection aiguë par Trypanosoma cruzi Mjihdi, Abdelkarim 25 November 2004 (has links) Trypanosoma cruzi est un parasite protozoaire à multiplication intracellulaire, agent de la maladie de Chagas, infectant 16 à 18 millions de personnes en Amérique latine. Il peut être transmis de la mère infectée au fœtus dans 2 à 10 % des cas, mais ses autres effets sur la gestation ont été peu étudiés. Par ailleurs, les cytokines ont des effets sur la gestation. Certaines d’entre elles, comme l’interleukine-1, l’IL-4, l’IL-5, l’IL-10, le GM-CSF et le TGF-b2, sont bénéfiques pour la gestation, tandis que d’autres, comme l’IL-2, l’IL-12, l’IFN-g et le TNF-a ont des effets nocifs sur celle-ci. L’impact de l’infection à T. cruzi, stimulant la production de TNF-a et d’IFN-g, sur l'implantation et la croissance fœtale n’a pas été étudié.<p><p>Le but de notre travail était d’étudier les effets de l’infection aiguë à T. cruzi sur la capacité de reproduction de la souris. Nous avons ainsi évalué les effets de cette infection sur la fertilité, le développement et la viabilité des fœtus de souris et le rôle de l’IFN-g et du TNF produits au cours de l’infection sur le développement de la gestation. <p><p>Nous avons montré que l’infection aiguë à T. cruzi :i) diminue la capacité de reproduction de la souris ;ii) provoque une mortalité fœtale massive précoce (résorptions), tardive et néonatale associée à un retard de croissance intra-utérin, et ce, iii) en dehors de toute transmission congénitale du parasite. <p>Par ailleurs nos travaux montrent que la mortalité fœtale/néonatale est associée à une invasion parasitaire massive du placenta qui présente d’importantes lésions à type d’infiltrats inflammatoires, de nécrose ischémique, de dépôts de fibrine et de thromboses vasculaires. Nous avons noté qu’il existe une relation inverse entre la charge parasitaire des unités utéro-placentaires et la viabilité du conceptus, suggérant que ces lésions placentaires contribuent à la mortalité fœtale en limitant les échanges materno-fœtaux. <p>Enfin, nous avons également étudié le rôle de cytokines abortogènes comme le TNF et l’IFN-g, produites abondamment pendant l’infection aiguë de la souris par T. cruzi. Les taux sanguins maternels d’IFN-g étaient augmentés au 9ième mais pas aux 17ième et 19ième jours de gestation, alors que les taux de TNF sanguin et la production placentaire de cette cytokine augmentaient aux 17ième et 19ième jours de gestation. Afin d’évaluer le rôle de ces deux cytokines dans la mortalité fœtale, des souris ont été traitées par la pentoxifylline, pour inhiber la transcription du gène de TNF-a et diminuer la production d’IFN-g. Ces souris montraient une réduction de la mortalité fœtale à mi-gestation, associée à une diminution de la production du TNF placentaire, sans modifications des taux systémiques et sans effets sur l’IFN-g, suggérant la contribution du TNF dans la mortalité fœtale associée à l’infection aiguë par T. cruzi. <p><p>En conclusion, notre travail montre que l’infection aiguë à Trypanosoma cruzi exerce un effet particulièrement néfaste sur la capacité de reproduction et le développement de la gestation chez la souris et que les lésions placentaires liées à l’infection et la production de TNF par le placenta infecté contribuent à cet effet.<p> / Doctorat en sciences biomédicales / info:eu-repo/semantics/nonPublished Médecine pathologie humaine Trypanosomiasis Chagas' disease Mice as laboratory animals Maternal-fetal exchange Trypanosomiase Chagas, Maladie de Souris (Animaux de laboratoire) Echange foeto-maternel Capacité de reproduction placenta gestation Trypanosoma cruzi souris relations materno-foetales immunologie TNF
184	Investigating the role of extrasynaptic GABAA receptors located in the infralimbic cortex in the binge-like alcohol intake of male C57BL/6J mice Fritz, Brandon Michael 20 November 2013 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Extrasynaptic GABAA receptors, often identified as those containing both α4 and δ subunits, appear to be a target for the actions of alcohol (ethanol) at relatively low concentrations, perhaps suppressing the activity of GABAergic interneurons which regulate activity in the mesolimbocortical circuit. Pharmacological studies in rodents using the δ-subunit selective agonist Gaboxadol (THIP) have found both promotional and inhibitory effects on alcohol consumption. The goal of this project was to determine the role of extrasynaptic GABAA receptors located in the infralimbic cortex (ILC) in the binge-like alcohol intake of male C57BL/6J (B6) mice. The ILC is of interest due to its demonstrated involvement in stress reactivity and alcohol exposure has been shown to interfere with extinction learning; impairments of which may be related to inflexible behavior (i.e. problematic alcohol consumption). Adult male B6 mice were bilaterally implanted with stainless steel guide cannulae aimed at the ILC and were offered limited access to 20% ethanol or 5% sucrose for 6 days. On day 7, mice were bilaterally injected with 50 or 100 ng THIP (25 or 50 ng per side respectively) or saline vehicle into the ILC. It was found that the highest dose of THIP (100 ng/mouse) increased alcohol intake relative to vehicle controls, although control animals consumed relatively little ethanol following infusion. Furthermore, THIP had no effect on sucrose consumption (p > 0.05), suggesting that the effect of THIP was selective for ethanol consumption. Together, these findings suggest that the mice that consumed ethanol may have been particularly reactive to the microinfusion process relative to animals that consumed sucrose, perhaps because ethanol consumption was not as reinforcing as sucrose consumption. In addition, the observation that THIP effectively prevented the decrease in ethanol intake on day 7 induced by the microinjection process may be related to a role for the ILC in adaptive learning processes, which in turn, promote behavioral flexibility. Mouse Alcohol GABA Binge Drinking Infralimbic Cortex Binge drinking -- Research Alcohol -- Pathophysiology Alcoholism -- Research Prefrontal cortex Mice as laboratory animals Mice -- Physiology Ethanol -- Research Neuropsychopharmacology GABA -- Receptors Reinforcement (Psychology) -- Research Stress (Psychology) Stress (Physiology)
185	Effect of Epigallocatechin-3-gallate on Skeletal and Cognitive Phenotypes in a Down Syndrome Mouse Model Abeysekera, Irushi Shamalka January 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Down syndrome (DS), a genetic disorder that affects ~1 in 700 live births, is caused by trisomy of human chromosome 21 (Hsa21). Individuals with DS are affected by a wide spectrum of phenotypes which vary in severity and penetrance. However, cognitive and skeletal impairments can be commonly observed in all individuals with DS. To study these phenotypes, we utilized the Ts65Dn mouse model that carries three copies of approximately half the gene orthologs found on Hsa21 and exhibit similar phenotypes as observed in humans with DS. Individuals with DS and Ts65Dn mice have deficits in bone mineral density (BMD), bone architecture, bone strength, learning and memory. Over-expression of DYRK1A, a serine-threonine kinase encoded on Hsa21, has been linked to deficiencies in DS bone homeostasis and cognition. Epigallocatechin-3-gallate (EGCG), an aromatic polyphenol found in high concentrations in green tea, is a selective inhibitor of DYRK1A activity. Normalization of DYRK1A activity by EGCG therefore may have the potential to ameliorate skeletal and cognitive deficits. We hypothesized that supplements containing EGCG obtained from health food stores/ online vendors will not be as effective as EGCG from a chemical company in correcting bone deficits associated with DS. Our results suggest that EGCG improves the bone mineral density of trisomic femurs significantly better than the supplements while the EGCgNOW supplement from NOW FOODS improves trabecular and cortical bone structure. The results from HPLC analysis of supplements showed the presence of other catechins in EGCgNOW and degradation analysis revealed the rapid degradation of supplements. Therefore we hypothesize that the presence of EGCG degradation products and other green tea catechins in supplements may play a role in the differential skeletal effects we observed. We further hypothesized that a three week treatment of adolescent mice with EGCG will lead to an improvement in the learning and memory deficits that are observed in trisomic animals in comparison to control mice. However, our results indicate that three weeks of low-dose EGCG treatment during adolescence is insufficient to improve hippocampal dependent learning and memory deficits of Ts65Dn mice. The possibility remains that a higher dose of EGCG that begins at three weeks but lasts throughout the behavioral test period may result in improvement in learning and memory deficit of Ts65Dn mice. Down syndrome, Mouse models Down syndrome -- Research -- Analysis Human chromosome abnormalities Learning ability -- Genetic aspects Memory -- Physiological aspects Cognition -- Research Animal models in research Mice as laboratory animals Green tea -- Health aspects Phenotype Bone densitometry Biomineralization
186	Role of microRNA-709 in murine liver Surendran, Sneha January 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / MicroRNAs are small RNA molecules that regulate expression of genes involved in development, cell differentiation, proliferation and death. It has been estimated that in eukaryotes, approximately 0.5 to 1% of predicted genes encode a microRNA, which in humans, regulate at least 30% of genes at an average of 200 genes per miRNA. Some microRNAs are tissue-specific, while others are ubiquitously expressed. In liver, a few microRNAs have been identified that regulate specialized functions. The best known is miR-122, the most abundant liver-specific miRNA, which regulates cholesterol biosynthesis and other genes of fatty acid metabolism; it also regulates the cell cycle through inhibition of cyclin G1. To discover other miRNAs with relevant function in liver, we characterized miRNA profiles in normal tissue and identified miR-709. Our data indicates this is a highly abundant hepatic miRNA and is dysregulated in an animal model of type 2 diabetes. To understand its biological role, miR-709 gene targets were identified by analyzing the transcriptome of primary hepatocytes transfected with a miR-709 mimic. The genes identified fell within four main categories: cytoskeleton binding, extracellular matrix attachment, endosomal recycling and fatty acid metabolism. Thus, similar to miR-122, miR-709 downregulates genes from multiple pathways. This would be predicted, given the abundance of the miRNA and the fact that the estimated number of genes targeted by a miRNA is in the hundreds. In the case of miR-709, these suggested a coordinated response during cell proliferation, when cytoskeleton remodeling requires substantial changes in gene expression. Consistently, miR-709 was found significantly upregulated in an animal model of hepatocellular carcinoma. Likewise, in a mouse model of liver regeneration, mature miR-709 was increased. To study the consequences of depleting miR-709 in quiescent and proliferating cells, primary hepatocytes and hepatoma cells were cultured with antagomiRs (anti-miRs). The presence of anti-miR-709 caused cell death in proliferating cells. Quiescent primary hepatocytes responded by upregulating miR-709 and its host gene, Rfx1. These studies show that miR-709 targets genes relevant to cystokeleton structural genes. Thus, miR-709 and Rfx1 may be needed to facilitate cytoskeleton reorganization, a process that occurs after liver injury and repopulation, or during tumorigenesis. Liver -- Regeneration Gene expression -- Research Liver -- Cancer -- Animal models Hepatocyte growth factor -- Receptors Mice as laboratory animals -- Research
187	Analysis of differentiation capacity of Cfp1 null embyronic stem cells Bowen, Tamara R. January 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Epigenetics is defined as “the study of stable, often heritable, changes that influence gene expression that are not mediated by DNA sequence” (Fingerman et al., 2013). Epigenetic marks such as covalent histone modifications and DNA methylation are important for maintaining chromatin structure and epigenetic inheritance. Several proteins have been found to bind and/ or regulate epigenetic marks. One such protein, CXXC finger protein 1 (Cfp1) is an important chromatin regulator that binds to unmethylated CpG islands. It has been found to be essential for mammalian development. Mice lacking Cfp1 exhibit an embryonic- lethal phenotype. However, the function of Cfp1 can be studied using Cfp1 Null mouse ES cells, which are viable. Thus far, Cfp1 has been shown to be important for cell growth, cytosine methylation, histone modifications, subnuclear localization of Set1A histone H3K4 methyltransferase, and cellular differentiation. When Cfp1 Null ES cells are induced to differentiate by removal of Leukemia Inhibitory Factor (LIF), the cells are not able to turn off pluripotency markers such as Oct4 and alkaline phosphatase and fail to express differentiation markers such as Gata4 and Brachyury. In this study, we used established protocols to further examine the differentiation capacity of Cfp1 Null cells. Specifically, we tested the ability of Cfp1 Null ES cells to retain stem cell properties in the absence of LIF, differentiate into cardiomyocytes in the presence of TGF-β2 and differentiate into neuron precursors in the presence of retinoic acid (RA). While the differentiation effects of RA were inconclusive, Null cells were able to start differentiating in the absence of LIF, either as individual cells or EBs, and the presence of TGF-β2 when seeded on gelatin coated tissue culture dishes. However, no difference was seen between cells treated without LIF and those treated with TGF-β2. In both conditions, only a small portion of cells were able to differentiate, while the majority of the cell population retained stem cell characteristics. Cell growth and the differentiation capacity of Cfp1 Null cells were also compromised in comparison to WT cells. Thus, further supporting the need for the correct epigenetic patterns maintained by Cfp1 during cellular differentiation. Stem Cells Cell Differentiation Epigenetics DNA Methylation Mice Cardiomyocytes Neurons Leukemia Inhibitory Factor Epigenetics Epigenesis DNA -- Methylation Protein binding Leukemia inhibitory factor Histones Chromatin Stem cells Mice as laboratory animals
188	Testing the renal signaling axis for FGF23 Ni, Pu 13 November 2015 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / FGF23 is the central regulator for phosphate homeostasis. Both FGF23 and phosphate dysregulation are highly related with the progression of chronic kidney disease (CKD), which is a global health problem. In previous studies, FGF23 was found to be produced in bone and targeting the kidneys to regulate phosphate reabsorption and excretion. In the FGF23 signaling axis, it binds a receptor complex (αKlotho and FGFRs) in the distal convoluted tubules (DCT) and causes its biological effects in the proximal tubules (PT). The mechanism of how the signals passing on from DCT to PT is not clear. In my research, experiments were focused on the FGF23 signaling pathway within the kidney to study the communication steps between tubular cells. HBEGF treatment was given to FGF23 signaling impaired mouse models resulting in significant change of genes regulated by FGF23, indicating that HBEGF was important in the FGF23 signaling axis. Then high quality rabbit anti-mouse HBEGF antibodies were made to better study HBEGF activity in vivo and in vitro. A new cell model was characterized to test FGF23 effects on HBEGF signaling using Western blots and immunofluorescence. Lastly, the location of HBEGF activity was examined in the kidney in vivo. Immunostaining suggested that HBEGF activated the mitogen activated protein kinase (MAPK) pathway. This mapping may provide important information for the molecular relationships between FGF23 and HBEGF. FGF23 HBEGF Kidney Kidneys -- Diseases -- Research Kidneys -- Physiology -- Research Phosphates -- Metabolism Homeostasis -- Research Chronic renal failure -- Research Heparin Growth factors Mice as laboratory animals
189	The role of pyruvate dehydrogenase kinase in glucose and ketone body metabolism Rahimi, Yasmeen 03 January 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / The expression of pyruvate dehydrogenase kinase (PDK) 2 and 4 are increased in the fasted state to inactivate the pyruvate dehydrogenase complex (PDC) by phosphorylation to conserve substrates for glucose production. To assess the importance of PDK2 and PDK4 in regulation of the PDC to maintain glucose homeostasis, PDK2 knockout (KO), PDK4 KO, and PDK2/PDK4 double knockout (DKO) mice were generated. PDK2 deficiency caused higher PDC activity and lower blood glucose levels in the fed state while PDK4 deficiency caused similar effects in the fasting state. DKO intensified these effects in both states. PDK2 deficiency had no effect on glucose tolerance, PDK4 deficiency produced a modest effect, but DKO caused a marked improvement, lowered insulin levels, and increased insulin sensitivity. However, the DKO mice were more sensitive than wild-type mice to long term fasting, succumbing to hypoglycemia, ketoacidosis, and hypothermia. Stable isotope flux analysis indicated that hypoglycemia was due to a reduced rate of gluconeogenesis. We hypothesized that hyperglycemia would be prevented in DKO mice fed a high saturated fat diet for 30 weeks. As expected, DKO mice fed a high fat diet had improved glucose tolerance, decreased adiposity, and were euglycemic due to reduction in the rate of gluconeogenesis. Like chow fed DKO mice, high fat fed DKO mice were unusually sensitive to fasting because of ketoacidosis and hypothermia. PDK deficiency resulted in greater PDC activity which limited the availability of pyruvate for oxaloacetate synthesis. Low oxaloacetate resulted in overproduction of ketone bodies by the liver and inhibition of ketone body and fatty acid oxidation by peripheral tissues, culminating in ketoacidosis and hypothermia. Furthermore, when fed a ketogenic diet consisting of low carbohydrate and high fat, DKO mice also exhibited hypothermia, ketoacidosis, and hypoglycemia. The findings establish that PDK2 is more important in the fed state, PDK4 is more important in the fasted state, survival during long term fasting depends upon regulation of the PDC by both PDK2 and PDK4, and that the PDKs are important for the regulation of glucose and ketone body metabolism. Ketone body metabolism -- Research Pyruvate kinase -- Research Blood sugar -- Regulation Sugar in the body Hypoglycemia Ketoacidosis Hypothermia Gluconeogenesis -- Research Fatty acids -- Synthesis Pyruvate carboxylase Ketogenic diet Mice as laboratory animals -- Research
190	Therapeutic effect of adenovirus- and α-fetoprotein promoter-mediated tBid and chemotherapeutic agents in combination on orthotopic hepatocellular carcinoma in mice. / Therapeutic effect of adenovirus- and alpha-fetoprotein promoter-mediated tBid and chemotherapeutic agents in combination on orthotopic hepatocellular carcinoma in mice / CUHK electronic theses & dissertations collection January 2010 (has links) Hepatocellular carcinoma (HCC) is the third commonest cancer worldwide. However HCC is considered to be highly resistant to chemotherapy. Gene therapies aimed to regulate Bd-2 proteins may sensitize HCC cells to chemotherapy. Studies have demonstrated that Bid/tBid are crucial in hepatocyte apoptosis. Bid also plays important roles in the development and chemotherapeutic sensitivity of HCC. The objective of this study is to test effect of Ad/AFPtBid and chemotherapeutic agents in combination on an orthotopic HCC model. / In conclusion, (1) Ad/AFPtBid can specifically target and effectively suppress the AFP-producing HCC. (2) Ad/AFPtBid can significantly sensitize HCC to 5-FU, their combination can significantly increase the anti-tumor effectiveness. (3) Ad/AFPtBid shows little toxicity in vivo. (4) The complementary effect of tBid and 5-FU on different phases of the cell cycle may explain the better therapeutic result if both are used to treat HCC. (5) The elucidation of phase specific effect of tBid points to a possible therapeutic option that combines tBid with different phase specific agents to treat HCC. / It is well established that many apoptosis inducers act in a cell cycle-specific fashion. This leads us to hypothesize that tBid might have phase specific effect. So, we tested the susceptibility of Hep3B cells at 00/01, S or G2/M phases to tBid. The results revealed that tBid significantly reduced Hep3B cells in G0/G1 phase, increased cells in G2/M phase. On the contrary, 5-FU arrested Hep3B cells in G0/G1 phase, and significantly reduced cells in G2/M phase. The levels of cell cycle-related proteins were altered in line with the result of the cell cycle. This suggests Hep3B cells in G0/G1 phase may be more susceptible to tBid. The complementary effects tBid and 5-FU on different phases of the cell cycle may explain the better therapeutic result if both are used to treat HCC. / The mice bearing orthotopic HCC tumors were treated with Ad/AFPtBid alone or in combination with 5-FU/Dox. Serum AFP levels were measured to mornitor tumor progression. The mice were killed four weeks after treatment. Liver tissues were subjected to immunohistochemical staining of proliferation cell nuclear antigen (PCNA) and TUNEL staining. Another batch of mice was observed for survival rate over a six month period. In addition, possible side effects of Ad/AFPtBid were tested in BALB/c mice. Results demonstrated that Ad/AFPtBid significantly inhibited Hep3B tumor growth. The combination of Ad/AFPtBid with 5-FU was more effective in tumor regression than either agent alone. However, the combination of Ad/AFPtBid with Dox treatment failed to demonstrated better effect than Dox treatment alone because the mice that received Dox exhibited serious weight loss. Tumor tissues from Ad/AFPtBid alone or combination treatment groups showed a decrease in cells positive for PCNA, and an increase in apoptosis by TUNEL staining, indicating that Ad/AFPtBid induced tumor regression through its pro-apoptotic effect. Inflammatory cell infiltration was also increased. Furthermore, Ad/AFPtBid did not suppress the hepatic tumor formed by non-AFP producing SK-HEP-1 or DLD-1. Finally, Ad/AFPtBid and 5-FU in combination results in better survival rate. No acute toxic effect of Ad/AFPtBid was observed. / Ma, Shihong. / "December 2009." / Adviser: CHEN Gong George. / Source: Dissertation Abstracts International, Volume: 72-01, Section: B, page: . / Thesis (Ph.D.)--Chinese University of Hong Kong, 2010. / Includes bibliographical references (leaves 114-138). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. Ann Arbor, MI : ProQuest Information and Learning Company, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese. Adenoviruses--Therapeutic use Alpha fetoproteins--Therapeutic use Liver--Cancer--Gene therapy Mice as laboratory animals Adenoviridae--therapeutic use alpha-Fetoproteins--therapeutic use Carcinoma, Hepatocellular--drug therapy Disease Models, Animal Genetic Therapy Mice

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