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Alcohol, endotoxin and the pancreas (induction, progression and reversibility of alcoholic pancreatitis)Vonlaufen, Alain, Clinical School - South Western Sydney, Faculty of Medicine, UNSW January 2009 (has links)
This thesis pertains to the pathogenesis of alcoholic pancreatitis, a considerable burden in terms of morbidity, mortality and health related costs. It has long been known that only a minority of alcoholics develop clinically evident pancreatitis, suggesting that (an) additional trigger factor(s) is required to elicit overt disease. Endotoxin (lipopolysaccharide LPS), from gut-derived gram negative bacteria may be one such trigger factor, since alcoholics exhibit increased levels of serum endotoxin. In addition, the degree of endotoxinaemia has been reported to correlate with the severity of pancreatitis. Studies described in this thesis report, i) the development of a novel rodent model of alcoholic pancreatitis produced by challenging alcohol-fed animals with single or repeated doses of LPS. The animals exhibit features of both acute (acinar vacuolisation, necrosis, pancreatic oedema, haemorrhage and inflammatory infiltration) and chronic (acinar atrophy and pancreatic fibrosis) pancreatitis; ii) the reversion of pancreatic injury (including fibrosis) upon withdrawal of alcohol in the model and the persistence of pancreatic damage with continuation of alcohol feeding; iii) activation of pancreatic stellate cells (PSCs, known to play a central role in fibrogenesis) in vivo and in vitro by alcohol and LPS; iv) the inhibition of PSC apoptosis in vivo and in vitro upon exposure to alcohol and LPS and the induction of PSC apoptosis in vivo upon withdrawal of alcohol from the diet and v) the presence of LPS receptors TLR4 and CD14 on PSCs, which would explain the responsiveness of PSCs to LPS. Thus the work in this thesis provides strong evidence in support of endotoxin as a clinically relevant trigger factor for the initiation of alcoholic pancreatitis and as a factor that promotes disease progression. The thesis also provides the first experimental evidence to support the clinical reports of a beneficial effect of abstinence on chronic pancreatitis. Delineation of the mechanisms mediating the induction, progression and reversibility of alcoholic pancreatitis has the potential to direct the development of new therapeutic interventions for alcohol-related pancreatic injury.
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A Novel Gene Rogdi Regulates Proliferation, Migration and Activation of Rat Hepatic Stellate CellsLiu, Ren-Chao 09 September 2009 (has links)
Rogdi was a novel gene with unknown function. According to GeneBank database, the gene is located on chromsome 10q12 and the length of coding regeion is 864 bp that encods 287 animo acids. Earlier studies in our laboratory showed that human ROGDI influenced rate of cell proliferaion in HeLa, Hep3B and NIH3T3 cells. In addition, we found Rogdi protien was up-regulated in fibrotic livers. Following various types of injury to liver, quiescent hepatic stellate cells (HSCs) transform to activated phenotype, leading to exprssion of £\-SMA, increasing rate of cell proliferation and depositing of extracellular matrix. In this study, we found that Rogdi protein was up-regulated in activated HSCs isolated and cultured from rat livers. By either overexpression or RNA interference of Rogdi, we found that Rogdi affected rate of HSCs proliferation, and expressions of £\-SMA and collagen type I. Expression of Rogdi protein was induced after PDGF treatment of rat HSCs. Additionally, we found that Rogdi was involved in MAPK and PI3K/Akt pathways. Furthermore, using wound healing assay and migration assay, Rogdi was found to regulate migration of activated HSCs.
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Alcohol, endotoxin and the pancreas (induction, progression and reversibility of alcoholic pancreatitis)Vonlaufen, Alain, Clinical School - South Western Sydney, Faculty of Medicine, UNSW January 2009 (has links)
This thesis pertains to the pathogenesis of alcoholic pancreatitis, a considerable burden in terms of morbidity, mortality and health related costs. It has long been known that only a minority of alcoholics develop clinically evident pancreatitis, suggesting that (an) additional trigger factor(s) is required to elicit overt disease. Endotoxin (lipopolysaccharide LPS), from gut-derived gram negative bacteria may be one such trigger factor, since alcoholics exhibit increased levels of serum endotoxin. In addition, the degree of endotoxinaemia has been reported to correlate with the severity of pancreatitis. Studies described in this thesis report, i) the development of a novel rodent model of alcoholic pancreatitis produced by challenging alcohol-fed animals with single or repeated doses of LPS. The animals exhibit features of both acute (acinar vacuolisation, necrosis, pancreatic oedema, haemorrhage and inflammatory infiltration) and chronic (acinar atrophy and pancreatic fibrosis) pancreatitis; ii) the reversion of pancreatic injury (including fibrosis) upon withdrawal of alcohol in the model and the persistence of pancreatic damage with continuation of alcohol feeding; iii) activation of pancreatic stellate cells (PSCs, known to play a central role in fibrogenesis) in vivo and in vitro by alcohol and LPS; iv) the inhibition of PSC apoptosis in vivo and in vitro upon exposure to alcohol and LPS and the induction of PSC apoptosis in vivo upon withdrawal of alcohol from the diet and v) the presence of LPS receptors TLR4 and CD14 on PSCs, which would explain the responsiveness of PSCs to LPS. Thus the work in this thesis provides strong evidence in support of endotoxin as a clinically relevant trigger factor for the initiation of alcoholic pancreatitis and as a factor that promotes disease progression. The thesis also provides the first experimental evidence to support the clinical reports of a beneficial effect of abstinence on chronic pancreatitis. Delineation of the mechanisms mediating the induction, progression and reversibility of alcoholic pancreatitis has the potential to direct the development of new therapeutic interventions for alcohol-related pancreatic injury.
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PROAGIO (A PROTEIN DESIGNED TO TARGET INTEGRIN αVβ3)Turaga, Ravi C 08 August 2017 (has links)
Large efforts have been made to target integrin αVβ3 of endothelial cells. We have successfully developed a new class of protein (Ref to as ProAgio) by rational protein design using a stable host protein, domain 1 of cell adhesion protein CD2. ProAgio is designed to target integrin αVβ3 at a novel site and induces angiogenic endothelial cell apoptosis by recruiting and activating caspase 8 to the cytoplasmic domain of the targeted integrins. Tests with tumor xenograft models show that ProAgio strongly inhibits tumor growth. Histology analyses indicate that tumor vessels are reduced, while the established vasculatures are not affected. Toxicity analyses demonstrate that ProAgio is not toxic to mouse. Our study develops an effective anti-angiogenesis agent and provides a new platform for development of therapeutics by targeting integrins. We have successfully developed an anti-angiogenesis protein targeting integrin αVβ3 at a novel site by rational protein design. The developed agent is not toxic to non-cancerous blood vessels and other tissue/organs, providing an excellent candidate for future potential clinical development. Our developed protein is one of the very few examples that do not act through targeting VEGF/VEGFR or any other RTK pathways. The βA groove is present in almost all other β integrins. This approach may be applicable to develop agents targeting the similar βA groove of other integrin pairs, which can address wide array of pathological conditions such as AMD, Rheumatoid Arthritis, Osteoporosis etc.
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Activin B Promotes Hepatic FibrogenesisWang, Yan 08 1900 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Liver fibrosis is a common consequence of various chronic liver diseases. Although transforming growth factor β 1 (TGFβ1) expression is known to be associated with liver fibrosis, the reduced clinical efficacy of TGFβ1 inhibition or the inefficiency to completely prevent liver fibrosis in mice with liver-specific knockout of TGF receptor II suggests that other factors can mediate liver fibrogenesis. As a TGFβ superfamily ligand, activin A signaling modulates liver injury by prohibiting hepatocyte proliferation, mediating hepatocyte apoptosis, promoting Kupffer cell activation, and inducing hepatic stellate cell (HSC) activation in vitro. However, the mechanism of action and in vivo functional significance of activin A in liver fibrosis models remain uncertain. Moreover, whether activin B, another ligand structurally related to activin A, is involved in liver fibrogenesis is not yet known. This study aimed to investigate the role of activin A and B in liver fibrosis initiation and progression. The levels of hepatic and circulating activin B and A were analyzed in patients with various chronic liver diseases, including end-stage liver diseases (ESLD), non-alcoholic steatohepatitis (NASH), and alcoholic liver disease (ALD). In addition, their levels were measured in mouse carbon tetrachloride (CCl4), bile duct ligation (BDL), and ALD liver injury models. Mouse primary hepatocytes, RAW264.7 cells, and LX-2 cells were used as in vitro models of hepatocytes, macrophages, and HSCs, respectively. The specificity and potency of anti-activin B monoclonal antibody (mAb) and anti-activin A mAb were evaluated using Smad2/3 luciferase assay. Activin A, activin B, or their combination were immunologically inactivated by the neutralizing mAbs in mice with progressive or established liver fibrosis induced by CCl4 or with developing cholestatic liver fibrosis induced by BDL surgery. In patients with ESLD, NASH, and ALD, increases in hepatic and circulating activin B, but not activin A, were associated with liver fibrosis, irrespective of etiology. In mice with CCl4-, BDL-, or alcohol-induced liver injury, activin B was persistently elevated in the liver and circulation, whereas activin A showed only transient increases. Activin B was expressed and secreted mainly by the hepatocytes and other cells, including cholangiocytes, activated HSCs, and immune cells. Exogenous administration of activin B promoted hepatocyte injury, activated macrophages to release cytokines, and induced a pro-fibrotic expression profile and septa formation in HSCs. Co-treatment of activin A and B interdependently activated the chemokine (C-X-C motif) ligand 1 (CXCL1)/inducible nitric oxide synthase (iNOS) pathway in macrophages and additively upregulated connective tissue growth factor expression in HSCs. Activin B and A had redundant, unique, and interactive effects on the transcripts related to HSC activation. The neutralization of activin B attenuated the development of liver fibrosis and improved liver function in mice with CCl4- or BDL-induced liver fibrosis and largely reversed the already established liver fibrosis in the CCl4 mouse model. These effects were improved by the administration of additional anti-activin A antibody. Combination of both antibodies also inhibited hepatic and circulating inflammatory cytokine production in the BDL mouse model. In conclusion, activin B is a potential circulating biomarker and potent promotor of liver fibrosis. Its levels in the liver and circulation increase significantly in both acute and chronic states of liver injury. Activin B might additively or interdependently cooperate with activin A, which directly acts on multiple liver cell populations during liver injury and fibrosis, as the combination of both proteins increases pro-inflammatory and pro-fibrotic responses in vitro. In addition, the neutralization of both activin A and activin B in vivo enhances the preventive and reversible effects of liver injury and fibrosis compared to that when activin B alone is neutralized. Our data reveal a novel target of liver fibrosis and the mechanism of activin B-mediated initiation of this process by damaging hepatocytes and activating macrophages and HSCs. Our findings show that activin B promotes hepatic fibrogenesis, and that targeting of activin B has anti-inflammatory and anti-fibrotic effects, which ameliorate liver injury by preventing or regressing liver fibrosis. Antagonizing either activin B alone or in combination with activin A prevents and regresses liver fibrosis in multiple animal studies, paving way for future clinical studies.
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Tumour-stroma interaction in pancreatic cancerLunardi, Serena January 2013 (has links)
Pancreatic ductal adenocarcinoma (PDAC) is characterised by an abundant desmoplastic reaction driven by pancreatic stellate cells (PSCs). There is accumulating evidence that PSCs influence the malignant phenotype of PDAC. The aim of this study was to analyse the tumour response to radiation treatment in the presence of PSCs and to investigate the cytokine network in the coculture of PSCs and pancreatic cancer cells (PCCs). PSCs were used in coculture with different PCC lines. Clonogenic survival assays of several PCC lines cocultured with PSCs showed decreased radiosensitivity. This effect was abrogated by inhibition of the β1-integrin/FAK signalling pathway. Furthermore, tumour regrowth experiments after irradiation showed that coinjected PSCs were radioprotective for PCCs after single-dose and fractionated irradiation in xenografts. In addition, we examined the expression of 50 proteins in the supernatants of PCCs and PSCs in mono- and coculture conditions. The detected cytokine expression profile of PSCs included many proinflammatory factors. Also, we identified IP-10 as the chemokine with the highest differential upregulation in PSCs by paracrine stimuli from five different PCC lines. Human PDAC with a high stroma component had elevated IP-10 mRNA expression. IP-10 did not stimulate tumour cell growth and migration in our conditions even though several PCCs expressed its cognate receptor CXCR3. Nevertheless, we discovered that in human PDAC samples IP-10 and CXCR3 mRNA levels correlated with the presence of CD3ε, CD4, FoxP3, CTLA4 and CD39 used as surrogate markers for T regulatory cells (Tregs), known to exert an immunosuppressive effect. In conclusion, these data demonstrate that PSCs enhance survival of PCCs to radiation by activating β1-integrin/FAK signalling. Furthermore, the interaction between the tumour stroma in pancreatic cancer may support an immunosuppression by chemoattraction of Tregs following upregulation of IP-10. Further characterisation of the paracrine signalling between PCCs, PSCs and immune cells will improve the understanding of pancreatic cancer biology and could lead to the identification of new targets for multimodal therapy.
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Negative regulation of the hepatic fibrogenic response by suppressor of cytokine signaling 1 (SOCS1) / Régulation négative de la réponse fibrogénique hépatique par le suppresseur de la signalisation de cytokine 1 (SOCS1)Kandhi, Rajani January 2016 (has links)
Abstract: Suppressor of cytokine signaling 1 (SOCS1) is an indispensable regulator of IFN-γ signaling and has been implicated in the regulation of liver fibrosis. However, it is not known whether SOCS1 mediates its anti-fibrotic functions in the liver directly, or via modulating IFN-γ, which has been implicated in attenuating hepatic fibrosis. Additionally, it is possible that SOCS1 controls liver fibrosis by regulating hepatic stellate cells (HSC), a key player in fibrogenic response. While the activation pathways of HSCs have been well characterized, the regulatory mechanisms are not yet clear. The goals of this study were to dissociate IFN-γ-dependent and SOCS1-mediated regulation of hepatic fibrogenic response, and to elucidate the regulatory functions of SOCS1 in H SC activation. Liver fibrosis was induced in Socs1[superscript -/-]Ifng[superscript -/-] mice with dimethylnitrosamine or carbon tetrachloride. Ifng[superscript -/-] and C57BL/6 mice served as controls. Following fibrogenic treatments, Socs1[superscript -/-]Ifng[superscript -/-] mice showed elevated serum ALT levels and increased liver fibrosis com-pared to mice Ifng[superscript -/-]. The latter group showed higher alanine aminotransferase (ALT) levels and fibrosis than C57BL/6 controls. The livers of Socs1-deficient mice showed bridging fibrosis, which was associated with increased accumulation of myofibroblasts and abundant collagen deposition. Socs1-deficient livers showed increased expression of genes coding for smooth muscle actin, collagen, and enzymes involved in remodeling the extracellular matrix, namely matrix metalloproteinases and tissue inhibitor of metalloproteinases. Primary HSCs from Socs1-deficient mice showed increased proliferation in response to growth factors such as HGF, EGF and PDGF, and the fibrotic livers of Socs1-deficient mice showed increased expression of the Pdgfb gene. Taken together, these data indicate that SOCS1 controls liver fibrosis independently of IFN-γ and that part of this regulation may occur via regulating HSC proliferation and limiting growth factor availability. / Résumé: Le suppresseur de la signalisation des cytokines 1 (SOCS1) est un régulateur indispensable de la signalisation de l'IFN-γ et a été aussi impliqué dans la régulation de la fibrose hépatique. Cependant, on ne sait pas si les fonctions anti-fibrotiques sont médiées directement dans le foie par SOCS1 ou par la modulation de l'IFN-γ, qui est connu pour son effet atténuateur de la fibrose hépatique. En outre, il est possible que SOCS1 contrôle la fibrose hépatique par la régulation des cellules stellaires hépatiques (CSH), un acteur clé dans la réponse fibrogénique. Alors que les voies d'activation des CSH ont été bien caractérisées, les mécanismes de régulation ne sont pas encore clairs. Les buts de cette étude étaient de dissocier la régulation de la réponse fibrogénique hépatique médiée par SOCS1 et celle dépendante de IFN-γ et d'élucider les fonctions régulatrices de SOCS1 dans l'activation des CSH. La fibrose hépatique a été induite chez des souris Socs1[indice supérieur -/-]Ifng[indice supérieur -/-] par la diméthylnitrosamine ou le tétrachlorure de carbone. Les souris Ifng[indice supérieur -/-] et C57BL6 ont servi comme contrôles. Après les traitements fibrogéniques, les souris Socs1[indice supérieur -/-]Ifng[indice supérieur -/-] ont montré des niveaux sériques élevés d'alanine aminotransférase (ALT) ainsi que l'augmentation de la fibrose du foie par rapport à des souris Ifng[indice supérieur -/-]. Le dernier groupe a montré des niveaux plus élevés d'ALT et de fibrose par rapport aux souris C57BL6 contrôles. Les foies des souris déficientes en Socs1 ont montré une fibrose septale, qui a été associée à une augmentation de l'accumulation des myofibroblastes et à un dépôt abondant du collagène. Les foies déficients en SOCS1 ont montré une expression accrue de gènes codant pour l'actine musculaire lisse, le collagène et les enzymes impliquées dans le remodelage de la matrice extracellulaire, à savoir les métalloprotéinases de la matrice et l'inhibiteur tissulaire des métalloprotéinases. Les CSH primaires de souris déficientes en Socs1 ont montré une prolifération accrue en réponse à des facteurs de croissance tels que le HGF, EGF et le PDGF. Aussi, les foies fibrotiques de souris déficientes en Socs1 ont montré une expression élevée du gène PDGFB. Pris ensemble, ces données indiquent que SOCS1 contrôle la fibrose hépatique indépendamment de l'IFN-γ et qu'une partie de cette régulation peut se produire en régulant la prolifération des HSC et en limitant la disponibilité des facteurs de croissance.
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Investigation of circuit mechanisms of spatial memory and navigation in virtual realityTennant, Sarah Anne January 2017 (has links)
Spatial memory and navigation relies on estimation of location. This can be achieved through several strategies, including the use of landmarks and by path integration. The latter involves inferring location from direction and distance moved relative to a known start point. The neural mechanisms of path integration are not well understood and implementation of experiments that dissociate path integration from alternative strategies is challenging. The roles of specific cell types are also unknown. Although grid cells in layer 2 of the medial entorhinal cortex (MEC) are theorised to be involved given their periodic and repeating firing fields that form a grid-like map that tiles the environment. Two excitatory cell populations have been identified in layer 2 of the MEC. Clusters of pyramidal cells that project to the CA1 are surrounded by dentate gyrus (DG) projecting stellate cells. Both populations have been shown to exhibit grid-like activity. The extent to which these cell types contribute to path integration or other strategies for solving spatial tasks is unknown. To investigate these issues, I developed a spatial memory task for mice, which uses virtual reality to generate sensitive measures of an animal’s ability to path integrate. In this task mice are trained to locate a reward zone marked with a visual cue within a virtual linear track. Use of path integration strategies can be tested in trials in which the reward zone is unmarked. In this task mice can locate the reward zone using either a local beaconing cue or path integration strategies. To assess whether self-motion derived motor information or visual feedback is used for path integration, I manipulated the translation between physical and virtual movement, putting optic and motor feedback in conflict. These manipulations suggest that mice use motor information to locate the reward zone on path integration trials. To test roles of stellate cells in the task I injected adeno-associated virus expressing the light chain of tetanus toxin, conditionally on the presence of Cre, into the MEC of mice expressing Cre specifically in stellate cells. This abolishes synaptic output from stellate cells therefore preventing them from influencing downstream neurons. I find mice with dorsal expression of the tetanus toxin virus in layer 2 stellate cells are unable to locate the reward zone using a local beaconing cue or path integration strategies. In contrast, mice with expression of green fluorescent protein (GFP) were able to locate the reward zone using both strategies. Locating the reward zone using path integration strategies first requires animal’s to learn the reward zone location, as denoted in trials with a beacon cue. To distinguish the role of stellate cells in learning versus execution of the tasks, I temporally modified the activity of stellate cells after mice had learnt to locate the reward zone using both strategies. Temporal control was achieved by use of cre-dependent adeno-associated viruses expressing mutant human muscarinic 4 receptor (hM4). When activated by clozapine - N - oxide (CNO), this receptor opens G-protein inwardly rectifying potassium (GIRK) channels and attenuates neuronal firing. Using this method, the activity of stellate cells can be temporally controlled during task execution and potentially distinguish their involvement in learning and execution of spatial memory tasks. No effect on behavioural performance was seen under these conditions. This may indicate stellate cells are required for learning but not execution of spatial memory tasks that require the use of local beaconing cues or path integration.
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ACTIVIN B PROMOTES HEPATIC FIBROGENESISYan Wang (7022162) 16 October 2019 (has links)
<p>Activin
B, a TGFβ ligand, is associated with liver inflammatory response. We aimed to
investigate whether it modulates liver fibrogenesis. <b> </b>Liver and
serum activin B, along with its analog activin A, were analyzed in patients
with liver fibrosis from different etiologies and in mouse acute liver injury
and liver fibrosis models. Activin B, activin A, or both was immunologically
neutralized in progressive or established carbon tetrachloride-induced mouse
liver fibrosis. The direct effects of activin B and A on hepatocytes,
macrophages, and hepatic stellate cells (HSCs) were evaluated <i>in vitro</i>. In human patients, increased activin B is associated with liver
fibrosis irrespective of the etiologies. In mice, activin B exhibited
persistent elevation in liver and circulation following the onset of liver
injury, whereas activin A displayed transient increases. Neutralizing activin B
largely prevented and remarkably regressed liver fibrosis, which was augmented
by co-neutralizing activin A in mice. Mechanistically, activin B promoted
hepatocyte injury, activated macrophages to release cytokines, and induced a
pro-fibrotic expression profile and septa formation in HSCs, which were
magnified by activin A. Furthermore, activin B and A interdependently activated
the CXCL1/iNOS pathway in macrophages and additively upregulated CTGF
transcript in HSCs <i>in vitro</i>. Consistently, the expression of these genes
was prohibited by neutralizing either one of these two ligands in injured
livers. Activin B potently drives the initiation and progression of
liver fibrogenesis. It additively or interdependently cooperates with activin
A, directly acts on multiple liver cell populations, and induces liver
fibrogenesis.<b> </b>Antagonizing activin B or both activins B and A prevents
and regresses liver fibrosis in mouse CCl<sub>4</sub> model, inspiring the
development of a novel therapy of chronic liver diseases.</p>
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Investigation of the role of hepatic stellate cells in acute liver failure and hepatocarcinogenesisThompson, Alexandra Inés January 2017 (has links)
Introduction: Hepatic stellate cells (HSC) and myofibroblasts may be relevant stromal drivers of human hepatocellular carcinoma (HCC). It was hypothesised that targeted inhibition of αv integrin-mediated TGF-β activation, by HSC or hepatocytes, may result in reduced peri-tumoural and intra-tumoural extracellular matrix formation, and reduced hepatic carcinogenesis. The role of HSC in acute liver injury is less well characterised. It was anticipated that integrin signalling on HSC and hepatocytes might also be relevant in the acute setting. The emerging technique of intravital microscopy (IVM) allows detailed, real-time investigation of the cellular processes involved in hepatocyte injury, cell death and repair. It was hypothesised that this could be coupled with mouse models of HCC and acute liver injury, to perform sequential imaging under anaesthesia. Aims: (i) To determine the effect of targeted inhibition of αv integrins on HSC and hepatocytes, during hepatocarcinogenesis, in a mouse model of HCC. (ii) To investigate the effect of targeted inhibition of αv and other integrins on HSC, hepatocytes, and liver sinusoidal endothelial cells (LSEC), during acute liver injury, in the mouse model of paracetamol-induced liver injury. (iii) To develop IVM of the liver, via an abdominal imaging window, with optimisation of surgical and imaging techniques, to allow sequential imaging of the same animal. Methods: The diethylnitrosamine (DEN)-induced mouse model of hepatocarcinogenesis was used, and PDGFRβ-Cre;αvfl/fl and Alb-Cre;αvfl/fl mice were employed to deplete αv integrins on HSC and hepatocytes respectively. Tumours were harvested at 40 weeks post-DEN. Tumour size and number was evaluated in all animals. PDGFRβ-Cre;αvfl/fl and Alb-Cre;αvfl/fl mice were used in the paracetamol model, to investigate the role of αv integrins in acute liver injury. PDGFRβ-Cre;β8fl/fl and Alb-Cre;β 8fl/fl animals were also tested in this model. The role of integrins in liver sinusoidal endothelial cells (LSEC) during paracetamol-induced liver injury was evaluated using Cdh5-Cre mice. IVM of the liver was performed by surgical implantation of an abdominal imaging window, consisting of a titanium ring and coverslip, secured in place with a purse string suture. Fluorescent reporter mice were used to identify hepatic and vascular architecture, and other label-free microscope technologies were utilised to image collagen, lipid distribution, necrotic areas and blood flow within tissues. Results: In large cohorts of PDGFRβ-Cre;αvfl/fl, Alb-Cre;αvfl/fl, and control animals, there was no difference in mean tumour size or number, at 40 weeks. Targeted inhibition of α v integrins and β 8 integrin on hepatocytes, HSC or LSEC was not protective in paracetamol-induced liver injury. IVM of the liver can be performed on animals with HCC and throughout paracetamol-induced liver injury, to obtain high quality, real-time images of multiple cell lineages and the hepatic microenvironment. Conclusions: The role of TGF-β in HCC pathogenesis is complex and context-dependent. Targeted loss of αv integrin did not result in reduction in tumour burden in this non-cirrhotic model of HCC. IVM of the liver is a powerful tool to quantify inflammatory infiltrates and assessment of vascular remodelling throughout the course of acute liver injury and regeneration, providing insights into the biological processes determining recovery.
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