Your search keyword '"Saimir Luli"' showing total 36 results

1. Synthesis and preclinical evaluation of a 89Zr-labelled human single chain antibody for non-invasive detection of hepatic myofibroblasts in acute liver injury

Author

Toni A. Pringle, Erik Ramon-Gil, Jack Leslie, Fiona Oakley, Matthew C. Wright, James C. Knight, and Saimir Luli

Subjects

Medicine, Science

Abstract

Abstract Synaptophysin is expressed on fibrogenic hepatic myofibroblasts. C1–3 is a single chain human antibody (scAb) that binds specifically to synaptophysin on hepatic myofibroblasts, providing a targeting vector for novel in vivo imaging agents of chronic liver disease. C1–3 and a negative control scAb, CSBD9, were radiolabelled with zirconium-89 via desferrioxamine chelation to enable non-invasive molecular imaging with positron emission tomography (PET). DFO-scAb conjugates were characterised by gel electrophoresis (SDS-PAGE) and MALDI-TOF spectrometry, and 89Zr-labelled with high radiolabelling efficiency (99%). [89Zr]Zr-DFO-C1–3 exhibited high in vitro stability (> 99%) in mouse and human sera over 3 days at 25 and 37 °C. Activated hepatic myofibroblasts incubated with [89Zr]Zr-DFO-C1–3 displayed significantly higher internalised activity (59.46%, P = 0.001) compared to the [89Zr]Zr-DFO-CSBD9 control, indicating synaptophysin-mediated uptake and high binding specificity of [89Zr]Zr-DFO-C1–3. Mice with CCl4-induced acute liver damage exhibited significantly higher liver uptake of [89Zr]Zr-DFO-C1–3, compared to controls, confirmed by both Cerenkov imaging and ex vivo gamma counting (4.41 ± 0.19%ID/g, P

Published

2024

2. Evoked compound action potential (ECAP)-controlled closed-loop spinal cord stimulation in an experimental model of neuropathic pain in rats

Author

Eline M. Versantvoort, Birte E. Dietz, Dave Mugan, Quoc C. Vuong, Saimir Luli, and Ilona Obara

Subjects

Evoked compound action potential, Rat, Closed-loop, Spinal cord stimulation, Neuropathic pain, In vivo electrophysiology, Medical technology, R855-855.5

Abstract

Abstract Background Preclinical models of spinal cord stimulation (SCS) are lacking objective measurements to inform translationally applicable SCS parameters. The evoked compound action potential (ECAP) represents a measure of dorsal column fiber activation. This measure approximates the onset of SCS-induced sensations in humans and provides effective analgesia when used with ECAP-controlled closed-loop (CL)-SCS systems. Therefore, ECAPs may provide an objective surrogate for SCS dose in preclinical models that may support better understanding of SCS mechanisms and further translations to the clinics. This study assessed, for the first time, the feasibility of recording ECAPs and applying ECAP-controlled CL-SCS in freely behaving rats subjected to an experimental model of neuropathic pain. Methods Adult male Sprague–Dawley rats (200–300 g) were subjected to spared nerve injury (SNI). A custom-made six-contact lead was implanted epidurally covering T11-L3, as confirmed by computed tomography or X-ray. A specially designed multi-channel system was used to record ECAPs and to apply ECAP-controlled CL-SCS for 30 min at 50 Hz 200 µs. The responses of dorsal column fibers to SCS were characterized and sensitivity towards mechanical and cold stimuli were assessed to determine analgesic effects from ECAP-controlled CL-SCS. Comparisons between SNI rats and their controls as well as between stimulation parameters were made using omnibus analysis of variance (ANOVA) tests and t-tests. Results The recorded ECAPs showed the characteristic triphasic morphology and the ECAP amplitude (mV) increased as higher currents (mA) were applied in both SNI animals and controls (SNI SCS-ON and sham SCS-ON). Importantly, the use of ECAP-based SCS dose, implemented in ECAP-controlled CL-SCS, significantly reduced mechanical and cold hypersensitivity in SNI SCS-ON animals through the constant and controlled activation of dorsal column fibers. An analysis of conduction velocities of the evoked signals confirmed the involvement of large, myelinated fibers. Conclusions The use of ECAP-based SCS dose implemented in ECAP-controlled CL-SCS produced analgesia in animals subjected to an experimental model of neuropathic pain. This approach may offer a better method for translating SCS parameters between species that will improve understanding of the mechanisms of SCS action to further advance future clinical applications.

Published

2024

3. Synthesis and In Vitro Evaluation of a HER2-Specific ImmunoSCIFI Probe

Author

Katie Gristwood, Saimir Luli, Kenneth S. Rankin, and James C. Knight

Subjects

Chemistry, QD1-999

Published

2023

4. Non-invasive synchronous monitoring of neutrophil migration using whole body near-infrared fluorescence-based imaging

Author

Jack Leslie, Stuart M. Robinson, Fiona Oakley, and Saimir Luli

Subjects

Medicine, Science

Abstract

Abstract Advances in fluorescence imaging coupled with the generation of near infrared probes have significantly improved the capabilities of non-invasive, real-time imaging in whole animals. In this study we were able to overcome a limitation of in vivo fluorescence imaging and have established a dual cell tracking method where two different cell types can be monitored according to the spectral signature of the cell labelling fluorophore. Using a mouse model of acute liver injury, we have characterised the in vivo migration patterns of wild type and transgenic neutrophils with impaired chemotaxis. Here, we were able to demonstrate that IVIS provides a sensitive multiplexing technology to differentiate two different cell populations based on the spectral signature of the cell labelling fluorophores. This spectral unmixing methodology has the potential to uncover multidimensional cellular interactions involved in many diseases such as fibrosis and cancer. In vivo spectral un-mixing provides a useful tool for monitoring multiple biological process in real-time in the same animal.

Published

2021

5. Homodimeric Minimal Factor H: In Vivo Tracking and Extended Dosing Studies in Factor H Deficient Mice

Author

Ola Kamala, Talat H. Malik, Thomas M. Hallam, Thomas E. Cox, Yi Yang, Falguni Vyas, Saimir Luli, Chloe Connelly, Beth Gibson, Kate Smith-Jackson, Harriet Denton, Isabel Y. Pappworth, Lei Huang, David Kavanagh, Matthew C. Pickering, and Kevin J. Marchbank

Subjects

C3G, complement, factor H, renal disease, mouse model, AAV therapy, Immunologic diseases. Allergy, RC581-607

Abstract

C3 glomerulopathy (C3G) is associated with dysregulation of the alternative pathway (AP) of complement and treatment options remain inadequate. Factor H (FH) is a potent regulator of the AP. An in-depth analysis of FH-related protein dimerised minimal (mini)-FH constructs has recently been published. This analysis showed that addition of a dimerisation module to mini-FH not only increased serum half-life but also improved complement regulatory function, thus providing a potential treatment option for C3G. Herein, we describe the production of a murine version of homodimeric mini-FH [mHDM-FH (mFH1–5^18–20^R1–2)], developed to reduce the risk of anti-drug antibody formation during long-term experiments in murine models of C3G and other complement-driven pathologies. Our analysis of mHDM-FH indicates that it binds with higher affinity and avidity to WT mC3b when compared to mouse (m)FH (mHDM-FH KD=505 nM; mFH KD=1370 nM) analogous to what we observed with the respective human proteins. The improved binding avidity resulted in enhanced complement regulatory function in haemolytic assays. Extended interval dosing studies in CFH-/- mice (5mg/kg every 72hrs) were partially effective and bio-distribution analysis in CFH-/- mice, through in vivo imaging technologies, demonstrates that mHDM-FH is preferentially deposited and remains fixed in the kidneys (and liver) for up to 4 days. Extended dosing using an AAV- human HDM-FH (hHDM-FH) construct achieved complete normalisation of C3 levels in CFH-/- mice for 3 months and was associated with a significant reduction in glomerular C3 staining. Our data demonstrate the ability of gene therapy delivery of mini-FH constructs to enhance complement regulation in vivo and support the application of this approach as a novel treatment strategy in diseases such as C3G.

Published

2021

6. How Do Roots Interact with Layered Soils?

Author

Nina Kemp, Vasileios Angelidakis, Saimir Luli, and Sadegh Nadimi

Subjects

particle-scale behaviour, micromechanics, soil fabric, computed tomography, deep learning, Photography, TR1-1050, Computer applications to medicine. Medical informatics, R858-859.7, Electronic computers. Computer science, QA75.5-76.95

Abstract

Vegetation alters soil fabric by providing biological reinforcement and enhancing the overall mechanical behaviour of slopes, thereby controlling shallow mass movement. To predict the behaviour of vegetated slopes, parameters representing the root system structure, such as root distribution, length, orientation and diameter, should be considered in slope stability models. This study quantifies the relationship between soil physical characteristics and root growth, giving special emphasis on (1) how roots influence the physical architecture of the surrounding soil structure and (2) how soil structure influences the root growth. A systematic experimental study is carried out using high-resolution X-ray micro-computed tomography (µCT) to observe the root behaviour in layered soil. In total, 2 samples are scanned over 15 days, enabling the acquisition of 10 sets of images. A machine learning algorithm for image segmentation is trained to act at 3 different training percentages, resulting in the processing of 30 sets of images, with the outcomes prompting a discussion on the size of the training data set. An automated in-house image processing algorithm is employed to quantify the void ratio and root volume ratio. This script enables post processing and image analysis of all 30 cases within few hours. This work investigates the effect of stratigraphy on root growth, along with the effect of image-segmentation parameters on soil constitutive properties.

Published

2022

7. Impact of retrotransposon protein L1 ORF1p expression on oncogenic pathways in hepatocellular carcinoma: the role of cytoplasmic PIN1 upregulation

Author

Bassier Zadran, Praveen Dhondurao Sudhindar, Daniel Wainwright, Yvonne Bury, Saimir Luli, Rachel Howarth, Misti Vanette McCain, Robyn Watson, Hannah Huet, Fanni Palinkas, Rolando Berlinguer-Palmini, John Casement, Derek A. Mann, Fiona Oakley, John Lunec, Helen Reeves, Geoffrey J. Faulkner, and Ruchi Shukla

Subjects

Cancer Research, Oncology

Abstract

Background Molecular characterisation of hepatocellular carcinoma (HCC) is central to the development of novel therapeutic strategies for the disease. We have previously demonstrated mutagenic consequences of Long-Interspersed Nuclear Element-1 (LINE1s/L1) retrotransposition. However, the role of L1 in HCC, besides somatic mutagenesis, is not well understood. Methods We analysed L1 expression in the TCGA-HCC RNAseq dataset (n = 372) and explored potential relationships between L1 expression and clinical features. The findings were confirmed by immunohistochemical (IHC) analysis of an independent human HCC cohort (n = 48) and functional mechanisms explored using in vitro and in vivo model systems. Results We observed positive associations between L1 and activated TGFβ-signalling, TP53 mutation, alpha-fetoprotein and tumour invasion. IHC confirmed a positive association between pSMAD3, a surrogate for TGFβ-signalling status, and L1 ORF1p (P n = 32). Experimental modulation of L1 ORF1p levels revealed an influence of L1 ORF1p on key hepatocarcinogenesis-related pathways. Reduction in cell migration and invasive capacity was observed upon L1 ORF1 knockdown, both in vitro and in vivo. In particular, L1 ORF1p increased PIN1 cytoplasmic localisation. Blocking PIN1 activity abrogated L1 ORF1p-induced NF-κB-mediated inflammatory response genes while further activated TGFβ-signalling confirming differential alteration of PIN1 activity in cellular compartments by L1 ORF1p. Discussion Our data demonstrate a causal link between L1 ORF1p and key oncogenic pathways mediated by PIN1, presenting a novel therapeutic avenue.

Published

2023

8. Regulation of CHK1 inhibitor resistance by a c-Rel and USP1 dependent pathway

Author

Jill E. Hunter, Amy E. Campbell, Nicola L. Hannaway, Scott Kerridge, Saimir Luli, Jacqueline A. Butterworth, Helene Sellier, Reshmi Mukherjee, Nikita Dhillon, Praveen D. Sudhindar, Ruchi Shukla, Philip J. Brownridge, Hayden L. Bell, Jonathan Coxhead, Leigh Taylor, Peter Leary, Megan S.R. Hasoon, Ian Collins, Michelle D. Garrett, Claire E. Eyers, and Neil D. Perkins

Subjects

Proteomics, Proto-Oncogene Proteins c-myc, Mice, Pyrimidines, Deubiquitinating Enzymes, Lymphoma, NF-kappa B, Aminopyridines, Animals, Cell Biology, Protein Kinase Inhibitors, Molecular Biology, Biochemistry

Abstract

Previously, we discovered that deletion of c-Rel in the Eµ-Myc mouse model of lymphoma results in earlier onset of disease, a finding that contrasted with the expected function of this NF-κB subunit in B-cell malignancies. Here we report that Eµ-Myc/cRel−/− cells have an unexpected and major defect in the CHK1 pathway. Total and phospho proteomic analysis revealed that Eµ-Myc/cRel−/− lymphomas highly resemble wild-type (WT) Eµ-Myc lymphomas treated with an acute dose of the CHK1 inhibitor (CHK1i) CCT244747. Further analysis demonstrated that this is a consequence of Eµ-Myc/cRel−/− lymphomas having lost expression of CHK1 protein itself, an effect that also results in resistance to CCT244747 treatment in vivo. Similar down-regulation of CHK1 protein levels was also seen in CHK1i resistant U2OS osteosarcoma and Huh7 hepatocellular carcinoma cells. Further investigation revealed that the deubiquitinase USP1 regulates CHK1 proteolytic degradation and that its down-regulation in our model systems is responsible, at least in part, for these effects. We demonstrate that treating WT Eµ-Myc lymphoma cells with the USP1 inhibitor ML323 was highly effective at reducing tumour burden in vivo. Targeting USP1 activity may thus be an alternative therapeutic strategy in MYC-driven tumours.

Published

2022

9. Up-regulation of the PI3K/AKT and RHO/RAC/PAK signalling pathways in CHK1 inhibitor resistant Eµ-Myc lymphoma cells

Author

Jill E. Hunter, Amy E. Campbell, Scott Kerridge, Callum Fraser, Nicola L. Hannaway, Saimir Luli, Iglika Ivanova, Philip J. Brownridge, Jonathan Coxhead, Leigh Taylor, Peter Leary, Megan S. R. Hasoon, Claire E. Eyers, and Neil D. Perkins

Subjects

Lymphoma, NF-kappa B, Mice, Transgenic, Cell Biology, Biochemistry, Up-Regulation, Proto-Oncogene Proteins c-myc, Mice, Phosphatidylinositol 3-Kinases, p21-Activated Kinases, Animals, Phosphatidylinositol 3-Kinase, Protein Kinase Inhibitors, Proto-Oncogene Proteins c-akt, Molecular Biology, Inositol

Abstract

The development of resistance and the activation of bypass pathway signalling represents a major problem for the clinical application of protein kinase inhibitors. While investigating the effect of either a c-Rel deletion or RelAT505A phosphosite knockin on the Eµ-Myc mouse model of B-cell lymphoma, we discovered that both NF-κB subunit mutations resulted in CHK1 inhibitor resistance, arising from either loss or alteration of CHK1 activity, respectively. However, since Eµ-Myc lymphomas depend on CHK1 activity to cope with high levels of DNA replication stress and consequent genomic instability, it was not clear how these mutant NF-κB subunit lymphomas were able to survive. To understand these survival mechanisms and to identify potential compensatory bypass signalling pathways in these lymphomas, we applied a multi-omics strategy. With c-Rel−/− Eµ-Myc lymphomas we observed high levels of Phosphatidyl-inositol 3-kinase (PI3K) and AKT pathway activation. Moreover, treatment with the PI3K inhibitor Pictilisib (GDC-0941) selectively inhibited the growth of reimplanted c-Rel−/− and RelAT505A, but not wild type (WT) Eµ-Myc lymphomas. We also observed up-regulation of a RHO/RAC pathway gene expression signature in both Eµ-Myc NF-κB subunit mutation models. Further investigation demonstrated activation of the RHO/RAC effector p21-activated kinase (PAK) 2. Here, the PAK inhibitor, PF-3758309 successfully overcame resistance of RelAT505A but not WT lymphomas. These findings demonstrate that up-regulation of multiple bypass pathways occurs in CHK1 inhibitor resistant Eµ-Myc lymphomas. Consequently, drugs targeting these pathways could potentially be used as either second line or combinatorial therapies to aid the successful clinical application of CHK1 inhibitors.

Published

2022

10. Mutation of the RelA(p65) Thr505 phosphosite disrupts the DNA replication stress response leading to CHK1 inhibitor resistance

Author

Jill E. Hunter, Amy E. Campbell, Jacqueline A. Butterworth, Helene Sellier, Nicola L. Hannaway, Saimir Luli, Achilleas Floudas, Niall S. Kenneth, Adam J. Moore, Philip J. Brownridge, Huw D. Thomas, Jonathan Coxhead, Leigh Taylor, Peter Leary, Megan S.R. Hasoon, Andrew M. Knight, Michelle D. Garrett, Ian Collins, Claire E. Eyers, and Neil D. Perkins

Subjects

DNA Replication, Mutation, Cell Biology, Protein Kinase Inhibitors, Molecular Biology, Biochemistry

Published

2022

11. Synthesis and In Vivo Evaluation of a Site-specifically Labeled Radioimmunoconjugate for Dual-Modal (PET/NIRF) Imaging of MT1-MMP in Sarcomas

Author

Toni A. Pringle, Corey D. Chan, Saimir Luli, Helen J. Blair, Kenneth S. Rankin, and James C. Knight

Subjects

Pharmacology, Organic Chemistry, Biomedical Engineering, Pharmaceutical Science, Bioengineering, Biotechnology

Published

2022

12. Anti-Cholestatic Therapy with Obeticholic Acid Improves Short-Term Memory in Bile Duct-Ligated Mice

Author

Lucy M.V. Gee, Ben Barron-Millar, Jack Leslie, Claire Richardson, Marco Y.W. Zaki, Saimir Luli, Rachel A. Burgoyne, Rainie I.T. Cameron, Graham R. Smith, John G. Brain, Barbara Innes, Laura Jopson, Jessica K. Dyson, Katherine R.C. McKay, Alexandros Pechlivanis, Elaine Holmes, Rolando Berlinguer-Palmini, Stella Victorelli, George F. Mells, Richard N. Sandford, Jeremy Palmer, John A. Kirby, Christos Kiourtis, Joao Mokochinski, Zoe Hall, Thomas G. Bird, Lee A. Borthwick, Christopher M. Morris, Peter S. Hanson, Diana Jurk, Elizabeth A. Stoll, Fiona E.N. LeBeau, David E.J. Jones, Fiona Oakley, Sandford, Richard [0000-0002-7437-0560], and Apollo - University of Cambridge Repository

Subjects

cognition, therapy, senescence, Cholestasis, Chenodeoxycholic Acid, Pathology and Forensic Medicine, Mice, Memory, Short-Term, Liver, Humans, Animals, Bile Ducts, cholestasis, Ligation

Abstract

Patients with cholestatic liver disease, including those with primary biliary cholangitis, can experience symptoms of impaired cognition or brain fog. This phenomenon remains unexplained and is currently untreatable. Bile duct ligation (BDL) is an established rodent model of cholestasis. In addition to liver changes, BDL animals develop cognitive symptoms early in the disease process (before development of cirrhosis and/or liver failure). The cellular mechanisms underpinning these cognitive symptoms are poorly understood. Herein, the study explored the neurocognitive symptom manifestations, and tested potential therapies, in BDL mice, and used human neuronal cell cultures to explore translatability to humans. BDL animals exhibited short-term memory loss and showed reduced astrocyte coverage of the blood-brain barrier, destabilized hippocampal network activity, and neuronal senescence. Ursodeoxycholic acid (first-line therapy for most human cholestatic diseases) did not reverse symptomatic or mechanistic aspects. In contrast, obeticholic acid (OCA), a farnesoid X receptor agonist and second-line anti-cholestatic agent, normalized memory function, suppressed blood-brain barrier changes, prevented hippocampal network deficits, and reversed neuronal senescence. Co-culture of human neuronal cells with either BDL or human cholestatic patient serum induced cellular senescence and increased mitochondrial respiration, changes that were limited again by OCA. These findings provide new insights into the mechanism of cognitive symptoms in BDL animals, suggesting that OCA therapy or farnesoid X receptor agonism could be used to limit cholestasis-induced neuronal senescence.

Published

2023

13. In situ excitation of BODIPY fluorophores by 89Zr-generated Cerenkov luminescence

Author

Katie Gristwood, Saimir Luli, Kenneth S. Rankin, and James C. Knight

Subjects

Materials Chemistry, Metals and Alloys, Ceramics and Composites, General Chemistry, Catalysis, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials

Abstract

Secondary Cerenkov-induced fluorescence imaging (SCIFI) is an emerging optical imaging modality that affords high signal-to-noise images. This report examines the utility of BODIPY fluorophores in SCIFI applications using 89Zr-generated Cerenkov luminescence.

Published

2022

14. Hepatocellular carcinoma alters granulopoiesis to produce neutrophils with an immature phenotype

Author

Daniel Geh, Erik Ramon-Gil, Maja Laszczewska, Saimir Luli, Amy Collins, Fiona Oakley, Jack Leslie, Helen L. Reeves, and Derek A Mann

Subjects

Hepatology

Published

2022

15. Synthesis and

Author

Toni A, Pringle, Corey D, Chan, Saimir, Luli, Helen J, Blair, Kenneth S, Rankin, and James C, Knight

Subjects

Mice, Immunoconjugates, Cell Line, Tumor, Positron-Emission Tomography, Animals, Sarcoma, Tissue Distribution, Zirconium, Matrix Metalloproteinases

Abstract

Bone sarcomas are devastating primary bone cancers that mostly affect children, young adults, and the elderly. These aggressive tumors are associated with poor survival, and surgery remains the mainstay of treatment. Surgical planning is increasingly informed by positron emission tomography (PET), and tumor margin identification during surgery is aided by near-infrared fluorescence (NIRF) imaging, yet these investigations are confounded by probes that lack specificity for sarcoma biomarkers. We report the development of a dual-modal (PET/NIRF) immunoconjugate ([

Published

2022

16. Observations of root growth in stratified soils at the microscopic scale: Insights from micro-computed tomography

Author

Sadegh Nadimi, Nina Kemp, Vasileios Angelidakis, and Saimir Luli

Abstract

Enhancing the overall resilience of vegetated slopes against shallow mass movement can be achieved by better understanding soil-root interaction. To predict the behaviour of vegetated slopes during design, parameters representing the root system structure, such as root distribution, length, orientation and diameter, should be considered in slope stability models. Microscale quantifications of how root growth influences soil characteristics, able to inform computational models, are scarce in the literature, especially for stratified soils. This study quantifies the relationship between soil physical characteristics and root growth, emphasising particularly on (1) how roots influence the physical architecture of the surrounding soil structure and (2) how soil structure influences root growth. A systematic experimental study is carried out using high-resolution X-ray micro-computed tomography (µCT) to observe the root behaviour in layered soil. In total, 2 samples are scanned over 15 days of growth, enabling the acquisition of 10 sets of images. A machine learning algorithm for image segmentation is trained to act at 3 different training percentages, resulting in the processing of 30 sets of images, with the outcomes prompting a discussion on the size of the training data set. An automated in-house image processing algorithm is developed to provide values of void ratio and root volume ratio for Regions of Interest at varying distance from the root. This work investigates the effect of stratigraphy on root growth, along with the effect of image-segmentation parameters on soil constitutive properties.

Published

2022

17. Claspin haploinsufficiency leads to defects in fertility, hyperplasia and an increased oncogenic potential

Author

Suzanne Madgwick, Saimir Luli, Helene Sellier, Jacqueline A. Butterworth, Jack Leslie, Adam J. Moore, Emma K. Corbin, Adrian I. Yemm, Robson T. Chiremba, Dina Tiniakos, Fiona Oakley, Neil D. Perkins, and Jill E. Hunter

Subjects

DNA Replication, Hyperplasia, Carcinogenesis, Cell Cycle Proteins, Cell Biology, Ataxia Telangiectasia Mutated Proteins, Haploinsufficiency, Biochemistry, Mice, Fertility, Checkpoint Kinase 1, Animals, Female, Phosphorylation, Molecular Biology

Abstract

Claspin is an adaptor protein required for ATR-dependent phosphorylation of CHK1 during S-phase following DNA replication stress. Claspin expression is highly variable in cancer, with low levels frequently correlating with poor patient survival. To learn more about the biological consequences of reduced Claspin expression and its effects on tumorigenesis, we investigated mice with a heterozygous knockout of the Clspn gene. Claspin haploinsufficiency resulted in reduced female fertility and a maternally inherited defect in oocyte meiosis I cell cycle progression. Furthermore, aged Clspn+/− mice developed spontaneous lymphoid hyperplasia and increased susceptibility to non-alcoholic fatty liver disease. Importantly, we demonstrate a tumour suppressor role for Claspin. Reduced Claspin levels result in increased liver damage and tumourigenesis in the DEN model of hepatocellular carcinoma. These data reveal that Clspn haploinsufficiency has widespread unanticipated biological effects and establishes the importance of Claspin as a regulatory node controlling tumorigenesis and multiple disease aetiologies.

Published

2022

18. CXCR2 inhibition enables NASH-HCC immunotherapy

Author

Jack Leslie, John B G Mackey, Thomas Jamieson, Erik Ramon-Gil, Thomas M Drake, Frédéric Fercoq, William Clark, Kathryn Gilroy, Ann Hedley, Colin Nixon, Saimir Luli, Maja Laszczewska, Roser Pinyol, Roger Esteban-Fabró, Catherine E Willoughby, Philipp K Haber, Carmen Andreu-Oller, Mohammad Rahbari, Chaofan Fan, Dominik Pfister, Shreya Raman, Niall Wilson, Miryam Müller, Amy Collins, Daniel Geh, Andrew Fuller, David McDonald, Gillian Hulme, Andrew Filby, Xabier Cortes-Lavaud, Noha-Ehssan Mohamed, Catriona A Ford, Ximena L Raffo Iraolagoitia, Amanda J McFarlane, Misti V McCain, Rachel A Ridgway, Edward W Roberts, Simon T Barry, Gerard J Graham, Mathias Heikenwälder, Helen L Reeves, Josep M Llovet, Leo M Carlin, Thomas G Bird, Owen J Sansom, Derek A Mann, Mann, Derek Austin, Leslie, J., Mackey, J.B.G., Jamieson, T., Ramon Gil, E., Drake, T.M., Fercoq, F., Clark, W., Gilroy, K., Hedley, A., Nixon, C., Luli, S., Laszczewska, M., Pinyol, R., Esteban Fabro, R., Willoughby, C.E., Haber, P.K., Andreu Oller, C., Rahbari, M., Fan, C., Pfister, D., Raman, S., Wilson, N., Müller, M., Collins, A., Geh, D., Fuller, A., Mcdonald, D., Hulme, G., Filby, A., Cortes-Lavaud, X., Mohamed N.E., Ford, C.A., Raffo Iraolagoitia, X.L., Mcfarlane, A.J., Mccain, M.V., Ridgway, R.A., Roberts, E.W., Barry, S.T., Graham, G.J., Heikenwalder, M., Reeves, H.L., Llovet, J.M., Carlin, L.M., Bird, T.G., Sansom, O.J., Mann D.A., and School of Medicine

Subjects

Gastroenterology and hepatology, Gastroenterology, Hepatocellular carcinoma, Immunotherapy, Nonalcoholic steatohepatitis, digestive system diseases

Abstract

Objective: Hepatocellular carcinoma (HCC) is increasingly associated with non-alcoholic steatohepatitis (NASH). HCC immunotherapy offers great promise; however, recent data suggests NASH-HCC may be less sensitive to conventional immune checkpoint inhibition (ICI). We hypothesised that targeting neutrophils using a CXCR2 small molecule inhibitor may sensitise NASH-HCC to ICI therapy. Design Neutrophil infiltration was characterised in human HCC and mouse models of HCC. Late-stage intervention with anti-PD1 and/or a CXCR2 inhibitor was performed in murine models of NASH-HCC. The tumour immune microenvironment was characterised by imaging mass cytometry, RNA-seq and flow cytometry. Results: neutrophils expressing CXCR2, a receptor crucial to neutrophil recruitment in acute-injury, are highly represented in human NASH-HCC. In models of NASH-HCC lacking response to ICI, the combination of a CXCR2 antagonist with anti-PD1 suppressed tumour burden and extended survival. Combination therapy increased intratumoural XCR1(+) dendritic cell activation and CD8(+) T cell numbers which are associated with anti-tumoural immunity, this was confirmed by loss of therapeutic effect on genetic impairment of myeloid cell recruitment, neutralisation of the XCR1-ligand XCL1 or depletion of CD8(+) T cells. Therapeutic benefit was accompanied by an unexpected increase in tumour-associated neutrophils (TANs) which switched from a protumour to anti-tumour progenitor-like neutrophil phenotype. Reprogrammed TANs were found in direct contact with CD8(+) T cells in clusters that were enriched for the cytotoxic anti-tumoural protease granzyme B. Neutrophil reprogramming was not observed in the circulation indicative of the combination therapy selectively influencing TANs. Conclusion: CXCR2-inhibition induces reprogramming of the tumour immune microenvironment that promotes ICI in NASH-HCC., Cancer Research UK (CRUK); Newcastle Experimental Cancer Medicine Centre; Accelerator Award; Fondazione AIRC; MRC program; AstraZeneca; Wellcome Trust; Newcatle University Faculty of Medical Sciences; WE Harker Foundation; Ministry of Economy and Competitiveness (MINECO) (MICINN); Fundació Universitària Agustí Pedro i Pons; Instituto de Salud Carlos III (ISCIII); European Union (EU); European Social Fund; German Research Foundation (DFG); Fulbright España; National Institutes of Health (NIH); Samuel Waxman Cancer Research Foundation; Spanish National Health Institute; Fundación Científica de la Asociación Española Contra el Cáncer; Generalitat de Catalunya; Sara Borrell Fellowship

Published

2022

19. Regulation of CHK1 inhibitor resistance by a c-Rel and USP1 dependent pathway

Author

Claire E. Eyers, Saimir Luli, Alan Campbell, Nicola L. Hannaway, Mukherjee R, Kerridge S, Garrett, Jill E. Hunter, Leary P, Hélène Sellier, Neil D. Perkins, Philip Brownridge, Jacqueline Butterworth, Ian Collins, Taylor L, Hasoon Ms, Jonathan Coxhead, and Huw D. Thomas

Subjects

animal structures, Downregulation and upregulation, In vivo, Chemistry, Protein subunit, Cancer cell, medicine, Wild type, Osteosarcoma, medicine.disease, REL, Molecular biology, PI3K/AKT/mTOR pathway

Abstract

We previously discovered that deletion of c-Rel in the Eμ-Myc mouse model of lymphoma results in earlier onset of disease, a finding that contrasted with the expected function of this NF-κB subunit in B-cell malignancies. Here we report that c-rel -/- Eµ-Myc cells have an unexpected and major defect in the CHK1 pathway, with almost undetectable levels of CHK1 and CLSPN protein leading to therapeutic resistance to the highly specific CHK1 inhibitor (CHK1i) CCT244747. Similar downregulation of CHK1 levels was also seen in CCT244747 resistant U20S osteosarcoma cells. Further investigation revealed that downregulation of the deubiquitinase USP1 is responsible, at least in part, for these effects. Importantly, we demonstrate that c-rel -/- Eµ-Myc lymphoma cells survive though upregulation of compensatory PI3K/AKT pathway activity. Moreover, targeting this pathway with Pictilisib (GDC-0941) effectively killed c-rel -/- Eµ-Myc in vivo, while having no effect on wild type Eμ-Myc cells. This data reveals an NF-κB regulated pathway controlling CHK1 activity in cancer cells and identifies a potential mechanism for both acquiring and overcoming CHK1i resistance in cancer patients.

Published

2021

20. Non-invasive synchronous monitoring of neutrophil migration using whole body near-infrared fluorescence-based imaging

Author

Saimir Luli, Fiona Oakley, Jack Leslie, and Stuart Robinson

Subjects

0301 basic medicine, Fluorescence-lifetime imaging microscopy, Cell type, Fluorophore, Neutrophils, Science, Cell, Article, Fluorescence imaging, Optical imaging, 030218 nuclear medicine & medical imaging, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Cell Movement, In vivo, Microscopy, medicine, Animals, Fluorescent Dyes, Mice, Knockout, Multidisciplinary, Spectral signature, Chemotaxis, Fluorescence, 030104 developmental biology, medicine.anatomical_structure, Microscopy, Fluorescence, chemistry, Cell Tracking, Biophysics, Imaging the immune system, Medicine

Abstract

Advances in fluorescence imaging coupled with the generation of near infrared probes have significantly improved the capabilities of non-invasive, real-time imaging in whole animals. In this study we were able to overcome a limitation of in vivo fluorescence imaging and have established a dual cell tracking method where two different cell types can be monitored according to the spectral signature of the cell labelling fluorophore. Using a mouse model of acute liver injury, we have characterised the in vivo migration patterns of wild type and transgenic neutrophils with impaired chemotaxis. Here, we were able to demonstrate that IVIS provides a sensitive multiplexing technology to differentiate two different cell populations based on the spectral signature of the cell labelling fluorophores. This spectral unmixing methodology has the potential to uncover multidimensional cellular interactions involved in many diseases such as fibrosis and cancer. In vivo spectral un-mixing provides a useful tool for monitoring multiple biological process in real-time in the same animal.

Published

2021

21. Imaging the root–rhizosphere interface using micro computed tomography: quantifying void ratio and root volume ratio profiles

Author

Saimir Luli, Vasileios Angelidakis, Tomás Lascurain, and S Nadimi

Subjects

0303 health sciences, Rhizosphere, Physics, QC1-999, 0211 other engineering and technologies, Bulk soil, Root (chord), Compaction, Soil science, 02 engineering and technology, complex mixtures, 03 medical and health sciences, Void ratio, Soil structure, Tomography, Root volume, 030304 developmental biology, 021101 geological & geomatics engineering

Abstract

Root growth alters soil fabric and consequently its mechanical and physical properties. Recent studies show that roots induce compaction of soil in their immediate vicinity, a region that is central for plant health. However, high quality quantification of root influence on the soil fabric, able to inform computational models is lacking from the literature. This study quantifies the relationship between soil physical characteristics and root growth, giving special emphasis on how roots in early stage formation influence the physical architecture of the surrounding soil structure. High-resolution X-ray micro-Computed Tomography (µCT) is used to acquire three dimensional images of two homogeneously-packed samples. It is observed that the void ratio profile extending from the soil-root interface into the bulk soil is altered by root growth. The roots considerably modify the immediate soil physical characteristics by creating micro cracks at the soil-root interface and by increasing void ratio. This paper presents the mechanisms that led to the observed structure as well as some of the implications that it has in such a dynamic zone.

Published

2021

22. The development of a dual-modality (PET/NIR) radioimmunoconjugate for image-guided sarcoma surgery

Author

Toni Pringle, James Knight, Corey Chan, Helen Blair, Saimir Luli, and Kenneth Rankin

Subjects

Cancer Research, Molecular Medicine, Radiology, Nuclear Medicine and imaging

Published

2022

23. FPR-1 is an important regulator of neutrophil recruitment and a tissue-specific driver of pulmonary fibrosis

Author

Rachel A. Burgoyne, Lynne Murray, Chris Fox, Matthew A. Sleeman, Andrew J. Fisher, Donna K. Finch, David Rider, Jack Leslie, Alan M. Carruthers, Ben Millar, A. John Simpson, Jack Gauldie, Ben S. Barksby, Lee A. Borthwick, Derek A. Mann, Rachel Howarth, Fiona Oakley, Alicia del Carpio Pons, Joseph D. Frost, John Ferguson, Jon Scott, and Saimir Luli

Subjects

0301 basic medicine, Adoptive cell transfer, Neutrophils, Pulmonary Fibrosis, Immunology, Regulator, Ligands, Formyl peptide receptor 1, Bleomycin, 03 medical and health sciences, 0302 clinical medicine, Fibrosis, Pulmonary fibrosis, Animals, Humans, Medicine, Mice, Knockout, Lung, business.industry, Cell Biology, General Medicine, medicine.disease, Receptors, Formyl Peptide, 3. Good health, Mice, Inbred C57BL, 030104 developmental biology, medicine.anatomical_structure, Neutrophil Infiltration, 030220 oncology & carcinogenesis, Wound healing, business, Hepatic fibrosis, Research Article

Abstract

Neutrophils are the most abundant inflammatory cells at the earliest stages of wound healing and play important roles in wound repair and fibrosis. Formyl peptide receptor 1 (FPR-1) is abundantly expressed on neutrophils and has been shown to regulate their function, yet the importance of FPR-1 in fibrosis remains ill defined. FPR-1–deficient (fpr1–/–) mice were protected from bleomycin-induced pulmonary fibrosis but developed renal and hepatic fibrosis normally. Mechanistically, we observed a failure to effectively recruit neutrophils to the lungs of fpr1–/– mice, whereas neutrophil recruitment was unaffected in the liver and kidney. Using an adoptive transfer model we demonstrated that the defect in neutrophil recruitment to the lung was intrinsic to the fpr1–/– neutrophils, as C57BL/6 neutrophils were recruited normally to the damaged lung in fpr1–/– mice. Finally, C57BL/6 mice in which neutrophils had been depleted were protected from pulmonary fibrosis. In conclusion, FPR-1 and FPR-1 ligands are required for effective neutrophil recruitment to the damaged lung. Failure to recruit neutrophils or depletion of neutrophils protects from pulmonary fibrosis., FPR-1 is the primary receptor driving neutrophil recruitment to the injured lung, and absence of FPR-1 or depletion of neutrophils protects from pulmonary fibrosis.

Published

2020

24. c-Rel orchestrates energy-dependent epithelial and macrophage reprogramming in fibrosis

Author

Johannes L Zakrzewski, Ben S. Barksby, Jeremy French, Luc Schoonjans, Amy L Collins, Jelena Mann, Matthias Trost, Stuart Robinson, Ulf Klein, Morten A. Karsdal, Hannah L Paish, Amber Knox, Peter Carmeliet, Lee A. Borthwick, Andrew D Blanchard, Git Chung, Rainie Cameron, Neil S. Sheerin, Laure-Anne Teuwen, Ingmar Mederacke, Lucy M Gee, Colin D.A. Brown, Carmel B. Nanthakumar, Thomas G. Bird, Jack Leslie, Sandra Murphy, Robert F. Schwabe, Fiona Oakley, Marina García Macia, Xin Xu, Andrew J. Fisher, Derek A. Mann, Derek Manas, Rachel A. Burgoyne, William J Reilly, Steven A. White, Charlotte Bragg, Saimir Luli, Gourab Sen, Marco Y W Zaki, Colin Nixon, and Julie C. Worrell

Subjects

Liver Cirrhosis, Cell signaling, Phosphofructokinase-2, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, Liver fibrosis, Mitosis, Connective tissue, Epithelium, Article, Mice, Paracrine signalling, Fibrosis, Physiology (medical), Paracrine Communication, Internal Medicine, medicine, Animals, Macrophage, Monocytes and macrophages, Mice, Knockout, Chemistry, Macrophages, Growth factor, Mesenchymal stem cell, Cell Polarity, Cell Biology, medicine.disease, Proto-Oncogene Proteins c-rel, Liver Regeneration, Cell biology, Mice, Inbred C57BL, Hydroxyproline, medicine.anatomical_structure, Metabolism, Gene Targeting, Hepatocytes, REL, Cell signalling

Abstract

Fibrosis is a common pathological feature of chronic disease. Deletion of the NF-κB subunit c-Rel limits fibrosis in multiple organs, although the mechanistic nature of this protection is unresolved. Using cell-specific gene-targeting manipulations in mice undergoing liver damage, we elucidate a critical role for c-Rel in controlling metabolic changes required for inflammatory and fibrogenic activities of hepatocytes and macrophages and identify Pfkfb3 as the key downstream metabolic mediator of this response. Independent deletions of Rel in hepatocytes or macrophages suppressed liver fibrosis induced by carbon tetrachloride, while combined deletion had an additive anti-fibrogenic effect. In transforming growth factor-β1-induced hepatocytes, c-Rel regulates expression of a pro-fibrogenic secretome comprising inflammatory molecules and connective tissue growth factor, the latter promoting collagen secretion from HMs. Macrophages lacking c-Rel fail to polarize to M1 or M2 states, explaining reduced fibrosis in RelΔLysM mice. Pharmacological inhibition of c-Rel attenuated multi-organ fibrosis in both murine and human fibrosis. In conclusion, activation of c-Rel/Pfkfb3 in damaged tissue instigates a paracrine signalling network among epithelial, myeloid and mesenchymal cells to stimulate fibrogenesis. Targeting the c-Rel-Pfkfb3 axis has potential for therapeutic applications in fibrotic disease. ispartof: NATURE METABOLISM vol:2 issue:11 ispartof: location:Germany status: published

Published

2020

25. Loss of Endothelial Endoglin Promotes High-Output Heart Failure Through Peripheral Arteriovenous Shunting Driven by VEGF Signaling

Author

Yixin Wang, Simon Tual-Chalot, Allan Lawrie, Esha Singh, Maria Garcia-Collado, Catherine Park, Hua Lin, Rachael Redgrave, Benjamin J. Davison, Saimir Luli, Lars Jakobsson, Yi Jin, and Helen M. Arthur

Subjects

Male, Vascular Endothelial Growth Factor A, Physiology, Blood Pressure, Bone morphogenetic protein, Arteriovenous Malformations, Mice, Medicine, VEGF signaling, Animals, Arteriovenous shunting, Cardiac and Cardiovascular Systems, arteriovenous malformations, High-output heart failure, Cell Proliferation, Original Research, Heart Failure, endoglin, Kardiologi, business.industry, hypoxia, Endothelial Cells, Endoglin, Hypoxia (medical), Vascular Endothelial Growth Factor Receptor-2, endothelial cells, Peripheral, Mice, Inbred C57BL, Vascular Disorder, Cancer research, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, Female, vascular diseases, Endothelium, Vascular, medicine.symptom, Cardiology and Cardiovascular Medicine, business, Signal Transduction

Abstract

Supplemental Digital Content is available in the text., Rationale: ENG (endoglin) is a coreceptor for BMP (bone morphogenetic protein) 9/10 and is strongly expressed in endothelial cells. Mutations in ENG lead to the inherited vascular disorder hereditary hemorrhagic telangiectasia characterized by local telangiectases and larger arteriovenous malformations (AVMs); but how ENG functions to regulate the adult vasculature is not understood. Objective: The goal of the work was to determine how ENG maintains vessel caliber in adult life to prevent AVM formation and thereby protect heart function. Methods and Results: Genetic depletion of endothelial Eng in adult mice led to a significant reduction in mean aortic blood pressure. There was no evidence of hemorrhage, anemia, or AVMs in major organs to explain the reduced aortic pressure. However, large AVMs developed in the peripheral vasculature intimately associated with the pelvic cartilaginous symphysis—a noncapsulated cartilage with a naturally high endogenous expression of VEGF (vascular endothelial growth factor). The increased blood flow through these peripheral AVMs explained the drop in aortic blood pressure and led to increased cardiac preload, and high stroke volumes, ultimately resulting in high-output heart failure. Development of pelvic AVMs in this region of high VEGF expression occurred because loss of ENG in endothelial cells leads to increased sensitivity to VEGF and a hyperproliferative response. Development of AVMs and associated progression to high-output heart failure in the absence of endothelial ENG was attenuated by targeting VEGF signaling with an anti-VEGFR2 (VEGF receptor 2) antibody. Conclusions: ENG promotes the normal balance of VEGF signaling in quiescent endothelial cells to maintain vessel caliber—an essential function in conditions of increased VEGF expression such as local hypoxia or inflammation. In the absence of endothelial ENG, increased sensitivity to VEGF drives abnormal endothelial proliferation in local regions of high VEGF expression, leading to AVM formation and a rapid injurious impact on heart function.

Published

2020

26. Author Correction: c-Rel orchestrates energy-dependent epithelial and macrophage reprogramming in fibrosis

Author

Luc Schoonjans, Git Chung, Rainie Cameron, Hannah L Paish, Rachel A. Burgoyne, Colin Nixon, Julie C. Worrell, Steven A. White, Matthias Trost, Derek Manas, Thomas G. Bird, Xin Xu, Stuart Robinson, Andrew J. Fisher, Ingmar Mederacke, Charlotte Bragg, Saimir Luli, Lucy M Gee, Ben S. Barksby, Colin D.A. Brown, Jack Leslie, Jeremy French, Neil S. Sheerin, Amy L Collins, Morten A. Karsdal, Andrew D Blanchard, Marco Y W Zaki, Gourab Sen, Robert F. Schwabe, Fiona Oakley, Peter Carmeliet, Amber Knox, Marina García Macia, Carmel B. Nanthakumar, Ulf Klein, Laure-Anne Teuwen, Johannes L Zakrzewski, Sandra Murphy, Lee A. Borthwick, Jelena Mann, Derek A. Mann, and William J Reilly

Subjects

Energy dependent, Cell signaling, business.industry, Endocrinology, Diabetes and Metabolism, Liver fibrosis, Human kidney, Cell Biology, medicine.disease, Fibrosis, Physiology (medical), Internal Medicine, Cancer research, Medicine, Macrophage, business, REL, Reprogramming

Abstract

Correction to: Nature Metabolism https://doi.org/10.1038/s42255-020-00306-2, published online 9 November 2020. In the version of this article initially published, in the ×40 diseased human kidney images in Supplementary Fig. 1, the FSGS image duplicated the DN image. The error has been corrected in the HTML version of the article.

Published

2020

27. 6089Increased vascular endothelial growth factor signalling following loss of endothelial endoglin leads to peripheral arteriovenous shunting and high output heart failure

Author

M Garcia-Collado, Simon Tual-Chalot, Esha Singh, Benjamin J. Davison, Helen M. Arthur, Lars Jakobsson, Yi Jin, Rachael Redgrave, Yixin Wang, Saimir Luli, and Allan Lawrie

Subjects

medicine.medical_specialty, business.industry, Endoglin, Peripheral, Vascular endothelial growth factor, chemistry.chemical_compound, Signalling, chemistry, Internal medicine, Cardiology, Medicine, Arteriovenous shunting, Cardiology and Cardiovascular Medicine, business, High-output heart failure

Abstract

Background Endoglin is a co-receptor for TGFbeta/BMP9/10 signalling and ENG mutations lead to the vascular disorder hereditary haemorrhagic telangiectasia type I (HHT). Endoglin is also required for normal vascular development and angiogenesis, but little is known about endoglin's role in quiescent adult vascular endothelium. Purpose The goal of this present study is to determine how endoglin maintains vessel calibre in adult life to prevent AVM formation and thereby protect heart function. Methods To investigate this role, tamoxifen was administered to adult Cdh5(PAC)-CreERT2; Engfl/fl mice to generate endothelial-specific depletion of endoglin (Eng-iKOe). Cardiac magnetic resonance imaging, myography, vascular casting, microsphere injection, immunohistology, qPCR and aortic telemetry were used to evaluate cardiovascular changes after endoglin knockdown. Results Endothelial-specific loss of endoglin leads to an enlarged heart and cardiomyocyte hypertrophy within 5 weeks, progressing to high output heart failure (HOHF). In vivo aortic telemetry revealed significant loss of aortic pressure within a few days of endoglin depletion. Increased cardiac size and reduced cardiac afterload were confirmed by ventricular pressure loop analysis. As HOHF could result from arteriovenous malformations (AVMs), and these are found primarily in mucocutaneous and pulmonary tissues in HHT, we systematically screened for AVMs using microspheres and vascular casting. Although AVMs were absent in the majority of tissues, they were observed in the pelvic region and may account for the rapid increase in cardiac output. The pelvic cartilaginous symphysis is a noncapsulated cartilage with a naturally high endogenous expression of vascular endothelial growth factor (VEGF). Development of pelvic AVMs in this region of high VEGF expression occurred because loss of endoglin in endothelial cells leads to increased sensitivity to VEGF and a hyper-proliferative response. Finally, we found that inhibition of VEGFR2 was protective against AVMs development, enlargement of the heart and dilatation of the ventricles. Conclusion Our results showed the essential role of endoglin in the maintenance of adult cardio-vasculature through crosstalk with the VEGF signalling pathway. Acknowledgement/Funding British Heart Foundation, Cure HHT, The Swedish Research Council, The Cardiovascular Programme at Karolinska Institutet, The Swedish Cancer Society

Published

2019

28. Enhanced in vivo Optical Imaging of the Inflammatory Response to Acute Liver Injury in C57BL/6 Mice Using a Highly Bright Near-Infrared BODIPY Dye

Author

Fiona Oakley, Dumitru Sirbu, Andrew C. Benniston, Jack Leslie, and Saimir Luli

Subjects

C57BL/6, Boron Compounds, Models, Molecular, Neutrophils, Cell, Acute Lung Injury, Inflammation, 01 natural sciences, Biochemistry, Cell Line, chemistry.chemical_compound, In vivo, Drug Discovery, medicine, Animals, General Pharmacology, Toxicology and Pharmaceutics, Fluorescent Dyes, Pharmacology, biology, 010405 organic chemistry, Organic Chemistry, Optical Imaging, Cell sorting, biology.organism_classification, Flow Cytometry, Fluorescence, 0104 chemical sciences, Mice, Inbred C57BL, 010404 medicinal & biomolecular chemistry, Disease Models, Animal, medicine.anatomical_structure, chemistry, Liver, Biophysics, Molecular Medicine, BODIPY, medicine.symptom, Preclinical imaging

Abstract

Delving deeper is possible in whole-body in vivo imaging using a super-bright membrane-targeting BODIPY dye (BD). The dye was used to monitor homing of ex vivo fluorescently labelled neutrophils to an injured liver of dark-pigmented C57BL/6 mice. In vivo imaging system (IVIS) data conclusively showed an enhanced signal intensity and a higher signal-to-noise ratio in mice receiving neutrophils labelled with the BD dye relative to those labelled with a gold standard dye at 2 h post in vivo administration of fluorescently labelled cells. Fluorescence-activated cell sorting (FACS) confirmed that BD is nontoxic, and an exceptional cell labelling dye that opens up precision deep-organ in vivo imaging of inflammation in mice routinely used for biomedical research. The origin of enhanced performance is identified with the molecular structure and the distinct localisation of the dye within cells that enable remarkable changes in its optical parameters.

Published

2019

29. Fibrogenic Activity of MECP2 Is Regulated by Phosphorylation in Hepatic Stellate Cells

Author

Amber Knox, Jelena Mann, Marina García-Macia, Laura Sabater, Eva Morán-Salvador, Agata Page, Fiona Oakley, Marco Y W Zaki, Saimir Luli, Ashwin Sivaharan, and Derek A. Mann

Subjects

0301 basic medicine, Male, WT, wild type, DNA Repair, Methyl-CpG-Binding Protein 2, Liver Cirrhosis, Experimental, Transcriptome, BrdU, bromodeoxyuridine, MTT, 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide, 0302 clinical medicine, lncRNA, MCM, maintenance protein complex, PCA, principal components analysis, CCl4, carbon tetrachloride, Serine, Epigenetic Factor, Phosphorylation, APAP, N-acetyl-ρ-aminophen, Carbon Tetrachloride, TGF, transforming growth factor, Cells, Cultured, Mice, Knockout, Kinase, Gastroenterology, Long non-coding RNA, mRNA, messenger RNA, 3. Good health, Cell biology, ECM, extracellular matrix, MMP, matrix metalloproteinase, 030211 gastroenterology & hepatology, Collagen, Chemical and Drug Induced Liver Injury, HSC, hepatic stellate cells, Signal Transduction, DNA Replication, congenital, hereditary, and neonatal diseases and abnormalities, α-SMA, α–smooth muscle actin, DNA repair, Biology, SEM, standard error of the mean, KEGG, Kyoto Encyclopedia of Genes and Genomes, Article, 03 medical and health sciences, Minichromosome maintenance, mental disorders, Hepatic Stellate Cells, Animals, Gene, Acetaminophen, Cell Proliferation, IPA, Ingenuity Pathway Analysis, Myofibroblast, Hepatology, MCM, qRT-PCR, quantitative reverse-transcription polymerase chain reaction, nervous system diseases, IL, interleukin, Mice, Inbred C57BL, 030104 developmental biology, siRNA, small interfering RNA, Hepatic stellate cell, lncRNA, long noncoding RNA

Abstract

Background & Aims Methyl-CpG binding protein 2, MECP2, which binds to methylated regions of DNA to regulate transcription, is expressed by hepatic stellate cells (HSCs) and is required for development of liver fibrosis in mice. We investigated the effects of MECP2 deletion from HSCs on their transcriptome and of phosphorylation of MECP2 on HSC phenotype and liver fibrosis. Methods We isolated HSCs from Mecp2–/y mice and wild-type (control) mice. HSCs were activated in culture and used in array analyses of messenger RNAs and long noncoding RNAs. Kyoto Encyclopedia of Genes and Genomes pathway analyses identified pathways regulated by MECP2. We studied mice that expressed a mutated form of Mecp2 that encodes the S80A substitution, MECP2S80, causing loss of MECP2 phosphorylation at serine 80. Liver fibrosis was induced in these mice by administration of carbon tetrachloride, and liver tissues and HSCs were collected and analyzed. Results MECP2 deletion altered expression of 284 messenger RNAs and 244 long noncoding RNAs, including those that regulate DNA replication; are members of the minichromosome maintenance protein complex family; or encode CDC7, HAS2, DNA2 (a DNA helicase), or RPA2 (a protein that binds single-stranded DNA). We found that MECP2 regulates the DNA repair Fanconi anemia pathway in HSCs. Phosphorylation of MECP2S80 and its putative kinase, HIPK2, were induced during transdifferentiation of HSCs. HSCs from MECP2S80 mice had reduced proliferation, and livers from these mice had reduced fibrosis after carbon tetrachloride administration. Conclusions In studies of mice with disruption of Mecp2 or that expressed a form of MECP2 that is not phosphorylated at S80, we found phosphorylation of MECP2 to be required for HSC proliferation and induction of fibrosis. In HSCs, MECP2 regulates expression of genes required for DNA replication and repair. Strategies to inhibit MECP2 phosphorylation at S80 might be developed for treatment of liver fibrosis.

Published

2018

30. Regulation of checkpoint kinase signalling and tumorigenesis by the NF-κB regulated gene, CLSPN

Author

Neil D. Perkins, Kirsteen J. Campbell, Saimir Luli, Ian Collins, Adam Moore, Michelle D. Garrett, Benjamin E. Gewurz, Niall S. Kenneth, Achilleas Floudas, Jill E. Hunter, Robson T Chiremba, Huw D. Thomas, Jacqueline Butterworth, Andrew M. Knight, Fiona Oakley, Dina Tiniakos, and Hélène Sellier

Subjects

Genome instability, Cell signaling, Kinase, Cancer cell, medicine, Cancer research, Cancer, Biology, medicine.disease, Carcinogenesis, medicine.disease_cause, CLSPN Gene, CLSPN

Abstract

Inhibition of the tumour promoting activities of NF-κB by cell signalling pathways has been proposed as a natural mechanism to limit the development of cancer. However, there has been a lack of evidence for these effects in vivo. Here we report that RelAT505A mice, where a CHK1 targeted Thr505 phosphosite is mutated to alanine, display earlier onset of MYC driven lymphoma than wild type littermates. We describe a positive feedback loop in which the NF-κB subunits RelA and c-Rel, in a manner dependent upon RelA Thr505 phosphorylation, drive the expression of the ATR checkpoint kinase regulator Claspin in response to DNA replication stress in cancer cells. This in turn is required for maintenance of CHK1 activity. Loss of a single allele of the Clspn gene in mice is sufficient to drive earlier tumorigenesis and low levels of CLSPN mRNA expression are associated with worse survival in some forms of human cancer. We propose that loss of this pathway early in tumorigenesis promotes cancer development through increased genomic instability. However, in malignant cancer cells it can help promote their addiction to the checkpoint kinase signalling required for the maintenance of genomic integrity. Importantly, disruption of this pathway leads to resistance of cells to treatment with CHK1 inhibitors. Claspin expression could therefore act as a biomarker for responsiveness of patients to CHK1 inhibitors and provide a potential pathway for the development of tumour resistance.

Published

2018

31. PS-121-Obeticholic acid limits cholestasis induced cognitive decline by maintaining blood-brain barrier integrity and preserving neuronal health

Author

Diana Jurk, Elizabeth A. Stoll, Saimir Luli, Claire Richardson, Ben Millar, Marco Y W Zaki, Fiona Oakley, Fiona E. N. LeBeau, David Jones, Lucy M Gee, and Jack Leslie

Subjects

medicine.medical_specialty, Hepatology, business.industry, Obeticholic acid, medicine.disease, Blood–brain barrier, chemistry.chemical_compound, medicine.anatomical_structure, Endocrinology, Cholestasis, chemistry, Internal medicine, medicine, Cognitive decline, business

Published

2019

32. THU-009-High throughput RNA sequencing unravels pathways associated with cognitive deficit in primary billiary cholangitis

Author

Marco Youssef, David Jones, Lucy M Gee, Graham Smith, Saimir Luli, Claire Richardson, William Zaki, and Fiona Oakley

Subjects

High-Throughput RNA Sequencing, Primary (chemistry), Hepatology, medicine, Computational biology, Biology, medicine.symptom, Cognitive deficit

Published

2019

33. Parallel 6: Imaging and Noninvasive Markers of Liver Disease

Author

Di, Paolo, D, Colin H Wilson, Matthew C. Wright, Saimir Luli, Helen Brown, Derek A. Mann, Fiona Oakley, and Mirco Ponzoni

Subjects

Pathology, medicine.medical_specialty, Hepatology, Response to therapy, business.industry, Liver fibrosis, Non invasive, medicine, Fluorescent imaging, business

Published

2015

34. Inhibition of RelA‐Ser536 phosphorylation by a competing peptide reduces mouse liver fibrosis without blocking the innate immune response

Author

Derek A. Mann, Steven O'Reilly, Lee A. Borthwick, Andrew J. Fisher, Neil D. Perkins, Fiona Oakley, Anna Moles, Alastair D. Burt, Lindsay B. Murphy, Saimir Luli, Ana Maria Sanchez, Jacob M van Laar, Paul S. Banks, and Steven A. White

Subjects

Adult, Lipopolysaccharides, Liver Cirrhosis, Male, medicine.medical_specialty, Transcription Factor RelA, IκB kinase, Biology, Mice, 03 medical and health sciences, 0302 clinical medicine, Fibrosis, Internal medicine, Serine, medicine, Animals, Humans, Phosphorylation, 030304 developmental biology, 0303 health sciences, Hepatology, Carbon Tetrachloride Poisoning, RELB, Fibroblasts, Liver Injury/Regeneration, medicine.disease, Immunity, Innate, Peptide Fragments, Liver regeneration, I-kappa B Kinase, 3. Good health, Cell biology, IκBα, Endocrinology, 030220 oncology & carcinogenesis, Hepatic stellate cell, Signal transduction

Abstract

Liver fibrosis is characterized by excessive deposition of collagenous scar tissue after persistent liver damage. The primary liver-scar–forming cell is the hepatic myofibroblast (HM), which is derived from quiescent hepatic stellate cells (qHSCs).1 Liver injury instructs qHSCs to undergo a transdifferentiation program from retinoid-storing cells into HMs, which produce collagen I and enzymes, which prevent collagen degradation, the tissue inhibitors of matrix metalloproteinase.1 Continued damage causes perpetuation of the HM phenotype and an imbalance in the deposition and breakdown of fibrotic matrix and, ultimately, the progression of liver fibrosis. Fibrosis in both rodents and humans is a dynamic process that can reverse, as well as progress,2 and removal of the injury stimulus or promoting HM apoptosis is associated with fibrolysis.3,4 Nuclear factor kappa light-chain enhancer of activated B cells (NF-κB) is a transcription factor that contains five subunits, RelA (p65), p50, c-Rel, RelB, and p52, which form either homo-or heterodimers to bind DNA. NF-κB is a master regulator of essential cellular functions, including cell cycle, survival, and immunity.5,6 The pathway is activated by canonical (RelA, p50, and c-Rel subunits) or noncanonical (RelB and p52 subunit) signaling.5 In unstimulated cells, canonical NF-κB is predominantly bound to its inhibitor (IκBα) and retained in the cytoplasm. Stimulation by an appropriate signal, for example, tumor necrosis factor alpha (TNF-α) or lipopolysaccharide (LPS), promotes IκB kinase (IKK)-dependent degradation of IκBα, nuclear translocation of NF-κB, and subsequent DNA binding. In the noncanonical pathway, RelB is bound to p100, the precursor of p52. Stimulation by CD40 or lymphotoxin activates NF-κB-inducing kinase, which then activates IKKα. This promotes the phosphorylation and polyubiquitination of p100, which is then degraded by the proteasome, releasing active p52/RelB. Canonical NF-κB signaling influences liver fibrosis and promotes HM survival. In models of liver damage, mice lacking nfkb1 (p105/p50) develop severe inflammation and fibrosis,7 whereas crel knockout mice develop less fibrosis, but have impaired liver regeneration, compared to wild-type controls.8 Pharmacological blockade of NF-κB in HM promotes their apoptosis and enhanced reversal of liver fibrosis.9,10 However, long-term global NF-κB blockade may alter immune responses or cause cancer.11,12 In HM, NF-κB is constitutively active. Deregulation of healthy NF-κB activity is controlled by at least two reprogramming events that occur during HSC transdifferentiation. The first is persistent down-regulation in IκBα levels, which is mediated by epigenetic changes,13 and the second is phosphorylation of RelA at serine 536 (RelA-P-Ser536).9 This post-translational modification promotes RelA nuclear translocation and increases the ability of RelA-containing dimers to interact with coactivators as well as the transcriptional machinery to enhance the transactivation potential of RelA in multiple cells.14–16 RelA-P-Ser536 is a feature of HM in culture and diseased human liver and can be controlled by autocrine renin-angiotensin system (RAS) signaling.9 However, angiotensin blockade does not completely inhibit RelA-P-Ser536 in cultured HM, suggesting that other stimuli or signaling pathways regulate RelA-P-Ser536. Here, we report that in human HM, as with other cells, this modification can be induced by TNF-α stimulation.15,17 We show that a cell-permeable RelA-P-Ser536 competing peptide (P6) inhibits RelA-P-Ser536 in HM, both in vitro and in vivo, and has antifibrotic, but not anti-inflammatory, effects in multiple models of liver injury.

Published

2013

35. A new fluorescence-based optical imaging method to non-invasively monitor hepatic myofibroblasts in vivo

Author

Saimir, Luli, Daniela, Di Paolo, Patrizia, Perri, Chiara, Brignole, Stephen J, Hill, Helen, Brown, Jack, Leslie, H L, Marshall, Matthew C, Wright, Derek A, Mann, Mirco, Ponzoni, and Fiona, Oakley

Subjects

Liver Cirrhosis, Mouse, ALT, alanine transaminase, ROI, region of interest, AST, aspartate aminotransferase, HM, hepatic myofibroblast, BDL, bile duct ligation, CCl4, chronic carbon tetrachloride, Fluorescence, αSMA, alpha-smooth muscle actin, Mice, DOX, Doxorubin, PBS, phosphate buffered saline, Non-invasive imaging, Animals, Humans, Myofibroblasts, ComputingMethodologies_COMPUTERGRAPHICS, ALP, alkaline phosphatase, Cell-targeting, SYN, synaptophysin, WT, wild-type, Fibrosis, Hepatic myofibroblasts, Liver, Bile Ducts, ScAb, single chain antibody, NIR, near infra-red, Research Article

Abstract

Graphical abstract, Background & Aims Currently, staging of fibrosis in preclinical rodent liver fibrosis models is achieved histologically. Many animals are used at multiple time-points to assess disease progression or therapeutic responses. Hepatic myofibroblasts promote liver fibrosis therefore quantifying these cells in vivo could assess disease or predict therapeutic responses in mice. We fluorescently labelled a single chain antibody (C1-3) that binds hepatic myofibroblasts to monitor fibrogenesis in vivo. Methods CCl4 was used to induce acute liver injury in WT and cRel−/− mice. Bile duct ligation was used to model chronic fibrosis. Hepatic myofibroblasts were depleted using a liposome-drug delivery system or chemically with sulfasalazine. An IVIS® spectrum visualised fluorophore-conjugated C1-3 in vivo. Results IVIS detection of fluorescently labelled-C1-3 but not a control antibody discriminates between fibrotic and non-fibrotic liver in acute and chronic liver fibrosis models. cRel−/− mice have a fibro-protective phenotype and IVIS signal is reduced in CCl4 injured cRel−/− mice compared to wild-type. In vivo imaging of fluorescently labelled-C1-3 successfully predicts reductions in hepatic myofibroblast numbers in fibrotic liver disease in response to therapy. Conclusions We report a novel fluorescence imaging method to assess murine hepatic myofibroblast numbers in vivo during liver fibrosis and after therapy. We also describe a novel liposomal antibody targeting system to selectively deliver drugs to hepatic myofibroblasts in vivo. C1-3 binds human hepatic myofibroblast therefore imaging labelled-C1-3 could be used for clinical studies in man to help stage fibrosis, demonstrate efficacy of drugs that promote hepatic myofibroblast clearance or predict early therapeutic responses. Lay summary In response to damage and injury scars develop in the liver and the main cell that makes the scar tissue is the hepatic myofibroblast (HM). C1-3 is an antibody fragment that binds to the scar forming HM. We have fluorescently labelled C1-3 and given it to mice that have either normal or scarred livers (which contain HM) and then used a machine called an in vivo imaging system (IVIS) that takes pictures of different wavelengths of light, to visualise the antibody binding to HM inside the living mouse. Using fluorescently labelled C1-3 we can assess HM numbers in the injured liver and monitor response to therapy. We have also used C1-3 to target drugs encapsulated in lipid carriers (liposomes) to the HM to kill the HM and reduce the liver disease.

Published

2015

36. P1031 A SIMPLE FLUORESCENCE BASED METHOD TO NON-INVASIVELY IMAGE LIVER FIBROSIS

Author

Fiona Oakley, Derek A. Mann, Stephen J. Hill, Matthew C. Wright, Caroline L. Wilson, and Saimir Luli

Subjects

Hepatology, Simple (abstract algebra), Chemistry, Liver fibrosis, Fluorescence, Biomedical engineering

Published

2014