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2. Karta seismichnosti tikhookeanskogo podvizhnogo poiasa i Tikhogo Okeana (1896-1968) = The map of the seismicity of the Pacific mobile belt and the Pacific Ocean. Editor in L.I. Krasny, V.V. Fedymsky ... 1973. Ministry of Geology of the USSR = Ministerstova Geologii SSSR. Moscva 1976.

Author

Ministerstvo geologii, VSEGEI, Krasny, L. I., Fedynsky, V.V., and Soviet Union. Ministerstvo geologii.

Subjects
Geology, Physical geography
Abstract

1 color map of the Pacific Ocean in 9 sheets, each 65x76. Map was made in 1973, this is 1976 edition in Russian and English. Showing the seismic activities measured between 1896 and 1968. The map shows the seismic activity and plate tectonics of the entire Pacific region, including North and South America and the islands of Southeast Asia. Includes legend, tables, notations and graphs. Relief shown by contours and spot height.

Published
1976

3. (Composite map) Karta seismichnosti tikhookeanskogo podvizhnogo poiasa i Tikhogo Okeana (1896-1968) = The map of the seismicity of the Pacific mobile belt and the Pacific Ocean. Editor in L.I. Krasny, V.V. Fedymsky ... 1973. Ministry of Geology of the USSR = Ministerstova Geologii SSSR. Moscva 1976.

Author

Ministerstvo geologii, VSEGEI, Krasny, L. I., Fedynsky, V.V., and Soviet Union. Ministerstvo geologii.

Subjects
Geology, Physical geography
Abstract

Composite of sheets 1-9, color map of the Pacific Ocean in 9 sheets, each 65x76. Map was made in 1973, this is 1976 edition in Russian and English. Showing the seismic activities measured between 1896 and 1968. The map shows the seismic activity and plate tectonics of the entire Pacific region, including North and South America and the islands of Southeast Asia. Includes legend, tables, notations and graphs. Relief shown by contours and spot height.

Published
1976

5. 3D Functional Genomics Screens Identify CREBBP as a Targetable Driver in Aggressive Triple-Negative Breast Cancer.

Author

Peck, B, Bland, P, Mavrommati, I, Muirhead, G, Cottom, H, Wai, PT, Maguire, SL, Barker, HE, Morrison, E, Kriplani, D, Yu, L, Gibson, A, Falgari, G, Brennan, K, Farnie, G, Buus, R, Marlow, R, Novo, D, Knight, E, Guppy, N, Kolarevic, D, Susnjar, S, Milijic, NM, Naidoo, K, Gazinska, P, Roxanis, I, Pancholi, S, Martin, L-A, Holgersen, EM, Cheang, MCU, Noor, F, Postel-Vinay, S, Quinn, G, McDade, S, Krasny, L, Huang, P, Daley, F, Wallberg, F, Choudhary, JS, Haider, S, Tutt, AN, Natrajan, R, Peck, B, Bland, P, Mavrommati, I, Muirhead, G, Cottom, H, Wai, PT, Maguire, SL, Barker, HE, Morrison, E, Kriplani, D, Yu, L, Gibson, A, Falgari, G, Brennan, K, Farnie, G, Buus, R, Marlow, R, Novo, D, Knight, E, Guppy, N, Kolarevic, D, Susnjar, S, Milijic, NM, Naidoo, K, Gazinska, P, Roxanis, I, Pancholi, S, Martin, L-A, Holgersen, EM, Cheang, MCU, Noor, F, Postel-Vinay, S, Quinn, G, McDade, S, Krasny, L, Huang, P, Daley, F, Wallberg, F, Choudhary, JS, Haider, S, Tutt, AN, and Natrajan, R

Abstract

Triple-negative breast cancers (TNBC) are resistant to standard-of-care chemotherapy and lack known targetable driver gene alterations. Identification of novel drivers could aid the discovery of new treatment strategies for this hard-to-treat patient population, yet studies using high-throughput and accurate models to define the functions of driver genes in TNBC to date have been limited. Here, we employed unbiased functional genomics screening of the 200 most frequently mutated genes in breast cancer, using spheroid cultures to model in vivo-like conditions, and identified the histone acetyltransferase CREBBP as a novel tumor suppressor in TNBC. CREBBP protein expression in patient tumor samples was absent in 8% of TNBCs and at a high frequency in other tumors, including squamous lung cancer, where CREBBP-inactivating mutations are common. In TNBC, CREBBP alterations were associated with higher genomic heterogeneity and poorer patient survival and resulted in upregulation and dependency on a FOXM1 proliferative program. Targeting FOXM1-driven proliferation indirectly with clinical CDK4/6 inhibitors (CDK4/6i) selectively impaired growth in spheroids, cell line xenografts, and patient-derived models from multiple tumor types with CREBBP mutations or loss of protein expression. In conclusion, we have identified CREBBP as a novel driver in aggressive TNBC and identified an associated genetic vulnerability in tumor cells with alterations in CREBBP and provide a preclinical rationale for assessing CREBBP alterations as a biomarker of CDK4/6i response in a new patient population. SIGNIFICANCE: This study demonstrates that CREBBP genomic alterations drive aggressive TNBC, lung cancer, and lymphomas and may be selectively treated with clinical CDK4/6 inhibitors.

Published
2021

13. Subunit interaction in cyclic AMP-dependent protein kinase of mutant lymphoma cells.

Author

Hochman, J, Bourne, H R, Coffino, P, Insel, P A, Krasny, L, and Melmon, K L

Abstract

We have previously selected and characterized mutant S49 mouse lymphoma cells that possess an adenosine 3':5'-cyclic monophosphate (cAMP)-dependent protein kinase (ATP:protein phosphotransferase, EC 2.7.1.37) with an increased apparent affinity constant (Ka) for activation by cAMP. The Ka lesion in one such mutant clone has been shown to result from a structural mutation involving the kinase holoenzyme's regulatory (R) subunit. The present report examines the interaction of R and catalytic (C) subunits of the kinases in extracts of the mutant cells and the normal "wild type" (WT) parental line. Subunit recombination experiments were performed, by using purified WT and mutant R subunits, and C subunits purified from WT cells. As compared to WT R subunits, only 1/6 as much mutant R subunit was required to reassociate with and suppress 50% of C subunit activity, at equilibrium. NaSCN activates cAMP-dependent kinase of both cell types by causing the holoenzyme to dissociate. In comparison with WT, a 2-fold higher concentration of NaSCN is required to maximally activate the kinase in mutant extracts. Both the reassociation result and the increased resistance of the mutant enzyme to a nonspecific dissociating agent strongly suggest that the mutant R subunit binds C subunit more tightly than does the WT R subunit. This interpretation raises the possibility that increased R-C subunit binding affinity in the mutant cell is responsible for the increased Ka for activation by cAMP of the mutant holoenzyme, and thus for the decreased potency of cAMP in regulating intact mutant cells.

Published
1977
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14. Crosstalk with lung fibroblasts shapes the growth and therapeutic response of mesothelioma cells.

Author

Chrisochoidou Y, Roy R, Farahmand P, Gonzalez G, Doig J, Krasny L, Rimmer EF, Willis AE, MacFarlane M, Huang PH, Carragher NO, Munro AF, Murphy DJ, Veselkov K, Seckl MJ, Moffatt MF, Cookson WOC, and Pardo OE

Subjects
Animals, Mice, Humans, Fibroblasts, Lung, Mesothelioma, Malignant, Mesothelioma drug therapy, Mesothelioma genetics, Cancer-Associated Fibroblasts
Abstract

Mesothelioma is an aggressive cancer of the mesothelial layer associated with an extensive fibrotic response. The latter is in large part mediated by cancer-associated fibroblasts which mediate tumour progression and poor prognosis. However, understanding of the crosstalk between cancer cells and fibroblasts in this disease is mostly lacking. Here, using co-cultures of patient-derived mesothelioma cell lines and lung fibroblasts, we demonstrate that fibroblast activation is a self-propagated process producing a fibrotic extracellular matrix (ECM) and triggering drug resistance in mesothelioma cells. Following characterisation of mesothelioma cells/fibroblasts signalling crosstalk, we identify several FDA-approved targeted therapies as far more potent than standard-of-care Cisplatin/Pemetrexed in ECM-embedded co-culture spheroid models. In particular, the SRC family kinase inhibitor, Saracatinib, extends overall survival well beyond standard-of-care in a mesothelioma genetically-engineered mouse model. In short, we lay the foundation for the rational design of novel therapeutic strategies targeting mesothelioma/fibroblast communication for the treatment of mesothelioma patients., (© 2023. The Author(s).)

Published
2023
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15. The proteomic landscape of soft tissue sarcomas.

Author

Burns J, Wilding CP, Krasny L, Zhu X, Chadha M, Tam YB, Ps H, Mahalingam AH, Lee ATJ, Arthur A, Guljar N, Perkins E, Pankova V, Jenks A, Djabatey V, Szecsei C, McCarthy F, Ragulan C, Milighetti M, Roumeliotis TI, Crosier S, Finetti M, Choudhary JS, Judson I, Fisher C, Schuster EF, Sadanandam A, Chen TW, Williamson D, Thway K, Jones RL, Cheang MCU, and Huang PH

Subjects
Humans, Proteomics, Sarcoma genetics, Hemangiosarcoma, Leiomyosarcoma genetics, Soft Tissue Neoplasms
Abstract

Soft tissue sarcomas (STS) are rare and diverse mesenchymal cancers with limited treatment options. Here we undertake comprehensive proteomic profiling of tumour specimens from 321 STS patients representing 11 histological subtypes. Within leiomyosarcomas, we identify three proteomic subtypes with distinct myogenesis and immune features, anatomical site distribution and survival outcomes. Characterisation of undifferentiated pleomorphic sarcomas and dedifferentiated liposarcomas with low infiltrating CD3 + T-lymphocyte levels nominates the complement cascade as a candidate immunotherapeutic target. Comparative analysis of proteomic and transcriptomic profiles highlights the proteomic-specific features for optimal risk stratification in angiosarcomas. Finally, we define functional signatures termed Sarcoma Proteomic Modules which transcend histological subtype classification and show that a vesicle transport protein signature is an independent prognostic factor for distant metastasis. Our study highlights the utility of proteomics for identifying molecular subgroups with implications for risk stratification and therapy selection and provides a rich resource for future sarcoma research., (© 2023. The Author(s).)

Published
2023
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16. Characterisation of a Novel Cell Line (ICR-SS-1) Established from a Patient-Derived Xenograft of Synovial Sarcoma.

Author

Kerrison WGJ, Ning J, Krasny L, Arthur A, Guljar N, Elms ML, Swain A, Jones RL, Thway K, and Huang PH

Subjects
Cell Line, Tumor, Doxorubicin pharmacology, Doxorubicin therapeutic use, Heterografts, Humans, Oncogene Proteins, Fusion metabolism, Proteomics, Sarcoma, Synovial genetics, Sarcoma, Synovial metabolism, Sarcoma, Synovial pathology, Soft Tissue Neoplasms
Abstract

Synovial sarcoma is a rare translocation-driven cancer with poor survival outcomes, particularly in the advanced setting. Previous synovial sarcoma preclinical studies have relied on a small panel of cell lines which suffer from the limitation of genomic and phenotypic drift as a result of being grown in culture for decades. Patient-derived xenografts (PDX) are a valuable tool for preclinical research as they retain many histopathological features of their originating human tumour; however, this approach is expensive, slow, and resource intensive, which hinders their utility in large-scale functional genomic and drug screens. To address some of these limitations, in this study, we have established and characterised a novel synovial sarcoma cell line, ICR-SS-1, which is derived from a PDX model and is amenable to high-throughput drug screens. We show that ICR-SS-1 grows readily in culture, retains the pathognomonic SS18::SSX1 fusion gene, and recapitulates the molecular features of human synovial sarcoma tumours as shown by proteomic profiling. Comparative analysis of drug response profiles with two other established synovial sarcoma cell lines (SYO-1 and HS-SY-II) finds that ICR-SS-1 harbours intrinsic resistance to doxorubicin and is sensitive to targeted inhibition of several oncogenic pathways including the PI3K-mTOR pathway. Collectively, our studies show that the ICR-SS-1 cell line model may be a valuable preclinical tool for studying the biology of anthracycline-resistant synovial sarcoma and identifying new salvage therapies following failure of doxorubicin.

Published
2022
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17. Proteomic Profiling Identifies Co-Regulated Expression of Splicing Factors as a Characteristic Feature of Intravenous Leiomyomatosis.

Author

Krasny L, Wilding CP, Perkins E, Arthur A, Guljar N, Jenks AD, Fisher C, Judson I, Thway K, Jones RL, and Huang PH

Abstract

Intravenous leiomyomatosis (IVLM) is a rare benign smooth muscle tumour that is characterised by intravenous growth in the uterine and pelvic veins. Previous DNA copy number and transcriptomic studies have shown that IVLM harbors unique genomic and transcriptomic alterations when compared to uterine leiomyoma (uLM), which may account for their distinct clinical behaviour. Here we undertake the first comparative proteomic analysis of IVLM and other smooth muscle tumours (comprising uLM, soft tissue leiomyoma and benign metastasizing leiomyoma) utilising data-independent acquisition mass spectrometry. We show that, at the protein level, IVLM is defined by the unique co-regulated expression of splicing factors. In particular, IVLM is enriched in two clusters composed of co-regulated proteins from the hnRNP, LSm, SR and Sm classes of the spliceosome complex. One of these clusters (Cluster 3) is associated with key biological processes including nascent protein translocation and cell signalling by small GTPases. Taken together, our study provides evidence of co-regulated expression of splicing factors in IVLM compared to other smooth muscle tumours, which suggests a possible role for alternative splicing in the pathogenesis of IVLM.

Published
2022
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18. 3D Functional Genomics Screens Identify CREBBP as a Targetable Driver in Aggressive Triple-Negative Breast Cancer.

Author

Peck B, Bland P, Mavrommati I, Muirhead G, Cottom H, Wai PT, Maguire SL, Barker HE, Morrison E, Kriplani D, Yu L, Gibson A, Falgari G, Brennan K, Farnie G, Buus R, Marlow R, Novo D, Knight E, Guppy N, Kolarevic D, Susnjar S, Milijic NM, Naidoo K, Gazinska P, Roxanis I, Pancholi S, Martin LA, Holgersen EM, Cheang MCU, Noor F, Postel-Vinay S, Quinn G, McDade S, Krasny L, Huang P, Daley F, Wallberg F, Choudhary JS, Haider S, Tutt AN, and Natrajan R

Subjects
Animals, CREB-Binding Protein genetics, Cell Proliferation genetics, Cells, Cultured, Drug Screening Assays, Antitumor methods, Female, Genomics methods, HCT116 Cells, HEK293 Cells, Humans, Mice, Mice, Inbred NOD, Mice, Nude, Molecular Targeted Therapy, Mutation, Neoplasm Invasiveness, Protein Kinase Inhibitors pharmacology, Protein Kinase Inhibitors therapeutic use, Xenograft Model Antitumor Assays, CREB-Binding Protein physiology, Carcinogenesis genetics, Triple Negative Breast Neoplasms genetics, Triple Negative Breast Neoplasms pathology
Abstract

Triple-negative breast cancers (TNBC) are resistant to standard-of-care chemotherapy and lack known targetable driver gene alterations. Identification of novel drivers could aid the discovery of new treatment strategies for this hard-to-treat patient population, yet studies using high-throughput and accurate models to define the functions of driver genes in TNBC to date have been limited. Here, we employed unbiased functional genomics screening of the 200 most frequently mutated genes in breast cancer, using spheroid cultures to model in vivo -like conditions, and identified the histone acetyltransferase CREBBP as a novel tumor suppressor in TNBC. CREBBP protein expression in patient tumor samples was absent in 8% of TNBCs and at a high frequency in other tumors, including squamous lung cancer, where CREBBP-inactivating mutations are common. In TNBC, CREBBP alterations were associated with higher genomic heterogeneity and poorer patient survival and resulted in upregulation and dependency on a FOXM1 proliferative program. Targeting FOXM1-driven proliferation indirectly with clinical CDK4/6 inhibitors (CDK4/6i) selectively impaired growth in spheroids, cell line xenografts, and patient-derived models from multiple tumor types with CREBBP mutations or loss of protein expression. In conclusion, we have identified CREBBP as a novel driver in aggressive TNBC and identified an associated genetic vulnerability in tumor cells with alterations in CREBBP and provide a preclinical rationale for assessing CREBBP alterations as a biomarker of CDK4/6i response in a new patient population. SIGNIFICANCE: This study demonstrates that CREBBP genomic alterations drive aggressive TNBC, lung cancer, and lymphomas and may be selectively treated with clinical CDK4/6 inhibitors., (©2021 American Association for Cancer Research.)

Published
2021
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19. A mouse SWATH-mass spectrometry reference spectral library enables deconvolution of species-specific proteomic alterations in human tumour xenografts.

Author

Krasny L, Bland P, Burns J, Lima NC, Harrison PT, Pacini L, Elms ML, Ning J, Martinez VG, Yu YR, Acton SE, Ho PC, Calvo F, Swain A, Howard BA, Natrajan RC, and Huang PH

Subjects
Animals, Breast Neoplasms pathology, Carcinoma, Intraductal, Noninfiltrating pathology, Cell Communication, Cell Line, Tumor, Chromatography, Liquid, Databases, Protein, Female, Heterografts, Humans, Male, Mice, Mice, Inbred C57BL, Mice, Nude, Mice, SCID, NIH 3T3 Cells, Neoplasm Transplantation, Species Specificity, Stromal Cells pathology, Tumor Microenvironment, Breast Neoplasms metabolism, Carcinoma, Intraductal, Noninfiltrating metabolism, Neoplasm Proteins metabolism, Proteome, Proteomics, Stromal Cells metabolism, Tandem Mass Spectrometry
Abstract

SWATH-mass spectrometry (MS) enables accurate and reproducible proteomic profiling in multiple model organisms including the mouse. Here, we present a comprehensive mouse reference spectral library (MouseRefSWATH) that permits quantification of up to 10,597 proteins (62.2% of the mouse proteome) by SWATH-MS. We exploit MouseRefSWATH to develop an analytical pipeline for species-specific deconvolution of proteomic alterations in human tumour xenografts (XenoSWATH). This method overcomes the challenge of high sequence similarity between mouse and human proteins, facilitating the study of host microenvironment-tumour interactions from 'bulk tumour' measurements. We apply the XenoSWATH pipeline to characterize an intraductal xenograft model of breast ductal carcinoma in situ and uncover complex regulation consistent with stromal reprogramming, where the modulation of cell migration pathways is not restricted to tumour cells but also operates in the mouse stroma upon progression to invasive disease. MouseRefSWATH and XenoSWATH open new opportunities for in-depth and reproducible proteomic assessment to address wide-ranging biological questions involving this important model organism., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2020. Published by The Company of Biologists Ltd.)

Published
2020
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20. Fibroblastic Reticular Cells Control Conduit Matrix Deposition during Lymph Node Expansion.

Author

Martinez VG, Pankova V, Krasny L, Singh T, Makris S, White IJ, Benjamin AC, Dertschnig S, Horsnell HL, Kriston-Vizi J, Burden JJ, Huang PH, Tape CJ, and Acton SE

Subjects
Extracellular Matrix immunology, Fibroblasts immunology, Lymph Nodes immunology
Abstract

Lymph nodes (LNs) act as filters, constantly sampling peripheral cues. This is facilitated by the conduit network, a tubular structure of aligned extracellular matrix (ECM) fibrils ensheathed by fibroblastic reticular cells (FRCs). LNs undergo rapid 3- to 5-fold expansion during adaptive immune responses, but these ECM-rich structures are not permanently damaged. Whether conduit flow or filtering function is affected during LN expansion is unknown. Here, we show that conduits are partially disrupted during acute LN expansion, but FRC-FRC contacts remain connected. We reveal that polarized FRCs deposit ECM basolaterally using LL5-β and that ECM production is regulated at transcriptional and secretory levels by the C-type lectin CLEC-2, expressed by dendritic cells. Inflamed LNs maintain conduit size exclusion, and flow is disrupted but persists, indicating the robustness of this structure despite rapid tissue expansion. We show how dynamic communication between peripheral tissues and LNs provides a mechanism to prevent inflammation-induced fibrosis in lymphoid tissue., (Copyright © 2019 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2019
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21. Lateral resolution in NALDI MSI: back to the future.

Author

Krasny L, Benada O, Strnadova M, Lemr K, and Havlicek V

Subjects
Animals, Diagnostic Imaging, Lasers, Mice, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization instrumentation, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods, Tandem Mass Spectrometry instrumentation, Kidney chemistry, Tandem Mass Spectrometry methods
Abstract

Nanostructure-assisted laser desorption/ionization (NALDI) has been recognized as a powerful matrix-free mass spectrometry tool ideal for imaging of small molecules. In this report, the NALDI approach was compared with matrix-assisted laser desorption/ionization (MALDI) mass spectrometry in terms of sensitivity, reproducibility, and lateral resolution, which can be achieved in mass spectrometry imaging (MSI) experiments using a Nd:YAG laser. Scanning electron microscopy was used for surface topology analysis and evaluation of a putative surface-enhanced sensitivity effect, which was observed upon reduction of the laser focus. NALDI was identified as a more reproducible technique lacking MSI artifacts arising from distant tissue removal known from MALDI oversampling.

Published
2015
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22. Fabry disease: renal sphingolipid distribution in the α-Gal A knockout mouse model by mass spectrometric and immunohistochemical imaging.

Author

Kuchar L, Faltyskova H, Krasny L, Dobrovolny R, Hulkova H, Ledvinova J, Volny M, Strohalm M, Lemr K, Kryspinova L, Asfaw B, Rybová J, Desnick RJ, and Havlicek V

Subjects
Animals, Disease Models, Animal, Fabry Disease enzymology, Fabry Disease genetics, Humans, Immunochemistry, Kidney metabolism, Mass Spectrometry, Mice, Mice, Knockout, Sphingolipids chemistry, alpha-Galactosidase genetics, alpha-Galactosidase metabolism, Fabry Disease metabolism, Kidney chemistry, Sphingolipids metabolism
Abstract

Fabry disease is an X-linked lysosomal storage disease due to deficient α-galactosidase A (α-Gal A) activity and the resultant lysosomal accumulation of globotriaosylceramide (Gb3) and related lipids primarily in blood vessels, kidney, heart, and other organs. The renal distribution of stored glycolipid species in the α-Gal A knockout mouse model was compared to that in mice to assess relative distribution and absolute amounts of accumulated sphingolipid isoforms. Twenty isoforms of five sphingolipid groups were visualized by mass spectrometry imaging (MSI), and their distribution was compared with immunohistochemical (IHC) staining of Gb3, the major stored glycosphingolipid in consecutive tissue sections. Quantitative bulk lipid analysis of tissue sections was assessed by electrospray ionization with tandem mass spectrometry (ESI-MS/MS). In contrast to the findings in wild-type mice, all three analytical techniques (MSI, IHC, and ESI-MS/MS) revealed increases in Gb3 isoforms and ceramide dihexosides (composed mostly of galabiosylceramides), respectively. To our knowledge, this is the first report of the distribution of individual molecular species of Gb3 and galabiosylceramides in kidney sections in Fabry disease mouse. In addition, the spatial distribution of ceramides, ceramide monohexosides, and sphingomyelin forms in renal tissue is presented and discussed in the context of their biosynthesis.

Published
2015
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23. An in-vitro tumour microenvironment model using adhesion to type I collagen reveals Akt-dependent radiation resistance in renal cancer cells.

Author

Krasny L, Shimony N, Tzukert K, Gorodetsky R, Lecht S, Nettelbeck DM, and Haviv YS

Subjects
Cell Adhesion, Collagen Type I, Humans, Treatment Failure, Tumor Cells, Cultured radiation effects, Carcinoma, Renal Cell pathology, Carcinoma, Renal Cell radiotherapy, Kidney Neoplasms pathology, Kidney Neoplasms radiotherapy, Oncogene Protein v-akt physiology
Abstract

Background: Renal cell carcinoma (RCC) is considered resistant to ionizing radiation. Recently, the extracellular matrix (ECM) has been shown to play a role in both drug resistance and radiation resistance (RR). While fibronectin has been extensively investigated in the context of RR, the role of type I collagen [col(I)], a principal constituent of the ECM in tumour metastases, in RR of RCC is unknown., Methods: RCC cell adhesion to matrix was studied via pre-coating a variety of ECM glycoproteins onto plates. Cancer cell apoptosis and cell cycle were evaluated with flow cytometry using annexin V and propidium iodide stains, respectively. Activation of cellular survival signalling was analysed with western blots, and specific molecular inhibitors were correspondingly employed to block signalling. Hypoxia (<1%) was induced via N(2)/CO(2) gas flow in a specialized chamber., Results: While adherence to col(I) enhanced RCC cell proliferation in general, col(I) and fibronectin, but not fibrinogen, could confer specific anti-apoptotic RR to RCC cells. The radioprotective effect of col(I) was maintained during both hypoxia/reoxygenation and normoxia conditions. In contrast to intact col(I), micronized col(I), lacking the natural fibrillar structure, was not radioprotective. The effect of col(I) in RCC cells is mediated via attenuation of apoptosis rather than cell cycle redistribution, involving the PI3 kinase/Akt pathway but not the MAP kinase pathway., Conclusions: Adherence to col(I) appears to be a relevant environmental cue enhancing RR in RCC cells, Akt dependently. Our results support inhibition of the PI3-kinase/Akt pathway as a radiosensitizing approach.

Published
2010
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24. Analysis of adenoviral attachment to human platelets.

Author

Shimony N, Elkin G, Kolodkin-Gal D, Krasny L, Urieli-Shoval S, and Haviv YS

Subjects
Adenoviridae metabolism, Blood Platelets metabolism, Cell Line, Cell Line, Tumor, Flow Cytometry, Humans, Integrins metabolism, Thrombasthenia physiopathology, Adenoviridae physiology, Blood Platelets virology, Virus Attachment
Abstract

Background: Systemic adenoviral (Ad) vector administration is associated with thrombocytopenia. Recently, Ad interaction with mouse platelets emerged as a key player determining liver uptake and platelet clearance. However, whether Ad can activate platelets is controversial. Thus, in vitro analysis of Ad attachment to platelets is of interest., Methods: We developed a direct flow cytometry assay to specifically detect Ad particles adherent to human platelets. The method was pre-validated in nucleated cells. Blocking assays were employed to specifically inhibit Ad attachment to platelets. Platelet activation was analyzed using annexin v flow cytometry., Results: We found in vitro that Ad binding to human platelets is synergistically enhanced by the combination of platelet activation by thrombin and MnCl2 supplementation. Of note, Ad binding could activate human platelets. Platelets bound Ad displaying an RGD ligand in the fiber knob more efficiently than unmodified Ad. In contrast to a previous report, CAR expression was not detected on human platelets. Integrins appear to mediate Ad binding to platelets, at least partially. Finally, alphaIIbbeta3-deficient platelets from a patient with Glanzmann thrombasthenia could bind Ad 5-fold more efficiently than normal platelets., Conclusion: The flow cytometry methodology developed herein allows the quantitative measurement of Ad attachment to platelets and may provide a useful in vitro approach to investigate Ad interaction with platelets.

Published
2009
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