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2. Nonlinear control of transcription through enhancer-promoter interactions

Author

Gregory Roth, Kohler H, Luca Giorgetti, Yinxiu Zhan, Zuin J, Mariya Kryzhanovska, Mach P, Redolfi J, Tihanyi G, Peter Meister, Cramard J, Piskadlo E, and Sébastien A. Smallwood

Subjects
Transcription (biology), Transcriptional regulation, Chromosome, Promoter, Computational biology, Biology, Enhancer, Potential mechanism
Abstract

Chromosome structure in mammals is thought to regulate transcription by modulating the three-dimensional interactions between enhancers and promoters, notably through CTCF-mediated interactions and topologically associating domains (TADs)1–4. However, how chromosome interactions are actually translated into transcriptional outputs remains unclear. To address this question we use a novel assay to position an enhancer at a large number of densely spaced chromosomal locations relative to a fixed promoter, and measure promoter output and interactions within a genomic region with minimal regulatory and structural complexity. Quantitative analysis of hundreds of cell lines reveal that the transcriptional effect of an enhancer depends on its contact probabilities with the promoter through a non-linear relationship. Mathematical modeling and validation against experimental data further provide evidence that nonlinearity arises from transient enhancer-promoter interactions being memorized into longer-lived promoter states in individual cells, thus uncoupling the temporal dynamics of interactions from those of transcription. This uncovers a potential mechanism for how enhancers control transcription across large genomic distances despite rarely meeting their target promoters, and for how TAD boundaries can block distal enhancers. We finally show that enhancer strength additionally determines not only absolute transcription levels, but also the sensitivity of a promoter to CTCF-mediated functional insulation. Our unbiased, systematic and quantitative measurements establish general principles for the context-dependent role of chromosome structure in long-range transcriptional regulation.

Published
2021
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4. Experimental validation of specificity of the SCCA-IgM assay in patients with cirrhosis

Author

Zuin, J., Veggiani, G., Pengo, Paolo, Gallotta, A., Biasiolo, A., Tono, N., Gatta, A., Pontisso, P., Toth, R., Cerin, D., Frecer, V., Meo, S., Gion, M., Fassina, G., Beneduce, L., Zuin, J., Veggiani, G., Pengo, Paolo, Gallotta, A., Biasiolo, A., Tono, N., Gatta, A., Pontisso, P., Toth, R., Cerin, D., Frecer, V., Meo, S., Gion, M., Fassina, G., and Beneduce, L.

Subjects
diagnostic assay, immunesurveillance, autoantibodies, hepatocellular carcinoma immune complexes, natural IgM, hepatocellular carcinoma immune complexe, autoantibodie, cancer biomarker, cell carcinoma antigen-immunoglobulin M
Published
2010

5. A Cohesin-Independent Role for NIPBL at Promoters Provides Insights in CdLS

Author

Zuin, J. (Jessica), Franke, V. (Vedran), IJcken, W.F.J. (Wilfred) van, Van Der Sloot, A. (Antoine), Krantz, D.H. (David), Reijden, M. (Michael) van der, Nakato, R. (Ryuichiro), Lenhard, B. (Boris), Wendt, K.S. (Kerstin), Zuin, J. (Jessica), Franke, V. (Vedran), IJcken, W.F.J. (Wilfred) van, Van Der Sloot, A. (Antoine), Krantz, D.H. (David), Reijden, M. (Michael) van der, Nakato, R. (Ryuichiro), Lenhard, B. (Boris), and Wendt, K.S. (Kerstin)

Abstract

The cohesin complex is crucial for chromosome segregation during mitosis and has recently also been implicated in transcriptional regulation and chromatin architecture. The NIPBL protein is required for the loading of cohesin onto chromatin, but how and where cohesin is loaded in vertebrate cells is unclear. Heterozygous mutations of NIPBL were found in 50% of the cases of Cornelia de Lange Syndrome (CdLS), a human developmental syndrome with a complex phenotype. However, no defects in the mitotic function of cohesin have been observed so far and the links between NIPBL mutations and the observed developmental defects are unclear. We show that NIPBL binds to chromatin in somatic cells with a different timing than cohesin. Further, we observe that high-affinity NIPBL binding sites localize to different regions than cohesin and almost exclusively to the promoters of active genes. NIPBL or cohesin knockdown reduce transcription of these genes differently, suggesting a cohesin-independent role of NIPBL for transcription. Motif analysis and comparison to published data show that NIPBL co-localizes with a specific set of other transcription factors. In cells derived from CdLS patients NIPBL binding levels are reduced and several of the NIPBL-bound genes have previously been observed to be mis-expressed in CdLS. In summary, our observations indicate that NIPBL mutations might cause developmental defects in different ways. First, defects of NIPBL might lead to cohesin-loading defects and thereby alter gene expression and second, NIPBL deficiency might affect genes directly via its role at the respective promoters.

Published
2014
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6. Cohesin and CTCF differentially affect chromatin architecture and gene expression in human cells

Author

Zuin, J. (Jessica), Dixon, J.R. (Jesse), Reijden, M. (Michael) van der, Ye, Z. (Zhen), Kolovos, P. (Petros), Brouwer, R.W.W. (Rutger), Corput, M.P.C. (Mariëtte) van de, Werken, H.J.G. (Harmen) van de, Knoch, T.A. (Tobias), IJcken, W.F.J. (Wilfred) van, Grosveld, F.G. (Frank), Ren, B. (Ben), Wendt, K.S. (Kerstin), Zuin, J. (Jessica), Dixon, J.R. (Jesse), Reijden, M. (Michael) van der, Ye, Z. (Zhen), Kolovos, P. (Petros), Brouwer, R.W.W. (Rutger), Corput, M.P.C. (Mariëtte) van de, Werken, H.J.G. (Harmen) van de, Knoch, T.A. (Tobias), IJcken, W.F.J. (Wilfred) van, Grosveld, F.G. (Frank), Ren, B. (Ben), and Wendt, K.S. (Kerstin)

Published
2014
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15. Osteopontin-IgM in the diagnosis of HCC

Author

Biasiolo, A., primary, Tono, N., additional, Franzosi, L., additional, Beneduce, L., additional, Zuin, J., additional, Fassina, G., additional, Meo, S., additional, Paccagnella, D., additional, Mazzucco, M., additional, Farinati, F., additional, Giacomin, A., additional, Vanin, V., additional, Aldinio, M.T., additional, Miola, E., additional, Donà, S., additional, Gatta, A., additional, and Pontisso, P., additional

Published
2009
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18. Combinatorial Semisynthesis of Biomarker-IgM Complexes

Author

Giorgio Fassina, Jessica Zuin, Gianluca Veggiani, Paolo Pengo, L. Beneduce, Andrea Gallotta, Veggiani, G., Zuin, J., Beneduce, L., Pengo, Paolo, and Fassina, G.

Subjects
Biotin, Enzyme-Linked Immunosorbent Assay, Antigen-Antibody Complex, Computational biology, Diagnostic tools, Biochemistry, Analytical Chemistry, Immune system, Antigen, Antigens, Neoplasm, Biomarkers, Tumor, Animals, Humans, Bioconjugation, biology, Avidin, Semisynthesis, biomarker-IgM complexes, Biomarker, Immunoglobulin M, Immunology, Carcinoma, Squamous Cell, biology.protein, combinatorial screening, Molecular Medicine, Cattle, Cancer biomarkers, Antibody, Biomarkers, Biotechnology
Abstract

formed by immunoglobulins of the M class (IgM) and tumor-associated antigens was recently found in sera of individuals affected by neoplastic diseases such as hepatocellular carcinoma 1-3 and colorectal 4 and prostate cancer 5 in their early stages. The quantitation of these tumor marker–IgM immune complexes by dedicated sandwich enzyme-linked immunosorbent assay (ELISA) was reported to be a useful approach for cancer early diagnosis. 6 As all immunometric methodologies, the obtainment of quantitative data by ELISA relies solely on the availability of suitable standards represented by samples of the analytes of known concentration. In principle, these reference calibrators could be of either human or synthetic origin; however, the very nature of immune complexes as species of ill-defined stoichiometry hinders any rational approach to the synthesis of artificial analogs. Unfortunately, this limits the preparation of reference calibrators to the processing of material of human origin, posing serious industrial limitations because the extraction of proteins from biological samples of human origin always requires strict care and costly procedures because of possible causes of infection. The development of effective processes for the profitable large-scale preparation of synthetic substitutes of the immune complexes to be used for calibration purposes in ELISA procedures represents an urgent industrial need. Such a methodology could allow significant cost reductions and enhance the safety standards associated with the production of diagnostic tools aimed to detect the onset of neoplastic diseases. Here we report a cost-effective semisynthetic methodology circumventing the synthetic issues correlated to the limited knowledge of the immune complexes’ structure. The method exploits a combinatorial bioconjugation approach, allowing the tethering of tumor antigens to human naive IgM after a quick and reproducible screening of a large number of reaction conditions. The conjugation chemistry exploited is based on the biotin-avidin technology because of the mild conditions it requires, although giving fast reactions and quantitative yields. 7-11 The selection of the best synthetic conditions is headed by a maximization process considering the immunoreactivity and solubility of the constructs. This combinatorial method represents a novel approach to the synthesis of protein conjugates, preserving the immunoreactivity of each partner involved. This issue is not a primary concern in the usual methodologies exploited for the protein-protein conjugation, 12,13 and to the best of our

Published
2010
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19. Increased antiprotease activity of the SerpinB3 polymorphic variant SCCA-PD

Author

Angelo Gatta, Patrizia Pontisso, Cristian Turato, Jessica Zuin, Vladimir Frecer, Mariagrazia Ruvoletto, Giorgio Fassina, Paolo Pengo, Silvano Fasolato, L. Beneduce, Santina Quarta, Alessandra Biasiolo, Turato, C., Biasiolo, A., Pengo, Paolo, Frecer, V., Quarta, S., Fasolato, S., Ruvoletto, M., Beneduce, L., Zuin, J., Fassina, G., Gatta, A., and Pontisso, P.

Subjects
Gene isoform, Models, Molecular, Proteases, clade B serpins, single nucleotide polymorphism, enzymatic activity, Mutation, Missense, Biology, Chronic liver disease, Transfection, General Biochemistry, Genetics and Molecular Biology, law.invention, Cell Line, law, Antigens, Neoplasm, medicine, Humans, Mitogen-Activated Protein Kinase 8, Reactive center, Serpins, clade B serpin, Gene Expression Profiling, medicine.disease, Molecular biology, In vitro, Protein Structure, Tertiary, MRNA Sequencing, Biochemistry, Hepatocellular carcinoma, Recombinant DNA, Hepatocytes, Mutant Proteins, Plasmids
Abstract

SERPINB3 has been found in chronic liver damage and hepatocellular carcinoma, but not in normal liver. By direct mRNA sequencing, a new SERPINB3 polymorphism (SCCA-PD) has been identified, presenting the substitution Gly351Ala in the reactive center loop of the protein. The prevalence of the SCCA-PD isoform has been found to be significantly higher in patients with cirrhosis than in patients with chronic liver disease and in normal subjects. The aim of this study was to investigate the biological and functional activity of SERPINB3 isoforms using in vitro models. HepG2 and Huh7 cells lines were transfected with plasmid vectors containing wild-type SERPINB3 or its polymorphic variant SCCA-PD and their expression at transcriptional and protein level was determined. To assess the functional activity, both recombinant proteins were produced and kinetic analysis was carried out using papain and cathepsin-L as target proteases. In addition, the inhibition of JNK kinase activity by SERPINB3 isoforms was assessed. The crystal structure of wild-type SERPINB3 at 2.7 Å resolution was used for preparation of refined 3D models of the two isoforms. The results showed that transcriptional activity and protein expression of the two isoforms were similar in both transfected cell lines. Both SERPINB3 preparations exerted a dose-dependent protease inhibitory activity, but the effect of SCCA-PD was higher than that of the wild-type isoform. This result was supported by 3D modelling, where increased hydrophobic profile of the SCCA-PD isoform, introduced by the G351A mutation, was detected. In addition, at high protein concentration, SCCA-PD revealed a 16% higher inhibitory effect on c-Jun phosphorylation by JNK1, compared with wild-type SERPINB3. In conclusion, the single amino acid substitution in the SERPINB3 reactive site loop improves the functional activity of SCCA-PD isoform. This different antiprotease activity might favor disease progression in patients carrying this polymorphism.

Published
2011

20. Selective haematological cancer eradication with preserved haematopoiesis.

Author

Garaudé S, Marone R, Lepore R, Devaux A, Beerlage A, Seyres D, Dell' Aglio A, Juskevicius D, Zuin J, Burgold T, Wang S, Katta V, Manquen G, Li Y, Larrue C, Camus A, Durzynska I, Wellinger LC, Kirby I, Van Berkel PH, Kunz C, Tamburini J, Bertoni F, Widmer CC, Tsai SQ, Simonetta F, Urlinger S, and Jeker LT

Subjects
Animals, Female, Humans, Male, Mice, Hematopoietic Stem Cell Transplantation, Hematopoietic Stem Cells cytology, Hematopoietic Stem Cells drug effects, Hematopoietic Stem Cells metabolism, Cell Line, Tumor, Antibody Specificity, Hematologic Neoplasms drug therapy, Hematologic Neoplasms therapy, Hematologic Neoplasms immunology, Hematopoiesis drug effects, Immunoconjugates pharmacology, Immunoconjugates therapeutic use, Leukocyte Common Antigens immunology, Leukocyte Common Antigens metabolism
Abstract

Haematopoietic stem cell (HSC) transplantation (HSCT) is the only curative treatment for a broad range of haematological malignancies, but the standard of care relies on untargeted chemotherapies and limited possibilities to treat malignant cells after HSCT without affecting the transplanted healthy cells 1 . Antigen-specific cell-depleting therapies hold the promise of much more targeted elimination of diseased cells, as witnessed in the past decade by the revolution of clinical practice for B cell malignancies 2 . However, target selection is complex and limited to antigens expressed on subsets of haematopoietic cells, resulting in a fragmented therapy landscape with high development costs 2-5 . Here we demonstrate that an antibody-drug conjugate (ADC) targeting the pan-haematopoietic marker CD45 enables the antigen-specific depletion of the entire haematopoietic system, including HSCs. Pairing this ADC with the transplantation of human HSCs engineered to be shielded from the CD45-targeting ADC enables the selective eradication of leukaemic cells with preserved haematopoiesis. The combination of CD45-targeting ADCs and engineered HSCs creates an almost universal strategy to replace a diseased haematopoietic system, irrespective of disease aetiology or originating cell type. We propose that this approach could have broad implications beyond haematological malignancies., (© 2024. The Author(s).)

Published
2024
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21. Circulating haematopoietic stem cells and long-term outcomes of COVID-19.

Author

Bonora BM, Marassi M, Fogar P, Zuin J, Cappellari R, Marinello S, Ferrari A, Cattelan A, Avogaro A, Basso D, and Fadini GP

Subjects
Humans, SARS-CoV-2, Post-Acute COVID-19 Syndrome, COVID-19 Serotherapy, Hospitalization, Hematopoietic Stem Cells, COVID-19, Diabetes Mellitus epidemiology
Abstract

Background and Aims: An acute depletion of circulating haematopoietic stem/progenitor cells (HSPCs) occurs during COVID-19, especially among patients with a poorer disease course. We herein examined whether HSPCs levels at hospital admission for COVID-19 predict 1-year mortality and the long-COVID syndrome., Materials and Methods: Patients hospitalized for COVID-19 in an infectious disease ward were consecutively enrolled. Circulating HSPC levels were assessed by flow cytometry as cells expressing CD34 and/or CD133. Follow-up was performed for 12 months after hospitalization through the review of electronic medical records and demographic local registers., Results: The study included 100 patients, 36 of whom reported symptoms of long-COVID and 20 died during follow-up. The reduction of 1-SD of HSPCs was associated with a 3- to 5-fold increase in the risk of 1-year mortality. Age, admission hyperglycaemia, C-reactive protein peak, liver enzymes, the need of high-flow oxygen and/or invasive ventilation were predictors of mortality at univariate analysis. Among pre-existing comorbidities, coronary heart disease and chronic kidney disease, but not diabetes, were associated with 1-year mortality. In multivariate analyses, HSPCs remained significantly associated with 1-year mortality independently of confounders. The development of pneumonia an in-hospital treatment with glucocorticoids and convalescent plasma were associated with long-COVID symptoms at follow-up. HSPCs, diabetes and other comorbidities were not predictors of long-COVID., Conclusions: In a cohort of patients hospitalized for COVID-19, lower HSPC levels at the time of admission were independent predictors of 1-year mortality. However, COVID-19 severity, but not HSPC level, was significantly associated with the development of long-COVID symptoms., (© 2023 The Authors. European Journal of Clinical Investigation published by John Wiley & Sons Ltd on behalf of Stichting European Society for Clinical Investigation Journal Foundation.)

Published
2024
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22. Flow Cytometry Analysis in Breast Implant-Associated Anaplastic Large Cell Lymphoma: Three Case Reports.

Author

Davanzo V, Falda A, Fogar P, Ludwig K, Zuin J, Toffanin MC, Pizzi M, Dei Tos AP, and Basso D

Subjects
Humans, Female, Flow Cytometry, Exudates and Transudates metabolism, Breast Implants adverse effects, Lymphoma, Large-Cell, Anaplastic diagnosis, Lymphoma, Large-Cell, Anaplastic etiology, Lymphoma, Large-Cell, Anaplastic pathology, Breast Implantation adverse effects, Breast Neoplasms complications
Abstract

Breast Implant-Associated-Anaplastic Large Cell Lymphoma (BIA-ALCL) is a rare T-cell non-Hodgkin lymphoma associated with breast prosthetic implants and represents a diagnostic challenge. The National Comprehensive Cancer Network (NCCN) guidelines, updated in 2024, recommend for diagnosis an integrated work-up that should include cell morphology, CD30 immunohistochemistry (IHC), and flow cytometry (FCM). CD30 IHC, although the test of choice for BIA-ALCL diagnosis, is not pathognomonic, and this supports the recommendation to apply a multidisciplinary approach. A close collaboration between pathologists and laboratory professionals allowed the diagnosis of three BIA-ALCLs, presented as case reports, within a series of 35 patients subjected to periprosthetic effusions aspiration from 2018 to 2023. In one case, rare neoplastic cells were identified by FCM, and this result was essential in leading the anatomopathological picture as indicative of this neoplasm. In fact, the distinction between a lymphomatous infiltrate from reactive cells may be very complex in the cytopathology and IHC setting when neoplastic cells are rare. On the other hand, one limitation of FCM analysis is the need for fresh samples. In this study, we provide evidence that a dedicated fixative allows the maintenance of an unaltered CD30 expression on the cell surface for up to 72 h.

Published
2024
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23. Epitope-engineered human hematopoietic stem cells are shielded from CD123-targeted immunotherapy.

Author

Marone R, Landmann E, Devaux A, Lepore R, Seyres D, Zuin J, Burgold T, Engdahl C, Capoferri G, Dell'Aglio A, Larrue C, Simonetta F, Rositzka J, Rhiel M, Andrieux G, Gallagher DN, Schröder MS, Wiederkehr A, Sinopoli A, Do Sacramento V, Haydn A, Garcia-Prat L, Divsalar C, Camus A, Xu L, Bordoli L, Schwede T, Porteus M, Tamburini J, Corn JE, Cathomen T, Cornu TI, Urlinger S, and Jeker LT

Subjects
Humans, Epitopes, Immunotherapy, Hematopoietic Stem Cells metabolism, Immunotherapy, Adoptive, Interleukin-3 Receptor alpha Subunit metabolism, Leukemia, Myeloid, Acute genetics, Leukemia, Myeloid, Acute therapy
Abstract

Targeted eradication of transformed or otherwise dysregulated cells using monoclonal antibodies (mAb), antibody-drug conjugates (ADC), T cell engagers (TCE), or chimeric antigen receptor (CAR) cells is very effective for hematologic diseases. Unlike the breakthrough progress achieved for B cell malignancies, there is a pressing need to find suitable antigens for myeloid malignancies. CD123, the interleukin-3 (IL-3) receptor alpha-chain, is highly expressed in various hematological malignancies, including acute myeloid leukemia (AML). However, shared CD123 expression on healthy hematopoietic stem and progenitor cells (HSPCs) bears the risk for myelotoxicity. We demonstrate that epitope-engineered HSPCs were shielded from CD123-targeted immunotherapy but remained functional, while CD123-deficient HSPCs displayed a competitive disadvantage. Transplantation of genome-edited HSPCs could enable tumor-selective targeted immunotherapy while rebuilding a fully functional hematopoietic system. We envision that this approach is broadly applicable to other targets and cells, could render hitherto undruggable targets accessible to immunotherapy, and will allow continued posttransplant therapy, for instance, to treat minimal residual disease (MRD)., (© 2023 Marone et al.)

Published
2023
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25. Cohesin and CTCF control the dynamics of chromosome folding.

Author

Mach P, Kos PI, Zhan Y, Cramard J, Gaudin S, Tünnermann J, Marchi E, Eglinger J, Zuin J, Kryzhanovska M, Smallwood S, Gelman L, Roth G, Nora EP, Tiana G, and Giorgetti L

Subjects
Chromosomes genetics
Abstract

In mammals, interactions between sequences within topologically associating domains enable control of gene expression across large genomic distances. Yet it is unknown how frequently such contacts occur, how long they last and how they depend on the dynamics of chromosome folding and loop extrusion activity of cohesin. By imaging chromosomal locations at high spatial and temporal resolution in living cells, we show that interactions within topologically associating domains are transient and occur frequently during the course of a cell cycle. Interactions become more frequent and longer in the presence of convergent CTCF sites, resulting in suppression of variability in chromosome folding across time. Supported by physical models of chromosome dynamics, our data suggest that CTCF-anchored loops last around 10 min. Our results show that long-range transcriptional regulation might rely on transient physical proximity, and that cohesin and CTCF stabilize highly dynamic chromosome structures, facilitating selected subsets of chromosomal interactions., (© 2022. The Author(s).)

Published
2022
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26. T Cell Senescence by Extensive Phenotyping: An Emerging Feature of COVID-19 Severity.

Author

Zuin J, Fogar P, Musso G, Padoan A, Piva E, Pelloso M, Tosato F, Cattelan A, Basso D, and Plebani M

Subjects
Humans, Lymphocyte Subsets, T-Lymphocyte Subsets, CD8-Positive T-Lymphocytes, Cellular Senescence, COVID-19
Abstract

Objective: To identify the potential prognostic value of lymphocyte subsets in COVID-19 patients, where lymphopenia is a common finding., Methods: In 353 COVID-19 inpatients and 40 controls T cell subsets with markers of senescence and exhaustion were studied by flow cytometry., Results: In severe illness, total lymphocytes B, NK, and all T subsets were dampened. Senescent CD4+, but mainly CD8+ T cells, increased in patients with respect to controls. The most significant index predicting fatal outcome was neutrophils/CD3+ T ratio., Conclusion: In conclusion, an altered T cell pattern underlies COVID-19 severity and is involved in predicting the outcome., (© The Author(s) 2022. Published by Oxford University Press on behalf of American Society for Clinical Pathology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2022
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27. Hyperglycemia, Reduced Hematopoietic Stem Cells, and Outcome of COVID-19.

Author

Bonora BM, Fogar P, Zuin J, Falaguasta D, Cappellari R, Cattelan A, Marinello S, Ferrari A, Avogaro A, Plebani M, Basso D, and Fadini GP

Subjects
Antigens, CD34 metabolism, Flow Cytometry, Hematopoietic Stem Cells metabolism, Humans, COVID-19, Hyperglycemia metabolism
Abstract

Admission hyperglycemia has emerged worldwide as a predictor of poor coronavirus disease 2019 (COVID-19) outcome. Hyperglycemia leads to a defect in circulating hematopoietic stem/progenitor cells (HSPCs), which, in turn, predicts diabetic complications. Here, we explored whether reduced HSPCs mediated at least part of the prognostic effect of hyperglycemia on COVID-19 outcome. We found that patients with COVID-19 (n = 100) hospitalized in a nonintensive setting displayed dramatically (50-60%) reduced levels of HSPCs measured by flow cytometry as CD34+, CD34+CD45dim, or CD34+CD133+ cells, compared with control subjects (n = 595). This finding was highly significant (all P < 10-10) after multivariable adjustment, or manual 1:1 patient match, or propensity score matching. Admission hyperglycemia (≥7.0 mmol/L) was present in 45% of patients, was associated with a significant further ∼30% HSPCs reduction, and predicted a 2.6-fold increased risk of the primary outcome of adverse COVID-19 course (admittance to the intensive care unit or death). Low HSPCs were also associated with advanced age, higher peak C-reactive protein, and neutrophil-to-lymphocyte ratio. Independently from confounders, 1 SD lower CD34+ HSPCs was associated with a more than threefold higher risk of adverse outcome. Upon formal analysis, reduction of HSPCs was a significant mediator of the admission hyperglycemia on COVID-19 outcome, being responsible for 28% of its prognostic effect., (© 2022 by the American Diabetes Association.)

Published
2022
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28. Nonlinear control of transcription through enhancer-promoter interactions.

Author

Zuin J, Roth G, Zhan Y, Cramard J, Redolfi J, Piskadlo E, Mach P, Kryzhanovska M, Tihanyi G, Kohler H, Eder M, Leemans C, van Steensel B, Meister P, Smallwood S, and Giorgetti L

Subjects
Animals, Chromatin genetics, Gene Expression Regulation, Genomics, Mammals genetics, Promoter Regions, Genetic genetics, Chromosomes, Enhancer Elements, Genetic genetics
Abstract

Chromosome structure in mammals is thought to regulate transcription by modulating three-dimensional interactions between enhancers and promoters, notably through CTCF-mediated loops and topologically associating domains (TADs) 1-4 . However, how chromosome interactions are actually translated into transcriptional outputs remains unclear. Here, to address this question, we use an assay to position an enhancer at large numbers of densely spaced chromosomal locations relative to a fixed promoter, and measure promoter output and interactions within a genomic region with minimal regulatory and structural complexity. A quantitative analysis of hundreds of cell lines reveals that the transcriptional effect of an enhancer depends on its contact probabilities with the promoter through a nonlinear relationship. Mathematical modelling suggests that nonlinearity might arise from transient enhancer-promoter interactions being translated into slower promoter bursting dynamics in individual cells, therefore uncoupling the temporal dynamics of interactions from those of transcription. This uncovers a potential mechanism of how distal enhancers act from large genomic distances, and of how topologically associating domain boundaries block distal enhancers. Finally, we show that enhancer strength also determines absolute transcription levels as well as the sensitivity of a promoter to CTCF-mediated transcriptional insulation. Our measurements establish general principles for the context-dependent role of chromosome structure in long-range transcriptional regulation., (© 2022. The Author(s).)

Published
2022
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29. Mucopolysaccharidosis type VII diagnosed from a peripheral blood smear.

Author

Pelloso M, Zuin S, Tosato F, Zuin J, Fogar P, Piva E, Burlina A, and Plebani M

Subjects
Abnormalities, Multiple genetics, Adolescent, Cytoplasmic Granules chemistry, Delayed Diagnosis, Female, Flow Cytometry, Glycosaminoglycans urine, Humans, Mucopolysaccharidosis VII diagnosis, Mucopolysaccharidosis VII epidemiology, Mucopolysaccharidosis VII genetics, Psychomotor Disorders genetics, Staining and Labeling, Basophils ultrastructure, Cytoplasmic Granules ultrastructure, Eosinophils ultrastructure, Mucopolysaccharidosis VII blood
Published
2021
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30. Monocyte distribution width (MDW) parameter as a sepsis indicator in intensive care units.

Author

Piva E, Zuin J, Pelloso M, Tosato F, Fogar P, and Plebani M

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Area Under Curve, Female, Hematologic Tests statistics & numerical data, Humans, Male, Middle Aged, Prospective Studies, ROC Curve, Sensitivity and Specificity, Sepsis blood, Young Adult, Intensive Care Units, Monocytes metabolism, Sepsis diagnosis
Abstract

Objectives: Patients in Intensive Care Units (ICU) are a high-risk population for sepsis, recognized as a major cause of admission and death. The aim of the current study was to evaluate the diagnostic accuracy and prognostication of monocyte distribution width (MDW) in sepsis for patients admitted to ICU., Methods: Between January and June 2020, we conducted a prospective observational study during the hospitalization of 506 adult patients admitted to the ICU. MDW was evaluated in 2,367 consecutive samples received for routine complete blood counts (CBC) performed once a day and every day during the study. Sepsis was diagnosed according to Sepsis-3 criteria and patients enrolled were classified in the following groups: no sepsis, sepsis and septic shock., Results: MDW values were significantly higher in patients with sepsis or septic shock in comparison to those within the no sepsis group [median 26.23 (IQR: 23.48-29.83); 28.97 (IQR: 21.27-37.21); 21.99 (IQR: 19.86-24.36) respectively]. ROC analysis demonstrated that AUC is 0.785 with a sensitivity of 66.88% and specificity of 77.79% at a cut-off point of 24.63. In patients that developed an ICU-acquired sepsis MDW showed an increase from 21.33 [median (IQR: 19.47-21.72)] to 29.19 [median (IQR: 27.46-31.47)]. MDW increase is not affected by the aetiology of sepsis, even in patients with COVID-19. In sepsis survivors a decrease of MDW values were found from the first time to the end of their stay [median from 29.14 (IQR: 26.22-32.52) to 25.67 (IQR: 22.93-30.28)]., Conclusions: In ICU, MDW enhances the sepsis detection and is related to disease severity., (© 2021 Elisa Piva et al., published by De Gruyter, Berlin/Boston.)

Published
2021
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31. Investigation of the spatial structure and interactions of the genome at sub-kilobase-pair resolution using T2C.

Author

Kolovos P, Brouwer RWW, Kockx CEM, Lesnussa M, Kepper N, Zuin J, Imam AMA, van de Werken HJG, Wendt KS, Knoch TA, van IJcken WFJ, and Grosveld F

Subjects
Animals, Chromatin ultrastructure, Chromatin Assembly and Disassembly physiology, Chromosome Mapping methods, DNA, Gene Expression Regulation, Genome genetics, Genome, Human genetics, Genome, Human physiology, Genomics, High-Throughput Nucleotide Sequencing methods, Humans, Mice, Nucleosomes, Software, Computational Biology methods, Physical Chromosome Mapping methods, Sequence Analysis, DNA methods
Abstract

Chromosome conformation capture (3C) and its derivatives (e.g., 4C, 5C and Hi-C) are used to analyze the 3D organization of genomes. We recently developed targeted chromatin capture (T2C), an inexpensive method for studying the 3D organization of genomes, interactomes and structural changes associated with gene regulation, the cell cycle, and cell survival and development. Here, we present the protocol for T2C based on capture, describing all experimental steps and bio-informatic tools in full detail. T2C offers high resolution, a large dynamic interaction frequency range and a high signal-to-noise ratio. Its resolution is determined by the resulting fragment size of the chosen restriction enzyme, which can lead to sub-kilobase-pair resolution. T2C's high coverage allows the identification of the interactome of each individual DNA fragment, which makes binning of reads (often used in other methods) basically unnecessary. Notably, T2C requires low sequencing efforts. T2C also allows multiplexing of samples for the direct comparison of multiple samples. It can be used to study topologically associating domains (TADs), determining their position, shape, boundaries, and intra- and inter-domain interactions, as well as the composition of aggregated loops, interactions between nucleosomes, individual transcription factor binding sites, and promoters and enhancers. T2C can be performed by any investigator with basic skills in molecular biology techniques in ∼7-8 d. Data analysis requires basic expertise in bioinformatics and in Linux and Python environments.

Published
2018
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32. Regulation of the cohesin-loading factor NIPBL: Role of the lncRNA NIPBL-AS1 and identification of a distal enhancer element.

Author

Zuin J, Casa V, Pozojevic J, Kolovos P, van den Hout MCGN, van Ijcken WFJ, Parenti I, Braunholz D, Baron Y, Watrin E, Kaiser FJ, and Wendt KS

Subjects
Cell Cycle Proteins genetics, Cell Cycle Proteins metabolism, Chromosomal Proteins, Non-Histone genetics, Chromosomal Proteins, Non-Histone metabolism, Chromosome Segregation, De Lange Syndrome genetics, Gene Expression Regulation, Genome, Human, HEK293 Cells, Humans, Mutation, Phenotype, Promoter Regions, Genetic, RNA, Long Noncoding genetics, RNA, Long Noncoding metabolism, Sequence Analysis, DNA, Cohesins, Enhancer Elements, Genetic, Oligonucleotides, Antisense genetics, Oligonucleotides, Antisense metabolism, Proteins genetics, Proteins metabolism
Abstract

Cohesin is crucial for genome stability, cell division, transcription and chromatin organization. Its functions critically depend on NIPBL, the cohesin-loader protein that is found to be mutated in >60% of the cases of Cornelia de Lange syndrome (CdLS). Other mutations are described in the cohesin subunits SMC1A, RAD21, SMC3 and the HDAC8 protein. In 25-30% of CdLS cases no mutation in the known CdLS genes is detected. Until now, functional elements in the noncoding genome were not characterized in the molecular etiology of CdLS and therefore are excluded from mutation screening, although the impact of such mutations has now been recognized for a wide range of diseases. We have identified different elements of the noncoding genome involved in regulation of the NIPBL gene. NIPBL-AS1 is a long non-coding RNA transcribed upstream and antisense to NIPBL. By knockdown and transcription blocking experiments, we could show that not the NIPBL-AS1 gene product, but its actual transcription is important to regulate NIPBL expression levels. This reveals a possibility to boost the transcriptional activity of the NIPBL gene by interfering with the NIPBL-AS1 lncRNA. Further, we have identified a novel distal enhancer regulating both NIPBL and NIPBL-AS1. Deletion of the enhancer using CRISPR genome editing in HEK293T cells reduces expression of NIPBL, NIPBL-AS1 as well as genes found to be dysregulated in CdLS.

Published
2017
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33. The detailed 3D multi-loop aggregate/rosette chromatin architecture and functional dynamic organization of the human and mouse genomes.

Author

Knoch TA, Wachsmuth M, Kepper N, Lesnussa M, Abuseiris A, Ali Imam AM, Kolovos P, Zuin J, Kockx CEM, Brouwer RWW, van de Werken HJG, van IJcken WFJ, Wendt KS, and Grosveld FG

Abstract

Background: The dynamic three-dimensional chromatin architecture of genomes and its co-evolutionary connection to its function-the storage, expression, and replication of genetic information-is still one of the central issues in biology. Here, we describe the much debated 3D architecture of the human and mouse genomes from the nucleosomal to the megabase pair level by a novel approach combining selective high-throughput high-resolution chromosomal interaction capture ( T2C ), polymer simulations, and scaling analysis of the 3D architecture and the DNA sequence., Results: The genome is compacted into a chromatin quasi-fibre with ~5 ± 1 nucleosomes/11 nm, folded into stable ~30-100 kbp loops forming stable loop aggregates/rosettes connected by similar sized linkers. Minor but significant variations in the architecture are seen between cell types and functional states. The architecture and the DNA sequence show very similar fine-structured multi-scaling behaviour confirming their co-evolution and the above., Conclusions: This architecture, its dynamics, and accessibility, balance stability and flexibility ensuring genome integrity and variation enabling gene expression/regulation by self-organization of (in)active units already in proximity. Our results agree with the heuristics of the field and allow "architectural sequencing" at a genome mechanics level to understand the inseparable systems genomic properties.

Published
2016
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34. Targeted Chromatin Capture (T2C): a novel high resolution high throughput method to detect genomic interactions and regulatory elements.

Author

Kolovos P, van de Werken HJ, Kepper N, Zuin J, Brouwer RW, Kockx CE, Wendt KS, van IJcken WF, Grosveld F, and Knoch TA

Abstract

Background: Significant efforts have recently been put into the investigation of the spatial organization and the chromatin-interaction networks of genomes. Chromosome conformation capture (3C) technology and its derivatives are important tools used in this effort. However, many of these have limitations, such as being limited to one viewpoint, expensive with moderate to low resolution, and/or requiring a large sequencing effort. Techniques like Hi-C provide a genome-wide analysis. However, it requires massive sequencing effort with considerable costs. Here we describe a new technique termed Targeted Chromatin Capture (T2C), to interrogate large selected regions of the genome. T2C provides an unbiased view of the spatial organization of selected loci at superior resolution (single restriction fragment resolution, from 2 to 6 kbp) at much lower costs than Hi-C due to the lower sequencing effort., Results: We applied T2C on well-known model regions, the mouse β-globin locus and the human H19/IGF2 locus. In both cases we identified all known chromatin interactions. Furthermore, we compared the human H19/IGF2 locus data obtained from different chromatin conformation capturing methods with T2C data. We observed the same compartmentalization of the locus, but at a much higher resolution (single restriction fragments vs. the common 40 kbp bins) and higher coverage. Moreover, we compared the β-globin locus in two different biological samples (mouse primary erythroid cells and mouse fetal brain), where it is either actively transcribed or not, to identify possible transcriptional dependent interactions. We identified the known interactions in the β-globin locus and the same topological domains in both mouse primary erythroid cells and in mouse fetal brain with the latter having fewer interactions probably due to the inactivity of the locus. Furthermore, we show that interactions due to the important chromatin proteins, Ldb1 and Ctcf, in both tissues can be analyzed easily to reveal their role on transcriptional interactions and genome folding., Conclusions: T2C is an efficient, easy, and affordable with high (restriction fragment) resolution tool to address both genome compartmentalization and chromatin-interaction networks for specific genomic regions at high resolution for both clinical and non-clinical research.

Published
2014
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35. A cohesin-independent role for NIPBL at promoters provides insights in CdLS.

Author

Zuin J, Franke V, van Ijcken WF, van der Sloot A, Krantz ID, van der Reijden MI, Nakato R, Lenhard B, and Wendt KS

Subjects
CCCTC-Binding Factor, Cell Cycle Proteins metabolism, Chromatin genetics, Chromosomal Proteins, Non-Histone metabolism, Chromosome Segregation genetics, De Lange Syndrome pathology, Gene Expression Regulation, Genome, Human, Humans, Mutation, Promoter Regions, Genetic, Proteins metabolism, Repressor Proteins genetics, Repressor Proteins metabolism, Cohesins, Cell Cycle Proteins genetics, Chromosomal Proteins, Non-Histone genetics, De Lange Syndrome genetics, Proteins genetics, Transcription, Genetic
Abstract

The cohesin complex is crucial for chromosome segregation during mitosis and has recently also been implicated in transcriptional regulation and chromatin architecture. The NIPBL protein is required for the loading of cohesin onto chromatin, but how and where cohesin is loaded in vertebrate cells is unclear. Heterozygous mutations of NIPBL were found in 50% of the cases of Cornelia de Lange Syndrome (CdLS), a human developmental syndrome with a complex phenotype. However, no defects in the mitotic function of cohesin have been observed so far and the links between NIPBL mutations and the observed developmental defects are unclear. We show that NIPBL binds to chromatin in somatic cells with a different timing than cohesin. Further, we observe that high-affinity NIPBL binding sites localize to different regions than cohesin and almost exclusively to the promoters of active genes. NIPBL or cohesin knockdown reduce transcription of these genes differently, suggesting a cohesin-independent role of NIPBL for transcription. Motif analysis and comparison to published data show that NIPBL co-localizes with a specific set of other transcription factors. In cells derived from CdLS patients NIPBL binding levels are reduced and several of the NIPBL-bound genes have previously been observed to be mis-expressed in CdLS. In summary, our observations indicate that NIPBL mutations might cause developmental defects in different ways. First, defects of NIPBL might lead to cohesin-loading defects and thereby alter gene expression and second, NIPBL deficiency might affect genes directly via its role at the respective promoters.

Published
2014
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36. Cohesin and CTCF differentially affect chromatin architecture and gene expression in human cells.

Author

Zuin J, Dixon JR, van der Reijden MI, Ye Z, Kolovos P, Brouwer RW, van de Corput MP, van de Werken HJ, Knoch TA, van IJcken WF, Grosveld FG, Ren B, and Wendt KS

Subjects
Binding Sites, CCCTC-Binding Factor, Cell Line, Cell Nucleus metabolism, Chromatin metabolism, DNA-Binding Proteins, Gene Expression Profiling, HEK293 Cells, Homeodomain Proteins metabolism, Humans, Mitosis, Multigene Family, Nuclear Proteins metabolism, Phosphoproteins metabolism, Protein Binding, Protein Structure, Tertiary, Transcriptome, Cohesins, Cell Cycle Proteins metabolism, Chromatin chemistry, Chromosomal Proteins, Non-Histone metabolism, Gene Expression Regulation, Repressor Proteins metabolism
Abstract

Recent studies of genome-wide chromatin interactions have revealed that the human genome is partitioned into many self-associating topological domains. The boundary sequences between domains are enriched for binding sites of CTCC-binding factor (CTCF) and the cohesin complex, implicating these two factors in the establishment or maintenance of topological domains. To determine the role of cohesin and CTCF in higher-order chromatin architecture in human cells, we depleted the cohesin complex or CTCF and examined the consequences of loss of these factors on higher-order chromatin organization, as well as the transcriptome. We observed a general loss of local chromatin interactions upon disruption of cohesin, but the topological domains remain intact. However, we found that depletion of CTCF not only reduced intradomain interactions but also increased interdomain interactions. Furthermore, distinct groups of genes become misregulated upon depletion of cohesin and CTCF. Taken together, these observations suggest that CTCF and cohesin contribute differentially to chromatin organization and gene regulation.

Published
2014
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37. Multiplexed chromosome conformation capture sequencing for rapid genome-scale high-resolution detection of long-range chromatin interactions.

Author

Stadhouders R, Kolovos P, Brouwer R, Zuin J, van den Heuvel A, Kockx C, Palstra RJ, Wendt KS, Grosveld F, van Ijcken W, and Soler E

Subjects
Animals, Cell Line, Chromatin chemistry, Chromosomes chemistry, Chromosomes metabolism, Computational Biology, Formaldehyde chemistry, Genomic Library, Genomics methods, Humans, Mice, Chromatin metabolism, Chromosome Mapping methods
Abstract

Chromosome conformation capture (3C) technology is a powerful and increasingly popular tool for analyzing the spatial organization of genomes. Several 3C variants have been developed (e.g., 4C, 5C, ChIA-PET, Hi-C), allowing large-scale mapping of long-range genomic interactions. Here we describe multiplexed 3C sequencing (3C-seq), a 4C variant coupled to next-generation sequencing, allowing genome-scale detection of long-range interactions with candidate regions. Compared with several other available techniques, 3C-seq offers a superior resolution (typically single restriction fragment resolution; approximately 1-8 kb on average) and can be applied in a semi-high-throughput fashion. It allows the assessment of long-range interactions of up to 192 genes or regions of interest in parallel by multiplexing library sequencing. This renders multiplexed 3C-seq an inexpensive, quick (total hands-on time of 2 weeks) and efficient method that is ideal for the in-depth analysis of complex genetic loci. The preparation of multiplexed 3C-seq libraries can be performed by any investigator with basic skills in molecular biology techniques. Data analysis requires basic expertise in bioinformatics and in Linux and Python environments. The protocol describes all materials, critical steps and bioinformatics tools required for successful application of 3C-seq technology.

Published
2013
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38. Increased antiprotease activity of the SERPINB3 polymorphic variant SCCA-PD.

Author

Turato C, Biasiolo A, Pengo P, Frecer V, Quarta S, Fasolato S, Ruvoletto M, Beneduce L, Zuin J, Fassina G, Gatta A, and Pontisso P

Subjects
Cell Line, Gene Expression Profiling, Hepatocytes metabolism, Humans, Mitogen-Activated Protein Kinase 8 antagonists & inhibitors, Models, Molecular, Mutant Proteins genetics, Mutant Proteins metabolism, Plasmids, Protein Structure, Tertiary, Transfection, Antigens, Neoplasm genetics, Antigens, Neoplasm metabolism, Mutation, Missense, Serpins genetics, Serpins metabolism
Abstract

SERPINB3 has been found in chronic liver damage and hepatocellular carcinoma, but not in normal liver. By direct mRNA sequencing, a new SERPINB3 polymorphism (SCCA-PD) has been identified, presenting the substitution Gly351Ala in the reactive center loop of the protein. The prevalence of the SCCA-PD isoform has been found to be significantly higher in patients with cirrhosis than in patients with chronic liver disease and in normal subjects. The aim of this study was to investigate the biological and functional activity of SERPINB3 isoforms using in vitro models. HepG2 and Huh7 cells lines were transfected with plasmid vectors containing wild-type SERPINB3 or its polymorphic variant SCCA-PD and their expression at transcriptional and protein level was determined. To assess the functional activity, both recombinant proteins were produced and kinetic analysis was carried out using papain and cathepsin-L as target proteases. In addition, the inhibition of JNK kinase activity by SERPINB3 isoforms was assessed. The crystal structure of wild-type SERPINB3 at 2.7 Å resolution was used for preparation of refined 3D models of the two isoforms. The results showed that transcriptional activity and protein expression of the two isoforms were similar in both transfected cell lines. Both SERPINB3 preparations exerted a dose-dependent protease inhibitory activity, but the effect of SCCA-PD was higher than that of the wild-type isoform. This result was supported by 3D modelling, where increased hydrophobic profile of the SCCA-PD isoform, introduced by the G351A mutation, was detected. In addition, at high protein concentration, SCCA-PD revealed a 16% higher inhibitory effect on c-Jun phosphorylation by JNK1, compared with wild-type SERPINB3. In conclusion, the single amino acid substitution in the SERPINB3 reactive site loop improves the functional activity of SCCA-PD isoform. This different antiprotease activity might favor disease progression in patients carrying this polymorphism.

Published
2011
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39. Combinatorial semisynthesis of biomarker-IgM complexes.

Author

Veggiani G, Zuin J, Beneduce L, Gallotta A, Pengo P, and Fassina G

Subjects
Animals, Antigen-Antibody Complex blood, Antigens, Neoplasm blood, Avidin, Biomarkers, Biomarkers, Tumor, Biotin, Carcinoma, Squamous Cell blood, Carcinoma, Squamous Cell immunology, Cattle, Enzyme-Linked Immunosorbent Assay, Humans, Immunoglobulin M blood, Immunoglobulin M isolation & purification, Antigen-Antibody Complex immunology, Antigens, Neoplasm immunology, Immunoglobulin M immunology
Abstract

Circulating immune complexes formed by tumor antigens and immunoglobulin M (IgM) represent a novel class of biomarkers with diagnostic value for early cancer detection. The quantitative analysis of these immune complexes is achieved by enzyme-linked immunosorbent assay (ELISA) methods using a purified calibrator from samples of patients with cancer. These complexes obtained from samples of human origin are not suitable for cost-effective production processes with high safety standards. Given the ill-defined biomarker/IgM ratio in these complexes, semisynthesis with retention of functional properties is difficult to achieve and may vary widely according to the batch-to-batch heterogeneity of starting biological preparations. Here the authors describe the development of a combinatorial method for defining the optimal reaction conditions for the reproducible semisynthesis of biomarker-IgM complexes by exploiting the biotin-avidin technology. The method relies on screening by ELISA the 3D composition space defined by the combinatorial variation of biotinylated-biomarker, biotinylated-IgM, and avidin concentrations aiming to select those conditions leading to biomarker-IgM complexes with the highest immunoreactivity. The method allows the reproducible synthesis of species with immunoreactivity comparable to that of natural immune complexes and endowed with sufficient stability to be used as calibrators in ELISA.

Published
2010
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40. Experimental validation of specificity of the squamous cell carcinoma antigen-immunoglobulin M (SCCA-IgM) assay in patients with cirrhosis.

Author

Zuin J, Veggiani G, Pengo P, Gallotta A, Biasiolo A, Tono N, Gatta A, Pontisso P, Toth R, Cerin D, Frecer V, Meo S, Gion M, Fassina G, and Beneduce L

Subjects
Aged, Antigen-Antibody Complex immunology, Antigens, Neoplasm immunology, Biomarkers blood, Biomarkers, Tumor blood, Carcinoma, Hepatocellular diagnosis, Chromatography, Gel, Enzyme-Linked Immunosorbent Assay, Humans, Immunoglobulin M immunology, Middle Aged, Prognosis, Sensitivity and Specificity, Serpins immunology, Antigen-Antibody Complex blood, Antigens, Neoplasm blood, Biological Assay, Carcinoma, Hepatocellular blood, Fibrosis blood, Fibrosis diagnosis, Immunoglobulin M blood, Serpins blood
Abstract

Background: Squamous cell carcinoma antigen-immunoglobulin M (SCCA-IgM) is a useful biomarker for the risk of development of hepatocellular carcinoma (HCC) in patients with cirrhosis due to its progressive increase associated to HCC evolution. In patients with cirrhosis, other assays have been affected by interfering reactivities of IgM. In this study, the analytical specificity of the SCCA-IgM assay was assessed by evaluating SCCA-IgM measurement dependence on different capture phases, and by measuring the recovery of SCCA-IgM reactivity following serum fractionation., Methods: Serum samples from 82 patients with cirrhosis were analyzed. SCCA-IgM was measured using the reference test (Hepa-IC, Xeptagen, Italy) that is based on rabbit oligoclonal anti-squamous cell carcinoma antigen (SCCA) and a dedicated ELISA with a mouse monoclonal anti-SCCA as the capture antibody., Results: SCCA-IgM concentrations measured with the reference assay (median value=87 AU/mL) were higher than those measured with the mouse monoclonal test (median value=78 AU/mL). However, the differences in the SCCA-IgM distribution were not statistically significant (p>0.05). When SCCA-IgM concentrations measured with both tests were compared, a linear correlation was found (r=0.77, p<0.05). Fractionation of the most reactive sera by gel-filtration chromatography showed that total recovery of SCCA-IgM reactivity was seen only in the fractions corresponding to components with a molecular weight higher than IgM and SCCA (>2000 kDa) with both tests., Conclusions: The equivalence of both SCCA-IgM assays and the absence of reactivity not related to immune complexes support the analytical specificity of SCCA-IgM measurements. The results validate the assessment of SCCA-IgM for prognostic purposes in patients with cirrhosis.

Published
2010
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41. [Hemorrhagic erosive gastritis. Therapeutic options].

Author

Garibotti J, Foscarini J, Pearson E, Araya J, Testa M, Zuin J, Palencia R, and García Castellanos J

Subjects
Adolescent, Adult, Aged, Female, Gastritis diagnosis, Gastritis etiology, Gastrointestinal Hemorrhage diagnosis, Gastrointestinal Hemorrhage etiology, Humans, Male, Middle Aged, Gastritis therapy, Gastrointestinal Hemorrhage therapy
Abstract

There were analyzed 68 cases of erosional hemorrhagic gastritis and there incidence on sex and age and it was proofed that the most frequent etiologic causes are alcohol and acetyl salicylic acid. The employed diagnostical methods were evaluated, as well as radiology and endoscopy, which have shown the value of there precocity within the first 24 hours. The medical treatment was analysed in 90% of the cases with good results. The applied surgical treatment was checked about its morbidness an mortality, thus demonstrating the poor results of conservative surgery.

Published
1985

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