Your search keyword '"Fabio Zani"' showing total 27 results

1. Fructose reprogrammes glutamine-dependent oxidative metabolism to support LPS-induced inflammation

Author

Nicholas Jones, Julianna Blagih, Fabio Zani, April Rees, David G. Hill, Benjamin J. Jenkins, Caroline J. Bull, Diana Moreira, Azari I. M. Bantan, James G. Cronin, Daniele Avancini, Gareth W. Jones, David K. Finlay, Karen H. Vousden, Emma E. Vincent, and Catherine A. Thornton

Subjects

Science

Abstract

Myeloid cells are able to utilize a variety of monosaccharides from our diet, including fructose. Here the authors show that when monocytes are reliant on fructose as a carbon energy source they are reprogrammed towards oxidative metabolism, glutamine anaplerosis and a pro-inflammatory phenotype owing to excess pro-inflammatory cytokine production.

Published

2021

2. Serine synthesis pathway inhibition cooperates with dietary serine and glycine limitation for cancer therapy

Author

Mylène Tajan, Marc Hennequart, Eric C. Cheung, Fabio Zani, Andreas K. Hock, Nathalie Legrave, Oliver D. K. Maddocks, Rachel A. Ridgway, Dimitris Athineos, Alejandro Suárez-Bonnet, Robert L. Ludwig, Laura Novellasdemunt, Nikolaos Angelis, Vivian S. W. Li, Georgios Vlachogiannis, Nicola Valeri, Nello Mainolfi, Vipin Suri, Adam Friedman, Mark Manfredi, Karen Blyth, Owen J. Sansom, and Karen H. Vousden

Subjects

Science

Abstract

Dietary serine and glycine starvation has emerged as a potential therapy for cancer. Here, the authors show that inhibition of PHGDH, which mediates the first step in the serine synthesis pathway, improves the therapeutic efficacy of serine depletion diet in mouse xenograft models.

Published

2021

3. PI3Kγ promotes obesity-associated hepatocellular carcinoma by regulating metabolism and inflammation

Author

Barbara Becattini, Ludovic Breasson, Claudia Sardi, Fabio Zani, and Giovanni Solinas

Subjects

NAFLD, NASH, Insulin, AKT, mTOR, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background & Aims: Phosphatidylinositides-3 kinases (PI3Ks) are promising drug targets for cancer therapy, but blockage of PI3K-AKT signalling causes hyperglycaemia, hyperinsulinaemia, and liver damage in patients, and hepatocellular carcinoma (HCC) in mice. There are 4 PI3Ks: PI3Kα, PI3Kβ, PI3Kδ, and PI3Kγ. The role of PI3Kγ in HCC is unknown. Methods: We performed histopathological, metabolic, and molecular phenotyping of mice with genetic ablation of PI3Kγ using models where HCC was initiated by the carcinogen diethylnitrosamine (DEN) and promoted by dietary or genetic obesity (ob/ob). The role of PI3Kγ in leucocytes was investigated in mice lacking PI3Kγ in haematopoietic and endothelial cells. Results: Loss of PI3Kγ had no effects on the development of DEN-induced HCC in lean mice. However, in mice injected with DEN and placed on an obesogenic diet, PI3Kγ ablation reduced tumour growth, which was associated with reduced insulinaemia, steatosis, and expression of inflammatory cytokines. ob/ob mice lacking PI3Kγ, and mice with diet-induced obesity lacking PI3Kγ in leucocytes and endothelial cells did not display improved insulin sensitivity, steatosis, metabolic inflammation, or reduced tumour growth. However, these mice showed a reduced number of tumours, reduced liver infiltration by neutrophils, and reduced hepatocyte proliferation acutely induced by DEN. Conclusions: Loss of PI3Kγ reduces tumour development in obesity-promoted HCC through multiple cell types and mechanisms that include improved insulinaemia, steatosis, and metabolic inflammation as well as the regulation of acute neutrophil infiltration and compensatory hepatocyte proliferation. PI3Kγ-selective inhibition may represent a novel therapeutic approach to reduce HCC initiation and slow HCC progression. Lay summary: Class-1 phosphatidylinositides-3 kinases (PI3Ks) are critical targets in cancer therapy, but complete inhibition of all isoforms causes liver damage, hyperglycaemia, and insulinaemia. Here we show that selective ablation of the PI3Kγ isoform dampens tumour initiation and growth in a mouse model of carcinogen-initiated and obesity-promoted hepatocellular carcinoma (HCC). The effect of PI3Kγ ablation on reduced tumour growth was explained by reduced tumour cell proliferation, which was associated with reduced insulin levels, liver lipids, and reduced expression of tumour-promoting cytokines. PI3Kγ ablation in leucocytes of obese mice had no effects on tumour size. However, it reduced tumour number in association with reduced carcinogen-induced neutrophil infiltration and hepatocyte proliferation in livers of obese mice. Inhibition of PI3Kγ may thus reduce HCC initiation and growth in obese subjects by a mechanism involving reduced metabolic stress and insulinaemia and reduced carcinogen-induced neutrophil infiltration to the fatty liver.

Published

2021

4. Tissue Nutrient Environments and Their Effect on Regulatory T Cell Biology

Author

Julianna Blagih, Marc Hennequart, and Fabio Zani

Subjects

regulatory T cells, metabolism, tissues, metabolic adaptation, nutrients, Immunologic diseases. Allergy, RC581-607

Abstract

Regulatory T cells (Tregs) are essential for mitigating inflammation. Tregs are found in nearly every tissue and play either beneficial or harmful roles in the host. The availability of various nutrients can either enhance or impair Treg function. Mitochondrial oxidative metabolism plays a major role in supporting Treg differentiation and fitness. While Tregs rely heavily on oxidation of fatty acids to support mitochondrial activity, they have found ways to adapt to different tissue types, such as tumors, to survive in competitive environments. In addition, metabolic by-products from commensal organisms in the gut also have a profound impact on Treg differentiation. In this review, we will focus on the core metabolic pathways engaged in Tregs, especially in the context of tissue nutrient environments, and how they can affect Treg function, stability and differentiation.

Published

2021

5. Cancer-Specific Loss of p53 Leads to a Modulation of Myeloid and T Cell Responses

Author

Julianna Blagih, Fabio Zani, Probir Chakravarty, Marc Hennequart, Steven Pilley, Sebastijan Hobor, Andreas K. Hock, Josephine B. Walton, Jennifer P. Morton, Eva Gronroos, Susan Mason, Ming Yang, Iain McNeish, Charles Swanton, Karen Blyth, and Karen H. Vousden

Subjects

Biology (General), QH301-705.5

Abstract

Summary: Loss of p53 function contributes to the development of many cancers. While cell-autonomous consequences of p53 mutation have been studied extensively, the role of p53 in regulating the anti-tumor immune response is still poorly understood. Here, we show that loss of p53 in cancer cells modulates the tumor-immune landscape to circumvent immune destruction. Deletion of p53 promotes the recruitment and instruction of suppressive myeloid CD11b+ cells, in part through increased expression of CXCR3/CCR2-associated chemokines and macrophage colony-stimulating factor (M-CSF), and attenuates the CD4+ T helper 1 (Th1) and CD8+ T cell responses in vivo. p53-null tumors also show an accumulation of suppressive regulatory T (Treg) cells. Finally, we show that two key drivers of tumorigenesis, activation of KRAS and deletion of p53, cooperate to promote immune tolerance. : TP53 is one of the most frequently mutated genes in cancer; however, its significance in controlling tumor-immune crosstalk is not fully understood. Blagih et al. highlight a key role for tumor-associated loss of p53, a common oncogenic event, in regulating myeloid and T cell responses. Keywords: p53, Kras, tumor, myeloid cells, T cell response

Published

2020

6. Loss of the actin remodeler Eps8 causes intestinal defects and improved metabolic status in mice.

Author

Arianna Tocchetti, Charlotte Blanche Ekalle Soppo, Fabio Zani, Fabrizio Bianchi, Maria Cristina Gagliani, Benedetta Pozzi, Jan Rozman, Ralf Elvert, Nicole Ehrhardt, Birgit Rathkolb, Corinna Moerth, Marion Horsch, Helmut Fuchs, Valérie Gailus-Durner, Johannes Beckers, Martin Klingenspor, Eckhard Wolf, Martin Hrabé de Angelis, Eugenio Scanziani, Carlo Tacchetti, Giorgio Scita, Pier Paolo Di Fiore, and Nina Offenhäuser

Subjects

Medicine, Science

Abstract

BACKGROUND: In a variety of organisms, including mammals, caloric restriction improves metabolic status and lowers the incidence of chronic-degenerative diseases, ultimately leading to increased lifespan. METHODOLOGY/PRINCIPAL FINDINGS: Here we show that knockout mice for Eps8, a regulator of actin dynamics, display reduced body weight, partial resistance to age- or diet-induced obesity, and overall improved metabolic status. Alteration in the liver gene expression profile, in behavior and metabolism point to a calorie restriction-like phenotype in Eps8 knockout mice. Additionally, and consistent with a calorie restricted metabolism, Eps8 knockout mice show increased lifespan. The metabolic alterations in Eps8 knockout mice correlated with a significant reduction in intestinal fat absorption presumably caused by a 25% reduction in intestinal microvilli length. CONCLUSIONS/SIGNIFICANCE: Our findings implicate actin dynamics as a novel variable in the determination of longevity. Additionally, our observations suggest that subtle differences in energy balance can, over time, significantly affect bodyweight and metabolic status in mice.

Published

2010

7. Fructose reprogrammes glutamine-dependent oxidative metabolism to support LPS-induced inflammation

Author

Emma E. Vincent, Diana Moreira, Caroline J. Bull, Julianna Blagih, Gareth W. Jones, Benjamin Jenkins, Nicholas Jones, Catherine A. Thornton, Karen H. Vousden, April Rees, David K. Finlay, Fabio Zani, David Hill, James G. Cronin, Daniele Avancini, and Azari I. M. Bantan

Subjects

0301 basic medicine, Lipopolysaccharides, medicine.medical_treatment, Glutamine, T-Lymphocytes, General Physics and Astronomy, mTORC1, Systemic inflammation, Monocytes, Oxidative Phosphorylation, chemistry.chemical_compound, 0302 clinical medicine, hemic and lymphatic diseases, Glycolysis, Phagocytes, Multidisciplinary, Chemistry, Research Support, Non-U.S. Gov't, Mitochondria, Cytokine, Phenotype, 030220 oncology & carcinogenesis, Isotope Labeling, Cytokines, ICEP, medicine.symptom, Oxidation-Reduction, medicine.medical_specialty, Science, Citric Acid Cycle, Inflammation, Fructose, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Oxygen Consumption, Internal medicine, medicine, Journal Article, Animals, Metabolomics, Glutaminolysis, Macrophages, General Chemistry, Metabolism, Metabolic Flux Analysis, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, Endocrinology, Glucose, Acids

Abstract

Fructose intake has increased substantially throughout the developed world and is associated with obesity, type 2 diabetes and non-alcoholic fatty liver disease. Currently, our understanding of the metabolic and mechanistic implications for immune cells, such as monocytes and macrophages, exposed to elevated levels of dietary fructose is limited. Here, we show that fructose reprograms cellular metabolic pathways to favour glutaminolysis and oxidative metabolism, which are required to support increased inflammatory cytokine production in both LPS-treated human monocytes and mouse macrophages. A fructose-dependent increase in mTORC1 activity drives translation of pro-inflammatory cytokines in response to LPS. LPS-stimulated monocytes treated with fructose rely heavily on oxidative metabolism and have reduced flexibility in response to both glycolytic and mitochondrial inhibition, suggesting glycolysis and oxidative metabolism are inextricably coupled in these cells. The physiological implications of fructose exposure are demonstrated in a model of LPS-induced systemic inflammation, with mice exposed to fructose having increased levels of circulating IL-1β after LPS challenge. Taken together, our work underpins a pro-inflammatory role for dietary fructose in LPS-stimulated mononuclear phagocytes which occurs at the expense of metabolic flexibility., Myeloid cells are able to utilize a variety of monosaccharides from our diet, including fructose. Here the authors show that when monocytes are reliant on fructose as a carbon energy source they are reprogrammed towards oxidative metabolism, glutamine anaplerosis and a pro-inflammatory phenotype owing to excess pro-inflammatory cytokine production.

Published

2021

8. Serine synthesis pathway inhibition cooperates with dietary serine and glycine limitation for cancer therapy

Author

Vipin Suri, Mylène Tajan, Owen J. Sansom, Vivian S. W. Li, Rachel A. Ridgway, Laura Novellasdemunt, Eric C. Cheung, Robert L. Ludwig, Marc Hennequart, Nathalie Legrave, Nicola Valeri, Georgios Vlachogiannis, Fabio Zani, Andreas K. Hock, Alejandro Suárez-Bonnet, Nello Mainolfi, Karen Blyth, Mark Manfredi, Adam L. Friedman, Nikolaos Angelis, Karen H. Vousden, Oliver D. K. Maddocks, and Dimitris Athineos

Subjects

0301 basic medicine, Male, Cancer therapy, Science, Glycine, General Physics and Astronomy, General Biochemistry, Genetics and Molecular Biology, Article, Serine, 03 medical and health sciences, Mice, 0302 clinical medicine, In vivo, Cell Line, Tumor, Neoplasms, Animals, Humans, Phosphoglycerate dehydrogenase, Phosphoglycerate Dehydrogenase, Cancer, Cell Proliferation, chemistry.chemical_classification, Multidisciplinary, General Chemistry, Metabolism, Cancer metabolism, Activating Transcription Factor 4, In vitro, 3. Good health, Cell biology, Amino acid, Mice, Inbred C57BL, 030104 developmental biology, Enzyme, chemistry, Oncology, 030220 oncology & carcinogenesis, Female

Abstract

Many tumour cells show dependence on exogenous serine and dietary serine and glycine starvation can inhibit the growth of these cancers and extend survival in mice. However, numerous mechanisms promote resistance to this therapeutic approach, including enhanced expression of the de novo serine synthesis pathway (SSP) enzymes or activation of oncogenes that drive enhanced serine synthesis. Here we show that inhibition of PHGDH, the first step in the SSP, cooperates with serine and glycine depletion to inhibit one-carbon metabolism and cancer growth. In vitro, inhibition of PHGDH combined with serine starvation leads to a defect in global protein synthesis, which blocks the activation of an ATF-4 response and more broadly impacts the protective stress response to amino acid depletion. In vivo, the combination of diet and inhibitor shows therapeutic efficacy against tumours that are resistant to diet or drug alone, with evidence of reduced one-carbon availability. However, the defect in ATF4-response seen in vitro following complete depletion of available serine is not seen in mice, where dietary serine and glycine depletion and treatment with the PHGDH inhibitor lower but do not eliminate serine. Our results indicate that inhibition of PHGDH will augment the therapeutic efficacy of a serine depleted diet., Dietary serine and glycine starvation has emerged as a potential therapy for cancer. Here, the authors show that inhibition of PHGDH, which mediates the first step in the serine synthesis pathway, improves the therapeutic efficacy of serine depletion diet in mouse xenograft models.

Published

2021

9. Cancer-Specific Loss of p53 Leads to a Modulation of Myeloid and T Cell Responses

Author

Charles Swanton, Marc Hennequart, Sebastijan Hobor, Julianna Blagih, Ming Yang, Susan M. Mason, Steven Pilley, Josephine Walton, Karen H. Vousden, Fabio Zani, Karen Blyth, Jennifer P. Morton, Probir Chakravarty, Andreas K. Hock, Iain A. McNeish, Eva Grönroos, Imperial College Healthcare NHS Trust- BRC Funding, Cancer Research UK, and Ovarian Cancer Action

Subjects

p53, Myeloid, PROMOTES, BLOCKADE, PROGRESSION, MICROENVIRONMENT, 0601 Biochemistry and Cell Biology, medicine.disease_cause, T-Lymphocytes, Regulatory, Immune tolerance, Mice, 0302 clinical medicine, Ecology,Evolution & Ethology, Macrophage, MACROPHAGES, lcsh:QH301-705.5, Chemical Biology & High Throughput, Human Biology & Physiology, 0303 health sciences, Genome Integrity & Repair, 3. Good health, medicine.anatomical_structure, myeloid cells, 030220 oncology & carcinogenesis, GROWTH, Genetics & Genomics, Life Sciences & Biomedicine, tumor, T cell, IMMUNITY, Biology, Article, General Biochemistry, Genetics and Molecular Biology, Signalling & Oncogenes, 03 medical and health sciences, Immune system, INFLAMMATION, medicine, Animals, Humans, Computational & Systems Biology, 030304 developmental biology, Science & Technology, Cell Biology, Tumour Biology, TUMOR-SUPPRESSOR P53, T cell response, Metabolism, lcsh:Biology (General), 1116 Medical Physiology, Cancer cell, Kras, Cancer research, Tumor Suppressor Protein p53, Carcinogenesis, CD8, RAS

Abstract

Summary Loss of p53 function contributes to the development of many cancers. While cell-autonomous consequences of p53 mutation have been studied extensively, the role of p53 in regulating the anti-tumor immune response is still poorly understood. Here, we show that loss of p53 in cancer cells modulates the tumor-immune landscape to circumvent immune destruction. Deletion of p53 promotes the recruitment and instruction of suppressive myeloid CD11b+ cells, in part through increased expression of CXCR3/CCR2-associated chemokines and macrophage colony-stimulating factor (M-CSF), and attenuates the CD4+ T helper 1 (Th1) and CD8+ T cell responses in vivo. p53-null tumors also show an accumulation of suppressive regulatory T (Treg) cells. Finally, we show that two key drivers of tumorigenesis, activation of KRAS and deletion of p53, cooperate to promote immune tolerance., Graphical Abstract, Highlights • Tumor-specific loss of p53 delays tumor rejection in immune-competent hosts • p53 loss increases myeloid infiltration through enhanced cytokine secretion • The increase in Treg cells in response to loss of p53 is independent of Kras mutation • Kras mutations coordinate with p53 loss to regulate myeloid recruitment, TP53 is one of the most frequently mutated genes in cancer; however, its significance in controlling tumor-immune crosstalk is not fully understood. Blagih et al. highlight a key role for tumor-associated loss of p53, a common oncogenic event, in regulating myeloid and T cell responses.

Published

2020

10. Monoclonal antibodies against SARS-CoV-2 to prevent COVID-19 worsening in a large multicenter cohort

Author

Alessandro Soria, Francesca Graziano, Giulia Ghilardi, Giuseppe Lapadula, Daniela Dalla Gasperina, Simone Vasilij Benatti, Eugenia Quiros-Roldan, Maurizio Milesi, Francesca Bai, Marco Merli, Davide Minisci, Marco Franzetti, Erika Asperges, Filippo Chiabrando, Daria Pocaterra, Alessandro Pandolfo, Fabio Zanini, Domenico Lombardi, Anna Cappelletti, Alban Rugova, Maria Lucia Borghesi, Nicola Squillace, Luigi Pusterla, Stefania Piconi, Paola Morelli, Patrizia Rovere Querini, Raffaele Bruno, Stefano Rusconi, Salvatore Casari, Alessandra Bandera, Fabio Franzetti, Giovanna Travi, Antonella D'Arminio Monforte, Giulia Marchetti, Angelo Pan, Francesco Castelli, Marco Rizzi, Francesco Dentali, Maria Mallardo, Emanuela Rossi, Maria Grazia Valsecchi, Stefania Galimberti, and Paolo Bonfanti

Subjects

Monoclonal antibodies, COVID-19, SARS-CoV-2, Hospitalization, Immunodeficiency, Omicron variant, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Objective: Monoclonal antibodies (mAbs) against Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) reduced Coronavirus Disease 2019 (COVID-19) hospitalizations in people at risk of clinical worsening. Real-world descriptions are limited. Methods: CONDIVIDIAMO, a two-year multicenter observational study, consecutively enrolled SARS-CoV-2 outpatients with ≥1 risk factor for COVID-19 progression receiving mAbs. Demographic data, underlying medical condition, type of mAbs combination received, duration of symptoms before mAbs administration, COVID-19 vaccination history, were collected upon enrolment and centrally recorded. Data on outcomes (hospitalizations, reasons of hospitalization, deaths) were prospectively collected. The primary endpoint was the rate of hospitalization or death in a 28-day follow-up, whichever occurred first; subjects were censored at the day of last follow-up or up to 28 days. The Kaplan-Meier method was used to estimate the incidence rate curve in time. The Cox regression model was used to assess potential risk factors for unfavorable outcome. Results were shown as hazard ratio (HR) along with the corresponding 95 % Confidence Interval (95%CI). Results: Among 1534 subjects (median [interquartile range, IQR] age 66.5 [52.4–74.9] years, 693 [45.2 %] women), 632 (41.2 %) received bamlanivimab ± etesevimab, 209 (13.6 %) casirivimab/imdevimab, 586 (38.2 %) sotrovimab, 107 (7.0 %) tixagevimab/cilgavimab. After 28-day follow-up, 87/1534 (5.6 %, 95%CI: 4.4%–6.8 %) met the primary outcome (85 hospitalizations, 2 deaths). Hospitalizations for COVID-19 (52, 3.4 %) occurred earlier than for other reasons (33, 2.1 %), after a median (IQR) of 3.5 (1–7) versus 8 (3–15) days (p = 0.006) from mAbs administration.In a multivariable Cox regression model, factors independently associated with increased hospitalization risk were age (hazard ratio [HR] 1.02, 95%CI 1.00–1.03, p = 0.021), immunodeficiency (HR 1.78, 95%CI 1.11–2.85, p = 0.017), pre-Omicron calendar period (HR 1.66, 95%CI 1.02–2.69, p = 0.041). Conclusions: MAbs real-world data over a 2-year changing pandemic landscape showed the feasibility of the intervention, although the hospitalization rate was not negligible. Immunosuppressed subjects remain more at risk of clinical worsening.

Published

2024

11. Hyperoxia prevents the dynamic neonatal increases in lung mesenchymal cell diversity

Author

Fabio Zanini, Xibing Che, Nina E. Suresh, Carsten Knutsen, Paula Klavina, Yike Xie, Racquel Domingo-Gonzalez, Min Liu, Alexander Kum, Robert C. Jones, Stephen R. Quake, Cristina M. Alvira, and David N. Cornfield

Subjects

Medicine, Science

Abstract

Abstract Rapid expansion of the pulmonary microvasculature through angiogenesis drives alveolarization, the final stage of lung development that occurs postnatally and dramatically increases lung gas-exchange surface area. Disruption of pulmonary angiogenesis induces long-term structural and physiologic lung abnormalities, including bronchopulmonary dysplasia, a disease characterized by compromised alveolarization. Although endothelial cells are primary determinants of pulmonary angiogenesis, mesenchymal cells (MC) play a critical and dual role in angiogenesis and alveolarization. Therefore, we performed single cell transcriptomics and in-situ imaging of the developing lung to profile mesenchymal cells during alveolarization and in the context of lung injury. Specific mesenchymal cell subtypes were present at birth with increasing diversity during alveolarization even while expressing a distinct transcriptomic profile from more mature correlates. Hyperoxia arrested the transcriptomic progression of the MC, revealed differential cell subtype vulnerability with pericytes and myofibroblasts most affected, altered cell to cell communication, and led to the emergence of Acta1 expressing cells. These insights hold the promise of targeted treatment for neonatal lung disease, which remains a major cause of infant morbidity and mortality across the world.

Published

2024

12. Hepatitis C virus infects and perturbs liver stem cells

Author

Nathan L. Meyers, Tal Ashuach, Danielle E. Lyons, Mir M. Khalid, Camille R. Simoneau, Ann L. Erickson, Mehdi Bouhaddou, Thong T. Nguyen, G. Renuka Kumar, Taha Y. Taha, Vaishaali Natarajan, Jody L. Baron, Norma Neff, Fabio Zanini, Tokameh Mahmoudi, Stephen R. Quake, Nevan J. Krogan, Stewart Cooper, Todd C. McDevitt, Nir Yosef, and Melanie Ott

Subjects

hepatitis c virus, organoid, liver disease, stem cell, single-cell RNA sequencing, chronic infection, Microbiology, QR1-502

Abstract

ABSTRACTHepatitis C virus (HCV) is the leading cause of death from liver disease. How HCV infection causes lasting liver damage and increases cancer risk remains unclear. Here, we identify bipotent liver stem cells as novel targets for HCV infection, and their erroneous differentiation as the potential cause of impaired liver regeneration and cancer development. We show 3D organoids generated from liver stem cells from actively HCV-infected individuals carry replicating virus and maintain low-grade infection over months. Organoids can be infected with a primary HCV isolate. Virus-inclusive single-cell RNA sequencing uncovered transcriptional reprogramming in HCV+ cells supporting hepatocytic differentiation, cancer stem cell development, and viral replication while stem cell proliferation and interferon signaling are disrupted. Our data add a new pathogenesis mechanism—infection of liver stem cells—to the biology of HCV infection that may explain progressive liver damage and enhanced cancer risk through an altered stem cell state.IMPORTANCEThe hepatitis C virus (HCV) causes liver disease, affecting millions. Even though we have effective antivirals that cure HCV, they cannot stop terminal liver disease. We used an adult stem cell-derived liver organoid system to understand how HCV infection leads to the progression of terminal liver disease. Here, we show that HCV maintains low-grade infections in liver organoids for the first time. HCV infection in liver organoids leads to transcriptional reprogramming causing cancer cell development and altered immune response. Our finding shows how HCV infection in liver organoids mimics HCV infection and patient pathogenesis. These results reveal that HCV infection in liver organoids contributes to liver disease progression.

Published

2023

13. PI3Kγ activity in leukocytes promotes adipose tissue inflammation and early-onset insulin resistance during obesity

Author

Ludovic Breasson, Claudia Sardi, Romina Marone, Fabrizio Botindari, Mélanie Bousquenaud, Giovanni Solinas, Barbara Becattini, Matthias P. Wymann, Curzio Rüegg, Fabio Zani, and Angela Molinaro

Subjects

Male, 0301 basic medicine, Cell type, medicine.medical_specialty, Adipose tissue, Inflammation, Biology, Diet, High-Fat, Biochemistry, law.invention, Proinflammatory cytokine, Mice, 03 medical and health sciences, Insulin resistance, law, Internal medicine, Gene expression, Leukocytes, medicine, Animals, Class Ib Phosphatidylinositol 3-Kinase, Macrophage, Obesity, Phosphorylation, Molecular Biology, Mice, Knockout, Gene Expression Profiling, Macrophages, Cell Biology, Lipid Metabolism, medicine.disease, Mice, Inbred C57BL, 030104 developmental biology, Endocrinology, Adipose Tissue, Immunology, Suppressor, Insulin Resistance, medicine.symptom, Proto-Oncogene Proteins c-akt

Abstract

The phosphoinositide 3-kinase γ (PI3Kγ) plays a major role in leukocyte recruitment during acute inflammation and has been proposed to inhibit classical macrophage activation by driving immunosuppressive gene expression. PI3Kγ plays an important role in diet-induced obesity and insulin resistance. In seeking to determine the underlying molecular mechanisms, we showed that PI3Kγ action in high-fat diet– induced inflammation and insulin resistance depended largely on its role in the control of adiposity, which was due to PI3Kγ activity in a nonhematopoietic cell type. However, PI3Kγ activity in leukocytes was required for efficient neutrophil recruitment to adipose tissue. Neutrophil recruitment was correlated with proinflammatory gene expression in macrophages in adipose tissue, which triggered insulin resistance early during the development of obesity. Our data challenge the concept that PI3Kγ is a general suppressor of classical macrophage activation and indicate that PI3Kγ controls macrophage gene expression by non–cell-autonomous mechanisms, the outcome of which is context-dependent.

Published

2017

14. JNK1 ablation in mice confers long-term metabolic protection from diet-induced obesity at the cost of moderate skin oxidative damage

Author

Min-Kyung Choo, Vito Giuseppe D'Agostino, Barbara Becattini, Jin Mo Park, Giovanni Solinas, Ludovic Breasson, Fabio Zani, Claudia Sardi, and Alessandro Provenzani

Subjects

0301 basic medicine, Aging, medicine.medical_specialty, Adipose tissue, Inflammation, Type 2 diabetes, type-2 diabetes, medicine.disease_cause, Biochemistry, Mice, 03 medical and health sciences, Insulin resistance, Internal medicine, antioxidants, insulin resistance, metabolic inflammation, oxidative stress tolerance, Genetics, medicine, Animals, Glucose homeostasis, Mitogen-Activated Protein Kinase 8, Obesity, Molecular Biology, Skin, Mice, Knockout, business.industry, Research, Fatty liver, medicine.disease, Dietary Fats, 3. Good health, Fatty Liver, Oxidative Stress, 030104 developmental biology, Endocrinology, medicine.symptom, Steatosis, business, hormones, hormone substitutes, and hormone antagonists, Oxidative stress, Biotechnology

Abstract

Obesity and insulin resistance are associated with oxidative stress, which may be implicated in the progression of obesity-related diseases. The kinase JNK1 has emerged as a promising drug target for the treatment of obesity and type 2 diabetes. JNK1 is also a key mediator of the oxidative stress response, which can promote cell death or survival, depending on the magnitude and context of its activation. In this article, we describe a study in which the long-term effects of JNK1 inactivation on glucose homeostasis and oxidative stress in obese mice were investigated for the first time. Mice lacking JNK1 (JNK1−/−) were fed an obesogenic high-fat diet (HFD) for a long period. JNK1−/− mice fed an HFD for the long term had reduced expression of antioxidant genes in their skin, more skin oxidative damage, and increased epidermal thickness and inflammation compared with the effects in control wild-type mice. However, we also observed that the protection from obesity, adipose tissue inflammation, steatosis, and insulin resistance, conferred by JNK1 ablation, was sustained over a long period and was paralleled by decreased oxidative damage in fat and liver. We conclude that compounds targeting JNK1 activity in brain and adipose tissue, which do not accumulate in the skin, may be safer and most effective.— Becattini, B., Zani, F., Breasson, L., Sardi, C., D’Agostino, V. G., Choo, M.-K., Provenzani, A., Park, J. M., Solinas, G. JNK1 ablation in mice confers long-term metabolic protection from diet-induced obesity at the cost of moderate skin oxidative damage.

Published

2016

15. T cells engineered to express a T-cell receptor specific for glypican-3 to recognize and kill hepatoma cells in vitro and in mice

Author

Fabio Zani, Frank Thiele, Dirk H. Busch, Gunther Richter, Angela M. Krackhardt, Susanne Wilde, C. Dargel, Michal Bassani-Sternberg, JH Bockmann, Kerstin Stemmer, Matthias Schiemann, Felix Bohne, Dirk Wohlleber, Ulrike Protzer, Karin Wisskirchen, Martin F. Sprinzl, Dolores Schendel, Matthias Mann, Julia Hasreiter, Wolfgang Uckert, and Mathias Heikenwalder

Subjects

Cytotoxicity, Immunologic, Cancer Immunotherapy, Immune Response, Liver Cancer, Tumor-associated Antigens, Carcinoma, Hepatocellular, Time Factors, Cell Survival, Mice, SCID, CD8-Positive T-Lymphocytes, Biology, Lymphocyte Activation, Transfection, Immunotherapy, Adoptive, Interferon-gamma, Interleukin 21, Glypicans, HLA-A2 Antigen, Animals, Humans, Cytotoxic T cell, IL-2 receptor, Antigen-presenting cell, Interleukin 3, Hepatology, Immunodominant Epitopes, ZAP70, Liver Neoplasms, Gastroenterology, Dendritic Cells, Hep G2 Cells, Natural killer T cell, Xenograft Model Antitumor Assays, Molecular biology, Coculture Techniques, Genes, T-Cell Receptor, Interleukin 12, Female, Genetic Engineering

Abstract

Background & Aims Cancer therapies are being developed based on our ability to direct T cells against tumor antigens. Glypican-3 (GPC3) is expressed by 75% of all hepatocellular carcinomas (HCC), but not in healthy liver tissue or other organs. We aimed to generate T cells with GPC3-specific receptors that recognize HCC and used them to eliminate GPC3-expressing xenograft tumors grown from human HCC cells in mice. Methods We used mass spectrometry to obtain a comprehensive peptidome from GPC3-expressing hepatoma cells after immune-affinity purification of human leukocyte antigen (HLA)-A2 and bioinformatics to identify immunodominant peptides. To circumvent GPC3 tolerance resulting from fetal expression, dendritic cells from HLA-A2−negative donors were cotransfected with GPC3 and HLA-A2 RNA to stimulate and expand antigen-specific T cells. Results Peptide GPC3 367 was identified as a predominant peptide on HLA-A2. We used A2-GPC3 367 multimers to detect, select for, and clone GPC3-specific T cells. These clones bound the A2-GPC3 367 multimer and secreted interferon-γ when cultured with GPC3 367 , but not with control peptide-loaded cells. By genomic sequencing of these T-cell clones, we identified a gene encoding a dominant T-cell receptor. The gene was cloned and the sequence was codon optimized and expressed from a retroviral vector. Primary CD8 + T cells that expressed the transgenic T-cell receptor specifically bound GPC3 367 on HLA-A2. These T cells killed GPC3-expressing hepatoma cells in culture and slowed growth of HCC xenograft tumors in mice. Conclusions We identified a GPC3 367 -specific T-cell receptor. Expression of this receptor by T cells allows them to recognize and kill GPC3-positive hepatoma cells. This finding could be used to advance development of adoptive T-cell therapy for HCC.

Published

2015

16. Developmental diversity and unique sensitivity to injury of lung endothelial subtypes during postnatal growth

Author

Fabio Zanini, Xibing Che, Carsten Knutsen, Min Liu, Nina E. Suresh, Racquel Domingo-Gonzalez, Steve H. Dou, Daoqin Zhang, Gloria S. Pryhuber, Robert C. Jones, Stephen R. Quake, David N. Cornfield, and Cristina M. Alvira

Subjects

Developmental biology, Systems biology, Transcriptomics, Science

Abstract

Summary: At birth, the lung is still immature, heightening susceptibility to injury but enhancing regenerative capacity. Angiogenesis drives postnatal lung development. Therefore, we profiled the transcriptional ontogeny and sensitivity to injury of pulmonary endothelial cells (EC) during early postnatal life. Although subtype speciation was evident at birth, immature lung EC exhibited transcriptomes distinct from mature counterparts, which progressed dynamically over time. Gradual, temporal changes in aerocyte capillary EC (CAP2) contrasted with more marked alterations in general capillary EC (CAP1) phenotype, including distinct CAP1 present only in the early alveolar lung expressing Peg3, a paternally imprinted transcription factor. Hyperoxia, an injury that impairs angiogenesis induced both common and unique endothelial gene signatures, dysregulated capillary EC crosstalk, and suppressed CAP1 proliferation while stimulating venous EC proliferation. These data highlight the diversity, transcriptomic evolution, and pleiotropic responses to injury of immature lung EC, possessing broad implications for lung development and injury across the lifespan.

Published

2023

17. Incidence, triggering factors, symptoms, and treatment of anaphylaxis in a pediatric hospital

Author

Fabiana A. Nunes, MD, Fábio Zanini, MD, Camilla de S. Braga, MD, Andreza L. da Silva, MD, Fátima R. Fernandes, MD, MSc, Dirceu Solé, MD, PhD, and Gustavo F. Wandalsen, MD, PhD

Subjects

Anaphylaxis, Children, Adrenaline, Incidence, Urticaria, Immunologic diseases. Allergy, RC581-607

Abstract

Objective: Assess the incidence of anaphylaxis in the emergency room (ER) of a private pediatric hospital in the city of São Paulo, Brazil, and describe associated factors. Method: This was a cross-sectional, retrospective, and observational study based on the medical records of patients from 0 to 18 years old seen at the emergency unit during the years of 2016–2019, who had a diagnosis potentially related to anaphylaxis according to ICD-10. All medical records were individually reviewed for the presence of compatible signs and symptoms that identified “possible” cases of anaphylaxis. Cases were considered probable anaphylaxis when medical history was compatible and indicative of anaphylaxis in the opinion of at least 2 allergists. Results: The incidence of anaphylaxis was 0.013%. Among the 56 patients identified (mean age 4.2 years), food was the most predominant suspected factor (53%), followed by unknown factors (32%), and drugs (12.5%). All patients presented with cutaneous symptoms, 74% with respiratory, and 53% with gastrointestinal. Allergic disease as a comorbidity was found in 39% of the children and 11% had a history of previous anaphylaxis. There were neither cases of syncope or shock, nor deaths. Intramuscular (IM) adrenaline was prescribed in 37.5% of cases. Conclusions: The incidence of anaphylaxis was low when compared to the worldwide incidence. The severity of most cases was mild, cutaneous symptoms were predominant, and food was the suspected trigger most frequently associated with reactions.

Published

2022

18. The transcriptional landscape of Venezuelan equine encephalitis virus (TC-83) infection.

Author

Zhiyuan Yao, Fabio Zanini, Sathish Kumar, Marwah Karim, Sirle Saul, Nishank Bhalla, Nuttada Panpradist, Avery Muniz, Aarthi Narayanan, Stephen R Quake, and Shirit Einav

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Venezuelan Equine Encephalitis Virus (VEEV) is a major biothreat agent that naturally causes outbreaks in humans and horses particularly in tropical areas of the western hemisphere, for which no antiviral therapy is currently available. The host response to VEEV and the cellular factors this alphavirus hijacks to support its effective replication or evade cellular immune responses are largely uncharacterized. We have previously demonstrated tremendous cell-to-cell heterogeneity in viral RNA (vRNA) and cellular transcript levels during flaviviral infection using a novel virus-inclusive single-cell RNA-Seq approach. Here, we used this unbiased, genome-wide approach to simultaneously profile the host transcriptome and vRNA in thousands of single cells during infection of human astrocytes with the live-attenuated vaccine strain of VEEV (TC-83). Host transcription was profoundly suppressed, yet "superproducer cells" with extremely high vRNA abundance emerged during the first viral life cycle and demonstrated an altered transcriptome relative to both uninfected cells and cells with high vRNA abundance harvested at later time points. Additionally, cells with increased structural-to-nonstructural transcript ratio exhibited upregulation of intracellular membrane trafficking genes at later time points. Loss- and gain-of-function experiments confirmed pro- and antiviral activities in both vaccine and virulent VEEV infections among the products of transcripts that positively or negatively correlated with vRNA abundance, respectively. Lastly, comparison with single cell transcriptomic data from other viruses highlighted common and unique pathways perturbed by infection across evolutionary scales. This study provides a high-resolution characterization of the VEEV (TC-83)-host interplay, identifies candidate targets for antivirals, and establishes a comparative single-cell approach to study the evolution of virus-host interactions.

Published

2021

19. An Agonistic Anti-CD137 Antibody Disrupts Lymphoid Follicle Structure and T-Cell-Dependent Antibody Responses

Author

Jun P. Hong, Glennys V. Reynoso, Prabhakar S. Andhey, Amanda Swain, Jackson S. Turner, Adrianus C.M. Boon, Florian Krammer, Ali H. Ellebedy, Fabio Zanini, Maxim Artyomov, Heather D. Hickman, and Michael S. Diamond

Subjects

antibody, germinal center, CD137, memory B cell, T cell-dependent, single cell RNA sequencing, Medicine (General), R5-920

Abstract

Summary: CD137 is a costimulatory receptor expressed on natural killer cells, T cells, and subsets of dendritic cells. An agonistic monoclonal antibody (mAb) against CD137 has been used to reduce tumor burden or reverse autoimmunity in animal models and clinical trials. Here, we show that mice treated with an agonistic anti-CD137 mAb have reduced numbers of germinal center (GC) B cells and follicular dendritic cells (FDCs) in lymphoid tissues, which impair antibody responses to multiple T-cell-dependent antigens, including infectious virus, viral proteins, and conjugated haptens. These effects are not due to enhanced apoptosis or impaired proliferation of B cells but instead correlate with changes in lymphoid follicle structure and GC B cell dispersal and are mediated by CD137 signaling in CD4+ and CD8+ T cells. Our experiments in mice suggest that agonistic anti-CD137 mAbs used in cancer and autoimmunity therapy may impair long-term antibody and B cell memory responses.

Published

2020

20. Diverse homeostatic and immunomodulatory roles of immune cells in the developing mouse lung at single cell resolution

Author

Racquel Domingo-Gonzalez, Fabio Zanini, Xibing Che, Min Liu, Robert C Jones, Michael A Swift, Stephen R Quake, David N Cornfield, and Cristina M Alvira

Subjects

macrophages, pulmonary vascular, alveolarization, Medicine, Science, Biology (General), QH301-705.5

Abstract

At birth, the lungs rapidly transition from a pathogen-free, hypoxic environment to a pathogen-rich, rhythmically distended air-liquid interface. Although many studies have focused on the adult lung, the perinatal lung remains unexplored. Here, we present an atlas of the murine lung immune compartment during early postnatal development. We show that the late embryonic lung is dominated by specialized proliferative macrophages with a surprising physical interaction with the developing vasculature. These macrophages disappear after birth and are replaced by a dynamic mixture of macrophage subtypes, dendritic cells, granulocytes, and lymphocytes. Detailed characterization of macrophage diversity revealed an orchestration of distinct subpopulations across postnatal development to fill context-specific functions in tissue remodeling, angiogenesis, and immunity. These data both broaden the putative roles for immune cells in the developing lung and provide a framework for understanding how external insults alter immune cell phenotype during a period of rapid lung growth and heightened vulnerability.

Published

2020

21. Broadly neutralizing human antibodies against dengue virus identified by single B cell transcriptomics

Author

Natasha D Durham, Aditi Agrawal, Eric Waltari, Derek Croote, Fabio Zanini, Mallorie Fouch, Edgar Davidson, Olivia Smith, Esteban Carabajal, John E Pak, Benjamin J Doranz, Makeda Robinson, Ana M Sanz, Ludwig L Albornoz, Fernando Rosso, Shirit Einav, Stephen R Quake, Krista M McCutcheon, and Leslie Goo

Subjects

flavivirus, neutralizing antibodies, dengue virus, B cell repertoire, single cell transcriptomics, Medicine, Science, Biology (General), QH301-705.5

Abstract

Eliciting broadly neutralizing antibodies (bNAbs) against the four dengue virus serotypes (DENV1-4) that are spreading into new territories is an important goal of vaccine design. To define bNAb targets, we characterized 28 antibodies belonging to expanded and hypermutated clonal families identified by transcriptomic analysis of single plasmablasts from DENV-infected individuals. Among these, we identified J9 and J8, two somatically related bNAbs that potently neutralized DENV1-4. Mutagenesis studies showed that the major recognition determinants of these bNAbs are in E protein domain I, distinct from the only known class of human bNAbs against DENV with a well-defined epitope. B cell repertoire analysis from acute-phase peripheral blood suggested that J9 and J8 followed divergent somatic hypermutation pathways, and that a limited number of mutations was sufficient for neutralizing activity. Our study suggests multiple B cell evolutionary pathways leading to DENV bNAbs targeting a new epitope that can be exploited for vaccine design.

Published

2019

22. Single-cell transcriptional dynamics of flavivirus infection

Author

Fabio Zanini, Szu-Yuan Pu, Elena Bekerman, Shirit Einav, and Stephen R Quake

Subjects

single-cell, virus, host response, transcriptome, Medicine, Science, Biology (General), QH301-705.5

Abstract

Dengue and Zika viral infections affect millions of people annually and can be complicated by hemorrhage and shock or neurological manifestations, respectively. However, a thorough understanding of the host response to these viruses is lacking, partly because conventional approaches ignore heterogeneity in virus abundance across cells. We present viscRNA-Seq (virus-inclusive single cell RNA-Seq), an approach to probe the host transcriptome together with intracellular viral RNA at the single cell level. We applied viscRNA-Seq to monitor dengue and Zika virus infection in cultured cells and discovered extreme heterogeneity in virus abundance. We exploited this variation to identify host factors that show complex dynamics and a high degree of specificity for either virus, including proteins involved in the endoplasmic reticulum translocon, signal peptide processing, and membrane trafficking. We validated the viscRNA-Seq hits and discovered novel proviral and antiviral factors. viscRNA-Seq is a powerful approach to assess the genome-wide virus-host dynamics at single cell level.

Published

2018

23. Establishment and stability of the latent HIV-1 DNA reservoir

Author

Johanna Brodin, Fabio Zanini, Lina Thebo, Christa Lanz, Göran Bratt, Richard A Neher, and Jan Albert

Subjects

HIV, cure, evolution, Medicine, Science, Biology (General), QH301-705.5

Abstract

HIV-1 infection cannot be cured because the virus persists as integrated proviral DNA in long-lived cells despite years of suppressive antiretroviral therapy (ART). In a previous paper (Zanini et al, 2015) we documented HIV-1 evolution in 10 untreated patients. Here we characterize establishment, turnover, and evolution of viral DNA reservoirs in the same patients after 3–18 years of suppressive ART. A median of 14% (range 0–42%) of the DNA sequences were defective due to G-to-A hypermutation. Remaining DNA sequences showed no evidence of evolution over years of suppressive ART. Most sequences from the DNA reservoirs were very similar to viruses actively replicating in plasma (RNA sequences) shortly before start of ART. The results do not support persistent HIV-1 replication as a mechanism to maintain the HIV-1 reservoir during suppressive therapy. Rather, the data indicate that DNA variants are turning over as long as patients are untreated and that suppressive ART halts this turnover.

Published

2016

24. Análise da suplementação de carboidratos e solução isotônica sobre parâmetros hematológicos e bioquímicos de jogadores profissionais de futebol em condições reais de treinamento

Author

Luciano de Oliveira Siqueira, Jaíse Bortoluzzi, Fabio Zanin, Suellen Savi, Ana Paula Deliberal, Patrícia Castelli Canal, Hugo Tourinho Filho, and José Cláudio Fonseca Moreira

Subjects

Electrolitos, equilibrio electrolítico, el estrés hídrico, suplemento dietético, Sports, GV557-1198.995

Abstract

Avaliou-se o efeito de uma suplementação com carboidratos e bebidas esportivas sobre parâmetros laboratoriais em atletas de futebol de campo, em uma situação real de treinamento. Foram coletados 10 ml de sangue venoso e 50 ml de urina em repouso e 15 minutos após treinamento. Os resultados mostram que o exercício intenso causou um variável grau de estase urinária, bem como provocou alterações hidroeletrolíticas caracterizadas por uma diminuição na concentração sérica de sódio, potássio, magnésio, fósforo e glicose (p

Published

2012

25. Population genomics of intrapatient HIV-1 evolution

Author

Fabio Zanini, Johanna Brodin, Lina Thebo, Christa Lanz, Göran Bratt, Jan Albert, and Richard A Neher

Subjects

HIV-1, deep sequencing, evolution, reversion, fitness landscapes, Medicine, Science, Biology (General), QH301-705.5

Abstract

Many microbial populations rapidly adapt to changing environments with multiple variants competing for survival. To quantify such complex evolutionary dynamics in vivo, time resolved and genome wide data including rare variants are essential. We performed whole-genome deep sequencing of HIV-1 populations in 9 untreated patients, with 6-12 longitudinal samples per patient spanning 5-8 years of infection. The data can be accessed and explored via an interactive web application. We show that patterns of minor diversity are reproducible between patients and mirror global HIV-1 diversity, suggesting a universal landscape of fitness costs that control diversity. Reversions towards the ancestral HIV-1 sequence are observed throughout infection and account for almost one third of all sequence changes. Reversion rates depend strongly on conservation. Frequent recombination limits linkage disequilibrium to about 100bp in most of the genome, but strong hitch-hiking due to short range linkage limits diversity.

Published

2015

26. INFLUENCE OF HOSPITALIZATION UPON DIAGNOSIS ON THE RISK OF TUBERCULOSIS CLUSTERING

Author

Giuseppe Lapadula, Fabio Zanini, and Luigi Codecasa

Subjects

Tuberculosis, infectivity, cluster analysis, RFLP restriction fragment length polymorphisms, isolation policy, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Setting: Culture-positive tuberculosis (TB) diagnosed in the metropolitan area of Milan (Italy) over a 5-year period (1995-1999). Objective: To assess the impact of short-course hospitalization upon diagnosis on the overall risk of TB clusterization. Design: Restriction fragment length polymorphism profiles with a similarity of 100% defined a cluster. Uni- and multivariable logistic regression models were performed to assess factors associated with clusterization. Results: Among 1139 patients, 392 (34.4%) were hospitalized before or soon after diagnosis, 405 (35.6%) received domiciliary treatment since the diagnosis and 392 (30%) had no information about initial clinical management. One hundred fifteen molecular clusters involving 363 patients were identified. Using multivariable analysis, hospitalization was not significantly associated with clusterization (OR 1.06, 95%CI 0.75-1.50, p=0.575). Subjects aged >65 years old (OR 0.60; 95CI%:0.37-0.95; p=0.016) and non-Italian born patients (OR 0.56; 95%CI:0.41-0.76; p

Published

2013

27. CD4+ T cell depletion, immune activation and increased production of regulatory T cells in the thymus of HIV-infected individuals.

Author

Alessandra Bandera, Giulio Ferrario, Marina Saresella, Ivana Marventano, Alessandro Soria, Fabio Zanini, Francesca Sabbatini, Monica Airoldi, Giulia Marchetti, Fabio Franzetti, Daria Trabattoni, Mario Clerici, and Andrea Gori

Subjects

Medicine, Science

Abstract

Mechanisms by which HIV affects the thymus are multiple and only partially known, and the role of thymic dysfunction in HIV/AIDS immunopathogenesis remains poorly understood. To evaluate the effects of HIV infection on intra-thymic precursors of T cells in HIV-infected adults, we conducted a detailed immunophenotypic study of thymic tissue isolated from 7 HIV-infected and 10 HIV-negative adults who were to undergo heart surgery. We found that thymuses of HIV-infected individuals were characterized by a relative depletion of CD4+ single positive T cells and a corresponding enrichment of CD8+ single positive T cells. In addition, thymocytes derived from HIV-infected subjects showed increased levels of activated and proliferating cells. Our analysis also revealed a decreased expression of interleukin-7 receptor in early thymocytes from HIV-infected individuals, along with an increase in this same expression in mature double- and single-positive cells. Frequency of regulatory T cells (CD25+FoxP3+) was significantly increased in HIV-infected thymuses, particularly in priorly-committed CD4 single positive cells. Our data suggest that HIV infection is associated with a complex set of changes in the immunophenotype of thymocytes, including a reduction of intrathymic CD4+ T cell precursors, increased expression of activation markers, changes in the expression pattern of IL-7R and enrichment of T regulatory cells generation.

Published

2010