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1. PTPN14 phosphatase and YAP promote TGFβ signalling in rheumatoid synoviocytes

Author

Bottini, Angel, Wu, Dennis J, Ai, Rizi, Le Roux, Michelle, Bartok, Beatrix, Bombardieri, Michele, Doody, Karen M, Zhang, Vida, Sacchetti, Cristiano, Zoccheddu, Martina, Lonic, Ana, Li, Xiaochun, Boyle, David L, Hammaker, Deepa, Meng, Tzu-Ching, Liu, Lin, Corr, Maripat, Stanford, Stephanie M, Lewis, Myles, Wang, Wei, Firestein, Gary S, Khew-Goodall, Yeesim, Pitzalis, Costantino, and Bottini, Nunzio

Subjects
Genetics, Rheumatoid Arthritis, Arthritis, Autoimmune Disease, 2.1 Biological and endogenous factors, Aetiology, Musculoskeletal, Inflammatory and immune system, Adaptor Proteins, Signal Transducing, Animals, Arthritis, Rheumatoid, Cell Cycle Proteins, Humans, Mice, Protein Tyrosine Phosphatases, Non-Receptor, Signal Transduction, Synoviocytes, Transcription Factors, Transforming Growth Factor beta, YAP-Signaling Proteins, K/BxN, PTPN14, TGFβ, Verteporfin, YAP, fibroblast-like synoviocytes, rheumatoid arthritis, Clinical Sciences, Immunology, Public Health and Health Services, Arthritis & Rheumatology
Abstract

ObjectiveWe aimed to understand the role of the tyrosine phosphatase PTPN14-which in cancer cells modulates the Hippo pathway by retaining YAP in the cytosol-in fibroblast-like synoviocytes (FLS) from patients with rheumatoid arthritis (RA).MethodsGene/protein expression levels were measured by quantitative PCR and/or Western blotting. Gene knockdown in RA FLS was achieved using antisense oligonucleotides. The interaction between PTPN14 and YAP was assessed by immunoprecipitation. The cellular localisation of YAP and SMAD3 was examined via immunofluorescence. SMAD reporter studies were carried out in HEK293T cells. The RA FLS/cartilage coimplantation and passive K/BxN models were used to examine the role of YAP in arthritis.ResultsRA FLS displayed overexpression of PTPN14 when compared with FLS from patients with osteoarthritis (OA). PTPN14 knockdown in RA FLS impaired TGFβ-dependent expression of MMP13 and potentiation of TNF signalling. In RA FLS, PTPN14 formed a complex with YAP. Expression of PTPN14 or nuclear YAP-but not of a non-YAP-interacting PTPN14 mutant-enhanced SMAD reporter activity. YAP promoted TGFβ-dependent SMAD3 nuclear localisation in RA FLS. Differences in epigenetic marks within Hippo pathway genes, including YAP, were found between RA FLS and OA FLS. Inhibition of YAP reduced RA FLS pathogenic behaviour and ameliorated arthritis severity.ConclusionIn RA FLS, PTPN14 and YAP promote nuclear localisation of SMAD3. YAP enhances a range of RA FLS pathogenic behaviours which, together with epigenetic evidence, points to the Hippo pathway as an important regulator of RA FLS behaviour.

Published
2019

2. Laser Capture Microscopy RNA Sequencing for Topological Mapping of Synovial Pathology During Rheumatoid Arthritis.

Author

Van Espen, Benjamin, Prideaux, E. Barton, Wilson, Andrew R., Machado, Camilla R. L., Sendo, Sho, Parker, James, Seumois, Grégory, Sacchetti, Cristiano, Belongia, Anna C., Perumal, Narayanan B., Vijayanand, Pandurangan, Linnik, Matthew D., Benschop, Robert J., Wang, Wei, Bottini, Nunzio, Firestein, Gary S., and Stanford, Stephanie M.

Subjects
RNA analysis, RHEUMATOID arthritis, SYNOVIAL fluid, PAIRED comparisons (Mathematics), CELL cycle, CELLULAR signal transduction, GENE expression profiling, MICROSCOPY, STAINS & staining (Microscopy), FACTOR analysis, SEQUENCE analysis, PHENOTYPES
Abstract

Objective: Rheumatoid arthritis (RA) is an autoimmune disease in which the joint lining or synovium becomes highly inflamed and majorly contributes to disease progression. Understanding pathogenic processes in RA synovium is critical for identifying therapeutic targets. We performed laser capture microscopy (LCM) followed by RNA sequencing (LCM‐RNAseq) to study regional transcriptomes throughout RA synovium. Methods: Synovial lining, sublining, and vessel samples were captured by LCM from seven patients with RA and seven patients with osteoarthritis (OA). RNAseq was performed on RNA extracted from captured tissue. Principal component analysis was performed on the sample set by disease state. Differential expression analysis was performed between disease states based on log2 fold change and q value parameters. Pathway analysis was performed using the Reactome Pathway Database on differentially expressed genes among disease states. Significantly enriched pathways in each synovial region were selected based on the false discovery rate. Results: RA and OA transcriptomes were distinguishable by principal component analysis. Pairwise comparisons of synovial lining, sublining, and vessel samples between RA and OA revealed substantial differences in transcriptional patterns throughout the synovium. Hierarchical clustering of pathways based on significance revealed a pattern of association between biologic function and synovial topology. Analysis of pathways uniquely enriched in each region revealed distinct phenotypic abnormalities. As examples, RA lining samples were marked by anomalous immune cell signaling, RA sublining samples were marked by aberrant cell cycle, and RA vessel samples were marked by alterations in heme scavenging. Conclusion: LCM‐RNAseq confirms reported transcriptional differences between the RA synovium and the OA synovium and provides evidence supporting a relationship between synovial topology and molecular anomalies in RA. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Laser capture microscopy (LCM)‐RNAseq for topological mapping of synovial pathology during rheumatoid arthritis

Author

Van Espen, Benjamin, primary, Prideaux, E. Barton, additional, Wilson, Andrew R., additional, Machado, Camilla R.L., additional, Sendo, Sho, additional, Parker, James, additional, Seumois, Grégory, additional, Sacchetti, Cristiano, additional, Belongia, Anna C., additional, Perumal, Narayanan B., additional, Vijayanand, Pandurangan, additional, Linnik, Matthew D., additional, Benschop, Robert J., additional, Wang, Wei, additional, Bottini, Nunzio, additional, Firestein, Gary S., additional, and Stanford, Stephanie M., additional

Published
2024
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4. PTP4A1 promotes TGFβ signaling and fibrosis in systemic sclerosis.

Author

Sacchetti, Cristiano, Bai, Yunpeng, Stanford, Stephanie M, Di Benedetto, Paola, Cipriani, Paola, Santelli, Eugenio, Piera-Velazquez, Sonsoles, Chernitskiy, Vladimir, Kiosses, William B, Ceponis, Arnold, Kaestner, Klaus H, Boin, Francesco, Jimenez, Sergio A, Giacomelli, Roberto, Zhang, Zhong-Yin, and Bottini, Nunzio

Subjects
Cell Line, Fibroblasts, Dermis, Animals, Mice, Inbred C57BL, Mice, Knockout, Humans, Scleroderma, Systemic, Extracellular Signal-Regulated MAP Kinases, Transforming Growth Factor beta, Immediate-Early Proteins, MAP Kinase Signaling System, Female, Proto-Oncogene Proteins pp60(c-src), Smad3 Protein, Protein Tyrosine Phosphatases, Autoimmune Disease, Rare Diseases, Clinical Research, Scleroderma
Abstract

Systemic sclerosis (SSc) is an autoimmune disease characterized by fibrosis of skin and internal organs. Protein tyrosine phosphatases have received little attention in the study of SSc or fibrosis. Here, we show that the tyrosine phosphatase PTP4A1 is highly expressed in fibroblasts from patients with SSc. PTP4A1 and its close homolog PTP4A2 are critical promoters of TGFβ signaling in primary dermal fibroblasts and of bleomycin-induced fibrosis in vivo. PTP4A1 promotes TGFβ signaling in human fibroblasts through enhancement of ERK activity, which stimulates SMAD3 expression and nuclear translocation. Upstream from ERK, we show that PTP4A1 directly interacts with SRC and inhibits SRC basal activation independently of its phosphatase activity. Unexpectedly, PTP4A2 minimally interacts with SRC and does not promote the SRC-ERK-SMAD3 pathway. Thus, in addition to defining PTP4A1 as a molecule of interest for TGFβ-dependent fibrosis, our study provides information regarding the functional specificity of different members of the PTP4A subclass of phosphatases.

Published
2017

5. Abnormal PTPN11 enhancer methylation promotes rheumatoid arthritis fibroblast-like synoviocyte aggressiveness and joint inflammation

Author

Maeshima, Keisuke, Stanford, Stephanie M, Hammaker, Deepa, Sacchetti, Cristiano, Zeng, Li-fan, Ai, Rizi, Zhang, Vida, Boyle, David L, Muench, German R Aleman, Feng, Gen-Sheng, Whitaker, John W, Zhang, Zhong-Yin, Wang, Wei, Bottini, Nunzio, and Firestein, Gary S

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Autoimmune Disease, Arthritis, Rheumatoid Arthritis, Osteoarthritis, Women's Health, Genetics, Aging, 2.1 Biological and endogenous factors, Inflammatory and immune system, Biomedical and clinical sciences, Health sciences
Abstract

The PTPN11 gene, encoding the tyrosine phosphatase SHP-2, is overexpressed in rheumatoid arthritis (RA) fibroblast-like synoviocytes (FLS) compared with osteoarthritis (OA) FLS and promotes RA FLS invasiveness. Here, we explored the molecular basis for PTPN11 overexpression in RA FLS and the role of SHP-2 in RA pathogenesis. Using computational methods, we identified a putative enhancer in PTPN11 intron 1, which contained a glucocorticoid receptor- binding (GR-binding) motif. This region displayed enhancer function in RA FLS and contained 2 hypermethylation sites in RA compared with OA FLS. RA FLS stimulation with the glucocorticoid dexamethasone induced GR binding to the enhancer and PTPN11 expression. Glucocorticoid responsiveness of PTPN11 was significantly higher in RA FLS than OA FLS and required the differentially methylated CpGs for full enhancer function. SHP-2 expression was enriched in the RA synovial lining, and heterozygous Ptpn11 deletion in radioresistant or innate immune cells attenuated K/BxN serum transfer arthritis in mice. Treatment with SHP-2 inhibitor 11a-1 reduced RA FLS migration and responsiveness to TNF and IL-1β stimulation and reduced arthritis severity in mice. Our findings demonstrate how abnormal epigenetic regulation of a pathogenic gene determines FLS behavior and demonstrate that targeting SHP-2 or the SHP-2 pathway could be a therapeutic strategy for RA.

Published
2016

6. Receptor Protein Tyrosine Phosphatase α–Mediated Enhancement of Rheumatoid Synovial Fibroblast Signaling and Promotion of Arthritis in Mice

Author

Stanford, Stephanie M, Svensson, Mattias ND, Sacchetti, Cristiano, Pilo, Caila A, Wu, Dennis J, Kiosses, William B, Hellvard, Annelie, Bergum, Brith, Muench, German R Aleman, Elly, Christian, Liu, Yun-Cai, den Hertog, Jeroen, Elson, Ari, Sap, Jan, Mydel, Piotr, Boyle, David L, Corr, Maripat, Firestein, Gary S, and Bottini, Nunzio

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Rheumatoid Arthritis, Autoimmune Disease, Arthritis, Aetiology, 2.1 Biological and endogenous factors, Inflammatory and immune system, Animals, Ankle Joint, Apoptosis, Arthritis, Experimental, Arthritis, Rheumatoid, Blotting, Western, Cell Adhesion, Cell Movement, Cell Survival, Disease Progression, Enzyme-Linked Immunosorbent Assay, Fibroblasts, Focal Adhesion Protein-Tyrosine Kinases, Gene Expression Profiling, Gene Knockdown Techniques, Interleukin-1, Mice, Mice, Knockout, Phosphorylation, Platelet-Derived Growth Factor, Polymerase Chain Reaction, Receptor-Like Protein Tyrosine Phosphatases, Class 4, Signal Transduction, Synovial Membrane, Tumor Necrosis Factor-alpha, src-Family Kinases, Immunology, Public Health and Health Services, Arthritis & Rheumatology, Clinical sciences
Abstract

ObjectiveDuring rheumatoid arthritis (RA), fibroblast-like synoviocytes (FLS) critically promote disease pathogenesis by aggressively invading the extracellular matrix of the joint. The focal adhesion kinase (FAK) signaling pathway is emerging as a contributor to the anomalous behavior of RA FLS. The receptor protein tyrosine phosphatase α (RPTPα), which is encoded by the PTPRA gene, is a key promoter of FAK signaling. The aim of this study was to investigate whether RPTPα mediates FLS aggressiveness and RA pathogenesis.MethodsThrough RPTPα knockdown, we assessed FLS gene expression by quantitative polymerase chain reaction analysis and enzyme-linked immunosorbent assay, invasion and migration by Transwell assays, survival by annexin V and propidium iodide staining, adhesion and spreading by immunofluorescence microscopy, and activation of signaling pathways by Western blotting of FLS lysates. Arthritis development was examined in RPTPα-knockout (KO) mice using the K/BxN serum-transfer model. The contribution of radiosensitive and radioresistant cells to disease was evaluated by reciprocal bone marrow transplantation.ResultsRPTPα was enriched in the RA synovial lining. RPTPα knockdown impaired RA FLS survival, spreading, migration, invasiveness, and responsiveness to platelet-derived growth factor, tumor necrosis factor, and interleukin-1 stimulation. These phenotypes correlated with increased phosphorylation of Src on inhibitory Y(527) and decreased phosphorylation of FAK on stimulatory Y(397) . Treatment of RA FLS with an inhibitor of FAK phenocopied the knockdown of RPTPα. RPTPα-KO mice were protected from arthritis development, which was due to radioresistant cells.ConclusionBy regulating the phosphorylation of Src and FAK, RPTPα mediates proinflammatory and proinvasive signaling in RA FLS, correlating with the promotion of disease in an FLS-dependent model of RA.

Published
2016

7. TGFβ responsive tyrosine phosphatase promotes rheumatoid synovial fibroblast invasiveness

Author

Stanford, Stephanie M, Muench, German R Aleman, Bartok, Beatrix, Sacchetti, Cristiano, Kiosses, William B, Sharma, Jay, Maestre, Michael F, Bottini, Massimo, Mustelin, Tomas, Boyle, David L, Firestein, Gary S, and Bottini, Nunzio

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Immunology, Arthritis, Autoimmune Disease, Clinical Research, 2.1 Biological and endogenous factors, Aetiology, Inflammatory and immune system, Animals, Arthritis, Rheumatoid, Cell Movement, Fibroblasts, Gene Expression Regulation, Enzymologic, Gene Knockdown Techniques, Heterografts, Humans, Mice, Nude, Protein Tyrosine Phosphatases, RNA, Messenger, Receptor-Like Protein Tyrosine Phosphatases, Class 2, Synovial Membrane, Transforming Growth Factor beta1, Up-Regulation, Inflammation, Rheumatoid Arthritis, Public Health and Health Services, Arthritis & Rheumatology, Clinical sciences
Abstract

ObjectiveIn rheumatoid arthritis (RA), fibroblast-like synoviocytes (FLS) that line joint synovial membranes aggressively invade the extracellular matrix, destroying cartilage and bone. As signal transduction in FLS is mediated through multiple pathways involving protein tyrosine phosphorylation, we sought to identify protein tyrosine phosphatases (PTPs) regulating the invasiveness of RA FLS. We describe that the transmembrane receptor PTPκ (RPTPκ), encoded by the transforming growth factor (TGF) β-target gene, PTPRK, promotes RA FLS invasiveness.MethodsGene expression was quantified by quantitative PCR. PTP knockdown was achieved using antisense oligonucleotides. FLS invasion and migration were assessed in transwell or spot assays. FLS spreading was assessed by immunofluorescence microscopy. Activation of signalling pathways was analysed by Western blotting of FLS lysates using phosphospecific antibodies. In vivo FLS invasiveness was assessed by intradermal implantation of FLS into nude mice. The RPTPκ substrate was identified by pull-down assays.ResultsPTPRK expression was higher in FLS from patients with RA versus patients with osteoarthritis, resulting from increased TGFB1 expression in RA FLS. RPTPκ knockdown impaired RA FLS spreading, migration, invasiveness and responsiveness to platelet-derived growth factor, tumour necrosis factor and interleukin 1 stimulation. Furthermore, RPTPκ deficiency impaired the in vivo invasiveness of RA FLS. Molecular analysis revealed that RPTPκ promoted RA FLS migration by dephosphorylation of the inhibitory residue Y527 of SRC.ConclusionsBy regulating phosphorylation of SRC, RPTPκ promotes the pathogenic action of RA FLS, mediating cross-activation of growth factor and inflammatory cytokine signalling by TGFβ in RA FLS.

Published
2016

8. Targeting phosphatase-dependent proteoglycan switch for rheumatoid arthritis therapy

Author

Doody, Karen M, Stanford, Stephanie M, Sacchetti, Cristiano, Svensson, Mattias ND, Coles, Charlotte H, Mitakidis, Nikolaos, Kiosses, William B, Bartok, Beatrix, Fos, Camille, Cory, Esther, Sah, Robert L, Liu-Bryan, Ru, Boyle, David L, Arnett, Heather A, Mustelin, Tomas, Corr, Maripat, Esko, Jeffrey D, Tremblay, Michel L, Firestein, Gary S, Aricescu, A Radu, and Bottini, Nunzio

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Autoimmune Disease, Arthritis, Rheumatoid Arthritis, Aetiology, 2.1 Biological and endogenous factors, Musculoskeletal, Inflammatory and immune system, Animals, Antirheumatic Agents, Arthritis, Rheumatoid, Cell Adhesion, Cell Movement, Chondroitin Sulfate Proteoglycans, Cytoskeletal Proteins, Disease Models, Animal, HEK293 Cells, Heparin, Humans, Mice, Knockout, Molecular Targeted Therapy, Phosphorylation, Proteoglycans, Receptor-Like Protein Tyrosine Phosphatases, Class 2, Severity of Illness Index, Signal Transduction, Syndecan-4, Synovial Membrane, Time Factors, Transfection, Biological Sciences, Medical and Health Sciences, Medical biotechnology, Biomedical engineering
Abstract

Despite the availability of several therapies for rheumatoid arthritis (RA) that target the immune system, a large number of RA patients fail to achieve remission. Joint-lining cells, called fibroblast-like synoviocytes (FLS), become activated during RA and mediate joint inflammation and destruction of cartilage and bone. We identify RPTPσ, a transmembrane tyrosine phosphatase, as a therapeutic target for FLS-directed therapy. RPTPσ is reciprocally regulated by interactions with chondroitin sulfate or heparan sulfate containing extracellular proteoglycans in a mechanism called the proteoglycan switch. We show that the proteoglycan switch regulates FLS function. Incubation of FLS with a proteoglycan-binding RPTPσ decoy protein inhibited cell invasiveness and attachment to cartilage by disrupting a constitutive interaction between RPTPσ and the heparan sulfate proteoglycan syndecan-4. RPTPσ mediated the effect of proteoglycans on FLS signaling by regulating the phosphorylation and cytoskeletal localization of ezrin. Furthermore, administration of the RPTPσ decoy protein ameliorated in vivo human FLS invasiveness and arthritis severity in the K/BxN serum transfer model of RA. Our data demonstrate that FLS are regulated by an RPTPσ-dependent proteoglycan switch in vivo, which can be targeted for RA therapy. We envision that therapies targeting the proteoglycan switch or its intracellular pathway in FLS could be effective as a monotherapy or in combination with currently available immune-targeted agents to improve control of disease activity in RA patients.

Published
2015

9. Reduced expression of phosphatase PTPN2 promotes pathogenic conversion of Tregs in autoimmunity

Author

Svensson, Mattias N.D., Doody, Karen M., Schmiedel, Benjamin J., Bhattacharyya, Sourya, Panwar, Bharat, Wiede, Florian, Yang, Shen, Santelli, Eugenio, Wu, Dennis J., Sacchetti, Cristiano, Gujar, Ravindra, Seumois, Gregory, Kiosses, William B., Aubry, Isabelle, Kim, Gisen, Mydel, Piotr, Sakaguchi, Shimon, Kronenberg, Mitchell, Tiganis, Tony, Tremblay, Michel L., Ay, Ferhat, Vijayanand, Pandurangan, and Bottini, Nunzio

Subjects
Autoimmunity -- Research, Gene expression -- Research, Phosphatases -- Research, Rheumatoid arthritis -- Genetic aspects, T cells -- Research, DNA binding proteins, Rheumatoid factor, Arthritis, Phenols (Class of compounds), Cytokines, B cells, Tyrosine, Chromatin, Autoimmune diseases, Genes, Biochemistry, Health care industry
Abstract

Genetic variants at the PTPN2 locus, which encodes the tyrosine phosphatase PTPN2, cause reduced gene expression and are linked to rheumatoid arthritis (RA) and other autoimmune diseases. PTPN2 inhibits signaling through the T cell and cytokine receptors, and loss of PTPN2 promotes T cell expansion and CD4- and [CD8.sup.- ]driven autoimmunity. However, it remains unknown whether loss of PTPN2 in [FoxP3.sup.+] regulatory T cells (Tregs) plays a role in autoimmunity. Here we aimed to model human autoimmune-predisposing PTPN2 variants, the presence of which results in a partial loss of PTPN2 expression, in mouse models of RA. We identified that reduced expression of Ptpn2 enhanced the severity of autoimmune arthritis in the T cell-dependent SKG mouse model and demonstrated that this phenotype was mediated through a Treg-intrinsic mechanism. Mechanistically, we found that through dephosphorylation of STAT3, PTPN2 inhibits IL-6-driven pathogenic loss of FoxP3 after Tregs have acquired ROR[gamma]t expression, at a stage when chromatin accessibility for STAT3-targeted [IL-17.sup.-]associated transcription factors is maximized. We conclude that PTPN2 promotes FoxP3 stability in mouse [ROR[gamma]t.sup.+] Tregs and that loss of function of PTPN2 in Tregs contributes to the association between PTPN2 and autoimmunity., Introduction Rheumatoid arthritis (RA) is a chronic autoimmune, systemic inflammatory disorder that primarily affects diarthrodial joints (1). To date, various genome-wide association studies have identified over 100 risk loci for [...]

Published
2019
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11. Efficacy increase of lipid nanoparticles in vivo by inclusion of bis(monoacylglycerol)phosphate

Author

Sagi, Amit, primary, Mukthavaram, Rajesh, additional, Recatto, River, additional, Hong, Hyojung, additional, Davis, Michael, additional, Trelles, Ramon Diaz, additional, El-Mecharrafie, Nadja, additional, Acharya, Grishma, additional, Gomez, Abraham, additional, Leu, Angel, additional, Tachikawa, Kiyoshi, additional, Sacchetti, Cristiano, additional, Soontornniyomkij, Benchawanna, additional, Rajappan, Kumar, additional, Karmali, Priya, additional, and Chivakula, Padmanabh, additional

Published
2022
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12. Oxidative stress promotes fibrosis in systemic sclerosis through stabilization of a kinase-phosphatase complex

Author

Zhang, Ruiyuan, primary, Kumar, Ganesan Senthil, additional, Hansen, Uwe, additional, Zoccheddu, Martina, additional, Sacchetti, Cristiano, additional, Holmes, Zachary J., additional, Lee, Megan C., additional, Beckmann, Denise, additional, Wen, Yutao, additional, Mikulski, Zbigniew, additional, Yang, Shen, additional, Santelli, Eugenio, additional, Page, Rebecca, additional, Boin, Francesco, additional, Peti, Wolfgang, additional, and Bottini, Nunzio, additional

Published
2022
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13. Restoring ornithine transcarbamylase (OTC) activity in an OTC‐deficient mouse model using LUNAR‐OTC mRNA

Author

Yu, Hailong, primary, Brewer, Edward, additional, Shields, Michael, additional, Crowder, Michael, additional, Sacchetti, Cristiano, additional, Soontornniyomkij, Benchawanna, additional, Dou, Dandan, additional, Clemente, Brenda, additional, Sablad, Marciano, additional, Chivukula, Padmanabh, additional, Hughes, Steve, additional, Roberts, Scott, additional, Rajappan, Kumar, additional, Tannis, Steve, additional, Sekulovich, Rose, additional, Parker, Suezanne, additional, and Limphong, Pattraranee, additional

Published
2022
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14. Synthesis and bioactivity of readily hydrolysable novel cationic lipids for potential lung delivery application of mRNAs

Author

Pei, Yihua, primary, Bao, Yanjie, additional, Sacchetti, Cristiano, additional, Brady, Juthamart, additional, Gillard, Kyra, additional, Yu, Hailong, additional, Roberts, Scott, additional, Rajappan, Kumar, additional, Tanis, Steven P., additional, Perez-Garcia, Carlos G., additional, Chivukula, Padmanabh, additional, and Karmali, Priya P., additional

Published
2022
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15. Synoviocyte-targeted therapy synergizes with TNF inhibition in arthritis reversal

Author

Svensson, Mattias N. D., primary, Zoccheddu, Martina, additional, Yang, Shen, additional, Nygaard, Gyrid, additional, Secchi, Christian, additional, Doody, Karen M., additional, Slowikowski, Kamil, additional, Mizoguchi, Fumitaka, additional, Humby, Frances, additional, Hands, Rebecca, additional, Santelli, Eugenio, additional, Sacchetti, Cristiano, additional, Wakabayashi, Kuninobu, additional, Wu, Dennis J., additional, Barback, Christopher, additional, Ai, Rizi, additional, Wang, Wei, additional, Sims, Gary P., additional, Mydel, Piotr, additional, Kasama, Tsuyoshi, additional, Boyle, David L., additional, Galimi, Francesco, additional, Vera, David, additional, Tremblay, Michel L., additional, Raychaudhuri, Soumya, additional, Brenner, Michael B., additional, Firestein, Gary S., additional, Pitzalis, Costantino, additional, Ekwall, Anna-Karin H., additional, Stanford, Stephanie M., additional, and Bottini, Nunzio, additional

Published
2020
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16. Nitric Oxide Dependent Degradation of Polyethylene Glycol‐Modified Single‐Walled Carbon Nanotubes: Implications for Intra‐Articular Delivery

Author

Bhattacharya, Kunal, primary, Sacchetti, Cristiano, additional, Costa, Pedro M., additional, Sommertune, Jens, additional, Brandner, Birgit D., additional, Magrini, Andrea, additional, Rosato, Nicola, additional, Bottini, Nunzio, additional, Bottini, Massimo, additional, and Fadeel, Bengt, additional

Published
2018
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18. TGFβ responsive tyrosine phosphatase promotes rheumatoid synovial fibroblast invasiveness

Author

Stanford, Stephanie M, primary, Aleman Muench, German R, additional, Bartok, Beatrix, additional, Sacchetti, Cristiano, additional, Kiosses, William B, additional, Sharma, Jay, additional, Maestre, Michael F, additional, Bottini, Massimo, additional, Mustelin, Tomas, additional, Boyle, David L, additional, Firestein, Gary S, additional, and Bottini, Nunzio, additional

Published
2014
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22. Surface Polyethylene Glycol Conformation Influences the Protein Corona of Polyethylene Glycol-Modified Single-Walled Carbon Nanotubes: Potential Implications on Biological Performance

Author

Sacchetti, Cristiano, primary, Motamedchaboki, Khatereh, additional, Magrini, Andrea, additional, Palmieri, Graziana, additional, Mattei, Maurizio, additional, Bernardini, Sergio, additional, Rosato, Nicola, additional, Bottini, Nunzio, additional, and Bottini, Massimo, additional

Published
2013
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26. In vivo targeting of intratumor regulatory T cells using PEG-modified single-walled carbon nanotubes.

Author

Sacchetti C, Rapini N, Magrini A, Cirelli E, Bellucci S, Mattei M, Rosato N, Bottini N, and Bottini M

Subjects
Animals, Dose-Response Relationship, Drug, Humans, Mice, Mice, Inbred C57BL, Polyethylene Glycols chemistry, Receptors, Antigen, T-Cell antagonists & inhibitors, Receptors, Antigen, T-Cell immunology, Structure-Activity Relationship, Xenograft Model Antitumor Assays, Nanotubes, Carbon chemistry, Neoplasms, Experimental drug therapy, Neoplasms, Experimental immunology, Polyethylene Glycols pharmacology, T-Lymphocytes, Regulatory drug effects, T-Lymphocytes, Regulatory immunology
Abstract

Recent evidence regarding the role of regulatory T cells (Treg) in tumor development has suggested that the manipulation of Treg function selectively in the tumor microenvironment would be a desirable immunotherapy approach. Targeting intratumor immune populations would reduce side effects on peripheral healthy cells and increase antitumor efficacy of immunotherapies. However, no current approaches are available which enable selective in vivo targeting of intratumor Treg or other immune cell subpopulations. Herein, we investigated the ability of ligands against Treg-specific receptors to drive selective internalization of PEG-modified single-walled carbon nanotubes (PEG-SWCNTs) into Treg residing in the tumor microenvironment. We focused our attention on the glucocorticoid-induced TNFR-related receptor (GITR), as it showed higher overexpression on intratumor vs peripheral (i.e., splenic) Treg compared to other reported Treg-specific markers (folate receptor 4, CD103, and CD39). Ex vivo investigations showed that the Treg targeting efficiency and selectivity of PEG-SWCNTs depended on incubation time, dose, number of ligands per nanotube, and targeted surface marker. In vivo investigations showed that PEG-SWCNTs armed with GITR ligands targeted Treg residing in a B16 melanoma more efficiently then intratumor non-Treg or splenic Treg. The latter result was achieved by exploiting a combination of passive tumor targeting due to enhanced tumor vascular permeability, naturally increased intratumor Treg vs effector T cell (Teff) ratio, and active targeting of markers that are enriched in intratumor vs splenic Treg. We also found that PEG-SWCNTs loaded with GITR ligands were internalized by Treg through receptor-mediated endocytosis and transported into the cytoplasm and nucleus ex vivo and in vivo. This is the first example of intratumor immune cell targeting and we hope it will pave the way to innovative immunotherapies against cancer.

Published
2013
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