Citations to this article
Citation Information: J Clin Invest. 2010;120(8):2767-2781. https://doi.org/10.1172/JCI39543.
Abstract
Studies in mice and humans have revealed that the T cell, immunoglobulin, mucin (TIM) genes are associated with several atopic diseases. TIM-1 is a type I membrane protein that is expressed on T cells upon stimulation and has been shown to modulate their activation. In addition to a recently described interaction with dendritic cells, TIM-1 has also been identified as a phosphatidylserine recognition molecule, and several protein ligands have been proposed. Our understanding of its activity is complicated by the possibility that TIM-1 possesses multiple and diverse binding partners. In order to delineate the function of TIM-1, we generated monoclonal antibodies directed to a cleft formed within the IgV domain of TIM-1. We have shown here that antibodies that bind to this defined cleft antagonize TIM-1 binding to specific ligands and cells. Notably, these antibodies exhibited therapeutic activity in a humanized SCID model of experimental asthma, ameliorating inflammation, and airway hyperresponsiveness. Further experiments demonstrated that the effects of the TIM-1–specific antibodies were mediated via suppression of Th2 cell proliferation and cytokine production. These results demonstrate that modulation of the TIM-1 pathway can critically influence activated T cells in a humanized disease model, suggesting that TIM-1 antagonists may provide potent therapeutic benefit in asthma and other immune-mediated disorders.
Authors
Sanchaita Sriwal Sonar, Yen-Ming Hsu, Melanie Lynn Conrad, Gerard R. Majeau, Ayse Kilic, Ellen Garber, Yan Gao, Chioma Nwankwo, Gundi Willer, Jan C. Dudda, Hellen Kim, Véronique Bailly, Axel Pagenstecher, Paul D. Rennert, Harald Renz
Total citations by year
Citations to this article (24)
| Title and authors | Publication | Year |
|---|---|---|
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Mouse Models of Asthma: Characteristics, Limitations and Future Perspectives on Clinical Translation.
Akkoc T, O'Mahony L, Ferstl R, Akdis C, Akkoc T |
Advances in experimental medicine and biology | 2022 |
|
Tim-1 Deficiency Aggravates High-Fat Diet-Induced Steatohepatitis in Mice
J George, Y Zhang, J Sloan, JM Sims, JD Imig, X Zhao |
Frontiers in immunology | 2021 |
|
Novel Roles of the Tim Family in Immune Regulation and Autoimmune Diseases
Y Liu, H Chen, Z Chen, J Qiu, H Pang, Z Zhou |
Frontiers in immunology | 2021 |
|
Mimicking Antigen-Driven Asthma in Rodent Models—How Close Can We Get?
F Alessandrini, S Musiol, E Schneider, F Blanco-Pérez, M Albrecht |
Frontiers in immunology | 2020 |
|
Recent Advances in Allergy Research Using Humanized Mice
R Ito, S Maruoka, Y Gon, I Katano, T Takahashi, M Ito, K Izuhara, S Nunomura |
International journal of molecular sciences | 2019 |
|
Anti‐TIM‐1 Monoclonal Antibody (RMT1‐10) Attenuates Atherosclerosis By Expanding IgM‐producing B1a Cells
H Hosseini, L Yi, P Kanellakis, A Cao, C Tay, K Peter, A Bobik, BH Toh, T Kyaw |
Journal of the American Heart Association: Cardiovascular and Cerebrovascular Disease | 2018 |
|
Activin-A co-opts IRF4 and AhR signaling to induce human regulatory T cells that restrain asthmatic responses
S Tousa, M Semitekolou, I Morianos, A Banos, AI Trochoutsou, TM Brodie, N Poulos, K Samitas, M Kapasa, D Konstantopoulos, G Paraskevopoulos, M Gaga, CM Hawrylowicz, F Sallusto, G Xanthou |
Proceedings of the National Academy of Sciences | 2017 |
|
Effect of continuous renal replacement therapy on kidney injury molecule-1 and neutrophil gelatinase-associated lipocalin in patients with septic acute kidney injury
Y Shao, Y Fan, Y Xie, L Yin, Y Zhang, L Deng, X Sun, X Shao, X Tan, J He, S Zhao |
Experimental and therapeutic medicine | 2017 |
|
TIM4-TIM1 interaction modulates Th2 pattern inflammation through enhancing SIRT1 expression
T Hu, X Fan, L Ma, J Liu, Y Chang, P Yang, S Qiu, T Chen, L Yang, Z Liu |
International journal of molecular medicine | 2017 |
|
Differentiation of human monocytes and derived subsets of macrophages and dendritic cells by the HLDA10 monoclonal antibody panel
A Ohradanova-Repic, C Machacek, MB Fischer, H Stockinger |
IBMS BoneKEy | 2016 |
|
Characterizing Functional Domains for TIM-Mediated Enveloped Virus Entry
S Moller-Tank, LM Albritton, PD Rennert, W Maury |
Journal of virology | 2014 |
|
Chronic Epithelial Kidney Injury Molecule-1 Expression in Mice Causes Inflammation, Fibrosis and Kidney Failure
Benjamin D. Humphreys, Fengfeng Xu, Venkata Sabbisetti, Ivica Grgic, Said Naini, NingNing Wang, Guochun Chen, Sheng Xiao, Dhruti Patel, Joel Henderson, Takaharu Ichimura, Shan Mou, Savuth Soeung, Andrew McMahon, Vijay Kuchroo, Joseph V. Bonventre |
Journal of Clinical Investigation | 2013 |
|
Role of the phosphatidylserine receptor TIM-1 in enveloped-virus entry
S Moller-Tank, AS Kondratowicz, RA Davey, PD Rennert, W Maury |
Journal of virology | 2013 |
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T-cell immunoglobulin and mucin domain 1 deficiency eliminates airway hyperreactivity triggered by the recognition of airway cell death
HY Kim, YJ Chang, YT Chuang, HH Lee, DI Kasahara, T Martin, JT Hsu, PB Savage, SA Shore, GJ Freeman, RH DeKruyff, DT Umetsu |
Journal of Allergy and Clinical Immunology | 2013 |
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TIM-3 expression in human osteosarcoma: Correlation with the expression of epithelial-mesenchymal transition-specific biomarkers
Y Shang, Z Li, H Li, H Xia, Z Lin |
Oncology Letters | 2013 |
|
Subclinical CNS inflammation as response to a myelin antigen in humanized mice.
Zayoud M, El Malki K, Frauenknecht K, Trinschek B, Kloos L, Karram K, Wanke F, Georgescu J, Hartwig UF, Sommer C, Jonuleit H, Waisman A, Kurschus FC |
Journal of neuroimmune pharmacology : the official journal of the Society on NeuroImmune Pharmacology | 2013 |
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Tim-1 regulates Th2 responses in an airway hypersensitivity model
ML Curtiss, JV Gorman, TR Businga, G Traver, M Singh, DK Meyerholz, JN Kline, AJ Murphy, DM Valenzuela, JD Colgan, PB Rothman, SL Cassel |
European Journal of Immunology | 2012 |
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Murine Tim-1 is excluded from the immunological synapse
J Lin, L Chen, LP Kane |
F1000Research | 2012 |
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The role of TIM-containing molecules in airway disease and their potential as therapeutic targets
I Vega-Carrascal, EP Reeves, NG McElvaney |
Journal of inflammation research | 2012 |
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Expression and anatomical distribution of TIM-containing molecules in Langerhans cell sarcoma
J Li, D Cao, G Guo, Y Wu, Y Chen |
Journal Of Molecular Histology | 2012 |
|
Allergic asthma: influence of genetic and environmental factors
AB Mukherjee, Z Zhang |
The Journal of biological chemistry | 2011 |
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T-cell immunoglobulin and mucin domain 1 (TIM-1) is a receptor for Zaire Ebolavirus and Lake Victoria Marburgvirus
AS Kondratowicz, NJ Lennemann, PL Sinn, RA Davey, CL Hunt, S Moller-Tank, DK Meyerholz, P Rennert, RF Mullins, M Brindley, LM Sandersfeld, K Quinn, M Weller, PB McCray, J Chiorini, W Maury |
Proceedings of the National Academy of Sciences | 2011 |
|
Are TIM Proteins Involved in Asthma Development or Pathology?
J Lin, LP Kane |
Clinical and experimental allergy : journal of the British Society for Allergy and Clinical Immunology | 2011 |
|
Apoptotic cells activate NKT cells through T cell Ig-like mucin-like-1 resulting in airway hyperreactivity
HH Lee, EH Meyer, S Goya, M Pichavant, HY Kim, X Bu, SE Umetsu, JC Jones, PB Savage, Y Iwakura, JM Casasnovas, G Kaplan, GJ Freeman, RH DeKruyff, DT Umetsu |
Journal of immunology (Baltimore, Md. : 1950) | 2010 |
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