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Literature DB >> 20429415

The biology of FoxP3: a key player in immune suppression during infections, autoimmune diseases and cancer.

Abstract

The Transcription factor FoxP3 belongs to the forkhead/winged-helix family of transcriptional regulators and shares general structural features with other FoxP family members. FoxP3 functions as a master of transcription for the development of regulatory T-cells (Treg cells) both in humans and in mice. Natural genetic mutations ofFoxP3 that disrupt its function in humans result in an autoimmune syndrome called Immune Polyendocrinopathy, Enteropathy, X-linked (IPEX) and in mice, its deletion causes the Scurfy phenotype, with similar pathology. The finding that FoxP3 is required for the development and function of Tregs has led to an explosion of research in determining its regulation and function in the immune system. Understanding the biological properties of FoxP3 has a wide range of implications for immune tolerance, autoimmune disorders, inflammation and immune response to infectious diseases and cancer.

Entities: Chemical Disease Gene Species

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Year: 2009 PMID： 20429415 PMCID： PMC3732823 DOI： 10.1007/978-1-4419-1599-3_4

Source DB: PubMed Journal: Adv Exp Med Biol ISSN： 0065-2598 Impact factor: 2.622

107 in total

1. CD4+ T-cell depletion in HIV infection: are we closer to understanding the cause?

Authors: Zvi Grossman; Martin Meier-Schellersheim; Ana E Sousa; Rui M M Victorino; William E Paul
Journal: Nat Med Date: 2002-04 Impact factor: 53.440

2. Twenty-first century Foxp3.

Authors: Anne O'Garra; Paulo Vieira
Journal: Nat Immunol Date: 2003-04 Impact factor: 25.606

3. CD4+CD25+ regulatory T cells control Leishmania major persistence and immunity.

Authors: Yasmine Belkaid; Ciriaco A Piccirillo; Susana Mendez; Ethan M Shevach; David L Sacks
Journal: Nature Date: 2002-12-05 Impact factor: 49.962

4. Control of regulatory T cell development by the transcription factor Foxp3.

Authors: Shohei Hori; Takashi Nomura; Shimon Sakaguchi
Journal: Science Date: 2003-01-09 Impact factor: 47.728

5. Foxp3 programs the development and function of CD4+CD25+ regulatory T cells.

Authors: Jason D Fontenot; Marc A Gavin; Alexander Y Rudensky
Journal: Nat Immunol Date: 2003-03-03 Impact factor: 25.606

6. An essential role for Scurfin in CD4+CD25+ T regulatory cells.

Authors: Roli Khattri; Tom Cox; Sue-Ann Yasayko; Fred Ramsdell
Journal: Nat Immunol Date: 2003-03-03 Impact factor: 25.606

Review 7. Immune dysregulation, polyendocrinopathy, enteropathy, and X-linked inheritance (IPEX), a syndrome of systemic autoimmunity caused by mutations of FOXP3, a critical regulator of T-cell homeostasis.

Authors: Eleonora Gambineri; Troy R Torgerson; Hans D Ochs
Journal: Curr Opin Rheumatol Date: 2003-07 Impact factor: 5.006

8. The early IL-4 response to Leishmania major and the resulting Th2 cell maturation steering progressive disease in BALB/c mice are subject to the control of regulatory CD4+CD25+ T cells.

Authors: Abraham Aseffa; Alain Gumy; Pascal Launois; H Robson MacDonald; Jacques A Louis; Fabienne Tacchini-Cottier
Journal: J Immunol Date: 2002-09-15 Impact factor: 5.422

Review 9. Viruses and autoimmunity: an affair but not a marriage contract.

Authors: Barry T Rouse; Shilpa Deshpande
Journal: Rev Med Virol Date: 2002 Mar-Apr Impact factor: 6.989

10. CD4+CD25+ T cells regulate virus-specific primary and memory CD8+ T cell responses.

Authors: Susmit Suvas; Uday Kumaraguru; Christopher D Pack; Sujin Lee; Barry T Rouse
Journal: J Exp Med Date: 2003-09-15 Impact factor: 14.307

17 in total

1. Differentiation of IL-17-producing effector and regulatory human T cells from lineage-committed naive precursors.

Authors: Frances Mercer; Alka Khaitan; Lina Kozhaya; Judith A Aberg; Derya Unutmaz
Journal: J Immunol Date: 2014-06-23 Impact factor: 5.422

Review 2. Regulation of lymphocyte function by ORAI and STIM proteins in infection and autoimmunity.

Authors: Patrick J Shaw; Stefan Feske
Journal: J Physiol Date: 2012-05-21 Impact factor: 5.182

Review 3. Fox transcription factors: from development to disease.

Authors: Maria L Golson; Klaus H Kaestner
Journal: Development Date: 2016-12-15 Impact factor: 6.868

4. Immune Suppression Mediated by Myeloid and Lymphoid Derived Immune Cells in the Tumor Microenvironment Facilitates Progression of Thyroid Cancers Driven by Hras^G12V and Pten Loss.

Authors: Lee Ann Jolly; Nicole Massoll; Aime T Franco
Journal: J Clin Cell Immunol Date: 2016-09-16

5. Tumour cell generation of inducible regulatory T-cells in multiple myeloma is contact-dependent and antigen-presenting cell-independent.

Authors: Sylvia Feyler; Gina B Scott; Christopher Parrish; Sarah Jarmin; Paul Evans; Mike Short; Katherine McKinley; Peter J Selby; Gordon Cook
Journal: PLoS One Date: 2012-05-29 Impact factor: 3.240

Review 6. Amyotrophic Lateral Sclerosis, a Multisystem Pathology: Insights into the Role of TNFα.

Authors: Massimo Tortarolo; Daniele Lo Coco; Pietro Veglianese; Antonio Vallarola; Maria Teresa Giordana; Gabriella Marcon; Ettore Beghi; Marco Poloni; Michael J Strong; Anand M Iyer; Eleonora Aronica; Caterina Bendotti
Journal: Mediators Inflamm Date: 2017-09-10 Impact factor: 4.711

Review 10. The Sources of Essential Fatty Acids for Allergic and Cancer Patients; a Connection with Insight into Mammalian Target of Rapamycin: A Narrative Review

Authors: Zhila Arshad; Soheila Rezapour-Firouzi; Mahshid Mohammadian
Journal: Asian Pac J Cancer Prev Date: 2018-09-26