Gata3 ZsG and Gata3 ZsG-fl: Novel murine Gata3 reporter alleles for identifying and studying Th2 cells and ILC2s in vivo

T helper-2 (Th2) cells and type 2 innate lymphoid cells (ILC2s) play crucial roles during type 2 immune responses; the transcription factor GATA3 is essential for the differentiation and functions of these cell types. It has been demonstrated that GATA3 is critical for maintaining Th2 and ILC2 phenotype in vitro; GATA3 not only positively regulates type 2 lymphocyte-associated genes, it also negatively regulates many genes associated with other lineages. However, such functions cannot be easily verified in vivo because the expression of the markers for identifying Th2 and ILC2s depends on GATA3. Thus, whether Th2 cells and ILC2s disappear after Gata3 deletion or these Gata3-deleted “Th2 cells” or “ILC2s” acquire an alternative lineage fate is unknown. In this study, we generated novel GATA3 reporter mouse strains carrying the Gata3 ZsG or Gata3 ZsG-fl allele. This was achieved by inserting a ZsGreen-T2A cassette at the translation initiation site of either the wild type Gata3 allele or the modified Gata3 allele which carries two loxP sites flanking the exon 4. ZsGreen faithfully reflected the endogenous GATA3 protein expression in Th2 cells and ILC2s both in vitro and in vivo. These reporter mice also allowed us to visualize Th2 cells and ILC2s in vivo. An inducible Gata3 deletion system was created by crossing Gata3 ZsG-fl/fl mice with a tamoxifen-inducible Cre. Continuous expression of ZsGreen even after the Gata3 exon 4 deletion was noted, which allows us to isolate and monitor GATA3-deficient “Th2” cells and “ILC2s” during in vivo immune responses. Our results not only indicated that functional GATA3 is dispensable for regulating its own expression in mature type 2 lymphocytes, but also revealed that GATA3-deficient “ILC2s” might be much more stable in vivo than in vitro. Overall, the generation of these novel GATA3 reporters will provide valuable research tools to the scientific community in investigating type 2 immune responses in vivo.

[1]  T. N. Rao,et al.  Novel, Non–Gene-Destructive Knock-In Reporter Mice Refute the Concept of Monoallelic Gata3 Expression , 2020, The Journal of Immunology.

[2]  R. Schiffelers,et al.  A CRISPR-Cas9-based reporter system for single-cell detection of extracellular vesicle-mediated functional transfer of RNA , 2020, Nature Communications.

[3]  Jinfang Zhu,et al.  Orchestration between ILC2s and Th2 cells in shaping type 2 immune responses , 2019, Cellular & Molecular Immunology.

[4]  A. Sher,et al.  Transient T-bet expression functionally specifies a distinct T follicular helper subset , 2018, The Journal of experimental medicine.

[5]  R. Locksley,et al.  Tissue signals imprint ILC2 identity with anticipatory function , 2018, Nature Immunology.

[6]  Andrew J. Oler,et al.  Bcl11b, a novel GATA3-interacting protein, suppresses Th1 while limiting Th2 cell differentiation , 2018, The Journal of experimental medicine.

[7]  P. Loke,et al.  Recent Advances in Type-2-Cell-Mediated Immunity: Insights from Helminth Infection. , 2017, Immunity.

[8]  Jinfang Zhu GATA3 Regulates the Development and Functions of Innate Lymphoid Cell Subsets at Multiple Stages , 2017, Front. Immunol..

[9]  Jinfang Zhu,et al.  Dynamic balance between master transcription factors determines the fates and functions of CD4 T cell and innate lymphoid cell subsets , 2017, The Journal of experimental medicine.

[10]  L. Qian,et al.  Systematic comparison of 2A peptides for cloning multi-genes in a polycistronic vector , 2017, Scientific Reports.

[11]  M. Colonna,et al.  Immune modules shared by innate lymphoid cells and T cells. , 2016, The Journal of allergy and clinical immunology.

[12]  Kairong Cui,et al.  Group 3 innate lymphoid cells continuously require the transcription factor GATA3 after commitment , 2015, Nature Immunology.

[13]  Jinfang Zhu T helper 2 (Th2) cell differentiation, type 2 innate lymphoid cell (ILC2) development and regulation of interleukin-4 (IL-4) and IL-13 production. , 2015, Cytokine.

[14]  W. Paul,et al.  Innate Immune Function of TH2 Cells in vivo , 2015, Nature Immunology.

[15]  Jinfang Zhu,et al.  Dynamic expression of T-bet and GATA3 by regulatory T cells maintains immune tolerance , 2014, Nature Immunology.

[16]  M. Gold,et al.  Group 2 Innate Lymphoid Cells Are Critical for the Initiation of Adaptive T Helper 2 Cell-Mediated Allergic Lung Inflammation , 2014, Immunity.

[17]  Luke Barron,et al.  The transcription factor GATA3 is critical for the development of all IL-7Rα-expressing innate lymphoid cells. , 2014, Immunity.

[18]  J. D. Di Santo,et al.  Essential, dose-dependent role for the transcription factor Gata3 in the development of IL-5+ and IL-13+ type 2 innate lymphoid cells , 2013, Proceedings of the National Academy of Sciences.

[19]  S. Jacobsen,et al.  Transcriptional Repression of Gata3 Is Essential for Early B Cell Commitment , 2013, Immunity.

[20]  Rudolf Jaenisch,et al.  One-Step Generation of Mice Carrying Mutations in Multiple Genes by CRISPR/Cas-Mediated Genome Engineering , 2013, Cell.

[21]  S. Nakae,et al.  IL-33–Mediated Innate Response and Adaptive Immune Cells Contribute to Maximum Responses of Protease Allergen–Induced Allergic Airway Inflammation , 2013, The Journal of Immunology.

[22]  A. Cumano,et al.  GATA-3 promotes T-cell specification by repressing B-cell potential in pro-T cells in mice. , 2013, Blood.

[23]  David Voehringer,et al.  The transcription factor GATA-3 controls cell fate and maintenance of type 2 innate lymphoid cells. , 2012, Immunity.

[24]  Andrew J. Oler,et al.  The transcription factor T-bet is induced by multiple pathways and prevents an endogenous Th2 cell program during Th1 cell responses. , 2012, Immunity.

[25]  Fumio Takei,et al.  Retinoic-acid-receptor-related orphan nuclear receptor alpha is required for natural helper cell development and allergic inflammation. , 2012, Immunity.

[26]  Freddy Radtke,et al.  Transcription factor RORα is critical for nuocyte development , 2012, Nature Immunology.

[27]  Raja Jothi,et al.  Genome-wide analyses of transcription factor GATA3-mediated gene regulation in distinct T cell types. , 2011, Immunity.

[28]  N. Kessaris,et al.  Sox1 Is Required for the Specification of a Novel p2-Derived Interneuron Subtype in the Mouse Ventral Spinal Cord , 2010, The Journal of Neuroscience.

[29]  W. Paul,et al.  How are TH2-type immune responses initiated and amplified? , 2010, Nature Reviews Immunology.

[30]  A. McKenzie,et al.  Nuocytes represent a new innate effector leukocyte that mediates type-2 immunity , 2010, Nature.

[31]  J. D. Engel,et al.  GATA-3 is required for early T lineage progenitor development , 2009, The Journal of experimental medicine.

[32]  K. Zhao,et al.  IL-1 family members and STAT activators induce cytokine production by Th2, Th17, and Th1 cells , 2009, Proceedings of the National Academy of Sciences.

[33]  S. Pai,et al.  GATA3 and the T-cell lineage: essential functions before and after T-helper-2-cell differentiation , 2009, Nature Reviews Immunology.

[34]  W. Paul,et al.  Distinct functions for the transcription factors GATA-3 and ThPOK during intrathymic differentiation of CD4+ T cells , 2008, Nature Immunology.

[35]  M. Busslinger,et al.  Pax2/8-regulated Gata3 expression is necessary for morphogenesis and guidance of the nephric duct in the developing kidney , 2006, Development.

[36]  Nancy A. Jenkins,et al.  Simple and highly efficient BAC recombineering using galK selection , 2005, Nucleic acids research.

[37]  Booki Min,et al.  Conditional deletion of Gata3 shows its essential function in TH1-TH2 responses , 2004, Nature Immunology.

[38]  S. Pai,et al.  Critical roles for transcription factor GATA-3 in thymocyte development. , 2003, Immunity.

[39]  R. Locksley,et al.  Analysis of type 2 immunity in vivo with a bicistronic IL-4 reporter. , 2001, Immunity.

[40]  Rajesh V. Thakker,et al.  GATA3 haplo-insufficiency causes human HDR syndrome , 2000, Nature.

[41]  J. D. Engel,et al.  Expression of the transcription factor GATA‐3 is required for the development of the earliest T cell progenitors and correlates with stages of cellular proliferation in the thymus , 1999, European journal of immunology.

[42]  Andreas Radbruch,et al.  T1/ST2 is preferentially expressed on murine Th2 cells, independent of interleukin 4, interleukin 5, and interleukin 10, and important for Th2 effector function. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[43]  Richard A Flavell,et al.  The Transcription Factor GATA-3 Is Necessary and Sufficient for Th2 Cytokine Gene Expression in CD4 T Cells , 1997, Cell.

[44]  J. Leiden,et al.  Transcription factor GATA-3 is required for development of the T-cell lineage , 1996, Nature.

[45]  P. Loke,et al.  Recent Advances in Type-2-Cell-Mediated Immunity: Insights from Helminth Infection. , 2018, Immunity.

[46]  Andreas Radbruch,et al.  Regulation of expression of IL-4 alleles: analysis using a chimeric GFP/IL-4 gene. , 2001, Immunity.

[47]  A Radbruch,et al.  Stat6-independent GATA-3 autoactivation directs IL-4-independent Th2 development and commitment. , 2000, Immunity.