A hypomorphic R229Q Rag2 mouse mutant recapitulates human Omenn syndrome.

Rag enzymes are the main players in V(D)J recombination, the process responsible for rearrangement of TCR and Ig genes. Hypomorphic Rag mutations in humans, which maintain partial V(D)J activity, cause a peculiar SCID associated with autoimmune-like manifestations, Omenn syndrome (OS). Although a deficient ability to sustain thymopoiesis and to produce a diverse T and B cell repertoire explains the increased susceptibility to severe infections, the molecular and cellular mechanisms underlying the spectrum of clinical and immunological features of OS remain poorly defined. In order to better define the molecular and cellular pathophysiology of OS, we generated a knockin murine model carrying the Rag2 R229Q mutation previously described in several patients with OS and leaky forms of SCID. These Rag2(R229Q/R229Q) mice showed oligoclonal T cells, absence of circulating B cells, and peripheral eosinophilia. In addition, activated T cells infiltrated gut and skin, causing diarrhea, alopecia, and, in some cases, severe erythrodermia. These findings were associated with reduced thymic expression of Aire and markedly reduced numbers of naturally occurring Tregs and NKT lymphocytes. In conclusion, Rag2(R229Q/R229Q) mice mimicked most symptoms of human OS; our findings support the notion that impaired immune tolerance and defective immune regulation are involved in the pathophysiology of OS.

[1]  A. Villa,et al.  RAG‐dependent primary immunodeficiencies , 2006, Human mutation.

[2]  Shimon Sakaguchi,et al.  Foxp3+CD25+CD4+ natural regulatory T cells in dominant self‐tolerance and autoimmune disease , 2006, Immunological reviews.

[3]  K. Schwarz,et al.  Omenn syndrome: a lack of tolerance on the background of deficient lymphocyte development and maturation , 2006, Current opinion in rheumatology.

[4]  Yiping Gu,et al.  Mutations in the RNA component of RNase mitochondrial RNA processing might cause Omenn syndrome. , 2006, The Journal of allergy and clinical immunology.

[5]  A. Fischer,et al.  Omenn syndrome in an infant with IL7RA gene mutation. , 2006, The Journal of pediatrics.

[6]  L. Notarangelo,et al.  Immunodeficiencies with autoimmune consequences. , 2006, Advances in immunology.

[7]  U. Pannicke,et al.  A variant of SCID with specific immune responses and predominance of γδ T cells , 2005 .

[8]  A. Fischer,et al.  A novel immunodeficiency associated with hypomorphic RAG1 mutations and CMV infection. , 2005, The Journal of clinical investigation.

[9]  Mark S. Anderson,et al.  The cellular mechanism of Aire control of T cell tolerance. , 2005, Immunity.

[10]  S. Giliani,et al.  Hematopoietic stem cell transplantation in Omenn syndrome: a single-center experience , 2005, Bone Marrow Transplantation.

[11]  Yunmei Ma,et al.  Plenary Papers (356 articles) , 2005 .

[12]  A. Fischer,et al.  AIRE deficiency in thymus of 2 patients with Omenn syndrome. , 2005, The Journal of clinical investigation.

[13]  N. Sarvetnick,et al.  Homeostatic Expansion of T Cells during Immune Insufficiency Generates Autoimmunity , 2004, Cell.

[14]  D. Adams,et al.  Oligoclonal Expansion of CD45RO+ T Lymphocytes in Omenn Syndrome , 1997, Journal of Clinical Immunology.

[15]  L. Peltonen,et al.  Aire regulates negative selection of organ-specific T cells , 2003, Nature Immunology.

[16]  J. V. van Dongen,et al.  The immunophenotypic and immunogenotypic B-cell differentiation arrest in bone marrow of RAG-deficient SCID patients corresponds to residual recombination activities of mutated RAG proteins. , 2002, Blood.

[17]  M. Bonneville,et al.  Combination of MHC-peptide multimer-based T cell sorting with the Immunoscope permits sensitive ex vivo quantitation and follow-up of human CD8+ T cell immune responses. , 2002, Journal of immunological methods.

[18]  L. Klein,et al.  Promiscuous gene expression in medullary thymic epithelial cells mirrors the peripheral self , 2001, Nature Immunology.

[19]  A. Fischer,et al.  Identical mutations in RAG1 or RAG2 genes leading to defective V(D)J recombinase activity can cause either T-B-severe combined immune deficiency or Omenn syndrome. , 2001, Blood.

[20]  E. Brooks,et al.  V(D)J recombination defects in lymphocytes due to RAG mutations: severe immunodeficiency with a spectrum of clinical presentations. , 2001, Blood.

[21]  Sandro Santagata,et al.  The genetic and biochemical basis of Omenn syndrome , 2000, Immunological reviews.

[22]  A. Villa,et al.  Intrathymic restriction and peripheral expansion of the T-cell repertoire in Omenn syndrome. , 1999, Blood.

[23]  M. Panigada,et al.  Molecular and cellular aspects of induced thymus development in recombinase‐deficient mice , 1999, European journal of immunology.

[24]  F. Alt,et al.  RAG2:GFP knockin mice reveal novel aspects of RAG2 expression in primary and peripheral lymphoid tissues. , 1999, Immunity.

[25]  J. Kearney,et al.  IgMhighCD21high lymphocytes enriched in the splenic marginal zone generate effector cells more rapidly than the bulk of follicular B cells. , 1999, Journal of immunology.

[26]  M. Busslinger,et al.  Early Function of Pax5 (BSAP) before the Pre-B Cell Receptor Stage of B Lymphopoiesis , 1998, The Journal of experimental medicine.

[27]  Sandro Santagata,et al.  Partial V(D)J Recombination Activity Leads to Omenn Syndrome , 1998, Cell.

[28]  U. Pannicke,et al.  RAG Mutations in Human B Cell-Negative SCID , 1996, Science.

[29]  K. Murphy,et al.  The effect of antigen dose on CD4+ T helper cell phenotype development in a T cell receptor-alpha beta-transgenic model , 1995, The Journal of experimental medicine.

[30]  H. Macdonald,et al.  Two waves of recombinase gene expression in developing thymocytes , 1994, The Journal of experimental medicine.

[31]  M. Zöller,et al.  The sizes of the CDR3 hypervariable regions of the murine T-cell receptor beta chains vary as a function of the recombined germ-line segments. , 1993, Proceedings of the National Academy of Sciences of the United States of America.

[32]  V. Stewart,et al.  RAG-2-deficient mice lack mature lymphocytes owing to inability to initiate V(D)J rearrangement , 1992, Cell.

[33]  S. Hosier,et al.  Epithelial heterogeneity in the murine thymus: a cell surface glycoprotein expressed by subcapsular and medullary epithelium. , 1991, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[34]  B. Goldberg Binding of soluble type I collagen molecules to the fibroblast plasma membrane , 1979, Cell.

[35]  G. Omenn FAMILIAL RETICULOENDOTHELIOSIS WITH EOSINOPHILIA. , 1965, The New England journal of medicine.