Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0085110 (SCID)
11,041 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Amorphic mutations in the recombination activating genes RAG1 and RAG2 have been reported to cause T- B- SCID, whereas hypomorphic mutations led to the expansion of a few autoimmune T cell clones responsible for the Omenn syndrome phenotype. We report here a novel clinical and immunological phenotype associated with recessive RAG1 hypomorphic mutations in 4 patients from 4 different families. The immunological phenotype consists of the oligoclonal expansion of TCR gammadelta T cells combined with TCR alphabeta T cell lymphopenia. The clinical phenotype consists of severe, disseminated CMV infection and autoimmune blood cell manifestations. Repertoire studies suggest that CMV infection, in the setting of this particular T cell immunodeficiency, may have driven the TCR gammadelta T cell clonal expansion. This observation extends the range of clinical and immunological phenotypes associated with RAG mutations, emphasizing the role of the genetic background and microbial environment in determining disease phenotype.
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PMID:A novel immunodeficiency associated with hypomorphic RAG1 mutations and CMV infection. 1627 11

V(D)J recombination of Ig and TCR loci is a stepwise process during which site-specific DNA double-strand breaks (DSBs) are made by RAG1/RAG2, followed by DSB repair by nonhomologous end joining. Defects in V(D)J recombination result in SCID characterized by absence of mature B and T cells. A subset of T-B-NK+ SCID patients is sensitive to ionizing radiation, and the majority of these patients have mutations in Artemis. We present a patient with a new type of radiosensitive T-B-NK+ SCID with a defect in DNA ligase IV (LIG4). To date, LIG4 mutations have only been described in a radiosensitive leukemia patient and in 4 patients with a designated LIG4 syndrome, which is associated with chromosomal instability, pancytopenia, and developmental and growth delay. The patient described here shows that a LIG4 mutation can also cause T-B-NK+ SCID without developmental defects. The LIG4-deficient SCID patient had an incomplete but severe block in precursor B cell differentiation, resulting in extremely low levels of blood B cells. The residual D(H)-J(H) junctions showed extensive nucleotide deletions, apparently caused by prolonged exonuclease activity during the delayed D(H)-J(H) ligation process. In conclusion, different LIG4 mutations can result in either a developmental defect with minor immunological abnormalities or a SCID picture with normal development.
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PMID:A new type of radiosensitive T-B-NK+ severe combined immunodeficiency caused by a LIG4 mutation. 1635 42

Following facial nerve axotomy in mice, peripheral T cells home to the injured facial motor nucleus (FMN) where they may influence the glial response. Interactions between T cells and microglia, which proliferate in response to axotomy, appear to confer neuroprotection to injured motoneurons. The primary objective of this study was to determine whether T lymphocytes could influence the microglial reaction to motoneuron injury. These experiments tested the hypotheses that (1) C57BL/6 (B6) and 129 mice, inbred strains which have high and low levels of astroglial reactivity in the axotomized FMN, respectively, would also exhibit high and low levels of T cell infiltration, and (2) that these differences would correspond with levels of microglial reactivity and neuronal regeneration. Thus, we compared the response to facial nerve axotomy in B6, 129, and immunodeficient RAG2 knockout (RAG2 KO) mice on these two backgrounds at 14 day post-axotomy for differences in levels of 1) CD3+ T cell infiltration; (2) major histocompatibility complex II (MHC2) expression by microglia; (3) perineuronal microglial phagocytic clusters, an indirect measure of neuronal death; and (4) overall microglial activity as assessed by CD11b expression. To examine the inheritance pattern of the abovementioned neuroimmune measures, we also made assessments in B6x129 F1 generation mice. B6 and 129 mice displayed high and low levels of T cell infiltration to the affected FMN and low and high MHC2 expression, respectively. Levels of microglial activity did not differ between the two strains. In immunodeficient RAG2 KO mice on both backgrounds, the number of MHC2+ microglia did not differ from their immunologically normal background controls. Moreover, deletion of either the RAG2 or RAG1 genes in B6 mice was not associated with increased neuronal death at day 14 post-axotomy, as we had previously found in B6 mice with the severe combined immunodeficiency (SCID) mutation. Contrary to our hypothesis, the paucity of T cells in the affected FMN of the 129 mice was associated with less neuronal death when compared to B6 mice, which showed a robust T cell response. Moreover, the data suggest that parameters of the central and peripheral immune responses to axotomy are independently regulated. Assessments in B6x129 F1 generation mice revealed dominant phenotypes for both T cell infiltration and neurodegeneration, whereas both strains contributed significantly to the phenotype for MHC2 expression. Our findings suggest that (1) T cells do not appear to modify measures of microglial reactivity in the axotomized FMN; and (2) the impact of T cells on injured motoneurons in immunologically intact mice and in immunodeficient mice grafted with T cells by adoptive transfer may be different. Further study is required to understand the role of T cells following motoneuron injury in immunologically intact mice and how the seemingly divergent effects of T cells in intact and immunodeficient mice might provide insight into their role in neuronal injury and repair.
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PMID:Endogenous T lymphocytes and microglial reactivity in the axotomized facial motor nucleus of mice: effect of genetic background and the RAG2 gene. 1637 35

Mutations in recombination activating genes 1 and 2 (RAG1 and RAG2) cause a spectrum of severe immunodeficiencies ranging from classical T cell-B cell-severe combined immunodeficiency (T(-)B(-)SCID) and Omenn syndrome (OS) to an increasing number of peculiar cases. While it is well established from biochemical data that the specific genetic defect in either of the RAG genes is the first determinant of the clinical presentation, there is also increasing evidence that environmental factors play an important role and can lead to a different phenotypic expression of a given genotype. However, a better understanding of the mechanisms by which the molecular defect impinges on the cellular phenotype of OS is still lacking. Ongoing studies in knock-in mice could better clarify this aspect.
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PMID:RAG-dependent primary immunodeficiencies. 1696 Aug 52

Misregulation of the innate immune response and other immune-related processes have been suggested to play a critical role in the pathogenesis of a number of different neurodegenerative diseases, including age related macular degeneration. In an animal model for photoreceptor degeneration, several genes of the innate and acquired immune system were found to be differentially regulated in the retina during the degenerative process. In addition to this differential regulation of individual genes, we found that in the rd1 retina a significantly higher number of genes involved in immune-related responses were expressed at any given time during the degenerative period. The peak of immune-related gene expression was at postnatal day 14, coinciding with the peak of photoreceptor apoptosis in the rd1 mouse. We directly tested the potential involvement of acquired and innate immune responses in initiation and progression of photoreceptor degeneration by analyzing double mutant animals. Retinal morphology and photoreceptor apoptosis of rd1 mice on a SCID genetic background (no mature T- and B-cells) or in combination with a RAG1 (no functional B- and T-cells) or a C1qalpha (no functional classical complement activation pathway) knockout was followed during the degenerative process using light microscopy or TUNEL staining, respectively. Although complement factor C1qalpha was highly up-regulated in the rd1 retina concomitantly with the degenerative process, lack of this protein did not protect the rd1 retina. Similarly, retinal degeneration and photoreceptor apoptosis appeared to proceed normally in the rd1 mouse lacking functional B- and T-cells. Our results suggest that both, the classical complement system of innate immunity and a functional acquired immune response are not essential for the degenerative process in the rd1 mouse retina.
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PMID:Classical complement activation and acquired immune response pathways are not essential for retinal degeneration in the rd1 mouse. 1706

Omenn syndrome (OS) is a form of severe combined immunodeficiency (SCID) characterized by erythrodermia, hepatosplenomegaly, lymphadenopathy, and alopecia. In patients with OS, B cells are mostly absent, T-cell counts are normal to elevated, and T cells are frequently activated and express a restricted T-cell receptor (TCR) repertoire. Thus far, inherited hypomorphic mutations of the recombination activating genes either 1 or 2 (RAG1/2) have been detected in most OS patients. We have recently experienced a rare case of OS showing the revertant mosaicism due to multiple second-site mutations leading to typical OS clinical features with RAG1-deficient SCID. In this review, we will focus on the variation of several phenotypes of OS.
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PMID:Omenn syndrome--review of several phenotypes of Omenn syndrome and RAG1/RAG2 mutations in Japan. 1707 47

Patients with Omenn syndrome (OS) have hypomorphic RAG mutations and develop varying manifestations of severe combined immunodeficiency. It is not known which symptoms are caused directly by the RAG mutations and which depend on other polymorphic genes. Our current understanding of OS is limited by the lack of an animal model. In the present study, we identified a C57BL/10 mouse with a spontaneous mutation in, and reduced activity of, RAG1. Mice bred from this animal contained high numbers of memory-phenotype T cells and experienced hepatosplenomegaly and eosinophilia, had oligoclonal T cells, and demonstrated elevated levels of IgE, major symptoms of OS. Depletion of CD4+ T cells in the mice caused a reduction in their IgE levels. Hence these "memory mutant" mice are a model for human OS; many symptoms of their disease were direct results of the Rag hypomorphism and some were caused by malfunctions of their CD4+ T cells.
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PMID:Homeostatically proliferating CD4 T cells are involved in the pathogenesis of an Omenn syndrome murine model. 1747 51

Recombinase activating genes 1/2 (RAG1/2) deficiency, critical to initiate gene rearrangement encoding lymphocyte receptors, causes T-B- severe combined immunodeficiency (SCID) and Omenn syndrome (OS), characterised by erythroderma, hepatosplenomegaly, lymphadenopathy, activated, clonal T cell expansions with restricted TCRVbeta family usage, and opportunistic infection. Many features of OS resemble graft-versus-host disease (GvHD). Frequency of GvHD-associated cytokine gene polymorphisms (CGPs) with OS was investigated to explain phenotypic differences between T-B- SCID and OS. Allele frequencies of IFNgamma T874A, IFNgamma-R1, TNFalphad microsatellites, IL-10 promoter region C592A and A1082G, IL-4 C-590T, IL-6 G-174C, IL-4R Q+576R, IFNgamma-R1 T-56C, TNFalphaRII 196 M/R single-nucleotide polymorphisms and IL-1Ra intron 1 VNTR were examined in 33 OS and 23 SCID patients. No significant differences in allele frequencies were found between the groups, and no trends identified. The mechanisms determining the OS or T-B-NK+ SCID phenotype remain to be determined.
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PMID:GvHD-associated cytokine polymorphisms do not associate with Omenn syndrome rather than T-B- SCID in patients with defects in RAG genes. 1757 55

OS has been described as a clinical phenotype in infants characterized by SCID, diffuse erythroderma, and other distinct features. The pathogenesis is secondary to autologous, auto-reactive T cells produced as rare escapees from the SCID blockade. Mutations in either the RAG1 or RAG2 gene that lead to partial recombinase activity are responsible for many of the patients with these clinical features. We report on two patients, one with an atypical phenotype of OS (absence of rash but presence of other typical features) who harbored a previously undescribed mutation in RAG1, and a second who had many of the classic features of OS but was found to have a mutation in the common gamma chain (gamma(c)) cytokine receptor gene. These cases highlight the clinical and genetic heterogeneity of OS.
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PMID:Clinical and genetic heterogeneity in Omenn syndrome and severe combined immune deficiency. 1882 3

Omenn syndrome is a form of severe combined immunodeficiency associated with erythrodermia, hepatosplenomegaly, lymphadenopathy, and alopecia. Inherited hypomorphic mutations in the recombination activating genes 1 and 2 (RAG1 and RAG2) and in ARTEMIS genes and more recently defects in IL7RA, and RMRP genes have been described to be responsible of this peculiar immunodeficiency. The authors report here a Moroccan patient of four-months-old with classical features of Omenn syndrome, carrying a deletion at the N terminal part of RAG1. Early recognition of this condition is important for genetic counseling and early treatment.
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PMID:Omenn syndrome with mutation in RAG1 gene. 1901 8


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