Gene/Protein
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Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
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Query: EC:3.2.1.23 (
beta-galactosidase
)
14,648
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Dendritic cells (DCs) are the most potent antigen-presenting cells and a prerequisite for the initiation of primary immune response. This study was performed to investigate the contribution of DCs to the initiation of Graves' hyperthyroidism, an organ-specific autoimmune disease in which the thyrotrophin receptor (TSHR) is the major
autoantigen
. DCs were prepared from bone marrow precursor cells of BALB/c mice by culturing with granulocyte macrophage-colony stimulating factor and interleukin-4. Subcutaneous injections of DCs infected with recombinant adenovirus expressing the TSHR (but not
beta-galactosidase
) in syngeneic female mice induced Graves'-like hyperthyroidism (8 and 35% of mice after two and three injections, respectively) characterized by stimulating TSHR antibodies, elevated serum thyroxine levels and diffuse hyperplasitc goiter. TSHR antibodies determined by ELISA were of both IgG1 (Th2-type) and IgG2a (Th1-type) subclasses, and splenocytes from immunized mice secreted interferon-gamma (a Th1 cytokine), not interleukin-4 (a Th2 cytokine), in response to TSHR antigen. Surprisingly, IFN-gamma secretion, and induction of antibodies and disease were almost completely suppressed by co-administration of alum/pertussis toxin, a Th2-dominant adjuvant, whereas polyriboinosinic polyribocytidylic acid, a Th1-inducer, enhanced splenocyte secretion of IFN-gamma without changing disease incidence. These observations demonstrate that DCs efficiently present the TSHR to naive T cells to induce TSHR antibodies and Graves'-like hyperthyroidism in mice. In addition, our results challenge the previous concept of Th2 dominance in Graves' hyperthyroidism and provide support for the role of Th1 immune response in disease pathogenesis.
...
PMID:Dendritic cells infected with adenovirus expressing the thyrotrophin receptor induce Graves' hyperthyroidism in BALB/c mice. 1256 82
We have previously reported the discovery of an islet-specific glucose-6-phosphatase catalytic subunit-related protein (IGRP) that is predominantly expressed in islet beta-cells. IGRP has recently been identified as a major
autoantigen
in a mouse model of type 1 diabetes. The analysis of IGRP-chloramphenicol acetyltransferase (CAT) fusion gene expression in transiently transfected islet-derived hamster insulinoma tumor and betaTC-3 cells revealed that the promoter region located between -306 and +3 confers high-level reporter gene expression. To determine whether this same promoter region is sufficient to confer islet beta-cell-specific gene expression in vivo, it was ligated to a
beta-galactosidase
reporter gene, and transgenic mice expressing the resulting fusion gene were generated. In two independent founder lines, this -306 to +3 promoter region was sufficient to drive
beta-galactosidase
expression in newborn mouse islets, predominantly in beta-cells, which was initiated during the expected time in development, around embryonic day 12.5. However, unlike the endogenous IGRP gene,
beta-galactosidase
expression was also detected in the cerebellum. Moreover,
beta-galactosidase
expression was almost completely absent in adult mouse islets, suggesting that cis-acting elements elsewhere in the IGRP gene are required for determining appropriate IGRP tissue-specific expression and for the maintenance of IGRP gene expression in adult mice.
...
PMID:The proximal islet-specific glucose-6-phosphatase catalytic subunit-related protein autoantigen promoter is sufficient to initiate but not maintain transgene expression in mouse islets in vivo. 1522 Jan 99
Plasmid-DNA gene-gun immunization may be an efficient approach for investigating the role of skin dendritic cells (DCs) in type 1 diabetes (T1D) pathogenesis and the significance of the presentation of peptides that mimic autoantigenic epitopes in aggravating or modulating the autoimmune reaction. Gene-gun immunization has been described as producing long-lasting immune responses elicited by skin DCs, especially Langerhans cells (LCs). Therefore, we tested the immune response and diabetes modulation in nonobese diabetic (NOD) mice and in control BALB/c mice, by gene-gun administration of plasmid-DNA encoding (1) human 65 kDa glutamic acid decarboxylase (hGAD65) mimicking the crucial mouse
autoantigen
GAD65 (similarity of 95.7%) or (2)
beta-galactosidase
(betaGAL) as a negative control. Expression of GAD and betaGAL in skin of pc-GAD- and pc-LacZ-injected mice, respectively, was confirmed. It was surprising that both pc-LacZ-injected BALB/c and NOD mice exhibited a betaGAL-specific Th1 immune response: spleen cells of pc-LacZ mice proliferated specifically to betaGAL (P < 10(-4)) and secreted significant amounts of IFNgamma (P < 10(-4)). pc-LacZ mice also developed a betaGAL-specific Th1-related (IgG2a/2c) and Th2-related (IgG1) humoral response. Although pc-GAD BALB/c mice showed Th2-related GAD-specific IgG1 production and a significant secretion of IL4 (P < .03), pc-GAD NOD mice did not generate either an antibody response or a T cell response specific to GAD. Moreover, gene-gun immunization encoding hGAD65 did not clearly modulate diabetes onset in NOD mice. This absence of detectable GAD-specific response may implicate skin DC deficiencies in NOD mice. The gene-gun technique could thus provide an interesting model for studying skin DC abnormalities in NOD mice and their potential implication of presenting mimetic peptides that modulate the autoimmune response in T1D.
...
PMID:Gene-gun biolistic immunization encoding glutamic acid decarboxylase: a model for studying Langerhans cell abnormalities and mimicry in the nonobese diabetic mouse. 1612 2
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