Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P43026 (lipopolysaccharide)
 62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Strain differences in susceptibility to the development of thyroiditis following adult thymectomy and repeated sublethal X-irradiation (4 X 200 rad) were investigated in the rat. Marked strain variation was noted, with AUG and PVG/c rats having the highest incidence and severity of lesion (100 and 80% respectively) whilst CAM rats had a low incidence (9%). WAG and LIS rats occupied an intermediate position. The incidence of autoantibodies to thyroglobulin correlated closely with the strain incidence of thyroiditis (r = 0-87). Fractionation of the sera from thymectomized and irradiated rats by gel filtration chromatography indicated that the bulk of the antibodies to thyroglobulin were of the IgG class. Freund's complete adjuvant, but not lipopolysaccharide, enhanced the rate of development of thyroiditis in thymectomized rats given a shortened series of irradiations. It was not found possible to induce thyroiditis in thymectomized rats by substituting antilymphocyte serum for irradiation as a T cell-depleting agent, despite the fact that the treated rats had markedly reduced responses to phytohaemagglutinin. A combination of thymectomy, three doses of 200 rad, and a development period of 8 weeks were found to be the optimum conditions for induction of severe thyroiditis together with high antibody titres to thyroglobulin. These findings add support for the role of thymus-derived cells in the regulation of autoimmune responses and further suggest that thymectomy, combined with a series of sublethal irradiations, causes a selective depletion of those T cells specifically involved in the suppression of autoimmune reactivity to thyroid components, whilst leaving autoreactive helper T cells unimpaired.
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PMID:Thyroiditis in T cell-depleted rats. Influence of strain, radiation dose, adjuvants and antilymphocyte serum. 108 32

Previous studies have shown that T cells from genetically susceptible mice developing experimental autoimmune thyroiditis (EAT) proliferate in response to restimulation with mouse thyroglobulin (MTg) in vitro and differentiate into cells cytotoxic for syngeneic thyroid monolayers. To examine further the effector cells involved in pathogenesis and the determinants on MTg responsible for their activation, spleen cells (SC) and lymph node cells (LNC) from mice immunized with MTg or human (H) Tg, and adjuvant (complete Freund's adjuvant (CFA) or lipopolysaccharide (LPS] were cultured in vitro with MTg or HTg. Control cultures were incubated with concanavalin A (Con A) or purified protein derivative (PPD). The in vitro-activated cells which proliferated in response to MTg, HTg, or Con A adoptively transferred thyroiditis to normal recipients, whereas cells transferred directly without in vitro culture were very ineffective. The capacity to transfer EAT was abrogated by irradiation (1500 R), and SC from CFA-immunized control mice which responded in vitro to PPD stimulation did not transfer thyroiditis. The serum titers of MTg autoantibodies were uniformly low and were not correlated with severity of disease. The localization of EAT-effector (precursor) cells depended upon the site of immunization; they were found in the spleens after inguinal (subcutaneous) or systemic (intravenous) immunizations, but were present in the popliteal lymph nodes after hind footpad injections. Both homologous MTg and heterologous HTg functioned as in vivo sensitizing antigen and in vitro activating antigen for each other; such cultured cells transferred thyroiditis in vivo and became cytotoxic for thyroid monolayers in vitro. These findings show that shared determinants are autoantigenic and thyroiditogenic, and support the hypothesis that EAT-effector cells responsible for initiating thyroid damage include cytotoxic cells.
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PMID:Activation of cytotoxic T cells and effector cells in experimental autoimmune thyroiditis by shared determinants of mouse and human thyroglobulins. 242 54

Experimental autoimmune thyroiditis (EAT) can be adoptively transferred to normal syngeneic recipients using spleen cells from susceptible strains of mice primed in vivo with mouse thyroglobulin (MTg) and lipopolysaccharide (LPS) following in vitro activation of spleen cells by culture with MTg. Irradiation of recipient animals markedly augments the severity of thyroiditis induced in this system. Irradiation of recipients does not alter the time course of the development of thyroiditis, nor does it alter the requirement for both in vivo priming and in vitro activation of spleen cells for the development of EAT. Spleen cells from EAT-resistant strains of mice (e.g., Balb/c) do not induce EAT in irradiated recipients. Irradiated recipients develop significant levels of anti-MTg antibodies while unirradiated recipients have little detectable antibody response. The augmenting effect of irradiation can be substantially reversed by transferring naive spleen cells to recipients prior to the transfer of MTg/LPS-primed in vitro-activated spleen cells. In addition athymic CBA/Tufts nude mice develop more severe EAT than CBA/Tufts nude/+ littermates following transfer of activated CBA/J spleen cells. These data suggest that natural suppressor cells may regulate the development of EAT at the effector cell level.
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PMID:Augmentation of transfer of experimental autoimmune thyroiditis (EAT) in mice by irradiation of recipients. 295 75

The histological localization and biochemical properties of the autoantigens relevant to experimental autoimmune ophthalmitis and thyroiditis were studied using sera from mice hyperimmunized with the corresponding tissue extract of syngeneic mice and Klebsiella O3 lipopolysaccharide (KO3 LPS) as a potent adjuvant. Specific antigens were detected in the lens of the eyeball by immunofluorescence test with sera from mice in which ophthalmitis had been induced and the antigens were lenticular proteins with molecular weights (MW) of 15,000 (15K) to 25K, and 45K. The lenticular proteins with MW of 15K to 25K correspond to the subunits of crystalline. These findings clearly demonstrated that our experimental model for autoimmune ophthalmitis was classified as the lens-induced uveitis. The colloids of the thyroid follicles and the follicular cells were markedly stained by sera from mice in which thyroiditis had been induced. One of the autoantigens detected in the thyroid gland was biochemically consistent with a thyroglobulin subunit. It was also shown that these autoantigens detected in the present study were organ-specific but not species-specific. The nature of autoantigens in the eye and the thyroid gland is discussed.
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PMID:Characterization of autoantigens relevant to autoimmune ophthalmitis and thyroiditis in mice immunized with the syngeneic tissue extracts and Klebsiella O3 lipopolysaccharide. 350 32

The role of humoral and cellular immune responses in the initiation and maintenance of autoimmune thyroiditis was investigated in mice immunized with syngeneic thyroid extract and Klebsiella O3 lipopolysaccharide (KO3 LPS) as an adjuvant. The transfer of spleen cells from hyperimmunized mice to 400R-irradiated syngeneic mice produced definite lesions in the thyroid glands, whereas the transfer of immune sera failed to do so. No lesions were induced in normal intact mice by the same transfer of sera and spleen cells from hyperimmunized mice. It was suggested that the induction of thyroiditis by immunization using KO3 LPS adjuvant is primarily due to cell-mediated immunity and that pretreatment of mice by X-irradiation is essential for production of the lesions. The role of X-irradiation in the induction of thyroiditis was discussed.
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PMID:Microbial adjuvant and autoimmunity. IV. The induction of thyroid lesions in syngeneic X-irradiated mice by the transfer of spleen cells from mice immunized with thyroid extract and Klebsiella O3 lipopolysaccharide. 375 93

By using a recently developed method for producing thyroiditis in mice consisting of implantation of a fresh thyroid gland into the peritoneal cavity or under the capsule of the kidney with subsequent injection of lipopolysaccharide, differences were shown in susceptibility of the target thyroid gland to autoimmune destruction and in antigenicity of the thyroid gland for induction of experimental autoimmune thyroiditis. Using recombinant congenic mice, the H-2 haplotypes of the target thyroid gland were found to be as important as those of the immune system in development of autoimmune thyroiditis. On the other hand, the H-2 haplotypes of the thyroid gland are unimportant for induction of autoimmune thyroiditis.
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PMID:The differences of susceptibility of the target thyroid gland to autoimmune thyroiditis and of antigenicity of thyroid gland for induction of experimental autoimmune thyroiditis. 378 53

Natural and synthetic adjuvants of microbial origin were compared for their capacity to potentiate the induction of experimental autoimmune thyroiditis (EAT) with the autoantigen mouse thyroglobulin (MTg). Regardless of the immunomodulator used, severe thyroiditis was observed only in EAT-susceptible strains of the k haplotype and not in EAT-resistant strains of the d haplotype. Compared to phenol-extracted lipopolysaccharide, a potent adjuvant for enhancing EAT induction, phthalyl-substituted, detoxified lipopolysaccharide, even at doses 15- to 50-fold greater, led to only low anti-mouse thyroglobulin titers and mild thyroid infiltration. The synthetic adjuvant N-acetylmuramyl-L-alanyl-D-isoglutamine (MDP) and three of its analogs, N-acetylmuramyl-L-alanyl-D-isoglutamine-L-alanyl-D-glycerol mycolate (MDP-L-Ala-Glyc-Myc), N-acetylmuramyl-L-alanyl-D-glutamyl-(decyl)methyl ester [MDP(decyl)methyl], and N-acetylmuramyl-L-alanyl-D-glutamine-alpha n-butyl ester [MDP-(Gln)-OnBu], designated murabutide, were tested in incomplete Freund adjuvant or in saline. In incomplete Freund adjuvant, MDP-L-Ala-Glyc-Myc was inefficient in inducing EAT, murabutide induced very mild involvement, and MDP and, more so, MDP(decyl)methyl were active but to a lesser degree than CFA. When saline was used, low levels of thyroid infiltration were observed in a few of the MDP-treated animals in only one experiment, whereas no lesions were observed when murabutide was used.
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PMID:Effects of natural or synthetic microbial adjuvants on induction of autoimmune thyroiditis. 383 8

The effects of Ta-1, a peptide constituent of thymosin fraction 5, were studied on murine autoimmune thyroiditis using two congenic strains of mice, B10.Br (Br) and B10.D2 (D2), which are sensitive and resistant to experimental autoimmune thyroiditis (EAT) induction, respectively. EAT was induced by either 2 weekly iv injections of mouse thyroglobulin with adjuvant lipopolysaccharide (LPS) or intradermal injection of thyroglobulin mixed with complete Freund's adjuvant (CFA). The criteria for induction and intensity of thyroiditis were the level of lymphoid infiltration in the thyroid gland and the titer of anti-thyroglobulin antibodies. Ta-1 was given in 5 or 10 daily sc injections in doses ranging from 0.0001 to 0.1 microgram/injection. The injections were commenced at varying intervals from the 1st to the 4th week after immunization. T-Cell subsets in the spleens were determined 2 weeks after the first antigen injection and thyroid infiltration was determined 3 weeks later. Treatment with Ta-1 between the two antigen injections increased the level of thyroiditis in resistant mice, but had no effect in sensitive mice. Treatment for the first 2 weeks had similar effects in resistant mice, but also suppressed thyroiditis in the sensitive strain. Later treatments, during the 3rd and 4th weeks after immunization also revealed immunomodulating properties of Ta-1, with a suppressing effect on thyroiditis in sensitive mice and an enhancing effect in the resistant strain. Both effects of Ta-1 were dose dependent. The effects of Ta-1 on the individual phenotypes were also dose dependent. The dose of 0.01 microgram greatly lowered the percentages of Lyt-2+3+ cells in D2 mice and mildly increased the percentages in Br mice, but did not change the Lyt-1+ cell level in either strain. On the other hand, the dose of 0.001 microgram greatly increased the percentage of Lyt-1+ cells in D2 mice and mildly decreased it in the Br strain, but did not alter the Lyt-2+3+ cell subset in either strain. Thus, both doses of Ta-1 modulated Lyt-1+/2+3+ ratios, with each dose affecting a different T-cell subset. The changes in the response to thyroglobulin are apparently exerted through the regulation of the functional T-cell subset balance.
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PMID:Thymosin alpha 1-induced modulation of cellular responses and functional T-cell subsets in mice with experimental autoimmune thyroiditis. 387 93

Autoimmune thyroiditis was induced in CBA/J mice by a newly developed method consisting of a combination of implantation of one whole syngeneic thyroid gland under the capsule of the kidney and subsequent injection of lipopolysaccharide (LPS) intravenously 6 hr after implantation. This procedure was repeated once, a week later. With this method the implanted thyroid gland, after becoming necrotic due to circulatory disturbance and regenerating, also developed definite thyroiditis, quite similar to that of the intact thyroid gland on Day 49. With respect to the H-2 haplotype of the mice, both intact and implanted thyroid glands of CBA/J (H-2k) and C3H/He (H-2k) mice showed severe thyroiditis, whereas those of BALB/c (H-2d) and C57BL/6 (H-2b) mice developed mild inflammation. With a combination of implantation of thyroid glands derived from parental good (CBA/J) or poor responder (BALB/c) mice and subsequent injection of LPS into (good X poor responder) (CBA/J X BALB/c)F1 hybrid mice, it was found that the genetic background of the target thyroid tissue itself has a strong influence on susceptibility.
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PMID:The difference of susceptibility of target thyroid gland to autoimmune thyroiditis induced by a combination of implantation of thyroid gland and injection of lipopolysaccharide. 688 13

There is evidence from animal models that the iodine content of thyroglobulin (Tg) may influence its antigenicity in thyroid autoimmunity. To elucidate the effect of iodination of hormonogenic sites of human Tg (hTg) on its autoantigenicity, a synthetic peptide (TB: hTg 2546-2571), containing two hormonogenic tyrosine residues of hTg, and a chemically-iodinated peptide (TB-I) were prepared. We immunized C3H/He (H-2k) mice, a high responder strain to Tg, and BALB/c (H-2d), a low responder strain, with TB or TB-I plus lipopolysaccharide. Lymph node cells from the two strains immunized with TB or TB-I proliferated in response to both TB and TB-I. Anti-Tg autoantibodies were detected in both strains when immunized with TB-I, while immunization with TB failed to produce anti-Tg antibodies. Furthermore, one of the C3H/He mice immunized with TB-I developed diffuse thyroiditis, but BALB/c mice did not. These findings indicate that the iodination of the hormonogenic tyrosine residues of hTg, in other words, the synthesis of mono- and di-iodotyrosine (MIT and DIT) residues, is necessary for the production of anti-Tg autoantibodies in high and low responder mice and for the induction of autoimmune thyroiditis in high responder mice.
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PMID:[Chemical iodination of hormonogenic tyrosine residues of human thyroglobulin is critical for the production of anti-thyroglobulin autoantibody and for the induction of experimental autoimmune thyroiditis in mice]. 751 88


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