Effect of N-glycan removal on the enzymatic activity of porcine thyroid peroxidase.

Active porcine thyroid peroxidase (pTPO) has been purified either by deoxycholate extraction followed by immunoaffinity purification (pTPO A) or by trypsin/digitonin extraction followed by ion-exchange and gelfiltration chromatography (pTPO B); pTPO A appeared as a full-length molecule, while pTPO B appeared as peptide fragments. Purified pTPO were deglycosylated either by peptide N-glycosidase F (PNGase F) or by endo-beta-N-acetylglucosaminidase H (endo H) treatment. Electrophoretic controls and affinity blotting with concanavalin A indicated that deglycosylation was not total and that pTPO was more efficiently deglycosylated by endo H than by PNGase F. The enzymatic activity of pTPO A, checked by guaiacol and iodide oxidation, was inhibited by PNGase F and endo H deglycosylation, while that of pTPO B was not. After deglycosylation, the apparent Km of pTPO A for guaiacol and iodide increased, while the Vmax for both substrates decreased. The state of aggregation of pTPO A before and after deglycosylation was checked by sucrose density-gradient centrifugation. Results indicated that this inhibition was not due to a loss of pTPO A solubility. These observations suggest that deglycosylation induced a modification of the tertiary structure of pTPO A which affected the active-site domain of the enzyme.     

Bovine insulin and porcine or human insulin prime distinct CD4(+) T cell subsets in C57BL/6 mice.

H-2(b) mice produce insulin-specific antibody when injected with bovine but not porcine or human insulin. Nevertheless, CD4(+) T cells have been cloned from C57BL/6 mice primed with porcine, human, and bovine insulin. Here we tested the hypothesis that CD4(+) T cells from C57BL/6 mice primed with porcine or human insulin are functionally distinct from those primed with bovine insulin. Our results show that variants of insulin that stimulate antibody responses induced Th2 clones, whereas variants of insulin that fail to stimulate antibody induced Th0 clones. Th0 clones triggered delayed-type hypersensitivity (DTH) in adoptive recipients, whereas Th2 clones did not. Insulin variants that primed Th0 clones also directly primed for DTH responses, while variants that activated Th2 clones did not. Thus, induction of Th2 clones correlated with the ability of mice to make antibody responses to insulin while development of Th0 clones correlated with DTH responses and the failure to produce antibody.     

A novel H2A-E+ transgenic model susceptible to human but not mouse thyroglobulin-induced autoimmune thyroiditis: identification of mouse pathogenic epitopes

The A⁻E⁺ transgenic mouse is highly susceptible to human thyroglobulin (hTg)-induced thyroiditis, but strongly tolerant to a challenge by mouse thyroglobulin (mTg), in stark contrast to traditionally susceptible strains, wherein mTg induces stronger thyroiditis. To identify mouse thyroid epitopes recognized by destructive, hTg-primed T cells, we selected the three hTg epitopes known to be presented by H2E^b, as the basis for synthesizing potential mTg epitopes. One 15-mer peptide, mTg409, did prime T cells, elicit Ab, and induce thyroiditis. Moreover, cells primed with corresponding, pathogenic hTg410 cross-reacted with mTg409, and vice versa. mTg409 contained 4/4 anchor residues, similar to the corresponding hTg peptide. Based on this finding, a second mTg epitope, mTg179, was subsequently identified. These mTg autoepitopes, identified by using thyroiditogenic hTg epitopes, help to explain the severe thyroiditis seen in this novel A⁻E⁺ transgenic model.     

Immunogenetic differences between lymph node cell and bone marrow cell grafts in irradiated mice

C3H lymph node cell (LNC) grafts, but not bone marrow cell (BMC) grafts, were resisted by lethally irradiated NZB, (C57BL × NZB)F1, and (C57BL/6 × DBA/2)F1 mice. BALB/ c hosts did not resist C3H LNC, suggesting that Ir-like genes regulate resistance to such grafts. Cyclophosphamide, silica particles, and ⁸⁹Sr pretreatments of prospective host mice resulted in successful proliferation of C3H LNC in most instances. These agents were known to abrogate resistance to incompatible BMC grafts. The determinants for antigens recognized on LNC appear to map in or near the D region of H-2. LNC grafts of all H-2^k strains tested (C3H, CBA, C58, C57BR) were strongly resisted while A, C3H.A, B10.A(5R), A.TL, and A.Tla^b LNC grafts were not strongly resisted by NZB hosts. Grafts of H-2^b (C57BL/6, C57BL/10, 129) LNC, or BMC are resisted by NZB or (C57BL/6 × DBA/2)F1 hosts. (C3H × C57BL)F1 LNC but not BMC were resisted by similar hosts. (C57BL/6 × DBA/2)F1 mice were injected with C57BL/6 spleen cells four times to induce specific “unresponsiveness” to parental-strain Hemopoietic histocompatibility (Hh) antigens. Unresponsiveness was induced to C57BL/6 BMC, as expected, but C57BL/6 and C3H LNC grafts were resisted despite the spleen cell injections. The data suggest that the antigens recognized during rejection of C3H LNC are not expressed on C3H BMC. It is even conceivable that Hh antigens on C57BL/6 BMC and LNC have separate determinants. Alternatively, the injections of C57BL/6 spleen cells may have induced an anti-idiotypic response that was capable of eliminating C57BL/6 LNC by a different effector mechanism.     

Proteinases of small intestine enterocytes of swine. Purification and properties of aspartyl proteinase similar to cathepsin D

A new aspartic proteinase was isolated from porcine intestine mucosa by affinity chromatography on pepstatin-Sepharose 4B and gel filtration on Sephadex G-100. The enzyme was purified 1600-fold and appeared homogeneous upon polyacrylamide gel electrophoresis. The proteinase has a Mr 60 000 +/- 4000 Da. During sodium dodecyl sulfate polyacrylamide gel electrophoresis the enzyme produced a single protein band (Mr 30 000 +/- 3000 Da). Isoelectric focusing revealed that the enzyme has several multiple forms (pI 6.9, 7.5, 8,0). The enzyme is a glycoprotein containing 5.9% of carbohydrates; the mannose to galactose ratio is 1:3. The amino acid composition of the enzyme was studied. The proteinase splits an oxidized insulin B-chain and synthetic substrates. The pH optimum is 3.2. The enzyme is immunologically identical to porcine spleen cathepsin D.     

Transfer of experimental autoimmune thyroiditis with T cell clones

We have investigated three T lymphocyte clones isolated from CBA/CaJ mice primed with mouse thyroid extract (MTE) in adjuvant. All three clones are L3T4+, Ig-, and Lyt2- and proliferate to MTE, mouse thyroglobulin (MTG) and rat thyroid extract. Clones A7 and B7 transfer thyroiditis to irradiated (475 rad) syngeneic mice, but not to normal recipients. The thyroid lesion induced by the B7 clone is characterized by the infiltration of both mononuclear and polymorphonuclear cells. The thyroiditis is transient in that lesions are apparent 7 and 14 days after transfer, but thyroids return to normal by day 21. Clone B7 showed helper activity for trinitrophenyl-keyhole limpet hemocyanin-primed B cells in vitro when stimulated with trinitrophenyl-MTG and also stimulated the production of anti-MTG antibody in recipient mice. Clone A7 induced thyroid lesions characterized by infiltration of the thyroid with mononuclear cells, with virtually no polymorphonuclear cell infiltration. This clone has shown no helper activity following stimulation with trinitrophenyl-MTG. The third clone (D2) proliferates to and shows helper activity to MTG, but fails to transfer thyroiditis to syngeneic, irradiated mice. On continuous culture, clone B7 lost its surface Thy. The loss of Thy appears unrelated to the ability to transfer thyroiditis since subclones of B7 with markedly different percentages of Thy+ cells transferred disease equally well.     

An improved assay method for thyroid peroxidase applicable for a few milligrams of abnormal human thyroid tissues

A peroxidase assay method (Mini assay method) which is applicable for a minute amount (as small as a few mg) of thyroid tissue was developed, employing guaiacol or iodide as the second substrate. This method is a modification of the previous one (Ordinary assay method): the volume of the reaction mixture was reduced to about one-tenth with prior solubilization of the enzyme. The correlation between the Mini assay and Ordinary assay methods, and between the guaiacol and iodide assays by both methods were satisfactorily good, but the iodine content of thyroglobulin was found to be not directly correlated to the peroxidase activities. Protein-based specific activities of peroxidase from normal human thyroid tissue were about 0.030 guaiacol units/mg protein and 0.0066 iodide units/mg protein, which were slightly higher than those of porcine thyroid tissue. The Mini assay method developed in the present study was used for the determination of peroxidase activity in a small amount (1-8 mg) of thyroid tissue obtained by means of a needle biopsy from patients with thyroid disorders. One specimen (goitrous cretinism) showed no peroxidase activity in both the guaiacol and iodide assays, and three specimens (two chronic thyroiditis, one familial nontoxic goiter) possessed no ability to catalyze the oxidation of iodide in spite of the high reactivity towards guaiacol, suggesting the presence of an abnormal peroxidase in these tissues.     

H2E-derived Ealpha52-68 peptide presented by H2Ab interferes with clonal deletion of autoreactive T cells in autoimmune thyroiditis

Susceptibility and resistance to experimental autoimmune thyroiditis is encoded by MHC H2A genes. We reported that traditionally resistant B10 (H2(b)) mice permit thyroiditis induction with mouse thyroglobulin (mTg) after depleting regulatory T cells (Tregs), supporting A(b) presentation to thyroiditogenic T cells. Yet, Ea(k) transgenic mice, expressing A(b) and normally absent E(b) molecules (E(+)B10 mice), are susceptible to thyroiditis induction without Treg depletion. To explore the effect of E(b) expression on mTg presentation by A(b), seven putative A(b)-binding, 15-16-mer peptides were synthesized. Five were immunogenic for both B10 and E(+)B10 mice. The effect of E(b) expression was tested by competition with an Ealpha52-68 peptide, because Ealpha52-68 occupies approximately 15% of A(b) molecules in E(+)B10 mice, binding with high affinity. Ealpha52-68 competitively reduced the proliferative response to mTg, mTg1677, and mTg2342 of lymph node cells primed to each Ag. Moreover, mTg1677 induced mild thyroiditis in Treg-depleted B10 mice, and in E(+)B10 mice without the need for Treg depletion. Ealpha52-68 competition with mTg-derived peptides may impede clonal deletion of pathogenic, mTg-specific T cells in the thymus.     

Mechanism of activation of cAMP-dependent protein kinase. Covalent modification of the holoenzyme by cupric 1,10-phenanthroline

Modification of the cAMP-dependent protein kinase holoenzyme from porcine brain by cupric-1,10-phenanthroline was studied. The formation of conjugates with Mr of 180,000 and 100,000 Da, whose stoichiometry coincides with that of holoenzymes R2C2 and RC, and of a conjugate with Mr of 85,000 Da corresponding to the catalytic subunit conjugate with the proteolytic fragment of the regulatory subunit (Mr = 39,000 Da) was demonstrated. The modified enzyme was activated by cAMP.     

Polyethylene glycol augments thyroid cAMP responses by fragments from protease-digested TSAb or TSBAb-IgG

In the previous reports, we have demonstrated (1) that polyethylene glycol (PEG)(5%) augmented TSAb (thyroid stimulating antibody)-stimulated cAMP responses of porcine thyroid cells, and (2) that fragments from papain-digested TSBAb (thyroid stimulation blocking antibody) could stimulate thyroid cAMP synthesis. Thus, we studied the effect of 5% PEG on cAMP responses stimulated by the protease-digested TSAb- or TSBAb-fragments. Stimulatory effect of 5% PEG on cAMP production by Fab fragment (Mr 50 KDa) and the retarded fraction (Mr 20 KDa) from the gel-filtration on Sephadex G-100 using papain-digested TSAb-IgG unbound to Protein A-Sepharose was observed. Similar stimulatory effect of 5% PEG on the second fraction (Fc with trace amounts of Fab) in the gel-filtration on Sephadex G-100 using papain digested TSAb-IgG bound to Protein A-Sepharose was observed. Stimulatory effect of PEG on the second fraction was derived from Fab fragment. PEG (5%) also showed stimulatory effect on cAMP production by F(ab')2 fragment (Mr 100 KDa) from the gel-filtration on Sephadex G-100 using pepsin-digested TSAb-IgG unbound to Protein A-Sepharose. PEG (5%) augmented cAMP responses by both Fab and the retarded fractions from the gel-filtration using papain-digested TSBAb-IgG unbound to Protein A when these fractions could stimulate cAMP synthesis. In conclusion, PEG (5%) augments cAMP responses stimulated by F(ab')2, Fab and the smaller molecular components (Mr 20 KDa) separated from protease-digested TSAb-IgG. PEG also augments cAMP responses stimulated by Fab and the smaller molecular components with thyroid stimulating activity separated from papain-digested TSBAb-IgG.     

T lymphocyte line specific for thyroglobulin produces or vaccinates against autoimmune thyroiditis in mice

We investigated Ly-1+ T lymphocyte line cells specifically reactive to thyroglobulin (Tg) that were isolated from mice primed with mouse Tg in adjuvant. Intravenous inoculation of as few as 10(5) line cells was sufficient to cause severe and prolonged thyroiditis in recipient mice that were intact, irradiated, or athymic nudes. Disease was independent of circulating Tg antibodies, suggesting that anti-Tg T lymphocytes could cause thyroiditis unaided by antibodies. Thyroiditogenic T lymphocytes could be isolated as cell lines from apparently healthy mice that had been immunized with non-thyroiditogenic bovine Tg in adjuvant, which indicates that autoimmune effector T lymphocytes may develop covertly in the course of immunization with foreign antigens. Finally, a single i.v. inoculation of anti-Tg T lymphocyte line cells attenuated by irradiation vaccinated mice completely against subsequent development of autoimmune thyroiditis produced either by active immunization to Tg or by passive transfer of intact line cells. Vaccinated mice that were protected from inflammatory lesions of thyroiditis still produced high titers of Tg antibodies in response to active immunization. Thus, vaccination specifically inhibited thyroiditogenic T lymphocytes but not helper T lymphocytes required for the production of Tg autoantibodies.     

Superoxide anion is the initial product in the hydrogen peroxide formation catalyzed by NADPH oxidase in porcine thyroid plasma membrane

The plasma membrane fraction from porcine thyroid is known to exhibit an NADPH-dependent production of hydrogen peroxide (H2O2), which is utilized for the oxidative biosynthesis of thyroid hormones catalyzed by thyroid peroxidase. The H2O2 formation is cyanide-insensitive, ATP-activatable, and Ca2+-dependent (Nakamura, Y., Ogihara, S., and Ohtaki, S. (1987) J. Biochem. (Tokyo) 102, 1121-1132). It remains unknown, however, whether H2O2 is produced directly from molecular oxygen (O2) or formed via dismutation of superoxide anion (O2-). We therefore attempted to analyze the mechanism of H2O2 formation by utilizing a new method for the simultaneous measurement of O2- and H2O2, in which diacetyldeuteroheme-substituted horseradish peroxidase was employed as the trapping agent for both oxygen metabolites. When NADPH was incubated with the membrane fraction in the presence of the heme-substituted peroxidase, a massive O2 consumption was observed together with the formation of compound III, and O2- adduct of the peroxidase. The amounts of compound III formed and O2 consumed were stoichiometric with each other, while formation of compound II, an indicative of H2O2, was not observed during the reaction. On the other hand, when an excess amount of superoxide dismutase was included in the reaction mixture, compound II was produced with complete suppression of the compound III formation. NADH minimally supported both O2 consumption and formation of compound III or II. These results indicate that the NADPH oxidase in the plasma membrane of thyroid produces O2- as the primary metabolite of O2 and hence that H2O2 required for the thyroid hormone synthesis provided through the dismutation of O2-.     

Isolation and characterization of porcine somatotropin containing a succinimide residue in place of aspartate129.

Aspartate129 in porcine somatotropin was converted into a cyclic imide residue (succinimide) under acidic solution conditions. Reversed-phase high performance liquid chromatography was utilized to isolate and quantitate this altered species, which accounted for approximately 30% of the total protein. The molecular mass of this modified species was determined by electrospray mass spectrometry to be 18 Da less than normal porcine somatotropin, indicative of a loss of 1 H2O molecule. Tryptic peptide mapping demonstrated that the peptide composed of residues 126-133 was altered in this modified protein. Amino acid analysis, amino acid sequencing, mass spectrometry, and capillary zone electrophoresis were used to demonstrate that aspartate129 in this peptide had been converted into a succinimide residue. Further confirmation that this peptide contained a succinimide was obtained by hydrolyzing the modified peptide at pH 9.0, which yielded both the aspartate and isoaspartate peptides.     

Porcine thyroid peroxidase: relationship between the native enzyme and an active, highly purified tryptic fragment

We previously described the preparation of highly purified porcine thyroid peroxidase by a procedure that involved initial solubilization of the enzyme with trypsin plus detergent. Recently, the complete amino acid sequence of porcine thyroid peroxidase (TPO) was determined by cDNA cloning, and it became of interest to compare the structure of the purified trypsin-solubilized enzyme with that of the native enzyme. For this purpose we employed antibodies to the purified enzyme and to two synthetic peptides representing defined regions of the protein. We also obtained N-terminal amino acid sequence data on TPO fragments separated by gel electrophoresis. Trypsin cleavage sites in the purified enzyme were observed after arg residues 109 and 561, and also at two undetermined sites close to the putative membrane spanning region at the carboxyl end. Major fragments of approximately 60, 32, and 29 kilodaltons were observed when the purified enzyme was subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions. This observation is explained by assuming that the cleavage site after arg residue 561 occurred within a disulfide loop. The Mr of the trypsin-solubilized enzyme is approximately 88,000 compared to approximately 106,000 for the native enzyme. The difference can be accounted for by the loss of approximately 90 residues from the amino terminus and of at least 80 residues from the carboxyl end. Despite the loss of these fragments totaling approximately 18 kilodaltons and cleavage of the peptide bond after arg residue 561, the purified trypsin-solubilized TPO appears to retain full enzyme activity.     

The role of porcine thyroid peroxidase and FAD-containing monooxygenase in the metabolism of 1-methyl-2-thioimidazole (methimazole)

The peroxidase and FAD-containing monooxygenase activities of porcine thyroid subcellular preparations were measured and it was observed that FAD-containing monooxygenase activity was considerably lower than that of peroxidase. The end product of 1-methyl-2[14C]thioimidazole oxidation catalysed by thyroid peroxidase was confirmed to be 1-methylimidazole by mass spectrometry. In the presence of thyroid peroxidase 1-methyl-2-thioimidazole would appear initially to be oxidised to bis(1-methylimidazole)-2,2'-disulphide. The extent of oxidation was dependent on the iodide concentration in the reaction mixture.     

Interaction of thyroid peroxidase with concanavalin A covalently coupled to agarose.

We have investigated the interaction between concanavalin A-agarose (Con A-agarose) and thyroid peroxidase, an integral membrane protein found in the 105,000 X g, 1-h particulate fraction of thyroid tissue. An intact form of porcine thyroid peroxidase was obtained by solubilization with the nonionic detergent Triton X-100 and two fragmented, hydrophilic forms of the enzyme were prepared by trypsin treatment of the membrane. The three types of thyroid peroxidase bind to Con A-agarose and can be eluted with alpha-methyl-D-mannoside. The alpha-methyl-D-mannoside eluate of the most purified thyroid peroxidase preparation has been analyzed by polyacrylamide gel electrophoresis. Peroxidase activity corresponds with a glycoprotein band. The binding of thyroid peroxidase to Con A-agarose can be inhibited by sugars in the following order: alpha-methyl-D-mannoside greater than D-mannose greater than alpha-methyl-D-glucoside greater than D-glucose greater than D-galactose. This order of specificity is typical of Con A-sugar interactions. Furthermore, inactivation of the carbohydrate binding site of Con A by demetallization greatly reduces the extent of thyroid peroxidase binding. Reactivation of the carbohydrate binding site by the addition of Ca2+ and Mn2+ to demetallized Con A-agarose restores thyroid peroxidase binding. These and other experiments suggest that htyroid peroxidase is, like several other peroxidases, a glycoprotein. In addition, the interaction between thyroid peroxidase and Con A-agarose may provide a new purification tool for thyroid peroxidase.     

Structural and functional characterization of N-terminally blocked peptides isolated from the venom of the social wasp Polybia paulista

Two novel peptides were isolated from the crude venom of the social wasp Polybia paulista, by using RP-HPLC under a gradient of MeCN from 5 to 60% (v/v) and named Polybine-I and -II. Further purification of these peptides under normal phase chromatography, rendered pure enough preparations to be sequenced by Edman degradation chemistry. However, both peptides did not interact with phenylisothiocyanate reagent, suggesting the existence of a chemically blocked N-terminus. Therefore, the sequences of both peptides were assigned by ESI-MS/MS under CID conditions, as follows: Polybine-I Ac-SADLVKKIWDNPAL-NH₂ (Mr 1610 Da) and Polybine-II Ac-SVDMVMKGLKIWPL-NH₂ (Mr 1657 Da). During the tandem mass spectrometry experiments, a loss of 43 a.m.u. was observed from the N-terminal residue of each peptide, suggesting the acetylation of the N-terminus. Subsequently, the peptides with and without acetylation were synthesized on solid phase and submitted to functional characterizations; the biological activities investigated were: hemolysis, chemotaxis of polymorphonucleated leukocytes (PMNL), mast cell degranulation and antibiosis. The results revealed that the acetylated peptides exhibited more pronounced chemotaxis of PMNL cells and mast cell degranulation than the respective non-acetylated congeners; no hemolytic and antibiotic activities were observed, irrespective to the blockage or not of the -amino groups of the N-terminal residues of each peptide. Therefore, the N-terminal acetylation may be related to the increase of the inflammatory activity of both peptides.     

Solubilization of peroxidase from porcine thyroids and characterization by photoaffinity labelling

Peroxidase was solubilized without proteolysis from porcine thyroid particulate fraction with the nonionic detergent, 1-O-n-octyl-beta-D-glucopyranoside. The enzyme was able to catalyze the oxidation of guaiacol and the iodination of bovine serum albumin (33 atoms of iodine per molecule protein). Binding studies performed with the partially purified enzyme indicated that the substrates thyroxine (T4) and tyrosine compete for the same binding site on the enzyme. Dissociation constants of 0.9 nM and 0.5 nM were found for T4 and tyrosine, respectively. After photoaffinity labelling with underivatized 125I-labelled T4, gel chromatography on Sephacryl S-1000 revealed a relative molecular weight of about 100 000 for the solubilized enzyme. The peroxidase activity and haem-absorbance peak coeluted from the Sephacryl S-1000 column. SDS-polyacrylamide gel electrophoresis under reducing conditions indicated two major radiolabelled polypeptides, Mr 83 000 and Mr 42 600, as well as a smaller peak at Mr 15 400. The 15 400 molecular weight species is probably not part of the peroxidase complex, since it could partially be removed by Sephadex G-25 prechromatography . Further analyses confirmed that the partially purified enzyme is a haemoprotein absorbing maximally at 412 nm. The Soret band is shifted to 423 nm by reducing agents and the haem-cyanide complex has a maximum absorbance at 416 nm.     

Perturbed heme binding is responsible for the blistering phenotype associated with mutations in the Caenorhabditis elegans dual oxidase 1 (DUOX1) peroxidase domain

Dual oxidase (DUOX) enzymes support a wide variety of essential reactions, from cellular signaling to thyroid hormone biosynthesis. In Caenorhabditis elegans, the DUOX system (CeDUOX1/2) plays a crucial role in innate immunity and in stabilizing the cuticle by forming tyrosine cross-links. The current model suggests that superoxide generated by CeDUOX1 at the C-terminal NADPH oxidase domain is rapidly converted to H(2)O(2). The H(2)O(2) is then utilized by the N-terminal peroxidase-like domain to cross-link tyrosines. We have now created a series of mutations in the isolated peroxidase domain, CeDUOX1(1-589). One set of mutations investigate the roles of a putative distal tyrosine (Tyr(105)) and Glu(238), a proposed covalent heme-binding residue. The results confirm that Glu(238) covalently binds to the heme group. A second set of mutations (G246D and D392N) responsible for a C. elegans blistering cuticle phenotype was also investigated. Surprisingly, although not among the catalytic residues, both mutations affected heme co-factor binding. The G246D mutant bound less total heme than the wild type, but a higher fraction of it was covalently bound. In contrast, the D392N mutant appears to fold normally but does not bind heme. Molecular dynamics simulations of a CeDUOX1(1-589) homology model implicate displacements of the proximal histidine residue as the likely cause. Both enzymes are structurally stable and through altered heme interactions exhibit partial or complete loss of tyrosine cross-linking activity, explaining the blistering phenotype. This result argues that the CeDUOX peroxidase domain is primarily responsible for tyrosine cross-linking.     

Effect of guinea pig thyroglobulin in incomplete Freund's adjuvant on experimental autoimmune thyroiditis induced by in vitro-activated lymph node cells

Guinea pigs injected with guinea pig thyroglobulin (GPTG) in incomplete Freund's adjuvant (IFA) have been shown to be unresponsive to challenge with GPTG in complete Freund's adjuvant (CFA). However, effector cells which transfer experimental autoimmune thyroiditis (EAT) can be demonstrated in cultured lymph node cells (LNC) of unresponsive animals, indicating that GPTG in IFA does not suppress the initial sensitization of EAT effector cells. LNC from unresponsive animals were unable to suppress the in vitro activation of effector LNC or to suppress EAT when cotransferred with effector cells. When GPTG in IFA was given to animals which were used as recipients of effector cells, the production of EAT was markedly suppressed. These results suggest that GPTG in IFA can suppress EAT either by preventing effector cells from interacting with the thyroid or by interfering with the function of a cell in the normal recipient which may interact with effector cells to result in the lesions of EAT.