Roberta Botta

Thyroid dysfunction in megalin deficient mice

Megalin mediates transcytosis of thyroglobulin (Tg), the thyroid hormone precursor, resulting in its passage into the bloodstream. The process involves especially hormone-poor Tg, which may favour hormone secretion by preventing competition with hormone-rich Tg for proteolytic degradation. To gain more insight into the role of megalin, here we studied thyroid function and histology in megalin deficient mice compared with WT mice. As expected from the knowledge that megalin mediates Tg transcytosis, serum Tg levels were significantly reduced in homozygous (megalin-/-) mice, which, more importantly, were found to be hypothyroid, as demonstrated by significantly reduced serum free thyroxine and significantly increased serum thyroid stimulating hormone (TSH) levels. In heterozygous (megalin+/-) mice, in which megalin expression was normal, thyroid function was unaffected. Although the serological phenotype in megalin-/- mice was not associated with histological alterations or goiter, our results support a major role of megalin in thyroid hormone secretion.

Quercetin decreases proliferation of orbital fibroblasts and their release of hyaluronic acid

Background: Inhibition of fibroblast (FB) proliferation and hyaluronic acid (HA) production may be a therapeutic approach to Graves’ ophthalmopathy (GO). The flavonoid quercetin has a wide range of activities, including reduction of FB growth. Aim: To investigate the effects of quercetin in orbital FB from GO patients and control subjects. Methods: Primary cultures of orbital FB were treated with quercetin or with its glycosides rutin and quercitrin. Cell proliferation, necrosis, apoptosis, HA production, and cell cycle were measured. Results: Beginning at a 30 µM concentration, quercetin, but not rutin and quercitrin, reduced cell proliferation, with no difference between GO and control FB. The effect of quercetin on proliferation was due to necrosis and cell cycle blockade, whereas apoptosis was unaffected. Quercetin reduced HA in the cell media, with no difference between GO and control FB. Conclusions: Quercetin reduces cell proliferation and HA release in orbital FB. Whether these initial findings have any potential for the use of quercetin in the clinical practice remains to be established.

Sortilin Is a Putative Postendocytic Receptor of Thyroglobulin

The Vps10p family member sortilin is involved in various cell processes, including protein trafficking. Here we found that sortilin is expressed in thyroid epithelial cells (thyrocytes) in a TSH-dependent manner, that the hormone precursor thyroglobulin (Tg) is a high-affinity sortilin ligand, and that binding to sortilin occurs after Tg endocytosis, resulting in Tg recycling. Sortilin was found to be expressed intracellularly in thyrocytes, as observed in mouse, human, and rat thyroid as well as in FRTL-5 cells. Sortilin expression was demonstrated to be TSH dependent, both in FRTL-5 cells and in mice treated with methimazole and perchlorate. Plasmon resonance binding assays showed that Tg binds to sortilin in a concentration-dependent manner and with high affinity, with Kd values that paralleled the hormone content of Tg. In addition, we found that Tg and sortilin interact in vivo and in cultured cells, as observed by immunoprecipitation, in mouse thyroid extracts and in COS-7 cells transiently cotransfected with sortilin and Tg. After incubation of FRTL-5 cells with exogenous, labeled Tg, sortilin and Tg interacted intracellularly, presumably within the endocytic pathway, as observed by immunofluorescence and immunoelectron microscopy, the latter technique showing some degree of Tg recycling. This was confirmed in FRTL-5 cells in which Tg recycling was reduced by silencing of the sortilin gene and in CHO cells transfected with sortilin in which recycling was increased. Our findings provide a novel pathway of Tg trafficking and a novel function of sortilin in the thyroid gland, the functional impact of which remains to be established.

Poorly specific binding of thyroglobulin to orbital fibroblasts from patients with Graves' ophthalmopathy.

It has been proposed that thyroglobulin (Tg) may be involved in the pathogenesis or the progression of Graves’ ophthalmopathy (GO). According to this hypothesis, following its release from the thyroid, Tg would reach orbital tissues, thereby eliciting an autoimmune aggression. In support of this, we recently found that intact Tg is present in orbital tissues of patients with GO, where it is complexed with glycosaminoglycans. In this study, we searched for additional Tg binding sites in orbital tissues, using primary cultures of orbital and skin fibroblasts from 7 GO patients who had undergone orbital decompression. Biotin-labeled Tg bound to both skin and orbital fibroblasts in a saturable manner, with constants of dissociation of ~75 nmol/l for skin fibroblasts and ~40 nmol/l for orbital fibroblasts. In an attempt to identify Tg binding sites, fibroblast extracts were blotted onto membranes that were incubated with biotin-labeled Tg, which bound especially to a protein migrating at ~300 kDa, present in both orbital and skin fibroblast extracts. Because no appreciable inhibition of binding of biotin-labeled Tg was produced by unlabeled Tg, we concluded that binding was poorly specific and it is unlikely to be involved in the pathogenesis of GO.

Binding of thyroglobulin (Tg) to the low-density lipoprotein receptor-associated protein (RAP) during the biosynthetic pathway prevents premature Tg interactions with sortilin

ObjectiveSortilin, a Vps10p family member, is expressed by thyroid epithelial cells (TEC), where it binds to internalized thyroglobulin (Tg) molecules. Premature binding of Tg to sortilin during biosynthesis may cause intracellular retention of Tg. Such a premature interaction may be prevented by one or more inhibitor/s. Because both sortilin and Tg bind to the low-density lipoprotein receptor-associated protein (RAP), we investigated whether RAP serves such a function.MethodsImmunofluorescence staining for sortilin, Tg, and RAP was performed in FRTL-5 cells. Co-immunoprecipitation experiments were performed in extracts from FRTL-5 or COS-7 cells, the former co-transfected with Tg and/or RAP and/or sortilin, or in thyroid extracts from RAP KO mice.ResultsTg and sortilin did not co-localize in FRTL-5 cells following inhibition of protein synthesis, suggesting that newly synthesized, endogenous sortilin and Tg do not interact, in confirmation of which an anti-sortilin antibody did not co-precipitate Tg in FRTL-5 cells. In contrast, Tg co-localized with RAP in FRTL-5 cells. Co-immunoprecipitation of Tg with an anti-sortilin antibody in COS-7 cells transfected with sortilin and Tg was abolished when cells were co-transfected with RAP, indicating that RAP prevents binding of Tg to sortilin during biosynthesis, in confirmation of which an anti-sortilin antibody co-precipitated Tg in thyroid extracts from RAP KO mice to a greater extent than in thyroid extracts from WT mice.ConclusionsTg does not bind prematurely to sortilin because of its interaction with RAP during protein biosynthesis. These findings add new information to the knowledge of thyroid physiology.

Intracellular retention of thyroglobulin in the absence of the low-density lipoprotein receptor-associated protein (RAP) is likely due to premature binding to megalin in the biosynthetic pathway.

ObjectiveThe low-density lipoprotein receptor associated protein (RAP) is expressed by thyroid epithelial cells (TEC) in a TSH-dependent manner. In the thyroid RAP functions as a molecular chaperone for the thyroglobulin (Tg) endocytic receptor megalin/LRP2, which is retained intracellularly in RAP KO mice rather than being expressed on the apical membrane of TEC, its usual location. RAP binds also to Tg, which is also retained intracellularly in RAP KO mice, thereby suggesting a role of RAP in Tg secretion. Here we investigated whether Tg intracellular retention in the absence of RAP is due to premature Tg-megalin interactions during the biosynthetic pathway or to a direct action of RAP on Tg secretion.MethodsWe performed immunoprecipitation experiments in thyroid extracts from RAP KO and WT mice. In addition, we investigated Tg secretion in COS-7 cells co-transfected with human RAP (hRAP) and mouse Tg (mTg).ResultsAn anti-megalin megalin precipitated greater amounts of Tg in thyroid extracts from RAP KO than from WT mice, suggesting increased intracellular interactions between megalin and Tg in the absence of RAP. COS-7 cells transiently transfected with hRAP, mTg or both, expressed the two proteins accordingly. RAP was found almost exclusively in cell extracts, whereas Tg was found both in extracts and media, as expected from the knowledge that RAP is ER-resident and that Tg is secreted. Regardless of whether cells were transfected with mTg alone or were co-transfected with hRAP, similar proportions of the total Tg synthesized were detected in cell extracts and media.ConclusionsThe intracellular retention of Tg in the absence of RAP is likely due to its premature interaction with megalin, whereas RAP does not seem to affect Tg secretion directly.

ABSENCE OF A THYROID PHENOTYPE IN SORTILIN-DEFICIENT MICE.

OBJECTIVE The Vps10p family member sortilin is expressed in thyroid epithelial cells where it contributes to recycling of the thyroid hormone precursor thyroglobulin (Tg), a process that is thought to render hormone release more effective. Here we investigated the functional impact of sortilin in the thyroid gland using sortilin-deficient mice. METHODS We measured free T4, thyroid-stimulating hormone (TSH) and Tg serum levels and studied thyroid morphology in 14 sortilin-deficient (Sort1)(-/-)and 12 wildtype (WT) mice. RESULTS Serum free T4 levels did not differ between Sort1(-/-)and WT females but were significantly lower in Sort1(-/-)males compared with WT (P = .0424). Neither serum TSH nor Tg levels differed between Sort1(-/-)and WT mice, regardless of sex. On the same line, no thyroid histology differences were observed. CONCLUSION Our findings seem to exclude a role of sortilin in thyroid hormone secretion, although it is possible that the absence of sortilin may result in a thyroid phenotype if combined with other molecular defects of thyroid hormone synthesis and secretion or under iodine deficiency.

Binding, uptake, and degradation of internalized thyroglobulin in cultured thyroid and non-thyroid cells

Thyroid hormone release requires degradation of thyroglobulin (Tg) by thyroid epithelial cells, which occurs mainly in the lysosomal pathway following Tg endocytosis. Non-specific fluid-phase endocytosis is thought to be the main route of Tg uptake leading to degradation, whereas receptor-mediated endocytosis is believed to lead to post-endocytic pathways other than degradation. To gain more insights into these issues, we investigated handling of Tg by various cell types. Tg bound similarly to thyroid (FRTL-5, FRT) and non-thyroid (COS-7, IRPT) cells, indicating the presence of membrane-binding sites, presumably receptors, in both cell types. Tg was internalized and degraded by all cells and degradation paralleled uptake, with the exception of FRTL-5 cells, in which a lower proportion of Tg was degraded, suggesting that in FRTL-5 cells mechanisms that target Tg to the various post-endocytic pathways (either receptors or post-receptorial factors) are differently represented. Immunoelectronmicroscopy showed a common path of endocytosis in FRTL-5, COS-7, and IRPT cells, namely the formation of pseudopods engulfing Tg, followed by internalization and accumulation of Tg in cytoplasmic vesicles and lysosomes. The fastest rate was observed in COS-7 cells, probably reflecting a lower impact of endocytic receptors. Our findings suggest that Tg uptake and degradation are not thyroid-specific, that Tg binding sites exist in different cell types, and that uptake and/or degradation are differently regulated in differentiated thyroid cells, presumably because of a different impact of endocytic receptors or post-endocytic mechanisms, which are probably responsible for the regulation of hormone release.

Kidney abnormalities in low density lipoprotein receptor associated protein knockout mice

Mice lacking the LDL receptor associated protein (RAP) have a severe defect of thyroglobulin secretion into the colloid, associated with moderately increased serum TSH levels and histological features of early goiter. RAP is expressed also in renal proximal tubule cells, where it functions as a molecular chaperone for the endocytic receptor megalin, which is responsible for reabsorption of low molecular weight proteins from the glomerular filtrate. Here we investigated whether the thyroid phenotype in RAP knockout (KO) mice is associated with kidney alterations. By immunohistochemistry, we found that in RAP KO mice megalin expression on the apical membrane of renal proximal tubule cells was markedly reduced, with intracellular retention of the receptor. The reduced expression of megalin was associated with its impaired function. Thus, urinary protein concentrations and urinary protein excretion in 24 h were higher in RAP KO than in wild-type mice. Coomassie staining of urine samples revealed an increased intensity of low molecular mass bands in the urine of RAP KO mice, indicating that they had low molecular weight proteinuria. Therefore, we concluded that disruption of the RAP gene determines not only thyroid abnormalities, but also a severe defect of megalin expression and function in the kidney.