Enalapril reduces proliferation and hyaluronic acid release in orbital fibroblasts

BACKGROUND: Orbital fibroblast proliferation and hyaluronic acid (HA) release are responsible for some of the clinical features of Graves' ophthalmopathy (GO). Thus, inhibition of these processes may be a possible therapeutic approach to this syndrome. Enalapril, a widely used antihypertensive drug, was found to have some inhibitory actions on fibroblast proliferation in cheloid scars in vivo, based on which we investigated its effects in primary cultures of orbital fibroblasts from GO patients and control subjects. METHODS: Primary cultures of GO and control fibroblasts were treated with enalapril or with a control compound (lisinopril). Cell proliferation assays, lactate dehydrogenase release assays (as a measure of cell necrosis), apoptosis assays, and measurement of HA in the cell media were performed. RESULTS: Enalapril significantly reduced cell proliferation in both GO and control fibroblasts. Because enalapril did not affect cell necrosis and apoptosis, we concluded that its effects on proliferation reflected an inhibition of cell growth and/or a delay in cell cycle. Enalapril significantly reduced HA concentrations in the media from both GO and control fibroblasts. CONCLUSIONS: Enalapril has antiproliferative and HA suppressing actions in both GO and control fibroblasts. Clinical studies are needed to investigate whether enalapril has any effects in vivo in patients with GO

Diagnosi differenziale dell’oftalmopatia basedowiana

Il termine Oftalmopatia Basedowiana (OB) definisce il complesso delle manifestazioni oculari che si osservano frequentemente nei pazienti affetti da una particolare forma di ipertiroidismo (morbo di Basedow) (1). Tuttavia, questa malattia oculare può svilupparsi, seppur molto più raramente, anche in pazienti con affetti ad ipotiroidsmo (tiroidite cronica autoimmune di Hashimoto) o, addirittura, in pazienti senza apparenti alterazioni tiroidee (cosiddetta oftalmopatia basedowiana isolata o Euthyroid Graves’ Disease) (Tabella 1). Trattasi di una patologia con patogenesi autoimmune

Le malattie autoimmuni della tiroide

La tireopatie autoimmuni sono le malattie autoimmuni organo-specifiche più comuni e sono caratterizzate da una comune patogenesi e da espressioni cliniche le più diverse. Le due forme più frequenti sono il morbo di Basedow e la tiroidite cronica autoimmune o di Hashimoto. Il morbo di Basedow è caratterizzato da gozzo diffuso, ipertiroidismo e manifestazioni oculari che vanno sotto il nome di oftalmopatia basedowiana. La tiroidite cronica autoimmune si manifesta con gozzo o atrofia tiroidea e può associarsi o meno a ipotiroidismo, che può essere più o meno manifesto. Il morbo di Basedow e la tiroidite atrofica costituiscono i due estremi dello spettro delle tireopatie autoimmuni, in cui sono incluse forme intermedie che non raramente possono rappresentare forme transitorie in evoluzione tra un quadro e l’altro. Meno frequenti, ma non rare, sono la tiroidite post-partum, la tiroidite focale e la tiroidite silente. La tiroidite post-partum colpisce nel periodo immediatamente successivo all’espletamento del parto le donne che sono portatrici dell’autoimmunità tiroidea e si caratterizza per l’insorgenza di una tireotossicosi o di un’insufficienza tiroidea generalmente, ma non necessariamente, transitorie. La tiroidite focale non costituisce un quadro morboso ben definito ma è l’espressione di una reazione autoimmunitaria circoscritta che è molto frequente in patologie non autoimmuni della tiroide quali il gozzo non tossico e il carcinoma differenziato. In questo capitolo sono trattati con particolare attenzione il morbo di Basedow e la tiroidite cronica autoimmune nei loro aspetti epidemiologici, eziopatogenetici, clinici, diagnostici e terapeutici

Role of thyroglobulin in the pathogenesis of Graves' ophthalmopathy: the hypothesis of Kriss revisited

One of the hypothesis to explain the pathogenesis of Graves' ophthalmopathy (GO) was formulated by Joseph P. Kriss in the early 1970s. He postulated that the initiating event in the pathogenesis of GO is the deposition and accumulation of thyroglobulin (Tg) in orbital tissues, followed by an autoimmune reaction against Tg. In the last 30 yrs several studies have addressed this hypothesis, through various, different experimental approaches, raising results that are both in favor and against the possibility that Tg plays a role in the pathogenesis of GO. The finding that intact Tg is present in orbital tissues of GO patients supports Kriss' hypothesis, although the role of Tg as an autoantigen seems to be unlikely, as GO is not significantly associated with serum TgAb and mice immunized with Tg do not develop GO. Whether Tg is indeed involved in the pathogenesis of GO remains to be established. Our current view is that, provided that Tg plays a role, it is unlikely the only factor involved and Tg in orbital tissues may rather reinforce or worsen a damage initiated by other mechanisms

Thyroglobulin autoantibodies of patients with subacute thyroiditis are restricted to a major B cell epitope.

BACKGROUND: Thyroglobulin autoantibodies (TgAb) can develop in patients with subacute thyroiditis (SAT). AIM: Comparison of the epitope pattern of TgAb of patients with SAT, Hashimoto's thyroiditis (HT) [autoimmune thyroid disease (AITD)] and non-toxic multinodular goiter (NTMG) (non-AITD). SUBJECTS AND METHODS: Serum TgAb from 10 patients with SAT, 45 with HT, and 19 with NTMG were evaluated. Serum TgAb binding to Tg was inhibited by 4 recombinant human TgAb-Fab, recognizing Tg epitope regions A, B, C, and D. The ability of single TgAb-Fab to inhibit the binding of serum TgAb to Tg was evaluated in enzymelinked immunosorbent assay. RESULTS: Levels of inhibition were different for all TgAb-Fab in the 3 groups of patients. Inhibition by region A TgAb-Fab in SAT [50.5 (30.3-62.5)%] (median and 25th to 75th percentiles) was similar to HT [49.0 (38.0-69.5)%] and significantly higher than in NTMG [25.0 (14.0-37.0)%]; by region B TgAb-Fab in SAT [0.0 (0.0-12.5)%] was significantly lower than in HT [28.0 (9.5-48.0)%] and similar to NTMG [9.0 (4.8-20.5)%]; by region C TgAb-Fab in SAT [9.5 (0.0-25.8)%] were similar to HT [23.0 (9.5-41)%] and NTMG [6.5 (1.7-21.5)%]; and by region D TgAb-Fab in SAT [0.0 (0.0-8.0)%] were lower than in HT [12.0 (1.0-28.5)%] and similar to NTMG [1.0 (0.0-5.0)%]. CONCLUSIONS: The epitope pattern of TgAb of SAT is restricted to the A region that is immunodominant in AITD and non-AITD. In the majority of patients with SAT, the autoimmune phenomena represent a non-specific and transient response to the release of thyroid antigens, rather than the expression of thyroid autoimmunity

Impaired thyroglobulin (Tg) secretion by FRTL-5 cells transfected with soluble receptor associated protein (RAP): evidence for a role of RAP in the Tg biosynthetic pathway.

Secretion of thyroglobulin (Tg) by thyrocytes requires several endoplasmic reticulum (ER)-resident molecular chaperones. The receptor-associated protein (RAP), a known molecular chaperone, binds to Tg in thyroid cells shortly after biosynthesis. Here we investigated whether RAP is involved in Tg secretion by FRTL-5 cells. For this purpose, we studied Tg secretion by FRTL-5 cells transfected with a soluble RAP chimera, as a mean for interfering with endogenous RAP. We used a RAP-human IgG Fc (RAP-Ig) chimeric cDNA, which was designed in order to exclude the ER retention sequence of RAP and to allow generation of a secreted form of RAP. FRTL-5 cells were transiently transfected with the RAP-Ig cDNA or, as control, with a CD8-Ig cDNA. Media were collected at 24, 48 and 72 h after transfection. Secretion of fusion proteins and of Tg in the media was measured by ELISA. As expected, under standard culture conditions, RAP was not secreted into the media by FRTL-5 cells, even though it could be detected by Western blotting in cell extracts. In transfection experiments, fusion proteins were present in the media of FRTL-5 cells transfected with either RAP-Ig or CD8-Ig, indicating that transfection was successful. Although Tg was found in the media of FRTL-5 cells transfected with either CD8-Ig or RAP-Ig, a lower amount was found in cells transfected with RAP-Ig. Therefore, we concluded that RAP is involved in Tg secretion by FRTL-5 cells suggesting that RAP may function as a Tg molecular chaperone