Hiroaki Kimura

Pituitary autoimmunity: 30 years later

Pituitary autoimmunity encompasses a spectrum of conditions ranging from histologically proven forms of lymphocytic hypophysitis to the presence of pituitary antibodies in apparently healthy subjects. Hypophysitis is a rare but increasingly recognized disorder that typically presents as a mass in the sella turcica. It mimics clinically and radiologically other non-functioning sellar masses, such as the more common pituitary adenoma. Hypophysitis shows a striking temporal association with pregnancy, and it has been recently described during immunotherapies that block CTLA-4. Several candidate pituitary autoantigens have been described in the last decade, although none has proven useful as a diagnostic tool. This review summarizes the advances made in the field since the publication of the first review on pituitary autoimmunity, and the challenges that await clarification.

Interleukin-12 induces salivary gland dysfunction in transgenic mice, providing a new model of Sjögren's syndrome

OBJECTIVEnInterleukin-12 (IL-12) is a pleiotropic cytokine that is elevated in the affected organs of patients with Sjögrens syndrome (SS). We have previously reported that overexpression of IL-12 in CBA mice leads to mononuclear infiltration of salivary and lacrimal glands, as well as to expansion of bronchial lymphoid tissue and decreased mucociliary clearance. Because xerostomia is one of the most important clinical features in SS patients, our main objective in the current study was to evaluate salivary gland function in IL-12-transgenic mice. Our secondary objective was to further characterize this animal model and to determine if the changes observed in these mice are representative of those observed in patients with SS overall.nnnMETHODSnPilocarpine-stimulated salivary flow was used to address salivary gland function in a large group of IL-12-transgenic mice bred onto the autoimmune-prone SJL background. Furthermore, salivary glands were removed to assess the formation of infiltrates in the glands and gland morphology. Serum was also collected from these animals to investigate the formation of autoantibodies.nnnRESULTSnPilocarpine-stimulated salivary flow was significantly lower in IL-12-transgenic mice than in wild-type controls. Salivary glands from transgenic mice exhibited an increase in both the number and the size of lymphocytic foci, versus glands from age-matched controls. Furthermore, the acini in transgenic mice were fewer in number and larger in size compared with acini in controls. An age-dependent increase in anti-SSB/La antibodies was observed in IL-12-transgenic mice and was accompanied by an increase in antinuclear antibodies.nnnCONCLUSIONnOur findings indicate that a number of conditions associated with SS are exhibited by IL-12-transgenic SJL mice and that this model might be useful in researching multiple aspects of the disease.

Autoimmune hypophysitis of SJL mice: clinical insights from a new animal model.

Autoimmune hypophysitis (AH) is a rare but increasingly recognized disease of the pituitary gland. Its autoantigens are unknown, and the management is difficult because it is often misdiagnosed as a nonsecreting adenoma. By immunizing female SJL/J mice with mouse pituitary extracts, we established a new mouse model of experimental AH. Immunized mice developed severe lymphocytic infiltration in the anterior pituitary that closely mimicked the human pathology. In the early phase of experimental AH, the pituitary enlarged, consistent with the compression symptoms reported by hypophysitis patients at presentation. In the florid phase, adrenal insufficiency and pituitary antibodies developed, in strong correlation with the pituitary pathology. In the late phase, hypothyroidism ensued, and the pituitary gland became atrophic. Using immune sera as probes in a two-dimensional immunoblotting screen followed by mass spectrometry, we identified several proteins that could function as pituitary autoantigens. These findings provide new insights into the pathogenesis of AH, and establish a platform for developing novel diagnostic biomarkers and therapeutics.

Immunoproteasome Overexpression Underlies the Pathogenesis of Thyroid Oncocytes and Primary Hypothyroidism: Studies in Humans and Mice

Background Oncocytes of the thyroid gland (Hürthle cells) are found in tumors and autoimmune diseases. They have a unique appearance characterized by abundant granular eosinophilic cytoplasm and hyperchromatic nucleus. Their pathogenesis has remained, thus far, unknown. Methodology/Principal Findings Using transgenic mice chronically expressing IFNγ in thyroid gland, we showed changes in the thyroid follicular epithelium reminiscent of the human oncocyte. Transcriptome analysis comparing transgenic to wild type thyrocytes revealed increased levels of immunoproteasome subunits like LMP2 in transgenics, suggesting an important role of the immunoproteasome in oncocyte pathogenesis. Pharmacologic blockade of the proteasome, in fact, ameliorated the oncocytic phenotype. Genetic deletion of LMP2 subunit prevented the development of the oncocytic phenotype and primary hypothyroidism. LMP2 was also found expressed in oncocytes from patients with Hashimoto thyroiditis and Hürthle cell tumors. Conclusions/Significance In summary, we report that oncocytes are the result of an increased immunoproteasome expression secondary to a chronic inflammatory milieu, and suggest LMP2 as a novel therapeutic target for the treatment of oncocytic lesions and autoimmune hypothyroidism.

Regenerative Potentials of the Murine Thyroid in Experimental Autoimmune Thyroiditis: Role of CD24

Hashimoto thyroiditis can be partially reproduced in mice by immunization with thyroglobulin or, more recently, thyroperoxidase. This experimental autoimmune thyroiditis (EAT) model has been extensively characterized during early disease phases (up to d 35 after immunization). By extending the analysis of EAT to 100 d after immunization, we noted a remarkable regenerative capacity of the thyroid and the expression of Oct-4, suggesting in vivo the existence of adult thyroid stem cells. After an almost complete destruction of the follicular architecture, occurring between d 21 and 28, the thyroid was capable of restoring its follicles and reducing the mononuclear infiltration, so that by d 100 after immunization, it regained its normal morphology and function. During this regeneration process, thyrocytes expressed high levels of CD24. We therefore assessed the role of CD24 in thyroid regeneration by inducing EAT in mice lacking CD24. Regeneration was faster in the absence of CD24, likely a consequence of the effect of CD24 on the infiltrating lymphocytes. The study suggests that the EAT model can also be used as a tool to investigate adult thyroid stem cells.

Pregnancy, postpartum autoimmune thyroiditis, and autoimmune hypophysitis: Intimate relationships

Autoimmune diseases comprise a group of about 85 heterogeneous conditions that can affect virtually any organ and tissue in the body. Many autoimmune diseases change significantly during pregnancy: some ameliorate, some worsen, and others are unaffected. Two autoimmune diseases present prominently in relation to pregnancy: postpartum autoimmune thyroiditis and autoimmune hypophysitis. This article will review the current state of knowledge of the immunological changes that occur during normal pregnancy, and will explore the striking temporal association with pregnancy observed in thyroiditis and hypophysitis.

Pituitary and systemic autoimmunity in a case of intrasellar germinoma

Germinomas arising in the sella turcica are difficult to differentiate from autoimmune hypophysitis because of similar clinical and pathological features. This differentiation, nevertheless, is critical for patient care due to different treatments of the two diseases. We report the case of an 11-year-old girl who presented with diabetes insipidus and growth retardation, and was found to have an intra- and supra-sellar mass. Initial examination of the pituitary biopsy showed diffuse lymphocytic infiltration of the adenohypophysis and absent placental alkaline phosphatase expression, leading to a diagnosis of hypophysitis and glucocorticoid treatment. Because of the lack of clinical and radiological response, the pituitary specimen was re-examined, revealing this time the presence of scattered c-kit and Oct4 positive germinoma cells. The revised diagnosis prompted the initiation of radiotherapy, which induced disappearance of the pituitary mass. Immunological studies showed that the patient’s serum recognized antigens expressed by the patient’s own germinoma cells, as well as pituitary antigens like growth hormone and systemic antigens like the Sjögren syndrome antigen B and alpha-enolase. The study first reports the presence of pituitary and systemic antibodies in a patient with intrasellar germinoma, and reminds us that diffuse lymphocytic infiltration of the pituitary gland and pituitary antibodies does not always indicate a diagnosis of autoimmune hypophysitis.

Toll-like receptor-MyD88 and Fc receptor pathways of mast cells mediate the thyroid dysfunctions observed during nonthyroidal illness

Bacterial infections and other pathologic conditions induce complex dysfunctions of the hypothalamic–pituitary–thyroid axis, collectively known as nonthyroidal illness (NTI). To explore the pathogenesis of bacterial NTI, we injected Mycobacterium tuberculosis extracts or Escherichia coli LPS in mice lacking key components of the Toll-like receptor or crystallizable fragment (Fc) receptor pathways. In wild-type mice, the bacterial components induced a hypothyroidism characterized by elements of both hypothalamic and thyroidal dysfunction. This NTI hypothyroidism did not develop in mice lacking the MyD88 adaptor or in those with a reduced number of mast cells. The hypothyroid responsiveness to LPS, however, was restored upon reconstitution with mast cells derived from the bone marrow of wild-type donors. In addition to bacterial components, whole immunoglobulins induced NTI hypothyroidism in wild-type mice, but not in those lacking activating Fc receptors or mast cells. The study demonstrates a link between Toll-like and Fc receptor signaling and thyroid gland function, uncovering a role of mast cells in murine NTI.

Increased thyroidal fat and goitrous hypothyroidism induced by interferon-γ

Hashimotos thyroiditis is associated with a diffuse lymphocytic infiltration of the stroma and a production of several cytokines, such as interferon‐γ (IFN‐γ). We previously reported that transgenic mice expressing IFN‐γ under the control of the thyroglobulin promoter develop primary hypothyroidism. In order to determine the long‐term changes induced by IFN‐γ in the thyroid gland, we analysed cross‐sectionally 202 mice (96 transgenic mice and 106 controls) of 0–650 days of age. Multiple linear regression analysis showed that, after adjusting for age and sex, thyr‐IFN‐γ transgenic mice were 14% (3u2003g) smaller (Pu2003<u20030.0001) and had a 5‐ to 6‐fold bigger thyroid (Pu2003<u20030.0001) than wild‐type littermates. Transgenic thyroids showed striking histopathological changes in follicles, thyrocytes and stroma. Follicles were enlarged, irregular and were lined by thickened, granular and oxyphilic thyrocytes. The stroma contained a moderate and diffuse mononuclear infiltrate – mainly composed of macrophages – and, interestingly, a clear increase in the content of fat. These findings indicate that, in addition to hypothyroidism, chronic exposure of the thyroid to IFN‐γ leads also to macrophage infiltration and subsequent adipocyte expansion, suggesting a link between inflammation and fat accumulation.

Studies on Murine Thyroiditis: New Insights from Organ Flow Cytometry

The pathogenesis of autoimmune diseases is frequently studied in murine models, in which disease outcome is traditionally assessed by light microscopy. To determine whether digital imaging improves reliability of the histopathologic assessment, and whether flow cytometry is applicable directly on the murine thyroid, we studied 395 CBA/J mice 3 weeks after thyroglobulin immunization, and 192 nonimmunized CBA/J mice. Digital imaging significantly improved reliability of the histopathological assessment (r = 0.988, 95% confidence interval: 0.980-0.992, p < 0.0001), and flow cytometry on the murine thyroid could be performed successfully. We also found that normal thyroids contained a higher than expected number of hematopoietic cells in the interstitium. We suggest that digital imaging offers a better means of estimating disease outcome, and that flow cytometry performed at the target organ levels reflects the autoimmune pathogenesis more closely than when performed on peripheral lymphoid organs. These methods should also be applicable to other organ systems targeted by autoimmune attack, such as heart, exocrine, and other endocrine glands.