MUC1/SEC and MUC1/Y overexpression is associated with inflammation in Sjögren's syndrome.

OBJECTIVES: To evaluate the expression and localization of MUC1/SEC and MUC1/Y isoforms in labial salivary glands (LSG) from Sjögren's syndrome patients (SS patients), as well as their in vitro expression induced by cytokines. SUBJECTS AND METHODS: Labial salivary gland from 27 primary SS patients and 22 non-SS sicca subjects were studied. Relative MUC1/SEC and MUC1/Y mRNA levels were determined by qPCR and protein levels by Western blotting. Induction of mucin mRNAs was assayed in vitro. Immunohistochemistry was used for localization. RESULTS: Relative MUC1/SEC and MUC1/Y mRNA and protein levels were significantly higher in LSG from SS patients. These mRNAs were induced by cytokines. MUC1/SEC and MUC1/Y were detected in acini apical region of control LSGs, and significant cytoplasmic accumulation was observed in acini of SS patients. MUC1/Y localized in acinar nuclei and cytoplasm of inflammatory cells of LSG from SS patients. A strong positive correlation was observed between cellular MUC1/SEC levels and glandular function determined by scintigraphy. CONCLUSIONS: We show for the first time that MUC1/SEC and MUC1/Y are expressed in LSG of both SS patients and non-SS sicca subjects. The observed overexpression and aberrant localization of MUC1/SEC and MUC1/Y and their induction by pro-inflammatory cytokines may favor the perpetuation of the inflammatory environment that disrupts the salivary glandular homeostasis in SS patients.

Sjögren's syndrome and the epithelial target: a comprehensive review.

The most difficult component in our understanding of human autoimmunity remains a rigorous dissection of etiological events. Indeed, the vast literature on autoimmune diseases focuses on the inflammatory response, with the hope of developing drugs that reduce inflammation. However, there is increasing recognition that understanding the immunobiology of target tissues will also have direct relevance to disease natural history, including breach of tolerance. Sjögren's syndrome is essentially an epitheliitis and there are major changes to normal architectural salivary organization. We propose that loss of homeostasis is the initial event that precipitates inflammation and that such inflammatory response includes not only the adaptive response, but also an intense innate immune/bystander response. To understand these events this review focuses on the architecture, phenotype, function and epithelial cell organization. We further submit that there are several critical issues that must be defined to fully understand epithelial cell immunobiology in Sjögren's syndrome, including defining epithelial cell polarity, cell-cell and cell to extracellular matrix interactions and a variety of chemical and mechanical signals. We also argue that disruption of tight junctions induces disorganization of the apical pole of salivary acinar cells in Sjögren's syndrome. In addition, there will be a critical role of inflammatory cytokines in the apico-basal relocation of tight junction proteins. Further, the altered disorganization and relocation of proteins that participate in secretory granule formation are also dysregulated in Sjögren's syndrome and will contribute to abnormalities of mucins within the extracellular matrix. Our ability to understand Sjögren's syndrome and develop viable therapeutic options will depend on defining these events of epithelial cell biology.

Oral dryness in Sjögren's syndrome patients. Not just a question of water.

Sjögren's syndrome (SS) is a chronic autoimmune disease of undefined etiology. Patients with this syndrome suffer from severe alterations in both the quality and quantity of saliva and tears, due to impaired function of the relevant exocrine glands. Prevalent symptoms experienced by SS-patients include a persistent dry mouth sensation (xerostomia) and dry eyes (keratoconjunctivitis sicca). Water content of saliva depends of acetylcholine levels, glandular innervation, M3R signaling, calcium tunneling and water release, among other factors. However, unstimulated salivary flow correlates only poorly with symptoms of mouth dryness, raising the question as to which other components of saliva may be involved in mouth dryness experienced by SS-patients? Salivary mucins are glycoproteins characterized by the presence of large oligosaccharide side chains attached to the protein backbone. These molecules are key saliva components that are required to sequester water and thereby moisturize, as well as lubricate the oral mucosa. In the labial salivary glands of SS patients, morphological and functional alterations are detectable that affect the maturation and trafficking of salivary mucins. In this review, we will focus the discussion on these aspects of reduced salivary flow and decreased quality of salivary mucins, since they are likely to be responsible for xerostomia in SS-patients.