Expression of heparan sulphate and small dermatan/chondroitin sulphate proteoglycans in chronically inflamed human periodontium.

Proteoglycans (PGs) function in regulating aspects of cell behavior, such as proliferation, adhesion, and migration. In this report, we investigated the localization of three heparan sulphate PGs (basement membrane [BM] heparan sulphate PG, CD44, and syndecan-1) and two small dermatan/chondroitin sulphate PGs (decorin and biglycan) in chronically inflamed human periodontium. Frozen sections were analyzed by immunofluorescence microscopy. In inflamed tissue, BM heparan sulphate PG showed reduced immunostaining in subepithelial and subendothelial basement membrane. Loss of CD44 and syndecan-1 was common in epithelial cells of inflamed periodontal tissue. Suprabasal keratinocytes of epithelium expressed involucrin, a cornified envelope protein and marker for epithelial differentiation, while the expression of syndecan-1 was weak or absent. In contrast, expression of the mesenchymal variant of CD44 and syndecan-1 was strong in infiltrating lymphocytes. Small dermatan/chondroitin sulphate PGs, decorin and biglycan, were also present in markedly reduced amounts in the periodontal connective tissue in chronic inflammation. In addition, decorin localized in the connective tissue along short rod-like structures. The results suggest that proteoglycan-dependent intercellular adhesion of keratinocytes is decreased and that adhesion of lymphocytes to matrix molecules via cell surface PGs increased in chronic inflammation. Disappearance of adhesion-modulating small dermatan/chondroitin sulphate PGs may further regulate cell migration in inflamed periodontium.

Keratinocyte integrins in wound healing and chronic inflammation of the human periodontium.

Periodontal epithelium plays a critical role in protection, destruction and repair of human periodontium. During optimal repair, epithelium migrates and covers the wound surface to prevent infection and damage of the vulnerable underlying connective tissue. During periodontal destruction, junctional epithelium undergoes transformation to pocket epithelium that has quite different characteristics from junctional epithelium. In the course of periodontal disease the epithelial attachment to the tooth surface is lost and the epithelium proliferates and extends pseudo-rete ridges deep into the inflamed connective tissue. Both scenarios, repair and destruction, involve active epithelial migration either in the wound provisional matrix or in the inflamed connective tissue matrix, respectively. This review covers recent research data on cellular receptors, integrins, that mediate epithelial cell migration during wound healing and destruction of human periodontium.

Keratinocytes in human wounds express alpha v beta 6 integrin.

Cell adhesion receptors of the integrin family play a major role during re-epithelialization of human wounds. We have previously documented that the expression of alpha v family integrins is induced in keratinocytes of mucosal wounds [1]. In the present investigation, we extended these studies to determine whether alpha v beta 6 integrin is expressed during wound healing in humans. Mucosal and epidermal wound sections from 1- to 7-day-old wounds were used for immunolocalization of integrins and their putative ligands. In addition, freshly isolated epidermal keratinocytes were used to study integrin expression in vitro. Expression of alpha v beta 6 integrin appeared relatively late during mucosal and dermal wound healing. Maximal expression was seen in 7-day-old wounds in which epithelial sheets had fused and granulation tissue was present. Fibronectin and tenascin, both possible ligands for alpha v beta 6 integrin, were found concentrated underneath the basal epithelial cells expressing this receptor, and the maximal expression of tenascin coincided with that of alpha v beta 6 integrin. Freshly isolated epidermal keratinocytes did not stain for alpha v beta 6 integrin but began to express this integrin after subculturing. Our results suggest that the expression of alpha v beta 6 integrin, a putative binding integrin for fibronectin and tenascin, is induced in keratinocytes when epithelial sheets fuse during wound healing.

Expression of epithelial adhesion proteins and integrins in chronic inflammation.

Epithelial cell behavior in chronic inflammation is poorly characterized. During inflammation of tooth-supporting structures (periodontal disease), increased proliferation of epithelial cells into the inflamed connective tissue stroma is commonly seen. In some areas ulceration and degeneration take place. We studied alterations in the expression of adhesion molecules and integrins during chronic periodontal inflammation. In inflamed tissue, laminin-1 and type IV collagen were still present in the basement membrane and surrounding blood vessels, but they were also found extravascularly in inflamed connective tissue stroma. Type VII collagen and laminin-5 (also known as kalinin, epiligrin, or nicein) were poorly preserved in the basement membrane zone, but both were found in unusual streak-like distributions in the subepithelial connective tissue stroma in inflamed tissue. Both fibronectin and tenascin were substantially decreased in chronically inflamed connective tissue, showing only punctate staining at the basement membrane zone. Integrins of the beta 1 family showed two distinct staining patterns in epithelial cells during chronic inflammation; focal losses of beta 1 integrins (alpha 2 beta 1 and alpha 3 beta 1) were found in most areas, while in other areas the entire pocket epithelium was found to be strongly positive for beta 1 integrins. No members of the alpha v integrin family were found in any epithelia studied. Expression of the alpha 6 beta 4 integrin was high in basal cells of healthy tissue, but weak in epithelium associated with chronic inflammation. Chronic inflammation therefore involves alterations in both adhesion proteins and integrins expressed by epithelial cells. Basement membrane components found at abnormal sites in stroma in chronic inflammation might serve as new adhesive ligands for various cell types in inflamed stroma.

Localization of the alpha v subfamily of integrins and their putative ligands in synovial lining cell layer.

OBJECTIVE: The lining cell layer of the synovium proliferates strongly in rheumatoid arthritis. It has been suggested that it has a central role in the destruction of cartilage. We have analyzed the structure of the extracellular matrix and the adhesion molecules of normal, osteoarthritic and rheumatoid lining cell layer. METHODS: We localized the alpha v integrin subunit and its 4 putative partner beta subunits in synovial samples by using indirect immunofluorescence. The specimens were also analyzed by confocal microscopy. Indirect immunofluorescence was also used to analyze the ligands of alpha v integrins, namely fibronectin and vitronectin. RESULTS: The alpha v integrin was abundant in the lining cell layer of normal and osteoarthritic synovia, whereas it was not expressed in the proliferating rheumatoid lining cell layers. A similar expression pattern was found for beta 5 subunit, suggesting that it is the major partner for alpha v. However, also some alpha v beta 1 and alpha v beta 3 heterodimers may be present. The confocal microscopy revealed the presence of both alpha v beta 5 positive and negative lining cells. The putative ligands for alpha v integrins, namely fibronectin and vitronectin were found in the lining cell layer of all the synovial specimens. CONCLUSION: In spite of the proliferation of the lining cell layer in rheumatoid inflammation, the extracellular matrix stays very similar to that in normal and osteoarthritic synovium, whereas the pattern of the adhesion receptors is completely altered.

Expression of syndecan-1 is induced by differentiation and suppressed by malignant transformation of human keratinocytes.

Syndecans comprise a family of integral membrane proteoglycans that presumably participate in cell-matrix interactions and the modulation of growth factor response. Expression of syndecan-1, a cell surface proteoglycan that binds basic fibroblast growth factor (bFGF) and extracellular matrix components, was studied in cultured human keratinocytes from the oral mucosa and in tissue sections derived from various epithelia and carcinomas of the head and neck. For the study, polyclonal antibodies were raised against the core protein of human syndecan-1. The affinity-purified antibody (designated anti-P117) was shown to react specifically with syndecan-1. Abundant expression of syndecan-1 was detected in frozen sections of various stratified epithelia as well as in cultured keratinocytes. Keratinocytes located in the spinous cell layers showed intense immunoreactivity for syndecan-1, while basal cells stained rather weakly, suggesting that the expression of syndecan-1 could be stimulated during the differentiation of keratinocytes. Cultured human keratinocytes were induced to terminally differentiate by increasing the extracellular calcium concentration of the medium. Parallel to the induction of involucrin expression, the mRNA levels of syndecan-1 were found to increase, suggesting that syndecan-1 is indeed induced during keratinocyte differentiation. The molecular mass and glycosaminoglycan composition of syndecan-1 did not change markedly during calcium-induced differentiation. Malignant transformation was associated with marked reduction of syndecan-1 expression, based on the immunoreactivity of anti-P117 in frozen sections from squamous cell carcinomas (SCCs) of the head and neck.(ABSTRACT TRUNCATED AT 250 WORDS)

Expression of integrins and basement membrane components by wound keratinocytes.

Extracellular matrix proteins and their cellular receptors, integrins, play a fundamental role in keratinocyte adhesion and migration. During wound healing, keratinocytes detach, migrate until the two epithelial sheets confront, and then regenerate the basement membrane. We examined the expression of different integrins and their putative ligands in keratinocytes during human mucosal wound healing. Migrating keratinocytes continuously expressed kalinin but not the other typical components of the basement membrane zone: type IV collagen, laminin, and type VII collagen. When the epithelial sheets confronted each other, these missing basement membrane components started to appear gradually through the entire wound area. The expression of integrin beta 1 subunit was increased in keratinocytes during migration. The beta 1-associated alpha 2 and alpha 3 subunits were expressed constantly by wound keratinocytes whereas the alpha 5 subunit was present only in keratinocytes during reepithelialization. Furthermore, migrating cells started to express alpha v-integrins which were not present in the nonaffected epithelium. All keratinocytes also expressed the alpha 6 beta 4 integrin during migration. In the migrating cells, the distribution of integrins was altered. In normal mucosa, beta 1-integrins were located mainly on the lateral plasma membrane and alpha 6 beta 4 at the basal surface of basal keratinocytes in the nonaffected tissue. In wounds, integrins were found in filopodia of migrating keratinocytes, and also surrounding cells in several cell layers of the migrating sheet. The results indicate that migrating keratinocytes, in deep human wounds enlarge their integrin repertoire. The changes in integrin expression take place concomitantly with changes in the basement membrane composition, suggesting a close interplay of these two groups of molecules during wound healing.