Development of the synovial membrane in the rat temporomandibular joint as demonstrated by immunocytochemistry for heat shock protein 25

The synovial lining layer of the temporomandibular joint (TMJ) consists of macrophage-like type A cells and fibroblast-like type B cells. Until now, little information has been available on the development of the synovial membrane in TMJ. In the present study we examined the development of the synovial lining layer in the rat TMJ by light- and electron-microscopic immunocytochemistry for heat shock protein (Hsp) 25, which is a useful marker for type B cells. At embryonic day 19 (E19), a few Hsp25-positive cells first appeared in the upper portion of the developing condyle. During the formation of the upper articular cavity (E21 to postnatal day 1 (P1)), a few positive cells were arranged on its surface. Immunoelectron microscopy demonstrated that these cells had ultrastructural features of fibroblast-like type B cells. In addition, some Hsp25-positive cells moved to the deep portion by extending their cytoplasmic processes toward the articular cavity at P3. At that time, the presence of typical macrophage-like type A cells in the lining layer was confirmed by immunoelectron microscopy. The slender processes of Hsp25-positive cells showed a continuous covering with the synovial surface at P7, followed by a drastic increase in the Hsp25-positive cells at P15 and later, when active jaw movement occurred. These findings suggested that the arrangement and morphological maturation of type B cells are closely related to the formation of the articular cavity in the embryonic period and the commencement of active jaw movement after birth, respectively.     

A developmental study of the synovial membrane of the rat temporomandibular joint: changes in the three-dimensional configuration during postnatal development

The development of synovial membranes in the posterior synovial portion of the rat temporomandibular joint was studied and the three-dimensional structure of the posterior synovial portion reconstructed from sagittal semithin sections. Reconstructions showed that the synovial membrane expanded and that synovial folds increased in number and became complicated in shape with the growth of the joint. Using transmission-electron microscopy, it was observed that the synovial lining cells degenerated, that the synovial membrane split to make further synovial folds, and that the folded-end structures consisted of synovial lining cells that extended into the subsynovial connective tissue. It is suggested that in the development of the three-dimensional configuration of the synovial membrane, several processes proceed simultaneously to form the synovial folds: a splitting of the synovial membrane, infolding of the synovial membrane into the subsynovial connective tissue, and outgrowth of the synovial folds towards the synovial cavity.     

Role of CD44 cytoplasmic domain in hyaluronan binding

The hyaluronan (HA) binding activity of mutant CD44 constructs expressed in AKR1 T-lymphoma cells was evaluated by flow cytometry using fluoresceinconjugated HA (Fl-HA). Previous studies showed that wild-type hematopoietic CD44 bound Fl-HA when expressed in AKR1, but that truncated “tailless” CD44, lacking all but six amino acids of the cytoplasmic domain, did not bind. Here, we show that a disulfide-bonded dimer of CD44, formed by substituting the transmembrane region of CD3ζ chain for that of CD44, binds Fl-HA, even when the cytoplasmic domain of the CD44 dimer is absent. We conclude that dimerization of CD44 abrogates the requirement for the cytoplasmic domain, suggesting that the cytoplasmic domain of CD44 may contribute to HA binding by promoting CD44 clustering. These results suggest that changes in the distribution of CD44 on the cell surface, induced by molecular interactions either from within the cell or from outside, may regulate its role as a receptor. Further studies sought to localize the region of the CD44 cytoplasmic domain contributing to HA binding by the construction of a series of cytoplasmic domain truncation mutants and internal deletion mutants. All of the mutant CD44 molecules bound Fl-HA similarly to wild-type CD44. Thus, it was not possible to assign the function mediating HA binding to a specific region of the cytoplasmic domain, suggesting either that multiple regions of the cytoplasmic domain can promote enhancement of HA binding, or that the role of the cytoplasmic domain in mediating this function does not require a specific amino acid sequence.     

Turnover of hyaluronan in synovial joints: elimination of labelled hyaluronan from the knee joint of the rabbit

After the injection of [3H]acetyl-labelled hyaluronan into normal rabbit knee joints, about 90% of its isotope content was ultimately accounted for as 3H2O. The rate of elimination of hyaluronan from synovial fluid was therefore estimated from changes in the level of 3H2O in plasma. The half-life of plasma 3H2O was 6.2 days (S.D. 0.7). As estimated from its metabolism to 3H2O, the mean intrasynovial half-life of [3H]hyaluronan of high molecular weight (modal relative molecular mass (Mr) greater than 6.0 x 10(6) was 13.2 h (range 11-15.5 h; n = 4); an otherwise identical preparation of low molecular weight (modal Mr 0.09 x 10(6] exhibited a mean half-life of 10.2 h (range 7.8-13.5 h; n = 4). The difference between the two groups was significant (P = 0.029). Both estimates were nevertheless close to those determined by others in the same species for injected proteoglycans (Mr 2.5 x 10(6), t1/2 = 12 h) and for endogenous hyaluronan calculated from changes in concentration during intravenous infusion of fluid under anaesthesia (t1/2 = 16 h). The similarity suggests that hyaluronan and proteoglycan are removed from synovial fluid by a common pathway with limited dependence on their molecular dimensions and concentrations.     

CD44 and hyaluronan expression in human cutaneous scar fibroblasts.

Fibrotic disorders of skin and other organs are typically associated with an abnormal accumulation of extracellular matrix. This study focuses on a matrix constituent, hyaluronan-which is known to be altered in fibrotic disorders of skin- and on CD44, a cell adhesion molecule and putative receptor for hyaluronan. Tissue samples were obtained from biopsies of human normal skin, normal cutaneous scar; and hypertrophic cutaneous scar. After culturing, cells were studied by single- and double-labeling immunohistochemistry using the two anti-CD44 monoclonal antibodies, BU-52 and J173, and a biotinylated hyaluronan binding complex probe, b-HABR. Certain cultures were pretreated with Streptomyces hyaluronidase to assess the dependency of CD44 expression on the presence of endogenous hyaluronan. CD44 expression, both in the presence and the absence of exogenous hyaluronan, was quantitated by radioimmunobinding assay. Overall glycosaminoglycan synthesis and identification of hyaluronan were accomplished by precursor incorporation assays and by quantitative cellulose acetate electrophoresis. CD44 was found to be a normal human adult fibroblastic antigen whose expression is markedly increased for hypertrophic scar fibroblasts compared with normal skin fibroblasts. Although hyaluronan was found to be the predominant glycosaminoglycan constituent of the pericellular matrix for these fibroblasts, CD44 attachment to the cell surface is neither mediated by hyaluronan nor is the presence of hyaluronan a prerequisite for CD44 expression. Exogenous hyaluronan induced a decline in measurable CD44 expression for normal skin fibroblasts but not for hypertrophic scar fibroblasts. These observations are compatible with current understanding of the way cells manage the hyaluronan economy of the extracellular matrix and emphasize phenotypic heterogeneities between fibroblasts derived from normal versus scar tissues.     

Activation and interaction of CD44 and hyaluronan in immunological systems.

Adhesive interactions between receptors on vascular endothelial cells (EC) and circulating leukocytes are pivotal in regulating leukocyte extravasation. Although primary adhesion of lymphocytes to EC has been primarily attributed to the selectin family of receptors, CD44 can also mediate this function when activated to bind its ligand hyaluronan (HA). Triggering through the T cell receptor induces activated CD44 and CD44-dependent primary adhesion in both human and mouse lymphocytes, and the interaction can mediate the extravasation of activated T cells into an inflamed site. Lymphocytes capable of CD44/HA-dependent primary adhesion are found in peripheral blood of some rheumatologic patients, and their presence is associated with concurrent symptomatic or active disease. Thus, circulating T cells bearing activated CD44 may represent a pathogenically important subpopulation of activated cells that is elevated under conditions of chronic inflammation. Together, these data add to the selectin and immunoglobulin gene families a new receptor/ ligand pair and further our understanding of their potential physiological role; i.e., antigen-specific T cell activation together with local vascular inflammation permits the CD44/HA interaction and subsequent T cell extravasation.     

Expression of CD44s, CD44v6, and hyaluronan across the spectrum of normal-hyperplasia-carcinoma in breast.

BACKGROUND: The interaction between transmembrane receptors on epithelial tumor cells and the surrounding extracellular matrix molecules is important in tumor progression and metastasis. This interaction is best exemplified by the relationship of the receptor CD44 and the extracellular matrix component hyaluronan (HA). This study seeks to evaluate the expression and the correlation of CD44s, CD44v6, and HA in normal, hyperplastic, and malignant breast epithelium and stroma. MATERIALS AND METHODS: Archival paraffin-embedded tissue from cases of normal breast tissue (n=10), intraductal hyperplasia without atypia (n=13), ductal carcinoma in situ (DCIS) (n=24), stage I infiltrating ductal carcinoma (n=28), stage II infiltrating ductal carcinoma (n=31), and their corresponding positive lymph nodes were retrieved from the surgical pathology files. Tissue sections were evaluated for the expression of CD44s, CD44v6, and HA in the epithelial and stromal cells by immunohistochemistry. RESULTS: Ductal epithelial cells and myoepithelial cells expressed CD44s in all cases of normal and benign breast tissue. The expression of CD44s in breast epithelium progressively decreased with increasing deviation from normal histology: 83% in DCIS, 46% in stage I ductal carcinoma and 26% in stage II ductal carcinoma. The reverse trend was observed for CD44v6 in ductal epithelium: 0% in normal breast, 15% in intraductal hyperplasia, 100% in DCIS, 82% in stage I infiltrating ductal carcinoma, 94% in stage II carcinoma, and 100% of metastatic carcinoma in the lymph nodes. HA was noted exclusively in the stroma but not in the epithelial cells. HA was faintly expressed in the intralobular stroma of normal breast tissue, confined to a narrow faint band adjacent to intraductal hyperplasia and localized to a broad well-defined band around DCIS. Stromal HA staining was more diffuse and intense in infiltrating carcinomas and was particularly pronounced surrounding the metastatic deposits in lymph nodes. CONCLUSIONS: This study demonstrates decreased expression of CD44s accompanied by increased expression of CD44v6 and increased stromal HA in breast cancer. These findings suggest that CD44s, CD44v6, and HA play complementary roles in the development and progression of breast cancer.     

Chimeric CD4/CD44 molecules associate with CD44 via the transmembrane region and reduce hyaluronan binding in T cell lines

Cells of the immune system tightly regulate the binding ability of cell adhesion molecules. The binding of the extracellular matrix component hyaluronan to CD44 is no exception, yet the mechanisms that regulate its binding are poorly understood. In this study a chimeric CD4/CD44 molecule, containing the extracellular domain of CD4 and the transmembrane and cytoplasmic domains of CD44, was expressed in two CD44⁺ mouse T lymphoma cell lines, BW5147 and T28. This resulted in the reduced ability of endogenous CD44 to constitutively bind hyaluronan. Immunoprecipitation of the chimeric protein in 1 % Brij-96 indicated an association between the chimera and endogenous CD44. Using various chimeric CD4/CD44 molecules, the transmembrane region of CD44 was found to mediate this association. In addition, the association of chimeric CD4/CD44 molecules with endogenous CD44 correlated with reduced hyaluronan binding. Thus, the transmembrane region of CD44 is required for the association with CD44 molecules in the cell membrane and we propose that the self-association of CD44 molecules occurs on the T cell surface to promote hyaluronan binding. Cellular events altering the interactions of the transmembrane region of CD44 thus have the potential to regulate the hyaluronan binding ability of CD44.     

Dynamics of hyaluronan, CD44, and inflammatory cells in the rat kidney after ischemia/reperfusion injury

Ischemia/reperfusion (I/R) injury in the kidney involves hemodynamic and cellular dysfunctions as well as leukocyte infiltration. Functional recovery occurs via cell proliferation and/or migration. To determine the roles of hyaluronan (HA) and its main receptor CD44 in renal postischemic processes, we compared their localization and expression with that of neutrophils, macrophages, and PCNA-positive (regenerative) cells as characterized by immunohistochemistry, up to 28 days after I/R in uninephrectomized rats. Observations covered all kidney zones, i.e. cortex (C), outer and inner stripes of outer medulla (OSOM, ISOM), and inner medulla (IM). In controls, HA was localized to the interstitium of IM and ISOM, and CD44 was mostly present on the basolateral membranes of collecting ducts in ISOM, the thin descending limb of Henle's loop and macula densa cells. After I/R, HA and CD44 staining appeared in C and OSOM at 12 h and persisted throughout the regenerative period, i.e. until day 7. Thereafter, they regressed but remained associated with remodeling areas. CD44 expression was found de novo on the apical pole of regenerating, not fully differentiated tubular cells and on some interstitial cells. It was prominent on all infiltrating neutrophils, as soon as 2 h post-I/R, and on 30% of the macrophages, including those in late HA-rich inflammatory granulomas. CD44 is probably involved in early leukocyte infiltration, in tubular regeneration, and in macrophage activity, while HA modifies the physico-chemical environment of interstitial and migrating cells. Based on its presence in remodeling areas, the HA-CD44 pair may be implicated in persistent postichemic inflammation as observed in chronic allograft nephropathy.     

Expression of CD 44 s, CD 44 v 3 and CD 44 v 6 in benign and malignant breast lesions: correlation and colocalization with hyaluronan

AIMS: To examine the expression of CD 44 s, CD 44 v 3 and CD 44 v 6 in breast lesions, and to correlate it with the expression of hyaluronan (HA). Methods and results: CD 44 expression was studied in 75 breast tissue samples, consisting of benign, premalignant and malignant breast lesions, using immunohistochemistry. CD 44 s, but not CD 44 v 3 or CD 44 v 6, was found in the stromal cells, and it was similar in benign and malignant tumours. In benign lesions CD 4 v 6 was detected in 20-30% of the ductal epithelial cells, while C 44 v 3 and CD 44 s were not expressed. CD 44 s, CD 44 v 3 and CD 44 v 6 were all up-regulated in the in situ carcinomas and invasive carcinomas. The level of CD 44 expression in carcinoma cells did not correlate with the type or differentiation of the tumours. CD 44 and HA expression levels were not closely linked in the benign or malignant breast lesions, because HA was overexpressed later in breast cancer progression than CD 44. However, in breast carcinomas CD 44 and HA positivity was often found in the same areas of the sections, and the dual staining confirmed actual colocalization of CD 44 s and HA in the same cells. Conclusions: CD 44 s, CD 44 v 3 and CD 44 v 6 are up-regulated earlier than HA in breast carcinoma progression, and in later stages they often colocalize with cell surface HA.     

Expression of caveolin-1 in the rat temporomandibular joint

This immunocytochemical study revealed the expression of caveolin-1, a major protein of caveolae, in the rat temporomandibular joint. In the synovial lining layer, immunoreactive products for caveolin-1 were detected on the cell membrane of the fibroblast-like type B cells, as confirmed by immunocytochemistry for heat shock protein 25. The cells in the articular disk, the articular layer, and zone of proliferation of the mandibular condyle also showed intense immunoreactions for caveolin-1.     

The role of the CD44 cytoplasmic and transmembrane domains in constitutive and inducible hyaluronan binding

The role of the CD44 cytoplasmic domain in cells displaying constitutive or inducible hyalu ronan (HA) binding mediated by wild-type CD44 was investigated using mutant CD44 constructs with the cytoplasmic domain truncated or replaced by foreign sequences. In cell lines in which wild-type CD44 bound HA constitutively, chimeric constructs consisting of the CD44 external domain and the transmembrane plus cytoplasmic domains of beta5 integrin bound as well as wild-type CD44, arguing that the specific sequence of the cytoplasmic and transmembrane domains was not critical for HA binding by the external domain. The cytoplasmic domain sequence did not contribute to the 'inducible' phenotype in cell lines which did not bind HA constitutively, but which could be induced to bind by CD44-specific mAb. Tailless CD44 was inducible in these cells, as was chimeric CD44 with the integrin beta5 cytoplasmic domain. Dimer- or oligomerization of CD44 by addition of AP1510 to cells containing CD44 / FKBP chimeric constructs caused a modest enhancement of HA binding in cells that bound constitutively, but did not alter the inducible phenotype. This result suggests that clustering of CD44 from inside the cell is not a sufficient 'inside-out' signal to activate HA binding in inducible cells.     

A hypothetical biological synovial fluid for treatment of temporomandibular joint disease

Temporomandibular Joint disorder (TMD) is a common disorder of mandibular motion system with distinct clinicopathological characteristics. TMD may cause to change in the components of synovial fluid, that affects the functions on lubrication and nutrition of cartilage. Boundary lubrication system contributing to the low friction of joint consists of three parts: lubricin, surface-active phospholipids and hyaluronan (HA). Diminishment of lubrication function is thereby implicated as an adverse contributing factor in degenerative joint diseases such as internal derangement, osteoarthrosis. Moreover, mesenchymal stem cells (MSCs) of synovial membrane can be obtained without irreversible damage, are easily expandable with limited senescence. We postulate that biological active components secreted from MSCs are separated and accumulated by gel permeation chromatography, and then we use the ultra-flirtation of serum and biologically active components to reconstruct the biological synovial fluid in order to rehabilitate the boundary lubrication system and the nutrition of cartilage. Further study investigating the components of biological synovial fluid provides with new treatment strategy for TMD.     

Elevated expression of hyaluronan and its CD44 receptor in the duodenal mucosa of coeliac patients

AIMS: Since hyaluronan (HA) metabolism is disturbed in some malignant tumours and in inflammatory diseases, we analysed HA and its receptor CD44 as well as the expression of the Ki67 nuclear protein, a marker of cell proliferation, in histological sections of duodenal biopsies of coeliac disease patients and controls. METHODS AND RESULTS: The study group consisted of 52 patients with coeliac disease in remission, 40 patients with newly diagnosed disease and 10 healthy control subjects. HA was detected with a specific biotinylated probe prepared from cartilage aggrecan and link protein, and CD44 with an antibody recognizing all forms of CD44 and another specific for its v6 variant. For the expression of the nuclear protein, monoclonal antibody MIB-1 was used. The percentage of HA-positive cells in surface epithelium was higher in newly diagnosed patients (13%) compared with patients in remission (11%) and controls (2%). In addition, HA intensity in the lamina propria was decreased in the newly diagnosed patients. In patients with active disease, 22-26% of the surface epithelium was CD44+, whereas the corresponding figure in patients in remission was 5%, and that of controls 1%. The more intensive MIB-1 labelling in the duodenal epithelium of coeliac patients without treatment was normalized after gluten-free diet. CONCLUSIONS: The HA-positive coat on surface epithelium seen even in patients in remission suggests persistent or even permanent changes in the epithelial permeability barrier in coeliac disease.     

Characteristics of glutamate-evoked temporomandibular joint afferent activity in the rat

Injection of glutamate into the rat temporomandibular joint (TMJ) capsule can reflexly induce a prolonged increase in the electromyographic (EMG) activity of the jaw muscles, however, the characteristics of TMJ afferents activated by glutamate have not been investigated. In the present study, we examined the effect of glutamate injection into the TMJ capsule on jaw muscle EMG activity and the extracellularly recorded activity of single trigeminal afferents that had receptive fields in the TMJ tissue and antidromically identified projections to the brain stem subnucleus caudalis (Vc) in rats of both sexes. Glutamate (0.05--1.0 M, 10 microl) injection into the TMJ capsule evoked EMG activity in a dose-related manner; however, at concentrations of 0.5 and 1.0 M, glutamate-evoked digastric muscle responses were greater in female than in male rats. In experiments where jaw muscle EMG and afferent activity were recorded simultaneously, glutamate (0.5 M, 10 microl) injection into the TMJ capsule evoked activity in the jaw muscles as well as in 27 (26 A delta and 1 C-fiber afferent) of 34 trigeminal afferents that could be activated by blunt mechanical stimulation of the TMJ tissue. In these experiments, glutamate-evoked jaw muscle activity was significantly increased for 6 min after the glutamate injection, whereas afferent activity was significantly increased only during the first minute after the glutamate injection. The glutamate-evoked afferent activity was inversely related to conduction velocity and, in afferents with conduction velocities <10 m/s, was significantly greater in female (n = 6) than in male (n = 10) rats. These results suggest that glutamate excites putative nociceptive afferents within the TMJ to a greater degree in female than in male rats. This sex-related difference in afferent discharge may, in part, underlie sex-related differences in glutamate-evoked jaw muscle EMG activity.     

Complex CD44 splicing combinations in synovial fibroblasts from arthritic joints

CD44 is a broadly expressed cell surface glycoprotein which is the major cell surface receptor for the glycosaminoglycan, hyaluronan. In humans, alternative splicing of up to 9 variant exons (v2–v10) into CD44 mRNA, together with post-translational modification via glycosylation and chondroitin sulfate attachment has the potential of generating a large number of CD44 isoforms. Insertion of these various exons has the potential to change the functional capacities of the molecule and has implications in disease. We have analyzed CD44 splice variant expression in cultured VCAM-1-positive synovial fibroblasts isolated from patients with osteo- or rheumatoid arthritis and from normal synovium. Rheumatoid and osteoarthritic tissue express CD44 splice variants at the cell surface level. At the mRNA level exons v3, v6, v7, v8, v9 and v10 were detected in different splicing combinations. Rheumatoid tissue showed high expression, osteoarthritic tissues showed great variation. In contrast, non-inflamed tissue showed no splicing events. Our results indicate that the nature of CD44 splice variant expression may be linked to the inflammatory state of the synovial joint.     

Membrane protein glycosylation and CD44 content in the adhesion of human ovarian cancer cells to hyaluronan

The adhesion of tumour cells to the hyaluronan (HA) pericellular coat of mesothelial cells is an important step in the peritoneal spread of ovarian cancer. Previously, we have shown that the cell surface molecule CD44 is involved in this process. Paradoxically, the degree of adhesion does not appear to be related to the amount of CD44 expressed. In order to explain this observation we have examined the in vitro adhesion to HA of four high CD44-expressing ovarian cancer lines in relation to their CD44 spliced variant content and the CD44 glycosylation. Adhesion was measured in multiwell plates coated with different concentrations of HA in order to determine both the avidity and the maximum adhesion. Two lines had high adhesion and two lines had low adhesion. The avidity for HA was different for each line, but in all cases this could be totally blocked by treatment with an anti-CD44 antibody. The standard form of CD44 was the major species detected by RT/PCR in all lines and spliced variants were present in low amounts. Neuraminidase treatment increased the adhesion of the ‘low-adhesion’ lines at all HA coating concentrations; but only substantially increased the adhesion of the ‘high-adhesion’ lines at the lower HA coating concentrations. Tunicamycin treatment decreased the adhesion of the ‘high-adhesion lines’ at all HA coating concentrations and only substantially decreased the adhesion of one of the ‘low-adhesion’ lines when the plates were coated with a low concentration of HA. The adhesion of the remaining ‘low-adhesion’ line was slightly increased after tunicamycin treatment. It is concluded that glycosylation and not spliced variant content of CD44 affects the adhesive properties of ovarian tumour cells. This conclusion may have important consequences for developing new therapies in ovarian cancer This revised version was published online in July 2006 with corrections to the Cover Date.