Rapid hyaluronan uptake is associated with enhanced motility: implications for an intracellular mode of action

Texas red-labeled hyaluronan (TR-HA) is rapidly taken up in a CD44 independent manner into ras-transformed 10T1/2 fibroblasts, where it accumulates in both cell ruffles/lamellae, the perinuclear area, and the nucleus. HA does not accumulate in the cell ruffles/lamellae of parental 10T1/2 cells. Addition of HA to ras-transformed cells promotes their random motility but has no effect on 10T1/2 cell motility. 10T1/2 cells can be modified to take up HA into cell ruffles by exposure to phorbol ester or direct microinjection of HA into cells. Both treatments significantly stimulate 10T1/2 cell motility.     

Src-/- fibroblasts are defective in their ability to disassemble focal adhesions in response to phorbol ester/hyaluronan treatment

Exogenous hyaluronan promotes a rapid recruitment of Src to lamellae of mutant active H-ras transformed fibroblasts and an Src- and RHAMM (CD168)-dependent increase in random motility. These responses are accompanied by a loss of vinculin-positive lamellae focal adhesions. Nontransformed immortalized wild-type fibroblasts (WT) do not increase random motility in response to hyaluronan alone, but do increase motility in response to a combination of PMA treatment followed by hyaluronan. PMA treatment alone increases the number of lamellae/cell, percentage of cells with lamellae and number of focal adhesions/lamellae. Subsequent addition of hyaluronan does not affect the number of lamellae/cell but reduces both the number of focal adhesion/lamellae and the percentage of cells forming focal adhesion-positive lamellae. These effects are prevented by blocking RHAMM antibodies and mimicked by agonist RHAMM antibodies. Src-/- fibroblasts exhibit a limited response to PMA but do not increase motility or disassemble focal adhesions in response to a subsequent addition of HA. Rescue of Src-/- fibroblasts with either SrcA or c-Src restores response to close to WT levels. These results suggest that Src activity is uniquely required for both PMA and PMA-induced hyaluronan regulation of random motility and focal adhesion turnover.     

Src-/- Fibroblasts are Defective in Their Ability to Disassemble Focal Adhesions in Response to Phorbol Ester/Hyaluronan Treatment

Exogenous hyaluronan promotes a rapid recruitment of Src to lamellae of mutant active H-ras transformed fibroblasts and an Src- and RHAMM (CD168)-dependent increase in random motility. These responses are accompanied by a loss of vinculin-positive lamellae focal adhesions. Nontransformed immortalized wild-type fibroblasts (WT) do not increase random motility in response to hyaluronan alone, but do increase motility in response to a combination of PMA treatment followed by hyaluronan. PMA treatment alone increases the number of lamellae/cell, percentage of cells with lamellae and number of focal adhesions/lamellae. Subsequent addition of hyaluronan does not affect the number of lamellae/cell but reduces both the number of focal adhesion/lamellae and the percentage of cells forming focal adhesion-positive lamellae. These effects are prevented by blocking RHAMM antibodies and mimicked by agonist RHAMM antibodies. Src-/- fibroblasts exhibit a limited response to PMA but do not increase motility or disassemble focal adhesions in response to a subsequent addition of HA. Rescue of Src-/- fibroblasts with either SrcA or c-Src restores response to close to WT levels. These results suggest that Src activity is uniquely required for both PMA and PMA-induced hyaluronan regulation of random motility and focal adhesion turnover.     

Hyaluronan and the hyaluronan receptor RHAMM promote focal adhesion turnover and transient tyrosine kinase activity

The molecular mechanisms whereby hyaluronan (HA) stimulates cell motility was investigated in a C-H-ras transformed 10T 1/2 fibroblast cell line (C3). A significant (p < 0.001) stimulation of C3 cell motility with HA (10 ng/ml) was accompanied by an increase in protein tyrosine phosphorylation as detected by anti-phosphotyrosine antibodies using immunoblot analysis and immunofluorescence staining of cells. Tyrosine phosphorylation of several proteins was found to be both rapid and transient with phosphorylation occurring within 1 min of HA addition and dissipating below control levels 10-15 min later. These responses were also elicited by an antibody generated against a peptide sequence within the HA receptor RHAMM. Treatment of cells with tyrosine kinase inhibitors (genistein, 10 micrograms/ml or herbimycin A, 0.5 micrograms/ml) or microinjection of anti-phosphotyrosine antibodies inhibited the transient protein tyrosine phosphorylation in response to HA as well as prevented HA stimulation of cell motility. To determine a link between HA-stimulated tyrosine phosphorylation and the resulting cell locomotion, cytoskeletal reorganization was examined in C3 cells plated on fibronectin and treated with HA or anti-RHAMM antibody. These agents caused a rapid assembly and disassembly of focal adhesions as revealed by immunofluorescent localization of vinculin. The time course with which HA and antibody induced focal adhesion turnover exactly paralleled the induction of transient protein tyrosine phosphorylation. In addition, phosphotyrosine staining colocalized with vinculin within structures in the lamellapodia of these cells. Notably, the focal adhesion kinase, pp125FAK, was rapidly phosphorylated and dephosphorylated after HA stimulation. These results suggest that HA stimulates locomotion via a rapid and transient protein tyrosine kinase signaling event mediated by RHAMM. They also provide a possible molecular basis for focal adhesion turnover, a process that is critical for cell locomotion.     

A truncated RHAMM protein for discovering novel therapeutic peptides

The receptor for hyaluronan mediated motility (RHAMM, gene name HMMR) belongs to a group of proteins that bind to hyaluronan (HA), a high-molecular weight anionic polysaccharide that has pro-angiogenic and inflammatory properties when fragmented. We propose to use a chemically synthesized, truncated version of the protein (706–767), 7?kDa RHAMM, as a target receptor in the screening of novel peptide-based therapeutic agents. Chemical synthesis by Fmoc-based solid-phase peptide synthesis, and optimization using pseudoprolines, results in RHAMM protein of higher purity and yield than synthesis by recombinant protein production. 7?kDa RHAMM was evaluated for its secondary structure, ability to bind the native ligand, HA, and its bioactivity. This 62-amino acid polypeptide replicates the HA binding properties of both native and recombinant RHAMM protein. Furthermore, tubulin-derived HA peptide analogues that bind to recombinant RHAMM and were previously reported to compete with HA for interactions with RHAMM, bind with a similar affinity and specificity to the 7?kDa RHAMM. Therefore, in terms of its key binding properties, the 7?kDa RHAMM mini-protein is a suitable replacement for the full-length recombinant protein.     

A hyaluronate binding protein transiently codistributes with p21 in cultured cell lines

Hyaluronate (HA) affects the migratory and adhesive properties of cells. HABP, one of the sites which bind HA, localizes in the ruffling lamellae of normal migrating fibroblasts. Similarly, p21 in K-ras oncogene-transformed cells appears enhanced in membrane ruffles. To investigate the possibility that p21 and HABP are functionally linked, their subcellular distribution in two K-ras-transformed lines was examined by double label immunofluorescence and correlated with motility. In both lines, the majority of cells were p21^k-ras and HABP positive at 24 h after subculture. However, immunofluorescence for HABP both decreased and relocated, from ruffles and cell processes to cell bodies, with time whereas the intensity and distribution of staining for p21 remained constant. In doubly positive cells, HABP and p21 colocalized in the ruffles at 24 h, but not at 72 h after subculture. The times after subculture at which changes in the immunofluorescent pattern of HABP occurred differed with cell type and correlated with their migratory rate. Thus, the migratory rate of KNRK cells, which was less than in the K-C3H-10T1/2 cells, correlated with both an earlier decrease in HABP and an earlier loss of codistribution between HABP and p21 compared to K-C3H-10T1/2 cells. Further evidence of a functional link between HABP and p21^k-ras was suggested by the ability of hyaluronic acid, which induces ruffling in K-C3H-10T1/2 cells, to promote the coassociation of p21^k-ras and HABP. These results demonstrate a transient codistribution of p21 and HABP, in ruffles, that is possibly related to migratory activity and/or cell-surface changes following subculture.     

Identification of a common hyaluronan binding motif in the hyaluronan binding proteins RHAMM, CD44 and link protein.

We have previously identified two hyaluronan (HA) binding domains in the HA receptor, RHAMM, that occur near the carboxyl-terminus of this protein. We show here that these two HA binding domains are the only HA binding regions in RHAMM, and that they contribute approximately equally to the HA binding ability of this receptor. Mutation of domain II using recombinant polypeptides of RHAMM demonstrates that K423 and R431, spaced seven amino acids apart, are critical for HA binding activity. Domain I contains two sets of two basic amino acids, each spaced seven residues apart, and mutation of these basic amino acids reduced their binding to HA--Sepharose. These results predict that two basic amino acids flanking a seven amino acid stretch [hereafter called B(X7)B] are minimally required for HA binding activity. To assess whether this motif predicts HA binding in the intact RHAMM protein, we mutated all basic amino acids in domains I and II that form part of these motifs using site-directed mutagenesis and prepared fusion protein from the mutated cDNA. The altered RHAMM protein did not bind HA, confirming that the basic amino acids and their spacing are critical for binding. A specific requirement for arginine or lysine residues was identified since mutation of K430, R431 and K432 to histidine residues abolished binding. Clustering of basic amino acids either within or at either end of the motif enhanced HA binding activity while the occurrence of acidic residues between the basic amino acids reduced binding. The B(X7)B motif, in which B is either R or K and X7 contains no acidic residues and at least one basic amino acid, was found in all HA binding proteins molecularly characterized to date. Recombinant techniques were used to generate chimeric proteins containing either the B(X7)B motifs present in CD44 or link protein, with the amino-terminus of RHAMM (amino acids 1-238) that does not bind HA. All chimeric proteins containing the motif bound HA in transblot analyses. Site-directed mutations of these motifs in CD44 sequences abolished HA binding. Collectively, these results predict that the motif of B(X7)B as a minimal binding requirement for HA in RHAMM, CD44 and link protein, and occurs in all HA binding proteins described to date.     

CD44 protein levels and its biological activity are regulated in Balb/c 3T3 fibroblasts by serum factors and by transformation with the ras but not with the sis Oncogene

CD44s (standard isoform) levels and hyaluronan-binding activity were investigated in Balb/c 3T3 cells and their derivatives transformed with ras or sis oncogenes as a function of serum concentration in the medium. 3T3 cells contained low levels of CD44 and did not bind hyaluronan when grown in medium containing 0.5 or 10% serum. In 5% serum, however, the cells had much higher levels of CD44 and were able to bind hyaluronan. CD44 levels also increased in 3T3 cells restimulated with either 5 or 10% serum after prior maintenance in low serum. In cells restimulated with 5% serum, high levels of CD44 were sustained for at least 72 hr. In cells restimulated with 10% serum, however, the increase in CD44 levels reverted by 48 hr. Transformation of 3T3 cells with ras (but not with sis) oncogene rendered CD44 levels insensitive to serum modulation: ras-transformed cells contained high levels of CD44 and bound hyaluronan at all serum concentrations and at all time points tested. Sis-transformed cells behaved like 3T3 cells in these modulatory changes. Platelet-derived growth factor (PDGF), when supplementing 0.5% serum, mimicked the effects of serum on the levels and hyaluronan-binding capacity of CD44 in 3T3 cells and the CD44-upregulating activity of serum was neutralized by incubation with anti-PDGF antibodies. These data demonstrate that serum factors, specifically PDGF, mediate regulation of CD44 levels in Balb/c 3T3 cells and that transformation of 3T3 cells by ras renders CD44 expression insensitive to the modulating effects of serum in vitro. These results correlate with the metastatic capacity of these cells in vivo. © 1996 Wiley-Liss, Inc.     

Phospholipid dependence of membrane-bound phospholipase A2 in ras-transformed NIH 3T3 fibroblasts

Although the activation of phospholipase A₂ (PLA₂) in ras-transformed cells has been well documented, the mechanisms underlying this activation are poorly understood. In this study we tried to elucidate whether the membrane phospholipid composition and physical state influence the activity of membrane-associated PLA₂ in ras-transformed fibroblasts. For this purpose membranes from non-transfected and ras-transfected NIH 3T3 fibroblasts were enriched with different phospholipids by the aid of partially purified lipid transfer protein. The results showed that of all tested phospholipids only phosphatidylcholine (PC) increased PLA₂ activity in the control cells, whereas in their transformed counterparts both PC and phosphatidic acid (PA) induced such effect. Further we investigated whether the activatory effect was due only to the polar head of these phospholipids, or if it was also related to their acyl chain composition. The results demonstrated that the arachidonic acid-containing PC and PA molecules induced a more pronounced increase of membrane-associated PLA₂ activity in ras-transformed cells compared to the corresponding palmitatestearate- or oleate- containing molecular species. However, we did not observe any specific effect of the phospholipid fatty acid composition in non-transformed NIH 3T3 fibroblasts. In ras-transformed cells incubated with increasing concentrations of arachidonic acid, PLA₂ activity was altered in parallel with the changes of the cellular content of this fatty acid. The role of phosphatidic and arachidonic acids as specific activators of PLA₂ in ras-transformed cells is discussed with respect to their possible role in the signal transduction pathways as well as in the processes of malignant transformation of cells.     

Differential involvement of the hyaluronan (HA) receptors CD44 and receptor for HA-mediated motility in endothelial cell function and angiogenesis.

Hyaluronan (HA), an important glycosaminoglycan constituent of the extracellular matrix, has been implicated in angiogenesis. It appears to exert its biological effects through binding interactions with at least two cell surface receptors: CD44 and receptor for HA-mediated motility (RHAMM). Recent in vitro studies have suggested potential roles for these two molecules in various aspects of endothelial function. However, the relative contribution of each receptor to endothelial functions critical to angiogenesis and their roles in vivo have not been established. We therefore investigated the endothelial expression of these proteins and determined the effects of antibodies against RHAMM and CD44 on endothelial cell (EC) function and in vivo angiogenesis. Both receptors were detected on vascular endothelium in situ, and on the surface of cultured EC. Further studies with active blocking antibodies revealed that anti-CD44 but not anti-RHAMM antibody inhibited EC adhesion to HA and EC proliferation, whereas anti-RHAMM but not CD44 antibody blocked EC migration through the basement membrane substrate, Matrigel. Although antibodies against both receptor inhibited in vitro endothelial tube formation, only the anti-RHAMM antibody blocked basic fibroblast growth factor-induced neovascularization in mice. These data suggest that RHAMM and CD44, through interactions with their ligands, are both important to processes required for the formation of new blood vessels.     

Hyaluronan (HA) Interacting Proteins RHAMM and Hyaluronidase Impact Prostate Cancer Cell Behavior and Invadopodia Formation in 3D HA-Based Hydrogels

To study the individual functions of hyaluronan interacting proteins in prostate cancer (PCa) motility through connective tissues, we developed a novel three-dimensional (3D) hyaluronic acid (HA) hydrogel assay that provides a flexible, quantifiable, and physiologically relevant alternative to current methods. Invasion in this system reflects the prevalence of HA in connective tissues and its role in the promotion of cancer cell motility and tissue invasion, making the system ideal to study invasion through bone marrow or other HA-rich connective tissues. The bio-compatible cross-linking process we used allows for direct encapsulation of cancer cells within the gel where they adopt a distinct, cluster-like morphology. Metastatic PCa cells in these hydrogels develop fingerlike structures, “invadopodia”, consistent with their invasive properties. The number of invadopodia, as well as cluster size, shape, and convergence, can provide a quantifiable measure of invasive potential. Among candidate hyaluronan interacting proteins that could be responsible for the behavior we observed, we found that culture in the HA hydrogel triggers invasive PCa cells to differentially express and localize receptor for hyaluronan mediated motility (RHAMM)/CD168 which, in the absence of CD44, appears to contribute to PCa motility and invasion by interacting with the HA hydrogel components. PCa cell invasion through the HA hydrogel also was found to depend on the activity of hyaluronidases. Studies shown here reveal that while hyaluronidase activity is necessary for invadopodia and inter-connecting cluster formation, activity alone is not sufficient for acquisition of invasiveness to occur. We therefore suggest that development of invasive behavior in 3D HA-based systems requires development of additional cellular features, such as activation of motility associated pathways that regulate formation of invadopodia. Thus, we report development of a 3D system amenable to dissection of biological processes associated with cancer cell motility through HA-rich connective tissues.     

Hyaluronan receptors in the human ocular surface: a descriptive and comparative study of RHAMM and CD44 in tissues, cell lines and freshly collected samples

The purpose of this study was to demonstrate the presence of the receptor for hyaluronan-mediated motility (RHAMM) in human conjunctival epithelium and in two widely used cell lines from human corneal (HCE) and conjunctival (IOBA-NHC) epithelia. We compared the distribution of RHAMM proteins and mRNAs in human ocular surface tissues (corneal, limbal and conjunctival), HCE and IOBA-NHC cell lines, and corneal and conjunctival epithelia primary samples from healthy donors with the previously identified hyaluronan receptor CD44. We also aimed to determine if soluble CD44 (sCD44) was present in human tears, as it could have a role in the interaction of the tear fluid with hyaluronan. Protein expression was evaluated by Western blots and immunofluorescence microscopy. mRNA expression was evaluated by RT-PCR and Q-PCR. sCD44 was analyzed by ELISA in culture supernatants and in human tears. We describe the expression of RHAMM in human healthy conjunctiva and in HCE and IOBA-NHC cells at both protein and mRNA levels, and the presence of sCD44 in human tears. Furthermore, we detected CD44 and sCD44 expression variations in in vitro inflammatory conditions. This study also focused on the necessary caution with which the conclusions extracted from cell lines should be made, and in the great value of using primary samples as often as possible.     

Fibroblasts require protein kinase C activation to respond to hyaluronan with increased locomotion.

Hyaluronan (HA) stimulates the motility of some but not all cell types. Here, we show that HA-promoted random motility of ras-transformed 10T1/2 (C3) fibroblasts requires activation of protein kinase C and is associated with rapid uptake of HA in a CD44 and RHAMM-dependent manner. The addition of HA to parental 10T1/2 fibroblasts (parental cells) does not stimulate random motility, but these cells can be 'primed' to respond to HA by treatment with the phorbol ester, PMA, for 4-6 h. This effect of PMA requires protein synthesis, PKC activity and is associated with enhanced uptake of HA. These results suggest that the ability of cells to respond to HA is regulated by a protein kinase C-dependent process that may promote uptake of HA.     

Galectin-3 mRNA level depends on transformation phenotype in ras-transformed NIH 3T3 cells

Summary— The increase in galectin-3 lectin content observed in tumours or in in vitro transformed cells suggests that this lectin is important in the transformation process. In the present study, we investigated the mRNA expression level of the galectin-3, galectin-I and macrophage mannose receptor in normal and ras-transformed NIH 3T3 cells in relation to their transformation state. The galectin3 mRNA content in ras-transformed cells is increased in fully transformed cells, with a maximum in ras-transformed cells that have lost their growth anchorage-dependence. Under the same conditions, the galectin-1 mRNA level which was high in normal cells, increased slightly in transformed cells. The mRNA for the macrophage mannose receptor was not detected in 3T3 cells or in their ras-transformed counterparts.