Protective effect of clonazepam on ischemic brain damage induced by 10-minute bilateral carotid occlusion in Mongolian gerbils

Phenotypic and functional aspects of melanoma-hyaluronate interactions were investigated by studying the expression of CD44, cell migration, and transmembrane penetration of human melanoma cell lines on hyaluronate-coated substrates. Expression of CD44 was tested by flow cytometry on seven human melanoma cell lines. Strong reactivity with anti-CD44 monoclonal antibody was observed in four of seven of the cell lines. Migration studies of CD44(+) cell lines on hyaluronic acid- and chondroitin-6-sulfate-coated substrates, using time-lapse video-microscopy, showed a dramatic dose-dependent increase in migration rate on hyaluronate but not on chondroitin-6-sulfate. Moreover, CD44(-) cell lines showed no modification in migration rate on either substrate. Addition of soluble hyaluronate produced a dose-dependent inhibition of acceleration of CD44(+)cells on hyaluronate-coated substrates, whereas addition of chondroitin-6-sulfate had no effect. Migration inhibition experiments with soluble CD44 (CD44 receptor globulin) also showed specific blocking of the migration of CD44(+) cells on hyaluronate. Haptotactic invasion was increased in CD44(+) cell lines through hyaluronate-coated polycarbonate membranes, whereas no change was detected on chondroitin-6-sulfate-coated membranes. CD44(-) cell lines showed no response to either type of coating. In the melanoma cell lines tested, the expression of CD44 correlated with in vitro migration and invasiveness on hyaluronate substrates. Taken together, our data are consistent with the suggestion that CD44 may play a role in stimulating in vivo aggressiveness of tumors through hyaluronate-rich stroma.     

Psychopathy, schizophrenia, alcohol abuse, and violent recidivism

We have previously shown that CD44 partly mediates ovarian cancer cell attachment to peritoneal mesothelium through recognition of mesothelial-associated hyaluronate. CD44 is a major receptor for hyaluronate and exists as a standard 90-180-kDa form (CD44H), as well as several higher molecular mass variant forms produced by alternative splicing. To determine whether functional differences exist between CD44H and its variants we have investigated the relationship between CD44 isoform expression and mesothelial adhesion in 12 ovarian cancer cell lines. Eight lines were CD44 positive (range, 83-94%) and demonstrated significant binding to mesothelium and hyaluronate, whereas two lines showed reduced CD44 levels (3-13%) and demonstrated decreased binding. Interestingly, two other lines (OVC-3 and SW626) expressed CD44 in the majority of cells (>93%) and yet bound weakly to mesothelium. Mean linear fluorescence intensity of CD44 expressed by OVC-3 and SW626 cells was approximately one-half that of strongly binding cell lines, suggesting that the ability to adhere may be partly related to CD44 surface density. However, immunoprecipitation and immunoblot analyses revealed that standard CD44H represented only 23-31% of total CD44 in weakly binding cells, with the majority of species being comprised of CD44 variants. Indirect immunofluorescence of OVC-3 and SW626 cells confirmed the presence of CD44 variants containing exons v3, v6, and v9. In contrast, CD44H represented the majority (75-86%) of total CD44 expressed by strongly binding cell lines such as CAOV-3 and UPN36T. Transfection of CD44H cDNA into weakly binding OVC-3 cells restored significant mesothelial binding which was partly blocked by anti-CD44 antibody. These data suggest that the expression of CD44 is necessary but not sufficient for mediating attachment of ovarian cancer cells to mesothelium. Although CD44 variants may constitute the major CD44 species in certain ovarian cancer cell lines, it appears that these CD44 species are not always capable of mediating significant binding to mesothelium or hyaluronate. Rather, an adequate level of CD44H is the critical determinant of binding in this system. The role of CD44 variants in the process of ovarian cancer metastasis will require further investigation.     

Induction of fibroblast apoptosis by anti-CD44 antibody: implications for the treatment of fibroproliferative lung disease

Fibroblast migration and proliferation within the alveolar wall and airspace after lung injury can lead to the development of fibrosis. Fibroblast cell surface CD44 is an adhesion receptor for provisional matrix proteins and mediates fibroblast invasion into fibrin matrices. Here we show that incubation of cultured fibroblasts with an anti-CD44 monoclonal antibody induces fibroblast detachment from the substratum and morphological changes compatible with apoptosis. In addition, we show that anti-CD44 monoclonal antibody rapidly induces fibroblast apoptosis within fibrin matrices. The effect of anti-CD44 antibody on induction of fibroblast apoptosis occurred within 8 hours and was dose dependent. Anti-CD44 antibody also induced fibroblast apoptosis in suspension. Furthermore, fibroblasts plated on anti-CD44-antibody-coated surfaces initially attached and spread on the antibody; however, after an 8-hour incubation time, many of the cells developed characteristic morphological features of apoptosis. Collectively, these data indicate that apoptosis did not result solely due to detachment from the substratum. Our results identify a new function for fibroblast cell surface CD44 related to the control of cell viability. We suggest this function may be important in fibroblast population control and could potentially be exploited in designing anti-fibrotic therapies.     

Schwann cell tumors express characteristic patterns of CD44 splice variants

Members of the CD44 family of cell surface hyaluronate-binding proteins have been implicated in cell migration, cell-matrix interactions and tumor progression. To determine whether these proteins might play a role in the normal functions of Schwann cells and in their tumorigenesis, we examined the patterns of CD44 expression in Schwann cells from rat peripheral nerve, rat Schwann cell tumor lines, and human schwannomas. Normal rat spinal nerves and primary Schwann cell cultures expressed standard CD44 (CD44s) but not alternatively spliced variant isoforms. In contrast, rat Schwann cell tumor lines expressed both CD44s and a number of variants, including proteins containing sequences encoded by exon v6. Furthermore, we found that these cell lines bind hyaluronate, and that their cell surface hyaluronate binding correlates with CD44 expression. All of the human schwannomas also expressed CD44 variants, especially epitopes encoded by exon v5, the border between v7 and v8, and v9-10. These data indicate that Schwann cells normally express CD44s, that Schwann cell tumors express both CD44s and particular variants of CD44, and that CD44s and possibly variants of CD44 are involved in hyaluronate recognition by Schwann cell tumors.     

The CD44 adhesion molecule and metastasis

The family of related cell surface adhesion molecules designated CD44 are multifunctional proteins displayed by a wide variety of normal and malignant tissues. CD44 properties in vitro include hyaluronate-mediated adhesion, motility, hyaluronate degradation, self-aggregation, and adhesion to lymphoid tissue. These properties are among several that are required by invasive and metastatic tumor cells. Several in vivo experiments indicate that tumor cells transfected to overexpress specific CD44 isoforms display an enhancement in metastatic potential. Numerous CD44 isoforms exist as a result of alternative splicing, and specific isoforms enhance tumor cell metastasis more efficiently than others. This suggests that regulation of CD44 alternative splicing is an important determinant of metastatic potential. Several human tumors display specific alterations in CD44 isoform expression, and the extent of clinical disease in specific tumors correlates with the CD44 isoform expression pattern. In this review we analyze these data that suggest that CD44 plays an important role in tumor metastasis.     

Differential susceptibility to HIV-GP120-sensitized apoptosis in CD4+ T-cell clones with different T-helper phenotypes: role of CD95/CD95L interactions

The susceptibility of Th1 and Th2 cell clones to apoptosis following HIV-gp120/CD4 cross-linking and TCR activation was investigated. We show that only Th1 clones are susceptible to HIV-gp120-sensitized apoptosis, although both types of clones express similar levels of CD4 and bind similar amounts of recombinant gp120. Both types of clones, however, undergo apoptosis induced by CD95 cross-linking with agonistic monoclonal antibody (MoAb). Apoptosis induced by gp120 in the Th1 clones is inhibited by either an anti-CD95 neutralizing MoAb or an anti-CD95L neutralizing MoAb as well as by a specific interleukin-1 beta converting enzyme (ICE) inhibitor. When triggered to apoptosis by gp120, Th1 but not Th2 clones express both cell-associated and soluble CD95L. The CD95L produced by Th1 clones induces cell death, inhibitable by anti-CD95 neutralizing MoAb, of CD95 positive Jurkat cells. These data suggest that, like activation-induced apoptosis, HIV-gp120 sensitized apoptosis in Th1 clones occurs via CD95/CD95L interaction and that lack or insufficient production of CD95L is responsible, at least in part, for the resistance of Th2 clones to such apoptosis.     

Induction of apoptosis of metastatic mammary carcinoma cells in vivo by disruption of tumor cell surface CD44 function

To understand how the hyaluronan receptor CD44 regulates tumor metastasis, the murine mammary carcinoma TA3/St, which constitutively expresses cell surface CD44, was transfected with cDNAs encoding soluble isoforms of CD44 and the transfectants (TA3sCD44) were compared with parental cells (transfected with expression vector only) for growth in vivo and in vitro. Local release of soluble CD44 by the transfectants inhibited the ability of endogenous cell surface CD44 to bind and internalize hyaluronan and to mediate TA3 cell invasion of hyaluronan-producing cell monolayers. Mice intravenously injected with parental TA3/St cells developed massive pulmonary metastases within 21-28 d, whereas animals injected with TA3sCD44 cells developed few or no tumors. Tracing of labeled parental and transfectant tumor cells revealed that both cell types initially adhered to pulmonary endothelium and penetrated the interstitial stroma. However, although parental cells were dividing and forming clusters within lung tissue 48 h following injection, >80% of TA3sCD44 cells underwent apoptosis. Although sCD44 transfectants displayed a marked reduction in their ability to internalize and degrade hyaluronan, they elicited abundant local hyaluronan production within invaded lung tissue, comparable to that induced by parental cells. These observations provide direct evidence that cell surface CD44 function promotes tumor cell survival in invaded tissue and that its suppression can induce apoptosis of the invading tumor cells, possibly as a result of impairing their ability to penetrate the host tissue hyaluronan barrier.     

Binding of ovarian cancer cells to immobilized hyaluronic acid

Ovarian cancer has the highest mortality rate of any gynaecological malignancy. This is caused by metastatic deposits obstructing the intestinal tract. Very little is known about the molecules involved in the initial attachment of the metastatic tumour cells to the peritoneal mesothelial lining. Previously, we showed that many ovarian tumour lines express the adhesion molecule, CD44, on their cell surface. The major ligand for CD44 is the extracellular matrix glycosaminoglycan, hyaluronic acid (HA). Because mesothelial cells have a pericellular cost that contains large amounts of HA, it was postulated that the CD44/HA interaction is an important stage in ovarian cancer spread. However, it was difficult to demonstrate this interaction in an in vitro adhesion assay with mesothelial cells as most of the HA, and presumably the bound tumour cells, were lost from the mesothelial cells during the washing steps of the assay. In order to try and clarify the situation, the adhesion of six ovarian tumour lines to immobilized HA was measured. Four lines expressed high levels of CD44 and two lines expressed negligible amounts. Preliminary experiments were carried out with one of the CD44-expressing lines. After coating a plate overnight with 3 mg ml(-1) HA, the 5 min adhesion of this line varied between 2% and 73% according to the type of plate that was used. Falcon Micro Test III flexible plates gave the highest adhesion and was used for further experiments. Plates were coated with concentrations of HA between 0.001 mg ml(-1) and 3 mg ml(-1). All CD44 expressing lines adhered to HA, but the maximum adhesion and the adhesion strength varied with the line studied and was not closely related to the total CD44 expression. These results suggest that CD44 on ovarian tumour cells binds to HA on mesothelial cells. As much of the HA can be very easily lost from the mesothelial cell surface, additional factors such as the strength of the CD44/HA interaction, and the formation of bonds by the tumour cells with other membrane adhesion molecules, such as integrins, are also important in promoting tumour spread.     

Induction of death (CD95/FAS), activation and adhesion (CD54) molecules on blast cells of acute myelogenous leukemias by TNF-alpha and IFN-gamma

Leukemic growth is determined by the balance of cell proliferation, differentiation and cell death. In vitro, the blasts of acute myelogenous leukemia (AML) proliferate under the influence of certain positive and negative regulators (cytokines). We conducted this study to determine whether cytokines could induce markers of cell death (FAS/Apo-1/CD95), of cell activation (HLA-DR) and cell adhesion (ICAM-1, CD54) in AML cell lines and primary AML samples. As inducers, tumor necrosis factor (TNF)-alpha and interferon (IFN)-gamma were chosen. At baseline, CD95 and CD54 were weakly and HLA-DR was strongly expressed. CD95 was induced by TNF in 6/12 myeloid leukemia cell lines, and by IFN in 9/12 cell lines. Taken together, CD95 was upregulated by at least one cytokine in 11/12 cell lines. HLA-DR was inducible in 10/12 cell lines, with IFN being more potent than TNF. CD54 showed the strongest induction: TNF resulted in a more than 20-fold induction in positive cell lines, and IFN resulted in a more than 20-fold induction. In primary AML samples, CD95 was induced in 14/14 samples examined, with TNF being more potent than IFN. HLA-DR expression was increased by IFN in 12/15 samples and by TNF in 11/13 samples. The inducibility of HLA-DR by IFN was inversely correlated with baseline expression. As in the cell lines, CD54 was induced in most cases of AML. In addition to the induction of surface markers by cytokines, the culture of leukemia cells with fetal calf serum increased the expression of these markers, especially CD95 and CD54. Our results demonstrate that CD95 is not downregulated when TNF binds to its receptors, but is induced in cell lines and patient samples. Despite the induction of expression of CD95 (all cases of AML and most cell lines), 7/8 myelogenous leukemia lines and 6/7 patient samples remained resistant to CD95 triggering by antibody or by CD95 ligand, which suggests a lesion in normal cell signaling. As a positive control, a T-cell line (Jurkat) with 60% to > 90% apoptotic cells after a 22 h incubation was used. The number of CD95-binding sites was not correlated with the induction of apoptosis. The resistance of most cases of AML to CD95 triggering despite inducible expression may also be related to leukemia-specific antagonists of CD95 signal transduction, and requires further investigation. Altogether, our results indicate that surface markers related to apoptosis, activation and adhesion can be induced on AML blasts, and could be relevant to treatment strategies that exploit ligand binding to these surface epitopes.     

Requirement for the CD95 receptor-ligand pathway in c-Myc-induced apoptosis

Induction of apoptosis by oncogenes like c-myc may be important in restraining the emergence of neoplasia. However, the mechanism by which c-myc induces apoptosis is unknown. CD95 (also termed Fas or APO-1) is a cell surface transmembrane receptor of the tumor necrosis factor receptor family that activates an intrinsic apoptotic suicide program in cells upon binding either its ligand CD95L or antibody. c-myc-induced apoptosis was shown to require interaction on the cell surface between CD95 and its ligand. c-Myc acts downstream of the CD95 receptor by sensitizing cells to the CD95 death signal. Moreover, IGF-I signaling and Bcl-2 suppress c-myc-induced apoptosis by also acting downstream of CD95. These findings link two apoptotic pathways previously thought to be independent and establish the dependency of Myc on CD95 signaling for its killing activity.     

Functional and clinical relevance of CD44 variant isoform expression on B-cell chronic lymphocytic leukemia cells

BACKGROUND AND OBJECTIVE: Recent studies have shown that expression of adhesion molecules of the Ig superfamily, of integrins and of selectins allows definition of high vs low risk B-cell chronic lymphocytic leukemia (B-CLL). The proteoglycan CD44 is an adhesion molecule that may be expressed as a standard form of 85-95 KD or as several variant isoforms. The presence of certain CD44 variant (v) isoforms on neoplastic cells indicates poor prognosis in epithelial and lymphoid malignancies, as it is associated with tumor progression and metastasis. DESIGN AND METHODS: The expression of CD44 v3, 4, 5, 6, 7, 9 and 10 was analyzed in cells from 85 B-CLL patients. Indirect immunofluorescence and flow cytometry were used to identify CD44v. Functional studies were performed by analysis of adhesion to hyaluronate (HA), one CD44 ligand, and HA-induced Ca2+ influx. A variety of statistical methods were used to define phenotypic and functional differences between the various clones, to calculate survival curves, and for multivariate analyses. RESULTS: In 17/85 B-CLL (20%), one or more CD44v were detectable by indirect immunofluorescence, whereas in 68/85 cases (80%) this technique yielded negative results. However, moAb "mixes" against CD44v and patching of surface molecules on B-CLL cells have shown that all B-CLL clones express CD44v. This has been confirmed by Western blot in a number of cases. Thus, two groups of patients whose cells bear CD44v at high or low density, are distinguished. Functions of the two clonotypes were investigated, namely their adhesion to a CD44 ligand and hyaluronate (HA), and effect on HA-induced Ca2+ influx. Cells expressing high density CD44v adhere to HA-coated substrates more efficiently than cells with low density CD44v. In all clones, HA-signaling via CD44 yields Ca2+ influx. This indicates that CD44 mediates activatory signals following interaction with the ligand. INTERPRETATION AND CONCLUSIONS: The clinical relevance of these findings has been ascertained. The 17/85 cases whose cells bore high density CD44v had significantly worse prognostic features than those of patients with low density CD44v, namely more advanced disease stage, LDT < 12 months and therapy requirement. Moreover, the median survival in the former group of patients was < 5 years as opposed to > 12 years in the latter. Therefore, analysis of CD44v expression provides indications of biological and clinical relevance also in low grade lymphoproliferative disorders.     

Identification of allergens in oilseed rape (Brassica napus) pollen

Monoclonal antibodies to very late antigen 4 (VLA-4) recognize the alpha4beta1 integrin receptor. This monoclonal antibody blocks the adhesion between early hematopoietic progenitor cells (CD34-selected cells) and stromal cells when added to cultures of these cells. Addition of the VLA-4 monoclonal antibody to cultures of stromal cells and CD34-selected cells was shown to induce apoptosis of CD34-selected cells in these CD34-selected cell/stromal cell cocultures, as measured by the terminal deoxynucleotidyltransferase-mediated dUTP-biotin nick end-labeling method. In contrast to these experiments with early hematopoietic progenitor cells (CD34+), the level of adhesion between more differentiated cells (unfractionated hematopoietic cells) and stromal cells was not significantly altered by addition of the anti-VLA-4 monoclonal antibody. Similarly, the level of apoptosis of unfractionated hematopoietic cells was not significantly increased by the addition of anti-VLA-4 monoclonal antibody to cultures of the latter cells with stromal cells. The binding of the unfractionated cells is less than that of the CD34-selected cells. Given that there is no difference between the alpha4beta1 integrin expression level of the early and late myeloid cells, there may be a difference in the functional state of the integrin between the early and late myeloid cells. We also show that CD34+-selected precursor cells proliferate at a higher rate when these cells are plated on recombinant vascular cell adhesion molecule 1 molecules. These data indicate that the alpha4beta1 integrin receptor (VLA-4) plays a central role in the apoptosis rescue function that results from the anchorage-dependent growth of the CD34-selected early hematopoietic cells on stromal cells. The data suggest that these apoptosis rescue pathways have less significance as the cells mature and become anchorage independent in their growth. These data should assist in the design of systems for the ex vivo proliferation and transduction of early hematopoietic cells for genetic therapy.     

Variant exons v6 and v7 together expand the repertoire of glycosaminoglycans bound by CD44

Isoforms of the glycoprotein CD44 are cell surface receptors for the glycosaminoglycan hyaluronate. They have been implicated in many biological processes, but their function in these is poorly understood and cannot be explained solely by hyaluronate binding. In the present work we examine the ligand binding properties of alternatively spliced CD44 variant isoforms which are functionally involved in the immune system, embryonic development, and tumor behavior. We show that these isoforms bind directly to the purified glycosaminoglycans chondroitin sulfate, heparin, and heparin sulfate, in addition to being able to bind to hyaluronate. Binding to this extended repertoire of glycosaminoglycans by CD44 depends on the inclusion of peptide sequences encoded by the alternatively spliced exons v6 and v7, and occurs both when the CD44 is solubilized from the plasma membrane and when it is expressed on intact cells. A single point mutation in the most N-terminal hyaluronate binding motif of CD44 ablates both hyaluronate and chondroitin sulfate binding, suggesting that glycosaminoglycans are bound through a common motif, and that only one of the hyaluronate binding motifs is responsible for the majority of glycosaminoglycan binding by CD44 on the cell surface. Taken together, these observations indicate that alternative splicing regulates the ligand binding specificity of CD44 and suggest that structural changes in the CD44 protein have a profound effect on the range of ligands to which this molecule can bind with potentially wide-ranging functional consequences.     

Heterogeneity of CD44 expression among human B-cell subpopulations

CD44 is a widely distributed cell surface glycoprotein that participates in a number of cellular adhesion and signal transduction processes. Germinal center B cells express very low levels of CD44, whereas their precursors and differentiation products express much higher levels. In immunofluorescence studies comparing 20 antibodies classified as being against the hematopoietic isoform of CD44, one antibody, A1G3, was unreactive with germinal center B cells, whereas the other antibodies showed low intensity but definite reactivity. Western blotting and sequential immunoprecipitation studies of lysates from density-separated lymphocyte fractions showed two bands that were differentially expressed and reacted differently with A1G3 compared with the other CD44 antibodies. These results suggest that germinal center B cells and non-germinal center B cells express different forms of CD44. Of 21 malignant B-cell populations examined, 5 showed reactivity with a "standard" CD44 reagent and significantly reduced reactivity with A1G3, while one sample showed the opposite pattern and the remainder were positive for both reagents. Of 10 cell lines studied, 5 were differentially stained by A1G3 and a standard CD44 antibody. PCR amplification of reverse transcribed mRNA from sorted human tonsil B-cell subpopulations and Southern blotting showed that B cells express a number of splice isoforms of CD44. These results demonstrate that B cells express multiple forms of CD44; both splice insert isoforms and variants distinguished by A1G3; the form of CD44 expressed depends on B-cell differentiation state.     

PECAM-1 is required for transendothelial migration of leukocytes

Platelet/endothelial cell adhesion molecule 1 (PECAM-1; CD31) is crucial to the process of leukocyte transmigration through intercellular junctions of vascular endothelial cells. A monoclonal antibody to PECAM, or recombinant soluble PECAM, blocks transendothelial migration of monocytes by 70-90%. Pretreating either the monocytes or the endothelial junctions with antibody blocks transmigration. If the endothelium is first activated by cytokines, anti-PECAM antibody or soluble recombinant PECAM again block transmigration of both monocytes and neutrophils. Anti-PECAM does not block chemotaxis of either cell type. Light and electron microscopy reveal that leukocytes blocked in transmigration remain tightly bound to the apical surface of the endothelial cell, precisely over the intercellular junction. Thus, the process of leukocyte emigration can be dissected into three successive stages: rolling, mediated by the selectin class of adhesion molecules; tight adhesion, mediated by the leukocyte integrins and their endothelial cell counter-receptors; and now transmigration, which, based on these studies, requires PECAM-1.     

Dynamic changes in intracapillary hemoglobin oxygenation in human skin following various temperature changes

Modulation of Fas expression and function by CD40 ligation was investigated in the Fas-sensitive human Hodgkin's disease cell line HDLM2. The recombinant human trimeric soluble CD40L (sCD40L) protected this cell line from apoptosis induced by an agonistic Fas antibody at all concentrations tested. sCD40L also protected HDLM2 when added up to 2 h after Fas ligation. Apoptosis induced by a cell-permeable synthetic ceramide could not be prevented by sCD40L. Thus, CD40 ligation is likely to intervene in the early phases of the Fas signal transduction pathway. When CD40 ligation preceded Fas ligation, it rendered the cells refractory to Fas-induced apoptosis. sCD40L-mediated protection could not be attributed to reduction in surface Fas expression, increase in Bcl-2 levels or to increase in the levels of soluble Fas isoforms.     

Clinical comparison of an enhanced-sensitivity branched-DNA assay and reverse transcription-PCR for quantitation of human immunodeficiency virus type 1 RNA in plasma

We investigated whether inhibition of the BCR-ABL tyrosine kinase by the CGP57418B compound would render chronic myeloid leukaemia (CML) cells susceptible to Fas (CD95, Apo-1)-mediated cell death. Only two (AR230 and SD1) out of 10 BCR-ABL positive cell lines were found to express the CD95 protein. No change in Fas expression was observed in any of the 10 cell lines after 48 h exposure to CGP57418B. AR230 cells were resistant and SD1 cells were partially resistant to Fas-mediated apoptosis induced by ligation of the Fas receptor to an anti-Fas IgM antibody. Pre-incubation with 1 microM CGP57418B did not change the susceptibility of these cell lines to Fas-mediated cell death. Similar results were observed in experiments with CD34+ cells from CML patients and from normal individuals. The data suggest that, in contrast to some cytotoxic drugs, the CGP57148B tyrosine kinase inhibitor utilizes a pathway other than the CD95 system in order to induce apoptosis in CML cells.