Differential roles of protein kinase C and pertussis toxin-sensitive G-binding proteins in modulation of melanoma cell proliferation and motility by thrombospondin 1.

Thrombospondin 1 (TSP1) is an angiogenesis inhibitor that decreases tumor growth. We now report that TSP1 directly inhibits the proliferation of human melanoma cells. TSP1, peptides, and a recombinant fragment from the type I repeats, but not peptides that bind CD36 or CD47, inhibit the proliferation of A2058 melanoma cells. In contrast, chemotaxis is mediated by peptides or recombinant fragments from the procollagen, type I, type II, and cell-binding domains. The antiproliferative activity of TSP1 is mediated by a different signal transduction pathway than those mediating motility responses to the same protein. Activators of protein kinase A and protein kinase C inhibit chemotaxis but not the antiproliferative activity of TSP1, whereas the antiproliferative activity is reversed by inhibiting the tyrosine kinase or phosphatase activities. TSP1-mediated chemotaxis is partially dependent on a pertussis toxin (PT)-sensitive G-binding protein, whereas haptotaxis is not. Chemotaxis stimulated by the procollagen domain and the CD47-binding sequences from the COOH-terminal domain are also sensitive to PT, but responses to the type I and type III domains are not sensitive to PT. Residual chemotaxis to TSP1 in the presence of PT may therefore be mediated by the activities of the type I or type III repeats. Thus, TSP1 elicits several intracellular signals in melanoma cells that result from interactions with several domains of this protein and differentially affect growth and motility.

Transfection of thrombospondin 1 complementary DNA into a human breast carcinoma cell line reduces primary tumor growth, metastatic potential, and angiogenesis.

Previous studies demonstrated that metastatic MDA-MB-435 breast carcinoma cells synthesized and secreted less of the extracellular matrix protein thrombospondin 1 (TSP1) than nonmetastatic breast carcinoma cell lines, a trend also observed for melanoma and lung carcinoma cell lines. To directly examine the effect of tumor cell TSP1 expression on tumor growth and metastasis. MDA-MB-435 cells were transfected with full length THBS-1 cDNA linked to a constitutive cytomegalovirus promoter, or with the cytomegalovirus vector alone. Injection of transfected clones that overexpressed TSP1 into the mammary fat pad of nude mice resulted in a dose-dependent inhibition of primary tumor size and an inhibition of spontaneous pulmonary metastases, which occurred in 21-30% of THBS-1 transfectants compared to 44-49% of controls (P = 0.007). An additional clone was identified that overexpressed a COOH-terminally truncated TSP1. This clone produced larger primary tumors and an increase in the occurrence of metastases relative to control transfectants, suggesting the participation of a previously understudied region of TSP1 in the regulation of tumor progression. The THBS-1 and control transfectants did not exhibit significant differences in growth, colonization, or motility in vitro. However, a relative reduction in capillary densities in primary tumors formed by the wild-type THBS-1 transfectants was observed, suggestive of an angiostatic effect. The data indicate that tumor cell production of TSP1 can exert a significant inhibitory effect on tumor progression in the MDA-MB-435 breast carcinoma cell line, which may be attributable in part to a reduction in angiogenesis.

Apolipoprotein E (ApoE), a novel heparin-binding protein inhibits the development of Kaposi's sarcoma-like lesions in BALB/c nu/nu mice.

Recombinant apolipoprotein E-3 (ApoE-3), expressed in Escherichia coli, was purified and used in an in vitro and an in vivo model system for acquired immunodeficiency syndrome-associated Kaposi's sarcoma (AIDS-KS). This protein blocked cell proliferation and chemotaxis of AIDS-KS cells in response to activated lymphocyte conditioned medium (AL-CM) and oncostatin M (OSM). ApoE-3 also inhibited the formation of neoangiogenic lesions induced in BALB/c nu/nu mice by AIDS-KS cells. These findings represent a novel and potentially less toxic therapeutic approach for the treatment of AIDS-KS.

Expression of the extracellular matrix molecule thrombospondin inversely correlates with malignant progression in melanoma, lung and breast carcinoma cell lines.

Thrombospondin (TSP) is a member of a family of extracellular matrix glycoproteins that may participate in multiple aspects of the metastatic cascade. We report an inverse correlation of steady-state Thbs-1 mRNA and protein expression with malignant progression among murine melanoma and human lung and breast carcinoma cell lines. Murine K-1735 melanoma cell lines of low metastatic potential, including K-1735 lines transfected with the murine nm23-1 cDNA, expressed higher TSP levels than related highly metastatic lines. In a model system of lung carcinoma malignant progression, immortalized human bronchial epithelial cells expressed higher TSP levels than v-Ki-ras, v-Ha-ras or n-ras transfectants, which in turn expressed higher TSP levels than tumor-derived, more aggressive variants. Among 3 unrelated breast carcinoma cell lines, Thbs-1 steady-state mRNA levels were greater in the 2 non-metastatic lines than the metastatic line. Our data show that malignant progression in some cell lines is associated with reduced TSP expression. The suppressive effects of nm23-1 transfection on metastatic potential are also associated with increased TSP expression; ras transfection, which results in increased tumorigenesis, is associated with decreased TSP expression.

Specific simple sugars promote chemotaxis and chemokinesis of corneal endothelial cells.

Bovine corneal endothelial cells showed a strong migratory response to specific simple sugars (D-glucose and sucrose, but not L-glucose, sorbitol, lactose, or D-galactose) at concentrations above 10 mM. Checkerboard analysis of the migratory responses in modified Boyden chambers indicated both chemotactic and chemokinetic effects. Serum starvation of the cultures increased the chemotaxis towards D-glucose and 2-deoxy-D-glucose, but not towards sucrose. Migration to sucrose and glucose was inhibited by chelation of extracellular calcium or by inhibition of Na+, K+ ATPase with ouabain. To date, this migratory response has been found only in corneal endothelial cells. Neither human melanoma cells, human breast carcinoma cells, bovine aortic endothelial cells, nor bovine microvascular endothelial cells migrated towards simple sugars, although all cell types migrated toward fibronectin in chemotaxis assays. After 16-19 passages in culture, bovine corneal endothelial cells retained their ability to migrate towards fibronectin, but lost their ability to migrate towards sugars. This loss of migratory response was accompanied by a sevenfold decrease in Na+, K+ ATPase activity. Although loss of Na+, K+ ATPase activity accompanied the loss of migratory response, pretreatment of cell cultures with 25 mM glucose did not stimulate, but rather lowered Na+, K+ ATPase activity in low or high passage cultures.

Heparin-binding peptides from the type I repeats of thrombospondin. Structural requirements for heparin binding and promotion of melanoma cell adhesion and chemotaxis.

Synthetic peptides derived from the type I repeats of human platelet thrombospondin containing a consensus sequence Trp-Ser-Xaa-Trp bind to heparin, promote cell adhesion, and inhibit heparin-dependent interactions of melanoma cells with extracellular matrix components (Guo, N. H., Krutzsch, H. C., Nègre, E., Vogel, T., Blake, D. A., and Roberts, D. D. (1992) Proc. Natl. Acad. Sci. U.S.A. 89, 3040-3044). In the present study, we further examined the structural requirements for activity of these peptides. The minimal active sequence for heparin or sulfatide binding based on inhibition studies is Trp-Ser-Pro-Trp, although an octapeptide is required for optimal activity. The 2 Trp residues and the Ser residue are essential. Peptides with more than 2 residues between the Trp residues are inactive. The Pro residue is essential for activity of the pentapeptide Trp-Ser-Pro-Trp-Ser, but some larger peptides with substitutions for the Pro residue are active. For direct high affinity binding to heparin, both the consensus sequence and a flanking sequence of basic amino acids are essential. Peptides containing the consensus sequence promote cell adhesion and act cooperatively with the adjacent basic amino acid sequence to promote cell spreading. Chemical modification of the Trp residues in the peptides with amino-terminal basic amino acids abolished both cell adhesion and heparin-binding. Peptides containing the consensus sequence and basic amino acids are chemotactic for A2058 human melanoma cells. The functional importance of this novel heparin and sulfatide-binding motif is suggested by its conservation in other members of the thrombospondin gene family, complement components, and in many members of the cytokine receptor and transforming growth factor beta superfamilies.

Suramin inhibits laminin- and thrombospondin-mediated melanoma cell adhesion and migration and binding of these adhesive proteins to sulfatide.

Suramin is a polysulfonated drug with several biological activities including inhibition of binding of some growth factors to cells, inhibition of tumor cell growth, and of glycosaminoglycan metabolism. We report here that suramin also inhibits binding of the adhesive glycoproteins, thrombospondin and laminin, to immobilized sulfatide with 50% inhibitory doses of 220 and 470 micrograms/ml, respectively. Sulfated glycoconjugates on melanoma cells mediate spreading on thrombospondin by binding to the amino-terminal heparin- and sulfatide-binding domain. This domain is also required for chemotaxis on thrombospondin. We therefore examined the effect of suramin on human melanoma cell spreading and migration. Suramin at 50-400 micrograms/ml specifically inhibited G361 melanoma cell spreading on thrombospondin without affecting cell attachment. Suramin also inhibited spreading of A2058 melanoma cells on thrombospondin and laminin and partially inhibited cell attachment. However, suramin had no effect on G361 or A2058 cell attachment or spreading on fibronectin. Chemotaxis of A2058 and G361 melanoma cells to thrombospondin and laminin were also specifically inhibited by suramin, as was haptotaxis of A2058 melanoma cells to laminin. However, suramin only weakly inhibited haptotaxis of G361 melanoma cells to thrombospondin, which is not mediated by the amino-terminal domain, and did not inhibit haptotaxis to fibronectin. These results suggest a new mechanism for the observed antitumor activity of suramin based on its ability to inhibit interactions of tumor cells with laminin or thrombospondin in the extracellular matrix.

Inositol 1,4,5-trisphosphate concentrations increase after adherence in the macrophage-like cell line J774.1.

Several properties of macrophages change when suspended cells become adherent. To determine the intracellular signals involved in these changes, concentrations of the second messenger inositol 1,4,5-trisphosphate [Ins(1,4,5)P3] were monitored during adherence of J774.1 cells, a macrophage-like cell line. When cells grown in suspension were allowed to adhere to a glass surface, there was a transient increase in InsP3 that reached a peak between 100 and 120 s after plating. Inositol mono- and bis-phosphate concentrations were also elevated 100 and 120 s after plating. Analysis of isomer distribution showed significant 3-fold increases in Ins(1,4,5)P3 and inositol 1,3,4,5-tetrakisphosphate [Ins(1,3,4,5)P4] at 100 s after plating. These values were maintained at 120 s, with the additional appearance of a 4-fold increase in inositol 1,3,4-trisphosphate. The adherence-induced generation of Ins(1,4,5)P3 was decreased, and Ins(1,3,4,5)P4 formation was blocked, in Ca2+-free medium. However, doubling intracellular [Ca2+] by addition of the Ca2+ ionophore ionomycin (1 microM) did not increase Ins(1,4,5)P3 in suspended cells. Adherence of J774.1 cells to fibronectin-coated glass also induced an increase in InsP3.

Effect of dexamethasone on biopterin levels and tyrosine hydroxylase activity in PC-12 cells.

Culture of PC-12 cells in 1 microM dexamethasone for 24, 48 or 72 hr did not alter significantly PC-12 cell total biopterin levels, although tyrosine hydroxylase activity in extracts of cell homogenates was increased 2- to 3-fold. Increasing the concentration of dexamethasone to 10 microM did not change biopterin levels or result in further increases in tyrosine hydroxylase activity measured after 72 hr. Culture of cells in dexamethasone markedly decreased the ratio of biopterin concentration to tyrosine hydroxylase activity. The molar ratio of tyrosine hydroxylase subunits to biopterin in control cells can be estimated to be approximately one. Therefore, following induction of the enzyme by dexamethasone, there appears to be an excess of enzyme molecules relative to cofactor molecules in these cells.

Cyclic AMP-stimulated protein kinase activity in rabbit peripheral myelin.

Cyclic AMP-sensitive protein kinase activity has been found in suspensions of purified rabbit peripheral myelin. The enzyme phosphorylated the P0, "Y", X, P1, and P2 myelin proteins. Kinase activity, which was maximal at physiological pH, 2.5 mM Mg2+, and 2 microM cAMP, was stimulated three-fold over basal levels by cyclic AMP. Addition of calcium or EGTA had no effect on the enzyme activity in the presence or absence of cyclic AMP. Cyclic GMP also did not stimulate endogenous or exogenous protein phosphorylation. Theophylline, an inhibitor of 3',5'-cyclic nucleotide phosphodiesterase activity, increased protein kinase activity in the presence of cyclic AMP. These data show that PNS myelin proteins can be phosphorylated in situ by a protein kinase system whose activity is stimulated selectively by cyclic AMP.

Decreased micrococcal nuclease sensitivity of nuclei from nerve growth factor-treated PC12 cells.

Nuclei from nerve growth factor-treated PC12 cells are more resistant to digestion with micrococcal nuclease than are nuclei from control cells. The production of oligosomal fragments is decreased, as is the generation of Mg2+-soluble products. One interpretation of the data is that differentiation of these cells due to treatment with nerve growth factor involves a decrease in the total number of DNA sequences transcribed.

Anin vivo method to prepare normal Schwann cells free of axons and myelin.

A viable population of undifferentiated Schwann cells may be prepared from chronically denervated peripheral nerves. Nerve transection stimulates a sequence of cellular events in distal stumps leading to removal of axons and myelin, and proliferation of Schwann cells. Sealing the ends of nerve stumps prevents reinnervation and leaves daughter Schwann cells residing in longitudinal columns. Schwann cells may be harvested from the endoneurial tissue of the nerve stumps 5-12 weeks after nerve transection. Unlike myelinating cells prepared from intact tissue, where function has been specified by associated axons, Schwann cells obtained from denervated stumps are functionally naive. Their usefulness in analyzing axonal regulation of myelinogenesis and mitosis is therefore suggested.

An analysis of transport, exchange, and binding of sodium and potassium in isolated amphibian follicles and denuded oocytes.

The uptake and efflux of 22Na and 42K were studied in fully grown, prophase-arrested Rana pipiens follicles and denuded oocytes. Follicles and denuded oocytes contained large stores of both cations, although only 15--30% of the total Na+ and 1--2% of the total K+ pools exchanged within the 12-h period studied. 22Na uptake and efflux in follicles exhibited two-step kinetics with a smaller rapidly exchanging fraction (12--15%, t0-5 approximately 15 min), and a larger slow fraction (t0-5 approximately 0-5 day). Denuded oocytes displayed a single kinetic fraction with a rate constant similar to the slow fraction of follicles, suggesting that the fast fraction was associated with the follicular epithelium. Both follicles and denuded oocytes exhibited fast and slow 42K uptake kinetic fractions, although the follicular fast fraction was considerably larger. Conversely, whereas follicular 42K efflux also proceeded with two-step kinetics, 42K efflux from denuded oocytes appeared as a single slow fraction. Thus, a large portion of the fast K+ fraction taken up by the follicles is attributable to the somatic cells of the follicular envelopes. Na+ and K+ activities were measured in the cytoplasm of the in situ (follicular) oocyte using cation-selective microelectrodes. After correcting for Na+ and K+ associated with the follicular envelopes, only about 6% of the total ooplasmic Na+ and less than 1% of the K+ could be accounted for as bound or sequestered.