Neoplastic modulation of extracellular matrix. Colon carcinoma cells release polypeptides that alter proteoglycan metabolism in colon fibroblasts

Cx43 Expression Correlates with Breast Cancer Metastasis in MDA-MB-231 Cells In Vitro, In a Mouse Xenograft Model and in Human Breast Cancer Tissues

Connexins regulate multiple cellular functions and are considered tumor suppressors. Connexin43 (Cx43) is frequently down-regulated in breast tumors. However, Cx43 regulation during cancer onset and metastasis is complex and context-dependent. We investigated the effect of Cx43 over-expression or knock-down on the metastatic potential of MDA-MB-231 breast cancer cells in vitro and in vivo and in human breast cancer tissues. MDA-MB-231 cells over-expressing (Cx43D) or down-regulating Cx43 (shCx43) were generated and used in proliferation, migration, and invasion assays. The regulation of genes/proteins implicated in progression, invasion and metastasis was assessed in vitro and in immune-compromized mice injected with MDA-MB-231, Cx43D or shCx43 cells. Primary tumor onset/growth, metastasis and overall survival of these animals was monitored and evaluated. In addition, Cx43 expression in human breast carcinoma samples was assessed by qPCR. Cx43 over-expression increased protein levels of epithelial markers E-cadherin and zonula occludens 1 expression and resulted in the sequestration of β-catenin at the cell membrane, while Cx43 knock-down induced protein expression of the mesenchymal marker N-cadherin and an increased invasive potential of shCx43 cells. In vivo, in mice xenografted with breast cancer cells, Cx43 over-expression decreased tumor volume, attenuated cell metastasis to lungs and liver and increased overall mice survival. Importantly, the expression of Cx43 in triple negative human breast cancer tissues is also down-regulated. Collectively, Cx43 over-expression induced an epithelial-like phenotype in MDA-MB-231 cells and suppressed tumor growth and metastasis to secondary organs in vivo. In contrast, Cx43 knock-down in MDA-MB-231 cells induced a mesenchymal phenotype with increased cell invasion leading to an enhanced metastatic phenotype. These data provide evidence for a pivotal role of Cx43 in breast cancer metastasis and support the potential targeting of connexins in breast cancer therapy.

Combinations of gene ontology and pathway characterize and predict prognosis genes for recurrence of gastric cancer after surgery

Gastric cancer (GC) is the second leading cause of death from cancer globally. The most common cause of GC is the infection of Helicobacter pylori, but ∼11% of cases are caused by genetic factors. However, recurrences occur in approximately one-third of stage II GC patients, even if they are treated with adjuvant chemotherapy or chemoradiotherapy. This is potentially due to expression variation of genes; some candidate prognostic genes were identified in patients with high-risk recurrences. The objective of this study was to develop an effective computational method for meaningfully interpreting these GC-related genes and accurately predicting novel prognostic genes for high-risk recurrence patients. We employed properties of genes (gene ontology [GO] and KEGG pathway information) as features to characterize GC-related genes. We obtained an optimal set of features for interpreting these genes. By applying the minimum redundancy maximum relevance algorithm, we predicted the GC-related genes. With the same approach, we further predicted the genes for the prognostic of high-risk recurrence. We obtained 1104 GO terms and KEGG pathways and 530 GO terms and KEGG pathways, respectively, that characterized GC-related genes and recurrence-related genes well. Finally, three novel prognostic genes were predicted to help supplement genetic markers of high-risk GC patients for recurrence after surgery. An in-depth text mining indicated that the results are quite consistent with previous knowledge. Survival analysis of patients confirmed the novel prognostic genes as markers. By analyzing the related genes, we developed a systematic method to interpret the possible underlying mechanism of GC. The novel prognostic genes facilitate the understanding and therapy of GC recurrences after surgery.

Human T-cell lymphotropic virus type I-infected cells extravasate through the endothelial barrier by a local angiogenesis-like mechanism

Extravasation of tumor cells through the endothelial barrier is a critical step in cancer metastasis. Human T-cell lymphotropic virus type I (HTLV-I)-associated adult T-cell leukemia/lymphoma (ATL) is an aggressive disease characterized by visceral invasion. We show that ATL and HTLV-I-associated myelopathy patients exhibit high plasma levels of functional vascular endothelial growth factor and basic fibroblast growth factor. The viral oncoprotein Tax transactivates the promoter of the gap-junction protein connexin-43 and enhances gap-junction-mediated heterocellular communication with endothelial cells. The interaction of HTLV-I-transformed cells with endothelial cells induces the gelatinase activity of matrix metalloproteinase (MMP)-2 and MMP-9 in endothelial cells and down-regulates the tissue inhibitor of MMP. This leads to subendothelial basement membrane degradation followed by endothelial cell retraction, allowing neoplastic lymphocyte extravasation. We propose a model that offers a mechanistic explanation for extravasation of HTLV-I-infected cells: after specific adhesion to endothelia of target organs, tumor cells induce a local and transient angiogenesis-like mechanism through paracrine stimulation and direct cell-cell communication with endothelial cells. This culminates in a breach of the endothelial barrier function, allowing cancer cell invasion. This local and transient angiogenesis-like sequence that may facilitate visceral invasion in ATL represents a potential target for ATL therapy.

Altered content composition and structure of glycosaminoglycans and proteoglycans in gastric carcinoma

Glycosaminoglycans (GAGs) in proteoglycan (PG) forms or as free GAGs are implicated in the growth and progression of malignant tumors. These macromolecules were investigated in human gastric carcinoma (HGC) and compared with those in human normal gastric mucosa (HNG). We report that HGC contained about 2-fold increased amounts of GAGs in comparison to HNG. Specifically, HGC showed 3- and 2.5-fold net increase in chondroitin sulphate (CS) and hyaluronan (HA) contents, respectively. Dermatan sulphate (DS) was slightly increased, but the amount of heparan sulphate (HS) was decreased. Of particular, interest were the quite different sulphation profiles of CS and DS chains in HGC in which, non-sulphated and 6-sulphated disaccharide units were increased 10 and 4 times, respectively, in comparison to HNG. On PG level, three different populations were identified in both HNG and HGC, being HSPGs, versican (CS/DS chains) and decorin (CS/DS chains). In HGC, the amounts of versican and decorin were significantly increased about 3- and 8-fold, respectively. These PGs were also characterized by marked decrease in hydrodynamic size and GAG content per PG molecule. Analysis of Delta-disaccharide of versican and decorin from HGC showed an increase of 6-sulphated Delta-disaccharides (Delta di-6S) and non-sulphated Delta-disaccharides (Delta di-0S) with a parallel decrease of 4-sulphated Delta-disaccharides (Delta di-4S) as compared to HNG, which closely correlated with the increase of CS content. In addition, the accumulation of core proteins of versican and decorin in HGC was also associated with many post-translational modifications, referring to the number, size, degree and patterns of sulphation and epimerization of CS/DS chains. Studies on the modified metabolism of PGs/GAGs are under progress and will help in deeper understanding of the environment in which tumor cells proliferate and invade.

Tenascin and proteoglycans: the role of tenascin and proteoglycans in canine tumours

Tenascin is a high molecular weight, extracellular matrix glycoprotein, subject to complex spatial and temporal patterns of expression during embryogenesis, wound healing and neoplastic processes. Proteoglycans are complex macromolecules, containing one or more glycosaminoglycans attached to a core protein, which are involved in cell-cell and cell-matrix interaction. Altered expression of both tenascin and proteoglycans has been found in tumours and expression of these two extracellular matrix proteins seems to be modulated in the same way in human and canine tumours. The quantitative and qualitative changes in tenascin and proteoglycan composition may significantly affect behaviour of tumour cells. While tenascin and proteoglycans have many biological functions likely to influence tumour development and progression, their exact role in regulation of tumour cell-cell interaction, proliferation, invasion and metastasis remains to be established. This review focuses on the role of tenascin and proteoglycans in neoplasia and recent developments in canine tumours.

Expression of lumican in human colorectal cancer cells

Lumican is a member of a small leucine-rich proteoglycan family and its overexpression in human breast cancer tissues is reported to influence the growth of cancer cells. In the present study, we aimed to clarify the expression of lumican mRNA and its protein in human colorectal cancer cell lines and their localization in normal and cancerous colorectal tissues. Reverse transcription-polymerase chain reaction and western blot analysis revealed lumican mRNA and its protein expression in COLO 205, DLD-1, HCT-15, SW 480 and WiDr colorectal cancer cell lines. The lumican in colorectal cancer cells had non-sulfated or poorly sulfated polylactosamine side chains. Based on its immunoreactivity, the lumican protein was found to be localized in fibroblasts and stromal tissues of normal colorectal tissues, but not in colorectal epithelial cells. In colorectal cancer tissues, the lumican was strongly localized in cancer cells in eight of 12 cancer cases. The lumican protein was also localized in epithelial cells with mild reactive dysplasia and fibroblasts adjacent to cancer cells. Lumican mRNA was expressed in cancer cells and adjacent fibroblasts, and epithelial cells. These findings may indicate that the lumican protein synthesized by cancer cells, fibroblasts and epithelial cells with mild reactive dysplasia found adjacent to cancer cells may affect the growth of human colorectal cancer cells.

Increased glycosaminoglycans production in sclerosing basal cell carcinoma-derived fibroblasts and stimulation of normal skin fibroblast glycosaminoglycans production by a cytokine-derived from sclerosing basal cell carcinoma

Sclerosing basal cell carcinoma (S-BCC) is characterized by an abundant stroma. There is evidence that some tumor cells secrete cytokines that are mitogenic for stromal fibroblasts (FBs). From this study we report increased glycosaminoglycan (GAG) production by cultures of S-BCC FBs in comparison to cultures of nodular BCC (N-BCC) FBs and normal skin FBs. GAG production was measured by cetylpyridinium chloride precipitation of incorporated [3H]-glucosamine. The sclerosing BCC FBs demonstrated a significant increase in production of GAG over control FBs (P <.001) and over N-BCC FBs (P<.001). Values reported as a mean percentage +/- SEM for GAG production by S-BCC over control normal skin FBs are 359+/-28 and over N-BCC FBs are 266+/-27. In additional experiments, cell extract dilutions from S-BCC tumor, normal dermis, and normal epidermis were incubated with cultures of normal skin FBs. S-BCC-conditioned media was also incubated with normal FBs and GAG production was measured. For both S-BCC extracts and conditioned media, a dose response curve was established showing increased GAG production by normal FBs in relation to increasing the concentration of S-BCC extract or conditioned media. When S-BCC extract was added to normal FBs there was increased GAG production in comparison to normal FBs incubated with dermal or epidermal extracts (P<.001) for both. Two growth factors, transforming growth factor-beta (TGF-beta) and platelet-derived growth factor (PDGF), already known to be mitogenic for FBs, were incubated with N-BCC and normal FBs in an effort to elucidate the potential cytokine(s) released by S-BCC, causing increased GAG production by surrounding FBs. Neither of these cytokines proved to be effective in promoting a significant increase in GAG production. Our findings support the hypothesis that BCCs release factors that alter stromal FB production of GAG.

Pancreatic carcinoma is characterized by elevated content of hyaluronan and chondroitin sulfate with altered disaccharide composition

The amount and the types of glycosaminoglycans (GAGs) present in human pancreatic carcinoma were examined and compared with those in normal pancreas. Human pancreatic carcinoma contained increased levels (4-fold) of total GAGs. Particularly, this carcinoma is characterized by a 12-fold increase of hyaluronan (HA) and a 22-fold increase in chondroitin sulfate (CS) content. CS in pancreatic carcinoma exhibited an altered disaccharide composition which is associated with marked increase of non-sulfated and 6-sulfated disaccharides. Dermatan sulfate (DS) was also increased (1.5-fold) in carcinoma, whereas heparan sulfate (HS), the major GAG of normal pancreas, becomes the minor GAG in pancreatic carcinoma without significant changes in the content and in molecular size. In all cases, the galactosaminoglycans (GalGAGs, i.e. CS and DS) derived from pancreatic carcinomas were of lower molecular size compared to those from normal pancreas. The results in this study indicate, for the first time, that human pancreatic carcinoma is characterized by highly increased amounts of HA and of a structurally altered CS.

Effect of tumor-conditioned medium on intercellular communication and proliferation of Balb/c 3T3 cells

The possible role of tumor cell-derived factors in the regulation of gap junctional intercellular communication and proliferation of fibroblasts was studied in a model system of Balb/c 3T3 cells growing in tumor conditioned medium by Lucifer Yellow CH dye-transfer and BrdU incorporation assays. Six to 24 h incubation of Balb/c 3T3 cells in a medium conditioned by WiDr adenocarcinoma cells enhanced the gap junctional communication between the cells by 25-40% as revealed by intercellular transfer of a fluorescent dye Lucifer Yellow CH. Simultaneously the cell proliferation rates were examined and found to be reduced by 23% at 24 h treatment. Since adenocarcinoma cells are known to secrete different growth factor-like polypeptides into their conditioned medium, we suppose that tumors that produce these molecules might alter their host environment through the enhancement of cell-cell communication thereby facilitating the exchange of modulatory factors.

Stromal accumulation of chondroitin sulphate in mammary tumours of dogs

To contribute to the investigation of the composition of the extracellular matrix in epithelial tumours, mammary gland tissues of dogs (including tumours, hyperplasias and normal tissue as well as metastatic lesions in lymph nodes and lung) were studied histochemically and immunohistochemically for distribution of sulphated glycosaminoglycans (s-GAGs). The formaline-fixed tissue was stained by alcian blue at pH 5.8, using the 'critical electrolyte concentration' to study the degree of sulphation of s-GAGs. s-GAGs were characterized by degradation with enzymes and nitrous acid and by immunohistochemistry with two anti-chondroitin sulphate monoclonal antibodies. The light microscopic investigation of s-GAG deposits revealed a limited number of patterns of their distribution. The main s-GAGs found in the mammary gland tumours of dogs and in metastatic lesions were chondroitin sulphate (CS) and heparin/heparan sulphate (HEP/HS). CS accumulated in diffuse structures between epithelial cells as well as around clusters of tumour cells. The latter pattern, possibly representing a mesenchymal reaction to the tumour, was present in 74% of the tumours, and in 67% of these, highly sulphated CS was present. A diffuse accumulation of CS was present almost exclusively in complex and mixed tumours; because of the expression of the 3B3 epitope for CS in immature cartilage the spindle cells of complex tumours are argued to be the precursors of the cartilage in mixed tumours. HEP/HS was stored mainly in mast cells that were found in increased numbers in hyperplasias and tumours. By pretreatment of microscopic slides with chondroitinase AC or ABC immunostaining of fibronectin could be made possible in areas in which CS was abundantly present, suggesting that CS may mask fibronectin epitopes. It is concluded that CS with different degrees of sulphation is the most important s-GAG in the extracellular matrix of mammary tumours of dogs. CS and other s-GAGs accumulate at different sites and may have a different pathogenetic significance.

Melanoma cell-derived factor stimulation of fibroblast glycosaminoglycan synthesis--the role of platelet-derived growth factor

The hyaluronan-rich matrix surrounding many tumours may facilitate tumour growth, invasion and angiogenesis, with the majority of this hyaluronan apparently being synthesised by normal fibroblasts, stimulated to do so by tumour cell-derived factors. Melanoma cell-conditioned medium (CM) stimulates up to a 6-fold increase in fibroblast glycosaminoglycan (GAG) synthesis, with the active factors being present in tumour CM ultrafiltration fractions > 30 kDa and < 1 kDa. These fractions are poorly active individually, but when recombined, the activity is substantially greater than the additive effect. The objective of this study was to identify the factors present in the ultrafiltration fraction > 30 kDa that produce a greater than additive effect with the fraction < 1 kDa in stimulating the incorporation of 3H glucosamine into fibroblast GAGs. A number of factors including basic fibroblast growth factor (bFGF), interleukin (IL)-1 beta, pleiotrophin, platelet-derived growth factor (PDGF), transforming growth factor-beta (TGF-beta), tumour necrosis factor-alpha (TNF-alpha) and vascular endothelial growth factor (VEGF) failed to stimulate any significant increase in GAG synthesis, but when added to the < 1 kDa tumour CM fraction, both PDGF and to a lesser extent, bFGF, exhibited potent stimulating activities. Neutralising antibodies to PDGF and bFGF added to the melanoma CM decreased the fibroblast GAG-stimulating activity by 29% and 40%, respectively, in C8161 melanoma CM and by 47% and 45%, respectively, in Hs294T melanoma CM. The activities of PDGF-AA and PDGF-BB isoforms were indistinguishable, suggesting the PDGF-alpha receptor plays a role in the GAG-stimulatory response. Western analysis following treatment with PDGF, bFGF or melanoma CM revealed banding patterns for PDGF and melanoma CM that were similar. Immunoprecipitation of the PDGF-alpha receptor revealed it to be phosphorylated in fibroblasts treated with PDGF and melanoma CM, but not with control fibroblast CM. These studies suggest that PDGF plays an important role in the GAG-stimulating activity of the melanoma CM, but requires the presence of an as yet unidentified novel low molecular weight factor for full activity.

Elevated expression of proteoglycans in proliferating vascular smooth muscle cells

Smooth muscle cell (SMC) proliferation and increased production of arterial wall proteoglycans (PG) are implicated in atherogenesis. We investigated the effect of SMC proliferation on the biosynthesis of PG and the ability of the newly synthesized PG to bind low density lipoprotein (LDL). Proliferating and quiescent human aortic SMC were pulsed with [35S]sulfate for 24 h. Secreted and cell-associated PG were then analyzed. When SMC plated at a low density were induced to proliferate, PG synthesis increased significantly in comparison with quiescent cells. This was the net result of a 2.7-fold increase in secreted PG and a 1.3-fold increase in cell-associated PG. The increased PG synthesis in proliferating SMC correlated with a significant increase in the steady-state level of mRNA for perlecan and biglycan, and a modest increase in the versican-specific mRNA. The mRNA for decorin showed a 40% decrease. The increased PG secretion in proliferating cultures was due to increases in heparan sulfate PG, dermatan sulfate PG, and chondroitin sulfate PG secretion. Quiescent SMC at confluency produced 50% less PG than the corresponding SMC plated at a low density. Although confluent SMC stimulated to proliferate also had increased PG synthesis, this was 50% less than the PG synthesis by proliferating SMC that were initially plated at a low density. The PG synthesized by proliferating and quiescent SMC did not differ in charge density and molecular size. Secreted PG from both quiescent and proliferating cultures contained subfractions that bound LDL with high affinity. However, compared with quiescent cultures, the proliferating cultures produced more of a PG subfraction that exhibited very high affinity to LDL (31.6% in quiescent cultures versus 40.8% in proliferating cultures). These results indicate that PG metabolism is altered significantly in proliferating human SMC which might have implications in the pathophysiology of atherosclerosis.

Phenotypic characterization of an intestinal subepithelial myofibroblast cell line

Subepithelial myofibroblasts are located at the interface between the epithelium and lamina propria in most mucosal tissues. Their biological functions are largely unknown because a long-term cell culture model for these cells has not been available. In this report, we define the phenotypic properties of a human colonic cell line (18Co) that exhibits most of the known characteristics of intestinal subepithelial myofibroblasts in situ. These characteristics include 1) a cell shape that can be reversibly interconverted between a flattened discoid and stellate morphology, 2) intracellular organelles reminiscent of myofibroblasts and smooth muscle cells in situ, 3) expression of alpha-smooth muscle actin, 4) plasma membrane receptors for endothelins and natriuretic peptides, and 5) regulation of epithelial sensitivity to calcium-dependent secretagogues by paracrine secretion of prostaglandins. 18Co cells provide an exploitable model to begin defining the physiological and pathophysiological functions of intestinal subepithelial myofibroblasts at the molecular level.

The family of the small leucine-rich proteoglycans: key regulators of matrix assembly and cellular growth

The focus of this review is on conceptual and functional advances in our understanding of the small leucine-rich proteoglycans. These molecules belong to an expanding gene class whose distinctive feature is a structural motif, called the leucine-rich repeat, found in an increasing number of intracellular and extracellular proteins with diverse biological attributes. Three-dimensional modeling of their prototype protein core proposes a flexible, arch-shaped binding surface suitable for strong and distinctive interactions with ligand proteins. Changes in the properties of individual proteoglycans derive from amino acid substitutions in the less conserved surface residues, changes in the number and length of the leucine-rich repeats, and/or variation in glycosylation. These proteoglycans are tissue organizers, orienting and ordering collagen fibrils during ontogeny and in pathological processes such as wound healing, tissue repair, and tumor stroma formation. These properties are rooted in their bifunctional character: the protein moiety binding collagen fibrils at strategic loci, the microscopic gaps between staggered fibrils, and the highly charged glycosaminoglycans extending out to regulate interfibrillar distances and thereby establishing the exact topology of fibrillar collagens in tissues. These proteoglycans also interact with soluble growth factors, modulate their functional activity, and bind to cell surface receptors. The latter interaction affects cell cycle progression in a variety of cellular systems and could explain the purported changes in the expression of these gene products around the invasive neoplastic cells and in regenerating tissues.

Decorin-induced growth suppression is associated with up-regulation of p21, an inhibitor of cyclin-dependent kinases

The secreted proteoglycan decorin has been implicated in the negative control of cell proliferation primarily by virtue of its ability to block transforming growth factor-beta. Moreover, decorin expression is markedly up-regulated during quiescence but suppressed upon viral transformation, whereas de novo decorin expression in colon carcinoma cells abrogates the malignant phenotype by arresting the cells in the G1 phase of the cell cycle. Here we show that this decorin-induced growth arrest is associated with up-regulation of p21 mRNA and protein in a transforming growth factor-beta- and p53-independent pathway. The augmented p21 protein is present as a multimeric complex with various cyclins and cyclin-dependent kinases in the nuclei of decorin-expressing cells, thereby leading to suppression of cyclin-dependent kinase activity and block of cell division. Through the usage of decorin-specific antisense oligodeoxynucleotide treatment, we demonstrate that the expression of decorin is closely linked to that of p21 and that abrogation of decorin leads to suppression of p21 and restoration of cell division. Collectively, our results provide a plausible mechanism by which decorin may contribute to retard and suppress the growth of tumor cells in vivo.

Tenascin-C induction by the diffusible factor epidermal growth factor in stromal-epithelial interactions

Tenascin-C, a six-armed extracellular matrix glycoprotein, is expressed in a temporally and spatially restricted pattern during carcinogenesis and invasion or metastasis of carcinoma cells in association with stromal-epithelial interactions. The human epidermoid carcinoma-derived cell lines, A431 and HEp-2, which do not express tenascin-C by themselves in vitro, do express tenascin-C after transplantation into nude mice, and transforming growth factor beta 1 (TGF-beta 1) induces them to express tenascin-C in vitro. Epidermal growth factor (EGF) induced tenascin-C in these cells more effectively (about 3.5-fold greater) than did TGF-beta 1. Hepatocyte growth factor (HGF) and platelet-derived growth factor (PDGF) had little effect on the induction of tenascin-C. EGF also induced other extracellular matrix components, fibronectin and laminin. Tenascin-C was also induced when the carcinoma cells were co-cultured with embryonic fibroblasts from mice which were homozygous for a null mutation in the tenascin-C gene, or when the conditioned medium from these cells was added. The induction of tenascin-C in the co-culture was reduced by treating the cells with antibodies against EGF or its receptor. The addition of EGF caused both cell types to disrupt their cytoskeleton and focal contacts as evidenced by the loss of stress fibers and vinculin plaques. EGF did neither induce tenascin-C nor affect the morphology in tenascin-C-nonproducing A549 carcinoma cells, which did not produce tenascin-C after transplantation. Thus, EGF induces tenascin-C in tenascin-C-nonproducing human carcinoma cells through EGF receptors. Furthermore, in stromalepithelial interactions, the diffusible factor EGF participates in the induction of human tenascin-C in these cells through EGF receptors.

Transcriptional regulation of decorin gene expression. Induction by quiescence and repression by tumor necrosis factor-alpha

Decorin, a leucine-rich proteoglycan with ubiquitous tissue distribution, may play essential biological roles during inflammation and cancer growth through its ability to bind extracellular matrix constituents and growth factors. In this study, we demonstrate that decorin gene expression is greatly enhanced after normal diploid fibroblasts reach confluency and cease to proliferate. Elevation of decorin mRNA steady state levels was maintained for up to 16 days postconfluency. In vitro transcription analyses indicated enhanced transcriptional activity in quiescent fibroblasts when compared to cells harvested in their logarithmic phase of growth. This phenotypic trait was reversed by the exogenous addition of tumor necrosis factor-alpha (TNF-alpha). Furthermore, transforming growth factor-beta (TGF-beta) down-regulated decorin gene expression in an additive manner with TNF-alpha. Transient cell transfection assays using plasmid constructs harboring the decorin promoter linked to the chloramphenicol acetyltransferase reporter gene demonstrated a dose-dependent transcriptional repression by TNF-alpha. These findings were further corroborated by in vitro transcription experiments using nuclear extracts from control and TNF-alpha-treated quiescent fibroblasts. In contrast, the decorin promoter constructs failed to respond to TGF-beta, thus suggesting either post-transcriptional regulation by this growth factor or lack of TGF-beta-responsive elements. Further experiments with 5' deletion constructs showed two TNF-alpha response elements, one residing within the 5'-untranslated region (exon Ib), the other one between residues -188 and -140 of the decorin promoter. Collectively, our results indicate that TNF-alpha, through its ability to transcriptionally inhibit decorin gene expression in growth-arrested cells, may be a key modulator of the biological functions of this proteoglycan.

Altered immunohistochemical expression of small proteoglycans in the tumor tissue and stroma of basal cell carcinoma

Small proteoglycans have been shown to act as receptors for matrix molecules or growth factors and to influence the attachment and the migration of cells. We therefore report here on the immunocytochemical expression of three small proteoglycans, i.e., decorin, biglycan, and the recently described PG-100, in normal human skin and in basal cell carcinoma. In normal human skin, staining for decorin revealed expression throughout the dermis with an increased signal in the papillary dermis, whereas no expression was observed in the epidermis. Biglycan and PG-100 were mainly detected in the epidermis, with biglycan being expressed only in suprabasal layers. In addition, biglycan could be detected in a narrow zone below the basement membrane. In tissue specimens obtained from 12 basal cell carcinomas, the expression of biglycan and PG-100 was absent or strongly down-regulated in the tumor tissue. Tumor cells thus displayed a staining pattern similar to that found on the basal cells of normal human skin. In the stroma surrounding the tumor, however, the expression of biglycan and to a lesser degree decorin was increased when compared with normal human dermis. The increased deposition appears to be due to an increased synthesis of these molecules, as total RNA extracted from basal cell carcinoma tissue revealed an induction of biglycan and decorin mRNA. This study indicates that the expression of proteoglycans in basal cell carcinoma tumor cells and in tumor stroma is altered from that in normal skin.

Tenascin induction in tenascin nonproducing carcinoma cell lines in vivo and by TGF-beta 1 in vitro

Tenascin, a novel six-armed extracellular-matrix glycoprotein, is expressed in a temporally and spatially restricted pattern during carcinogenesis in association with stromal-epithelial interactions. In this study, we have tested the hypothesis that tenascin expression depends upon the change of the cellular environment from in vitro to in vivo. The distribution and alterations in the expression of tenascin were compared between in vitro and in vivo studies in a variety of human epithelial- and nonepithelial-derived cell lines. When cell lines were transplanted into nude mice, all xenografts induced host-mouse-stroma-derived tenascin. Four carcinoma-derived cell lines and all sarcoma-derived lines, which secreted tenascin in vitro, were found to produce human tenascin after transplantation. Furthermore, three carcinoma-derived cell lines, A431, HEp-2, and MCF7, which did not synthesize tenascin in vitro, did synthesize human tenascin after transplantation. These tenascin nonproducing carcinoma cell lines did not express tenascin mRNA in vitro. The addition of TGF-beta 1 to the culture medium induced the synthesis and secretion of tenascin, but TGF-beta 2 and bFGF were less effective. TGF-beta 1 also induced other extracellular-matrix components, fibronectin and laminin. TGF-beta 1 did not induce tenascin in tenascin nonproducing carcinoma cell lines, such as WiDr and A549, in which human tenascin was not induced after transplantation. We have established an in vitro system in which tenascin is induced by the diffusible factor TGF-beta 1. This system could shed light on the mechanism of induction of human tenascin observed in vivo in tenascin nonproducing carcinoma cell lines.

Altered proteoglycan gene expression and the tumor stroma

Tumor stroma is a specialized form of tissue that is associated with epithelial neoplasms. Recent evidence indicates that significant changes in proteoglycan content occur in the tumor stroma and that these alterations could support tumor progression and invasion as well as tumor growth. Our main hypothesis is that the generation of tumor stroma is under direct control of the neoplastic cells and that, via a feedback loop, altered proteoglycan gene expression would influence the behavior of tumor cells. In this review, we will focus primarily on the work from our laboratory related to the altered expression of chondroitin sulfate proteoglycan and its role in tumor development and progression. The connective tissue stroma of human colon cancer is enriched in chondroitin sulfate and the stromal cell elements, primarily colon fibroblasts and smooth muscle cells, are responsible for this biosynthetic increase. These changes can be reproduced in vitro by using either tumor metabolites or co-cultures of human colon carcinoma cells and colon mesenchymal cells. The levels of decorin, a leucine-rich proteoglycan involved in the regulation of matrix assembly and cell proliferation, are markedly elevated in the stroma of colon carcinoma. These changes correlate with a marked increase in decorin mRNA levels and a concurrent hypomethylation of decorin gene, a DNA alteration associated with enhanced gene expression. Elucidation of decorin gene structure has revealed an unexpected degree of complexity in the 5' untranslated region of the gene with two leader exons that are alternatively spliced to the second coding exon. Furthermore, a transforming growth factor beta (TGF-beta)-negative element is present in the promotor region of decorin gene.(ABSTRACT TRUNCATED AT 250 WORDS)

Altered proteoglycan gene expression and the tumor stroma

Tumor stroma is a specialized form of tissue that is associated with epithelial neoplasms. Recent evidence indicates that significant changes in proteoglycan content occur in the tumor stroma and that these alterations could support tumor progression and invasion as well as tumor growth. Our main hypothesis is that the generation of tumor stroma is under direct control of the neoplastic cells and that, via a feedback loop, altered proteoglycan gene expression would influence the behavior of tumor cells. In this review, we will focus primarily on the work from our laboratory related to the altered expression of chondroitin sulfate proteoglycan and its role in tumor development and progression. The connective tissue stroma of human colon cancer is enriched in chondroitin sulfate and the stromal cell elements, primarily colon fibroblasts and smooth muscle cells, are responsible for this biosynthetic increase. These changes can be reproduced in vitro by using either tumor metabolites or co-cultures of human colon carcinoma cells and colon mesenchymal cells. The levels of decorin, a leucine-rich proteoglycan involved in the regulation of matrix assembly and cell proliferation, are markedly elevated in the stroma of colon carcinoma. These changes correlate with a marked increase in decorin mRNA levels and a concurrent hypomethylation of decorin gene, a DNA alteration associated with enhanced gene expression. Elucidation of decorin gene structure has revealed an unexpected degree of complexity in the 5' untranslated region of the gene with two leader exons that are alternatively spliced to the second coding exon.(ABSTRACT TRUNCATED AT 250 WORDS)

Fibroblastlike primary cells from human colon adenocarcinoma explants: collagen biosynthesis

Fibroblastlike primary cells have been obtained from human colon adenocarcinoma explants. Such cells disappear during cell culture and thus have not been previously studied. These cells have a number of altered phenotypic characteristics: a) morphology; b) growth behavior and adherence to culture substrate (they required 3 h for 90% attachment and only presented a flattened morphology 40 h after platting); and c) collagen metabolism. Increased protein biosynthesis (about double than control colon-derived fibroblasts) and maintained ability for collagen biosynthesis have been observed for the tumor-associated fibroblastlike cells. Thus, the collagen to noncollagenous proteins ratio was decreased for these cells. They exhibited an altered type I:type III collagen (5:1 instead of 3:1 in colon fibroblasts) and procollagen (2:1 against 5:1 in colon fibroblasts) ratios as well as a decreased secretion of collagen with an abnormal deposition of procollagens in the cell layer. These studies show a permanent phenotypic alteration in the tumor-associated fibroblast-like cells.

The small proteoglycans of cartilage matrix

The small proteoglycans (PGs) of cartilage matrix represent a small fraction of the total mass of PGs, but with a small size they can be present in equivalent moles to the large PGs. Three types of PGs with a wide skeletal and extraskeletal distribution, biglycan (PGI), decorin (PGII) and fibromodulin have distinct but homologous core proteins containing leucin-rich sequences. Carbohydrate substituants (one or two chondroitin sulfate/dermatan sulfate chains for decorin and biglycan respectively, chains of keratan sulfate for fibromodulin and oligosaccharides) present variations from tissue to tissue and with age and other factors. Decorin and fibromodulin appear to interact with collagen and to participate in the regulation of collagen matrices. In vitro experiments indicate a role for small PGs in adhesion, multiplication, differentiation, and migration of cells. Recent data on molecular biology of the small PGs contribute to a better understanding of their functions and make the evaluation of their role in hereditary diseases.

Altered methylation of versican proteoglycan gene in human colon carcinoma

We show for the first time that DNA isolated from human colon carcinoma tissue exhibits a selective hypomethylation of versican gene, which encodes a large chondroitin sulfate proteoglycan. The degree of methylation of CpG sequences of versican gene locus, as determined by isoschizomeric endonucleases and Southern hybridization, is about three times lower than that found in either normal colon or ulcerative colitis tissues. Hypomethylation can be observed in both benign and malignant colonic neoplasms; however, there is no correlation with increased expression since versican mRNA levels do not significantly vary between normal and neoplastic tissues. We further show that versican gene locus from malignant tissue, but not from normal or ulcerative colitis tissues, contains Hind III hypersensitive sites which also comprise hypomethylated CpG sequences. Analysis of versican methylation status in colon carcinoma cells and benign mesenchymal cells derived from human colon suggests that the changes observed in vivo derive from demethylating events involving host stromal cells rather than tumor cells themselves. These findings demonstrate that changes in versican gene methylation are specific for colonic neoplasms, that these changes may precede malignant transformation, and that inflammation and tissue remodelling alone are not enough to generate these changes in proteoglycan gene methylation and nuclease hypersensitivity.

Changes in glycosaminoglycan synthesis and in heparan sulfate deposition in human colorectal adenocarcinomas

Biosynthesis of glycosaminoglycans (GAGs) was studied in morphologically normal colonic mucosa, in peritumoral and tumoral areas, and in colorectal polyps of tumor-bearing patients. After GAG purification, overall biosynthesis was determined: the general trend was a decrease in GAG production in neoplastic colon, lowest GAG synthesis being observed in Dukes' stage C tumors. Separation by ion-exchange chromatography of various GAG species and further characterization revealed the presence of hyaluronic acid (HA) and heparan sulfate (HS) molecules in all specimens studied. Chondroitin-4 sulfate (CS4) was occasionally found in tumor samples. The relative proportion of HA and HS was modified in tumor tissue: i.e. increased HA and decreased HS were observed. Differences in DEAE-chromatographic behavior were obvious in pathological samples as compared to controls, the hydrodynamic form of HA and the charge density of HS being decreased. The latter could be attributed to undersulfatation of HS molecules. Immunocytochemical detection of HS proteoglycan molecules revealed regular and bright labelling at epithelial-stromal interface in control samples. In pathological samples, staining was patchy and discontinuous, showing large areas of basement membrane interruption.

Similar epithelial-stromal interactions in the regulation of hyaluronate production during limb morphogenesis and tumor invasion

Changes in extracellular hyaluronate occur during the onset of cell migratory stages of development, wound healing, regeneration, and tumor invasion. During development, the production of hyaluronate, which is spatially and temporarily patterned, is regulated, in part, by epithelial-mesenchymal interactions, as demonstrated in the developing limb (Knudson, and Toole (1988) Biochem, Int., 17, 735). Analogous regulatory interactions occur during tumor invasion. One of us (Knudson, W. et al. (1984) Proc. Natl. Acad. Sci. USA, 81, 6767) has shown that several human carcinoma cells interact with normal human fibroblasts in co-culture to effect the stimulation of hyaluronate production. This type of interaction in vivo may account for the large accumulations of hyaluronate often associated with invasive tumors. Heterologous coculture experiments were performed to determine whether carcinoma cells and embryonic epithelial cells express a common regulatory mechanism to effect the stimulation of hyaluronate production by stromal cells. Human LX-1 lung carcinoma cells or human HCV-29T bladder carcinoma cells cultured together with chick embryo limb bud mesoderm synthesized 2- to 4-fold more hyaluronate than the sum of that produced by carcinoma and mesoderm cultures grown separately. Co-cultures of chick embryo limb bud epithelial cells with adult human skin fibroblasts also synthesized 1.5- to 2.5-fold more hyaluronate. The increase in hyaluronate in these co-cultures was not due to a stimulation of cell proliferation and was additive to the effect of fetal bovine serum. The results suggest a common mechanism of epithelial-stromal interaction in the regulation of hyaluronate production during embryonic development and tumor invasion.

Altered glycosaminoglycan composition in reactive and neoplastic human liver

We have investigated the glycosaminoglycan composition of normal human liver, focal nodular hyperplasia, hepatic adenoma, and hepatocellular carcinoma. Uronic acid increased about 4 fold in the benign and reactive lesions, and greater than 7 fold in the carcinoma. Whereas in focal nodular hyperplasia and adenoma dermatan sulfate was the predominant glycosaminoglycan, in hepatocellular carcinoma chondroitin sulfate was the predominant species; it increased 24 fold over normal liver and 3-5 fold over all the other tissues. HPLC analysis of chondroitinase ABC or AC digests showed a 58 fold increase in Delta-Di-OS disaccharides in hepatocellular carcinoma, indicating significant undersulfation of chondroitin sulfate. Surprisingly, the normal-appearing liver surrounding the carcinoma showed glycosaminoglycan changes similar to adenoma and nodular hyperplasia. These results thus indicate that specific glycosaminoglycan changes occur in hepatocellular carcinoma, and suggest for the first time that proteoglycan metabolism is also altered in the non-cirrhotic, hepatic parenchyma adjacent to liver carcinoma.

Mechanism of action of the migration stimulating factor produced by fetal and cancer patient fibroblasts: effect on hyaluronic and synthesis

We have previously demonstrated that confluent fetal fibroblasts migrate into three-dimensional collagen gels to a significantly greater extent than their normal adult counterparts. Recent studies have revealed that this behavioral difference results from the secretion by fetal fibroblasts of a soluble migration-stimulating factor (MSF) which acts on these cells in an autocrine fashion. Adult fibroblasts do not produce MSF but remain responsive to it. Skin fibroblasts from cancer patients resemble fetal fibroblasts (rather than normal adult cells) with respect to their migratory behavior on collagen gels and continued production of MSF. This communication is concerned with elucidating the biochemical basis of MSF activity. Data are presented indicating that a) hyaluronic acid is required for the elevated migratory activity displayed by confluent fetal and breast cancer patient skin fibroblast; b) adult fibroblasts exhibit a bell-shaped dose-response to MSF, with maximal stimulation of migration observed at a concentration of 10 ng/ml; c) the migratory activity of adult fibroblasts pre-incubated with MSF remains high in the absence of additional factor: and d) MSF affects both the quantity and size class distribution of hyaluronic acid synthesized by adult fibroblasts. We have previously speculated that the persistent fetal-like fibroblasts of breast cancer patients play a direct role in disease pathogenesis by perturbing normal epithelial-mesenchymal interactions. The observations reported here suggest that MSF-induced alterations in hyaluronic acid synthesis may contribute to the molecular basis of such perturbations.

A collagen matrix microassay for use in tumour-stromal cell co-cultures

A collagen matrix microassay technique is described in which separation of collagen layers permits independent assessment of the proliferative capacity of each of two discrete cell populations. The two cell types used in this study were an established colon cancer cell line and a normal colon fibroblast cell line cultured under serum-free conditions. The implications of this in vitro technique for studies of tumour-host cell interactions are discussed.

Neoplastic modulation of extracellular matrix: stimulation of chondroitin sulfate proteoglycan and hyaluronic acid synthesis in co-cultures of human colon carcinoma and smooth muscle cells

Previous studies have shown that human colon carcinomas contain elevated amounts of chondroitin sulfate proteoglycan (CS-PG) and hyaluronic acid, and that the major site of synthesis of these products is the host mesenchyme surrounding the tumor. These findings have led to the proposal that the abnormal formation of the tumor stroma is modulated by the neoplastic cells. The experiments of this paper were designed to explore further this complex phenomenon in an in vitro system using co-cultures of phenotypically stable human colon smooth muscle (SMC) and carcinoma cells (WiDr). The results showed a 3-5-fold stimulation of CS-PG and hyaluronic acid biosynthesis in the co-cultures as compared to the values predicted from the individual cell type cultured separately. The increase in CS-PG was not due to changes in specific activity of the precursor pool, but was rather due to a net increase in synthesis, inasmuch as it was associated with neither a stimulation of cell proliferation nor with an inhibition of intracellular breakdown. These biochemical changes were corroborated by ultrastructural studies which showed a marked deposition of proteoglycan granules in the co-cultures. Several lines of evidence indicated that the SMC were responsible for the overproduction of CS-PG: i) SMC synthesized primarily CS-PG when cultured alone, in contrast to the WiDr, which synthesized exclusively heparan sulfate proteoglycan; ii) only the SMC in co-culture stained with an antibody raised against the amino terminal peptide of a CS-PG (PG-40), structurally and immunologically related to that synthesized by the SMC; iii) the stimulation of CS-PG in SMC could be reproduced, though to a lesser extent, using medium conditioned by WiDr, whereas medium conditioned by SMC had no effects on WiDr. In conclusion this study has reproduced in vitro a tumor-associated matrix with a proteoglycan composition similar to that observed in vivo and provides further support to the concept that production of a proteoglycan-rich extracellular environment is regulated by specific tumor-host cell interactions.

Effects of N,N-dimethylformamide and extracellular matrix on transforming growth factor-beta binding to a human colon carcinoma cell line

Alterations in the binding of transforming growth factor-beta (TGF-beta) to the MOSER human colon carcinoma cell line caused by N,N-dimethylformamide (DMF) or extracellular matrix (ECM) were examined. DMF induced a more differentiated phenotype in the MOSER cells and resulted in a twofold increase in TGF-beta binding to the cells. This was due to an increase in receptor number with no significant alteration in the KD. The extent of increased TGF-beta binding was dependent on the dose and time of exposure to DMF. Upon removal of DMF, the receptor level returned to that of untreated cells within 6 hr. The binding of TGF-beta 1 and TGF-beta 2 to the cells was increased equally. Despite this increase in TGF-beta binding in the presence of DMF, the sensitivity of the MOSER cells to the growth inhibitory effects of TGF-beta was unaltered. Growth of the MOSER cells on ECM derived from a well-differentiated colon cell line increased the TGF-beta receptor number twofold without altering the KD. No change was observed if the MOSER cells were grown on ECM derived from a poorly differentiated cell line. While no alteration in sensitivity to TGF-beta was observed on cells grown in the presence of DMF, MOSER cells grown on the ECM derived from well-differentiated colon carcinoma cell lines were twofold more sensitive to the growth inhibitory effects of TGF-beta. These results indicated that growth conditions which resulted in a more differentiated phenotype resulted in an increase in the cellular receptors for TGF-beta.

Collagen metabolism in human colon adenocarcinoma

The collagen metabolism has been studied in a human colonic adenocarcinoma. The overall collagen content was decreased in the tumor. The internal layers of the tumor tissue have the lower collagen content. Stroma cells and epithelial transformed cells, obtained from colon adenocarcinoma explants, were "in vitro" cultured in order to explain the decreased collagen content in the tumor. Cells from the epithelial lineage (both round-shape cells, and those derived from them, epithelial-like cells) showed an almost negligible ability for collagen synthesis. Stroma cells (fibroblast-like cells) maintained a normal ability for collagen biosynthesis but exhibited a 2-fold increased non-collagenous protein synthesis as well as a decreased collagen secretion, when compared with control fibroblasts from non-affected colon regions. The alterations in the stroma cells are not due to soluble factors produced by adenocarcinoma cells. Thus, the fibroblast-like cells, which have been studied for the first time, would be related to the alterations of the extracellular matrix contributing to the invasiveness of the tumor cells.

Extracellular matrix of cultivated, poorly differentiated human gastric adenocarcinoma cells promotes attachment and spreading of mesenchymal cells

To clarify interactions between carcinoma and mesenchymal cells, we examined the extracellular matrix-substance remaining on culture dishes after confluent growths of gastric carcinoma cells were removed with EDTA. The matrix synthesized by poorly differentiated adenocarcinoma cells (cell lines KATO-III and MKN-45) cultivated in serum-free medium has a fibroblast (cell line WI38)-attachment activity, which is not detected in the matrix synthesized by a well differentiated adenocarcinoma (cell line MKN-28). This activity was not observed in KATO-III-matrix extracted with 6 M urea, but could be detected in a 1% SDS extract from the remaining matrix on the culture dishes after 6 M urea extraction. The activity was abolished by treatment with pronase (16 micrograms/ml), trypsin (0.005%) or alkali, but was unaffected by collagenase (80 micrograms/ml, 4 h) or chondroitinase ABC (1 U ml, 1 h). It is conceivable that the fibroblast-attachment activity of the matrix produced by poorly differentiated adenocarcinoma cells is related to the proliferation of interstitial connective tissue in vivo.

Membrane association of the hyaluronate stimulatory factor from LX-1 human lung carcinoma cells

LX-1 human lung carcinoma cells interact with human fibroblasts in culture to cause an increase in hyaluronate production (Knudson et al: Proceedings of the National Academy of Sciences of the United States of America 81:6767, 1984). It is shown here that a similar increase in hyaluronate production also occurs when membranes derived from LX-1 cells, or detergent extracts thereof, are added to cultures of the human fibroblasts. However, no stimulation occurs when membranes or extracts from fibroblasts are added to cultures of the LX-1 cells. The hyaluronate stimulatory factor present in the detergent extracts is a heat- and trypsin-sensitive protein, requires more than 12 h for its action on fibroblasts, causes an elevation in hyaluronate synthetase activity in membranes derived from the fibroblasts, and can be reconstituted into artificial lipid vesicles. Thus, it is concluded that the stimulatory factor is a membrane-bound protein present on the surface of the LX-1 cells and that it interacts with fibroblasts to induce increased hyaluronate synthesis.

Increased content of chondroitin sulfate proteoglycan in human colorectal carcinoma metastases compared with the primary tumor as determined by an anti-chondroitin-sulfate monoclonal antibody

To determine if the amount of chondroitin sulfate proteoglycan (CSPG) in human colorectal tumor tissue correlates with the tumor's aggressiveness we immunochemically determined the CSPG levels in colorectal carcinomas at different stages. A total of 50 specimens--4 polyps, 15 stage B tumors, 9 stage C tumors, 12 stage D tumors, 7 liver metastases, and 3 lymph node metastases--were examined. Tumor tissues were extracted with 4 M guanidine hydrochloride containing protease inhibitors. The extracts were serially diluted and blotted onto nitrocellulose membranes. Reactivity of a chondroitin sulfate-specific mouse monoclonal antibody (CS-56) was determined by biotinylated goat antimouse Ig and avidin-biotin-peroxidase complex. After comparing tissues from tumors at different stages (classified by the presence or absence of metastasis), we could not find a positive or negative correlation between the amount of CSPG in primary colorectal carcinoma tissues and the tumor's metastatic potential. However, the metastatic foci in the liver or lymph node contained higher amounts of CSPG than the primary tumors did. Immunohistochemical staining of colon carcinoma tissue with CS-56 revealed that CSPG is predominantly localized in fibrotic portions in the tumor tissues. Two-year follow-up studies indicated that a high level of CSPG in primary tumors was not predictive of recurrence.

Proteoglycans and neoplasia

There is a growing realization that the whole tumor cell-matrix complex must be investigated in order to fully understand the process of cancer growth and metastasis. Proteoglycans are intrinsic constituents of the cell surface, extracellular matrix, and basement membrane, three logistically and functionally important structures involved in most cellular interactions. Proteoglycans influence the behavior of normal and malignant cells by virtue of their expanded configuration, polyanionic nature and, most of all, by their ability to interact with a variety of cellular products. Consequently, they have been implicated in a number of biological processes including proliferation, recognition, adhesion, and migration. They can serve as links between the extracellular and intracellular environment and thus transduce key biological signals. They can act as receptors for interstitial collagens and other matrix proteins and thus contribute to the organization of pericellular matrix. During neoplastic development there is a profound structural rearrangement of these macromolecules at both the plasma membrane and the pericellular level. Qualitative and quantitative abnormalities in proteoglycan metabolism may contribute to the establishment of some well-known neoplastic properties, including lack of cohesiveness, abnormal assembly of extracellular matrix, abnormal growth, and invasion. The present work will focus on recent advances in our understanding of these complex macromolecules and on some of the alterations associated with the neoplastic phenotype, and will then attempt to elucidate some of the mechanisms regulating these changes.

Partial characterization of a soluble mitogenic factor from medulloblastoma

To determine how medulloblastoma cells might influence the proliferation and phenotype of normal stromal cells, normal human leptomeningeal cells were treated in culture with medulloblastoma-conditioned medium; their ability to incorporate tritiated thymidine and synthesize collagen was measured. The treated leptomeningeal cells had a significantly greater uptake of tritiated thymidine and grew faster than control leptomeningeal cells. Immunofluorescence studies demonstrated a greater intensity of staining for procollagen type III in the cell layer of the treated cultures than in control cultures; diethylaminoethyl (DEAE)-cellulose chromatography of the medium showed that the treated cells synthesized predominantly type III collagen, whereas control cells synthesized type I collagen. Analysis of the medulloblastoma-conditioned medium revealed that the soluble factor responsible for these effects in an acid- and heat-stable protein. The increased proliferation and altered collagen synthesis induced in leptomeningeal cell cultures by a soluble factor from a medulloblastoma are examples of how tumor and stromal elements interact, and may be related to the process of desmoplasia often observed in medulloblastomas in vivo.

Membrane association of collagenase stimulatory factor(s) from B-16 melanoma cells

Past studies have shown that contact between tumor cells and fibroblasts results in stimulation of collagenase production by the fibroblasts. Membrane fractions prepared by differential centrifugation of sonicated B-16 melanoma cells were shown here to contain a collagenase stimulatory factor(s) (CSF). Trypsin treatment of intact B-16 cells prior to membrane fractionation led to loss of 90% of the total activity, indicating that CSF is localized on the outer surface of the cells. Stimulation of fibroblast collagenase production was also observed with dialyzed octylglucoside extracts of the B-16 membranes. Additional of exogenous lipid, ie, a mixture of phosphatidylcholine and phosphatidylserine, to the detergent extract of the membranes followed by dialysis and centrifugation at 100,000g resulted in 80% recovery of the factor activity in the pellet containing reconstituted lipid vesicles. Fractionation of tritium-labeled, reconstituted lipid vesicles on a Sephacryl S-300 column revealed that the collagenase stimulatory factor coeluted with the radioactive lipid vesicles. The fractionated lipid vesicles lost stimulatory activity completely after trypsin treatment or heating at 65 degrees C, indicating that the factor is a protein.