Malignant transformation and tumor promoter treatment increase levels of a transcript for a secreted glycoprotein

Methionine deprivation inhibits glioma growth through downregulation of CTSL

The metabolism of tumor cells is characterized by the regulation of demand, nutrient supply and metabolic enzymes, which are different in cancer tissues from those in corresponding healthy tissues. There is growing evidence that dietary composition influences biological processes that contribute to tumor incidence and progression as much as genetic status. One possibility for specific dietary interventions in cancer patients is to limit methionine intake. The role of methionine metabolism in tumors suggests that interference with the methionine metabolism network by either drug or environmental effects may show substantial therapeutic effects, but the molecular mechanism is not completely clear. In this study, methionine deprivation was found to downregulate cathepsin L (CTSL) and induce proliferation inhibition in glioma cells. We also demonstrated that CTSL is a tumor-related gene, and promotes the proliferation and invasion of glioma. Our results showed that the treatment of methionine metabolism and CTSL related genes in glioma cells may be a novel strategy for glioma therapy in the future.

Cathepsin L targeting in cancer treatment

Proteolytic enzymes may serve as promising targets for novel therapeutic treatment strategies seeking to impede cancer progression and metastasis. One such enzyme is cathepsin L (CTSL), a lysosomal cysteine protease. CTSL upregulation, a common occurrence in a variety of human cancers, has been widely correlated with metastatic aggressiveness and poor patient prognosis. In addition, CTSL has been implicated to contribute to cancer-associated osteolysis, a debilitating morbidity affecting both life expectancy and the quality of life. In this review, we highlight the mechanisms by which CTSL contributes to tumor progression and dissemination and discuss the therapeutic utility of CTSL intervention strategies aimed at impeding metastatic progression and bone resorption.

Biosynthesis and alternate targeting of the lysosomal cysteine protease cathepsin L

Upregulation of cathepsin L expression, whether during development or cell transformation, or mediated by ectopic expression from a plasmid, alters the targeting of the protease and thus its physiological function. Upregulated procathepsin L is targeted to small dense core vesicles and to the dense cores of multivesicular bodies, as well as to lysosomes and to the plasma membrane for selective secretion. The multivesicular vesicles resemble secretory lysosomes characterized in specialized cell types in that they are endosomes that stably store an upregulated protein and they possess the tetraspanin CD63. Morphologically the multivesicular endosomes also resemble late endosomes, but they store procathepsin L, not the active protease, and they are not the major site for LAMP-1 accumulation. Distinction between the lysosomal proenzyme and active protease thus identifies two populations of multivesicular endosomes in fibroblasts, one a storage compartment and one an enzymatically active compartment. A distinctive targeting pathway using aggregation is utilized to enrich the storage endosomes with a particular lysosomal protease that can potentially activate and be secreted.

Expression of cathepsin L and its endogenous inhibitors in immortal and transformed fibroblasts

METHODS

The activities of cathepsin L and its endogenous inhibitors were analyzed in rat embryo fibroblasts, immortalized and transformed by different genes.

RESULTS

Regardless of the transfecting agent used (DNA of adenovirus SA7 or polyomavirus LT gene), the immortal cells showed an increase in the cathepsin L activity (in both lysates and conditioned media) compared to primary fibroblasts. Transformed cells exhibited either an increase (with c-Ha-ras gene) or decrease (with E7 HPV gene) in cathepsin L activity in lysates as opposed to immortal cells.

CONCLUSIONS

The data are suggestive of alterations in the trafficking of cathepsin L upon fibroblast transfection with polyomavirus LT gene and E7 HPV gene. An endogenous inhibitor(s) of cysteine proteinase was found in conditioned media, but not in lysates, of all cell cultures studied and its activity in normal fibroblasts was higher than in media of immortal and transformed cells.

Processing properties of recombinant human procathepsin L

Human procathepsin L is highly expressed in mouse myeloma cells and processed into the mature enzyme under the acidic condition below pH 5.5. Different from the mature enzyme, it is stable at a neutral pH. To examine whether or not procathepsin L is autoprocessed intramolecularly, we constructed a mutant procathepsin L cDNA in which the codon for Cys138 proposed as the active site was mutated to encode Ser by PCR-mutagenesis. The mutant procathepsin L (C138S) was secreted into the culture medium from mouse myeloma cells expressing this mutant cDNA, but not processed into the mature form under the acidic condition. In addition, the mutant C138S was not processed by the incubation at 37 degrees C with wild-type procathepsin L or mature cathepsin L under the acidic condition. These findings showed that Cys138 is the active site of cathepsin L and that the autocatalytic processing occurs intramolecularly.

Direct evidence for the elevated synthesis and secretion of procathepsin L in the distal caput epididymis of boar

The proteins which are secreted from the restricted part of the epididymis are suggested to sustain sperm maturation. In porcine species, as the potential abilities of sperm for movement and fertilization greatly increase in the corpus epididymis, the secretions in both the caput and corpus epididymis seem to be very important for the sperm maturation. In this study, we have directed our attention to the 40 kDa protein which is detected in the fluid of the distal caput epididymis of boar. It was purified from the porcine cauda epididymal fluid and its cDNA was cloned from the cDNA library of the distal caput epididymis. According to the deduced amino acid sequence, the 40 kDa protein has been identified as procathepsin L. Northern blot analysis showed that the procathepsin L mRNA was most abundant in the distal caput epididymis among the tissues as examined. Consistent with the distribution of the procathepsin L mRNA in the epididymis, the activity of procathepsin L was absent in the fluid of the proximal and mid caput epididymis and first appeared in the distal caput epididymal fluid, whose contents gradually decreased with the passage through the epididymis. These results first appeared in the first distal caput epididymis expresses very high levels of procathepsin L and unusually secretes it into the luminal fluid instead of targeting it to lysosomes. It has been also found that the mRNA of PDGF, which is known to enhance cathepsin L expression in the culture cells, is very high in the mid caput epididymis, which just precedes the site of procathepsin L secretion. This result indicates that PDGF directly regulates the locally restricted expression and secretion of procathepsin L in the epididymis, which is one of the possible mechanisms involved in the functional differentiation in the epididymis.

Cathepsin B and N-acetyl-beta-D-glucosaminidase in human synovial cells in culture: effects of interleukin-1

Human synovial cells were cultured in vitro and tested for the activities of two lysosomal enzymes, cathepsin B and N-acetyl-beta-D-glucosaminidase (NAGA) under various conditions. Unstimulated synovial cells display intracellular and extracellular activities of both enzymes. However, cathepsin B was secreted in a latent pepsin-activatable form, whereas NAGA was secreted in an active form. Most of the cell strains analysed secreted rather limited amounts of the enzymes (less than 25% of total activity); some strains, however were highly secretory, the secreted activity reaching up to 50% of total activity. Cells were then stimulated with human recombinant interleukin-1 alpha (rhIL-1 alpha) or beta. Only the levels of secreted NAGA were clearly increased. Results are to be interpreted in view of the role played by synovial cells and by the lysosomal enzymes they release in inflammatory joint diseases and it would be worthwhile in the future to check for secreted NAGA in various body fluids, such as the synovial fluid of the inflamed joint.

Oncogene activation in rheumatoid synovium

Rheumatoid arthritis (RA) is a chronic systemic disorder that is dominated by the debilitating sequelae associated with the progressive destruction of articular joints. The molecular and cellular basis of rheumatoid joint destruction is characterized by an abnormal expression of oncogenes modulating cellular proliferation and the induction of lysosomal and metalloproteinases. Based on the observation that the synovial hyperplasia in RA is associated with the proliferation of transformed-appearing synovial lining cells and an overexpression of such oncogenes, the possibility that a hitherto unknown HTLV related retrovirus is involved in the etiopathogenesis of RA is discussed.

Altered genetic response to beta-adrenergic receptor activation in late passage C6 glioma cells

Previous studies have demonstrated variability in the phenotype of rat C6 glioma cells. In the present study, we compared morphology, growth rate, and beta-adrenergic regulation of gene expression in early (P39-47) and late (P55-90) passage C6 cells. Morphological changes were observed in five independently derived, late passage populations. In four of the five, the untreated cells were more polygonal than the fibroblast-like parental cells, and only a small fraction exhibited process outgrowth after dbcAMP treatment. Untreated cells from the fifth late passage population had longer cytoplasmic processes than parental cells and responded to dbcAMP with further process outgrowth. All late passage populations had shorter generation times than the parental cells. In early passage cells, treatment with the beta-adrenergic agonist, isoproterenol (IPR), resulted in an increase in c-fos mRNA and a decrease in c-jun mRNA (Gu-bits RM, Yu H: J Neurosci Res, 30:625-630, 1991). Both of these immediate early gene responses were irreversibly lost between P50 and P55. Additional differences in basal or IPR-induced mRNA levels were observed for beta-APP, GFAP, NGF, and PPE, but not for a number of other mRNAs. These results are discussed in relationship to previously described differences in the ability of early and late passage C6 cells to accumulate cAMP (Mallorga P, et al.: Biochim Biophys Acta 678:221-229, 1981).

Comparison of cathepsin L synthesized by normal and transformed cells at the gene, message, protein, and oligosaccharide levels

The major excreted protein of transformed mouse fibroblasts (MEP) has recently been identified as the lysosomal cysteine protease, cathepsin L. The synthesis and intracellular trafficking of this protein in mouse fibroblasts are regulated by growth factors and malignant transformation. To further define the basis for this regulation, a cDNA encoding MEP/cathepsin L was isolated from a mouse liver cDNA library and used to compare cathepsin L of normal and Kirsten sarcoma virus-transformed NIH 3T3 fibroblasts. Although cathepsin L message levels were elevated 20-fold in the transformed fibroblasts, normal and transformed cells displayed similar cathepsin L genomic DNA digest patterns and gene copy numbers, and cathepsin L mRNA sequences appeared identical by RNase protection analysis. These findings indicate that (i) cathepsin L is synthesized from the same gene in normal and transformed cells and (ii) cathepsin L polypeptides made by these cells are translated with the same primary sequence. Cathepsin L polypeptides synthesized by quiescent, growing, and transformed cells displayed similar isoelectric focusing patterns, suggesting similar post-translational modification. Site-directed mutagenesis of the mouse liver cDNA and expression in COS monkey cells was used to examine the glycosylation of mouse cathepsin L. The results indicated that only one of the two potential N-linked glycosylation sites (the one at Asn221) is glycosylated. Analysis by ion exchange chromatography on QAE-Sephadex, and affinity chromatography on mannose 6-phosphate receptor-Affi-Gel 10, indicated that the cathepsin L oligosaccharide was phosphorylated similarly in normal and transformed cells. Although several phosphorylated oligosaccharide species were observed, the major species contained two phosphomonoester moieties and bound efficiently to the receptor. These findings suggest that cathepsin L made by normal and transformed mouse fibroblasts are identical and substantiate the hypothesis that trafficking of cathepsin L in these cells is regulated by growth-induced changes in the lysosomal protein transport system.

Regulation of gene expression by tumor promoters

Tumor promoters change the program of genes expressed in cells in culture and in the multicellular organism. The growing list of genes that are induced or repressed includes protooncogenes, transcription factors, secreted proteases and viruses. Most of the regulation is at the level of transcription. Several of the cis-acting promoter elements mediating regulation, the transcription factors binding to these elements and their post-translational activation, as well as some of the initial steps of the interaction of cells with tumor promoters have been characterized. The components of the signal transduction chain to the nucleus are, however, still unknown. Mutant and inhibitor studies suggest that the activation or inactivation of certain genes constitute the basis for the development of the tumor promotion phenotype.

Molecular oncogenetics of metastasis

Metastasis is a complex non-stochastic process that is most likely the result of genetic and epigenetic interactions of a wide variety of genes. The search for a single gene which can encompass such a pleiotropic response as to account for the observed phenotypic characteristics of metastatic tumour populations has been unsuccessful. Particular studies involving gene transfection, subtractive hybridisation and cell fusion are beginning to identify specific genes which contribute to metastasis in some cell types. However, such analyses are complicated by the inherent genetic instability and phenotypic heterogeneity present in tumour populations. A more detailed understanding of the metastatic process may require an abandoning of current generalised approaches to metastasis in favour of concentrating on key components of the metastatic cascade such as adhesion and invasion.

Heparin modulates the secretion of a major excreted protein-like molecule by vascular smooth muscle cells

Previous work from our laboratory has shown that heparin specifically induces the release of a pair of proteins of approximately 35,000 and 37,000 Da into the culture medium of vascular smooth muscle cells (SMC). In this report, we demonstrate that the previously identified 37,000-Da smooth muscle protein is composed of two protein species with very similar molecular weights based on migration patterns in SDS-polyacrylamide gels. The larger molecular weight species in this doublet has a similar molecular weight and shares antigenic determinants with major excreted protein (MEP), a lysosomal proteinase previously shown to be secreted by normal and transformed fibroblasts and epidermal cells. Antisera to MEP precipitated the higher molecular weight band from the doublet; preimmune serum was not reactive with the smooth muscle protein. Exposure of smooth muscle cells to heparin resulted in decreased amounts of immunoprecipitable protein released into the medium. Thus, it now appears that three proteins in the 35,000-38,000 molecular weight range are modulated by heparin, and that the largest of the heparin-modulated vascular SMC proteins has a similar molecular weight and is immunologically related to MEP. The release of MEP-like protein from SMC is decreased by heparin, while the remaining two heparin-modulated proteins are increased in the presence of heparin.

Phenotypic resistance to methotrexate and N-phosphonacetyl L-aspartate is induced by treatment with 12-O-tetradecanoylphorbol-13-acetate (TPA)

Three different 3T6 mouse fibroblast cell clones with intrinsically different sensitivities to methotrexate (MTX) have been isolated from an originally heterogeneous population. When these 3 different clones were exposed to MTX in the presence of the tumour promoter 12-O-tetradecanoylphorbol-13-acetate (TPA) the degree of enhancement of recovery of methotrexate resistant (MTXR) colonies was greatest in the most sensitive clone. MTXR colonies isolated and cultured in the presence and absence of MTX and TPA were analysed for dihydrofolic acid reductase (dhfr) levels by flow cytometry after binding of fluorescent methotrexate. None of the 58 clones showed major changes in dhfr levels. Dot-blot analysis of 12 clones indicated no increases in dhfr gene copy number or mRNA levels consistent with gene amplification. Southern analysis of 6 further clones indicated that only 1 clone isolated by multi-step selection had amplified dhfr sequences. TPA-enhanced mouse 3T6 N-phosphonacetyl-L-aspartate (PALA)-resistant colony recovery and mouse 3T3 MTXR colony recovery were also shown, by dot-blot analysis, not to be due to gene amplification. The data indicate that TPA can have a profound effect on drug-resistant colony recovery by mechanisms other than induction of gene amplification.

Relation between the regulation of DNA synthesis and the production of two secreted glycoproteins by 12-O-tetradecanoylphorbol-13-acetate in 3T3 cells and in phorbol ester nonresponsive 3T3 variants

12-O-tetradecanoylphorbol-13-acetate (TPA), a potent tumor promoter, acts similarly to growth factors by selectively increasing the rate of production of the secreted proteins, mitogen regulated protein (MRP) and major excreted protein (MEP) by murine 3T3 cells. MRP, a 34 kilodalton (kDa) glycoprotein, is a member of the prolactin-growth hormone family of proteins. MEP, a 39 kDa glycoprotein, is a lysosomal thiol protease that is also secreted. The aim of our investigation was to determine the relation between increases in MRP and MEP production and the initiation of DNA synthesis in response to mitogens. The TNR-9 cell line is a variant of 3T3 cells in which growth factors, but not TPA and teleocidin, stimulate DNA synthesis and cell division. Using [35S]methionine to metabolically label proteins and SDS polyacrylamide gel electrophoresis to resolve the proteins, we found that growing cultures of 3T3 and TNR-9 cells responded equally well to TPA and teleocidin with increased rates of production of MRP and MEP. By contrast, the responses of quiescent TNR-9 cells to these tumor promoters in the increased production of MRP and MEP was greatly diminished compared with quiescent 3T3 cells. The changes in production of MRP in response to tumor promoters in quiescent and growing cells paralleled similar changes in the level of MRP mRNA. In summary, the ability to TPA and teleocidin to increase the rate of production of MRP and MEP correlated with the ability of these tumor promoters to stimulate DNA synthesis in quiescent 3T3 and TNR-9 cells. Evidently the biochemical condition that distinguishes TNR-9 from 3T3 cells and that limits the ability of tumor promoters to stimulate the production of MEP and MRP, and perhaps also DNA synthesis in TNR-9 cells occurs only when the cells are quiescent.

The major excreted protein (MEP) of transformed mouse cells and cathepsin L have similar protease specificity

The major excreted protein of transformed mouse cells is an acid activable cysteine protease. In this paper, oxidized insulin B chain is shown to be a substrate for this protease. By isolation and analysis of the insulin B peptides generated by the protease, the bond specificity of this protease was determined. The bonds preferentially cleaved are glu13-ala14, leu17-val18, and tyr26-thr27. No obvious preference for a specific amino acid was found in these studies. The bond specificity of this cysteine protease for oxidized insulin B chain has been compared with that of other proteases, and it is the same as that reported for cathepsin L, suggesting that the major excreted protein and cathepsin L may be the same protein.

V-fos stimulates expression of the alpha 1(III) collagen gene in NIH 3T3 cells

NIH 3T3 cells that are transformed by the v-fos containing FBR proviral DNA show a selective increase in alpha 1 (III) collagen synthesis, increased levels of alpha 1(III) collagen RNA and an increased synthesis of this RNA.

Pleiotropic mutants of NIH 3T3 cells with altered regulation in the expression of both type I collagen and fibronectin

Transformation of NIH 3T3 fibroblasts by v-mos causes a decrease in the levels of type I collagen RNA. In NIH 3T3 cells that have been made resistant to G418 by transfection with a plasmid in which the mouse alpha 2(I) collagen promoter is linked to the neo gene, subsequent v-mos transformation causes a loss of G418 resistance. After mutagenesis of these v-mos-transformed cells, G418-resistant colonies were selected. Two of these G418-resistant mutants showed an increased expression of the neo gene and of the endogenous type I collagen and fibronectin genes, without changes in their levels of v-mos RNA or in their ability to induce tumors. The mutations might alter cellular trans-acting factors that either directly or indirectly control the expression of the type I collagen and fibronectin genes in transformed cells.

12-O-Tetradecanoylphorbol-13-acetate (TPA)-induced gene sequences in human primary diploid fibroblasts and their expression in SV40-transformed fibroblasts

We have isolated cDNA sequences from TPA-treated primary human fibroblasts, which indicate RNA species that are coordinately regulated after treatment of these cells with either ultraviolet light, mitomycin C, the UV-induced factor EPIF, or TPA. The levels of RNA are elevated in Bloom syndrome (cells of two out of three patients). After transformation with SV40 one of the sequences is overexpressed while another one is reduced. Both genes maintain their inducibility by the agents mentioned.