Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0178874 (tumor progression)
 40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cells contracting connective tissue matrices generate tractional forces in tissues. Studies of fibroblast contraction, using collagen gels in an in vitro model, demonstrate that it involves the actin cytoskeleton, specific extracellular matrix receptors and requires stimulation by exogenous promoters. Fibroblast contraction is stimulated by factors released by platelets and potentially secreted within the contracting tissue. Endothelial cells secrete a potent promoter of fibroblast contraction which has been identified as endothelin 1. The pathway through which fibroblast contraction is stimulated appears to require activation of protein kinase C. Tumor cells can also secrete endothelin. These mechanisms may be relevant to tumor progression.
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PMID:Extracellular matrix contraction by fibroblasts: peptide promoters and second messengers. 151 96

The mouse skin model of multistage carcinogenesis has for many years provided a conceptual framework for studying carcinogenesis mechanisms and potential means for inhibiting specific stages of carcinogenesis. The process of skin carcinogenesis involves the stepwise accumulation of genetic change ultimately leading to malignancy. Initiation, the first step in multistage skin carcinogenesis involves carcinogen-induced genetic changes. A target gene identified for some skin tumor initiators is c-Ha-ras. The second step, the promotion stage, involves processes whereby initiated cells undergo selective clonal expansion to form visible premalignant lesions termed papillomas. The process of tumor promotion involves the production and maintenance of a specific and chronic hyperplasia characterized by a sustained cellular proliferation of epidermal cells. These changes are believed to result from epigenetic mechanisms such as activation of the cellular receptor, protein kinase C, by some classes of tumor promoters. The progression stage involves the conversion of papillomas to malignant tumors, squamous cell carcinomas. The accumulation of additional genetic changes in cells comprising papillomas has been correlated with tumor progression, including trisomies of chromosomes 6 and 7 and loss of heterozygosity. The current review focuses on the mechanisms involved in multistage skin carcinogenesis, a summary of known inhibitors of specific stages and their proposed mechanisms of action, and the relevance of this model system to human cancer.
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PMID:Multistage carcinogenesis in mouse skin. 152 55

Normal human melanocytes, unlike malignant melanomas, require the presence of phorbol ester for growth in culture. Because protein kinase C (PKC) represents the intracellular receptor for phorbol esters, we investigated a possible correlation between expression of PKC and tumor progression in the melanocytic system. The results failed to show expression of PKC-alpha, -beta or -gamma in normal human melanocytes. However, PKC-alpha was expressed in primary and metastatic melanomas; even though antisense oligodeoxynucleotides targeted against different mRNA regions of human PKC-alpha, and H7, an inhibitor of PKC, did not display significant growth-inhibitory effects. A similar pattern of expression was detected with respect to the expression of cAMP-dependent protein kinase (PKA). Normal human melanocytes did not reveal expression of either of the known catalytic or regulatory subunits of human PKA, whereas primary and metastatic melanomas demonstrated expression of the PKA-specific subunits C alpha and RI alpha.
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PMID:Differential expression of protein kinase C and cAMP-dependent protein kinase in normal human melanocytes and malignant melanomas. 239 22

The main objective of this study was to differentiate between lymph nodes infiltrated by estrogen receptor-positive (ER+) and estrogen receptor-negative (ER-) breast carcinoma. Lymph nodes were obtained from 40 postmenopausal cancer patients, 10 from each disease stage. Six patients from each group had estrogen receptor-positive (BCaER+) and four estrogen receptor-negative (BCaER-) tumors. Both tumor-containing (T) and uninvolved (N) lymph nodes from the same patient were examined by the following parameters: magnitude of lymph node nucleic acid hybridization with cDNA probes from breast cancer MCF-7ER+ and MCF-7ER- cells; and binding capacity of 3H-estradiol, 125I-EGF, and 125I-PDGF binding and protein kinase C activities of the lymph nodes. Concomitant with the appearance of transformed cells, several events occur: Tumor cells induce stimulation of mononuclear cells and macrophages and evoke T- and B-cell proliferation, leading to the synthesis of tumor cell membrane-associated antibodies. In estrogen receptor-positive (ER+) breast carcinoma, estrogens and host hormonal modulatory mechanisms stimulate production and release of epithelial growth (EGF) and platelet-derived growth factors (PDGF). These factors are characterized by protein kinase C activities. There is infiltration of tumor cells into the lymph node and infiltration of leukocytes into the tumor site. In the lymph node, tumor progression depends on tumor cell proliferation rate and metastatic aggressiveness. The experiments described in this study document the changes that occur in lymph nodes, with differences between nodes infiltrated with BCaER+ and BCaER- breast carcinomas. Hybridization of 32P-cDNA from MCF-7ER+ cells with cellular RNA from BCaER+ involved (T) lymph nodes is greater than with cellular RNA from uninvolved (N) lymph nodes. The magnitude of hybridization correlated (P less than 0.005) with the disease stage.
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PMID:Prognostic significance of mRNA-encoding estrogen receptor and epithelial growth factor receptor in breast carcinoma progression into lymph nodes: 1. Estrogen receptor encoding mRNA. 253 80

The process of tumor cell invasion of the basement membrane is proposed to consist of three steps: attachment, local proteolysis and migration. 12-(S)-HETE, a 12-lipoxygenase metabolite of arachidonic acid, upregulates surface expression of integrin cytoadhesins and an autocrine motility factor receptor, suggesting that this metabolite may play an important regulatory function in tumor cell invasion. In the present study, we determined whether 12-(S)-HETE affects surface expression and/or release of cathepsin B, a cysteine protease that has been implicated in focal degradation of basement membrane. Secretion and distribution of cathepsin B was evaluated in two model systems for various stages of neoplastic progression: (i) murine B16 melanoma lines of low (B16-F1) and high (B16a) lung colonization potential, and (ii) immortalized and ras-transfected MCF-10 human breast epithelial cells that differ in their invasive capacities in vitro. In the B16a cells, 12-(S)-HETE induced release of native and latent cathepsin B activity and concomitantly reduced cell-associated cathepsin B immunoreactivity. In contrast, 12-(S)-HETE did not induce the release of cathepsin B from B16-F1 cells, suggesting that there may be an enhanced response to 12-(S)-HETE in more malignant cells. This was confirmed in the MCF-10 system, in which 12-(S)-HETE was able to induce the release of cathepsin B from the ras-transfected cells, but not from the immortal cells. A simultaneous reduction in staining for cathepsin B was observed in the ras-transfected cells, but not in their immortal counterparts. The release of cathepsin B may be mediated by PKC as pretreatment of B16a cells with the selective PKC inhibitor calphostin C, but not with the PKA inhibitor H8, prevented the stimulated release of cathepsin B. In B16a cells, the release of cathepsin B was accompanied by a translocation toward the cell periphery of vesicles staining for cathepsin B, resulting in focal areas of accumulation of cathepsin B. After 12-(S)-HETE stimulation of the ras-transfected MCF-10 cells, cathepsin B was distributed homogeneously on the apical surface. Thus, 12-(S)-HETE can upregulate the surface expression on tumor cells of proteins able to mediate each of the three steps of tumor cell invasion: adhesion, degradation, and migration.
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PMID:A lipoxygenase metabolite, 12-(S)-HETE, stimulates protein kinase C-mediated release of cathepsin B from malignant cells. 752 40

Butyrate is a potent differentiating agent present in high concentrations in colonic lumen as a result of metabolic breakdown of dietary fibre and, as such, may directly influence colonic cancer progression. We have investigated the effects of butyrate on an enzyme system important in colonic tumour progression, the plasminogen-activating system, in a poorly differentiated colon cancer cell. Butyrate was found to induce a rapid and transient increase in plasminogen activator inhibitor type 1 (PAI-1) mRNA while concomitantly suppressing the constitutive production of both urokinase-type plasminogen activator (uPA) and uPA receptor (uPAR) mRNA transcripts. We have investigated the mechanisms involved in mediating these effects by run-on transcription and RNA stability analyses. Our data show that PAI-1 mRNA induction occurs through both regulation of the stability of the alternately spliced 3.3 kb PAI-1 mRNA transcript and induction of the 2.4 kb PAI-1 mRNA transcript. Studies using modulators of signal transduction pathways demonstrate that induction of PAI-1 mRNA synthesis is independent of protein kinase C but dependent on the activation of protein kinase A. Suppression of uPA mRNA by butyrate was found to occur by down-regulation of gene transcription through a process independent of de novo protein synthesis. The transcription rate of the uPAR gene was not modulated by butyrate, but rapid turnover of the uPAR gene by butyrate was dependent on ongoing protein synthesis. Our results demonstrate that butyrate can effect rapid changes in the expression of genes of the plasminogen-activating system through several different mechanisms in a gene-specific manner.
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PMID:Butyrate regulates gene expression of the plasminogen activating system in colon cancer cells. 766 35

Phorbol ester tumor promoter treatment produced a biphasic effect on the binding of polyclonal whole-serum natural antibody (NAb) by L5178Y-F9 murine lymphoma cells. In vitro tumor growth in 100 ng/ml 12-O-tetradecanoylphorbol-13-acetate (TPA) produced a rapid decrease followed by a reversible and unstable increase in NAb binding detected at 4 degrees C. The latter was associated with a functional decrease in NAb binding at 37 degrees C and increases in the tumorigenic and metastatic potentials in vivo. Colchicine, cytochalasin B and sodium azide inhibited the NAb binding of TPA-treated cells, while only colchicine reduced the binding of controls, suggesting the dependence of the TPA-induced increase in NAb binding on microfilament organization and active energy production. The non-tumor-promoting, non-PKC-activating TPA analogue 4-O-Me-TPA failed to alter NAb binding, arguing against nonspecific effects of TPA. The non-tumor-promoting, PKC-activating diacylglycerol, OAG, reproduced the initial decrease in NAb binding but was unable to mimic the subsequent TPA-induced increase. The PKC inhibitor H-7, but not HA1004, could block the TPA-induced increase in NAb binding. Together the data argue that PKC activation is required for both TPA-induced changes in NAb binding but that it is not sufficient to generate the energy- and microfilament-system-dependent, unstable high-NAb-binding phenotype associated with increased tumor progression.
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PMID:Phorbol ester tumor promoter regulation of natural antitumor antibody binding depends on protein kinase C and an intact microfilament system. 789 3

Transforming growth factor (TGF)-beta 1, whose gene is located on mouse chromosome 7, has been proposed to be involved in skin carcinogenesis. In the study presented here, we demonstrated that single topical treatments with different types of tumor promoters, i.e., the protein kinase C activator 12-O-tetradecanoylphorbol-13-acetate (TPA, 2 micrograms); the non-protein kinase C activators anthralin (22.6 micrograms), benzoyl peroxide (20 mg), and cumene hydroperoxide (1.2 mg); the first-stage tumor promoters 4-O-methyl-TPA (500 micrograms) and A23187 (166 micrograms); and the second-stage tumor promoter mezerein (2 micrograms) produced transient induction of TGF-beta 1 mRNA in SSIN (inbred SENCAR) mouse skin. The time of maximum induction varied from 3 to 12 h; the relative extent of induction was ranked as cumene hydroperoxide > benzoyl peroxide > anthralin > TPA > 4-O-methyl-TPA > mezerein > A23187. These findings suggested that TGF-beta 1 mRNA induction is a common response of skin to several types of complete and stage-specific promoters; however, the extent of induction did not correlate with the reported hyperplastic activity of single applications of these promoters. We also demonstrated that TGF-beta 1 mRNA expression in papillomas of SENCAR mice generally correlated with expression levels of cyclin D1, another gene on chromosome 7, and with stage of tumor progression. TGF-beta 1 mRNA expression was constitutively elevated in most squamous cell carcinomas from either initiation-promotion or complete carcinogenesis protocols. Cell lines established from carcinomas also overexpressed TGF-beta 1 mRNA. Immunohistochemical staining of tissue sections of normal and TPA-treated skin revealed the presence of extracellular TGF-beta 1 protein in the dermis and intracellular TGF-beta 1 protein in the epidermis, especially in the suprabasal layers. The staining patterns of papillomas varied, with 62 +/- 13% of the tissue showing strong intracellular staining but only 25 +/- 8% of the connective tissue staining for extracellular TGF-beta 1. Variable staining patterns were also found in carcinomas; some areas stained heavily for both the intracellular and extracellular forms of TGF-beta 1. Overall, 28 +/- 6% of the tissue of the 12 analyzed carcinomas stained for the intracellular form and 18 +/- 5% for the extracellular form of TGF-beta 1.
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PMID:Altered expression of transforming growth factor-beta 1 mRNA and protein in mouse skin carcinogenesis. 814 55

Type 1 transforming growth beta (TGF-beta 1) is a multifunctional regulator of cellular differentiation, motility and growth. It is capable of inhibiting or stimulating these processes depending on cell type, cell density, culture conditions and TGF-beta 1 concentration. TGF-beta 1 regulates growth, in part, by inducing the expression and secretion of various types of collagen, which participate in the control of cell adhesion and migration, as well as growth. TGF-beta 1 also regulates cell growth by controlling the response to epidermal growth factor (EGF) and other growth factors, in ways that can either decrease or increase their growth-promoting effects. Alterations in both negative and positive growth responses to TGF-beta 1 play important roles in tumor progression. Loss of sensitivity to growth inhibition by TGF-beta 1 can occur as a result of decreased expression of collagen. Acquisition of sensitivity to growth stimulation, and autocrine transformation by TGF-beta 1, are associated with aberrant EGF receptor regulation. Aberrant growth factor receptor regulation by TGF-beta 1 may be mediated by a protein kinase C (PKC)-dependent pathway which inhibits degradation of growth factor receptor/ligand complexes. The evidence reviewed is consistent with a minimal two-step mechanism for autocrine transformation, which involves production of growth factor and enhanced cellular response as a result of aberrant membrane traffic. Defects in membrane traffic regulation may provide an explanation for common alterations in tumor cell response to both multiple growth inhibitors and growth stimulators, and may also suggest novel approaches to cancer chemotherapy.
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PMID:Transforming growth factor beta and the cell surface in tumor progression. 828 11

Tissue damage and repair processes are important factors in renal tumor progression. To determine whether protein kinase C (PKC) is involved in these processes, we characterized PKC isozymes during rat kidney regeneration using 3 models: (a) diffuse cortical hyperplasia and hypertrophy induced by folic acid; (b) focal necrosis of the S3 segments induced by S-(1,2-dichlorovinyl)-L-cysteine; and (c) compensatory renal hypertrophy. Immunoblot analyses demonstrated that 5 PKC isozymes, alpha, beta, delta, epsilon, and zeta, were expressed in rat kidney. Six h after folic acid treatment, phorbol ester receptors were down-modulated. Down-modulation preceded an increase in DNA synthesis which was maximal at 24 h. The reduction in phorbol ester receptors was due largely to a decrease in alpha-PKC. zeta-PKC, which is not a phorbol ester receptor, was also decreased. delta- and epsilon-PKCs were not changed. However, alpha-PKC was not down-modulated during compensatory hypertrophy induced by unilateral nephrectomy. Thus, the observed decrease of alpha-PKC after folic acid treatment is most likely associated with the hyperplastic and not the hypertrophic effects of this renal toxin. These results demonstrate that activation-associated down-modulation of PKC, in particular alpha-PKC, occurs during chemical-induced renal regeneration and suggests a general role for PKC activation in non-phorbol ester tumor promotion.
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PMID:Regulation of protein kinase C isozymes in kidney regeneration. 840 25


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