UMLS:C0596263 - FACTA Search

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Query: UMLS:C0596263 (carcinogenesis)
64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cytokines can have both negative and positive effects on cells undergoing carcinogenesis. The promotion and progression phases of carcinogenesis may be affected by autocrine loops involving cytokines with growth factor activities such as IL-1, IL-2, low molecular weight B cell growth factor, TNF, IL-3, GM-CSF, M-CSF and IL-9. Aberrations in cytokine receptors such as the truncated EGF receptor present in v-erB promotes the growth of neoplastic cells. Aberrant signaling mechanisms, as found with spleen focus-forming virus, which mimics the ligand that activates the erythropoietin receptor, can also contribute to proliferation of preneoplastic and neoplastic cells. In contrast, cytokines such as interferons, LIF, TGF-beta, TNF and leukoregulin, with antiproliferative or differentiating activities, are sometimes capable of inhibiting carcinogenesis. Transfection of tumor cells with cytokine genes, such as IL-2, IL-4 and TNF, can cause suppression of in vivo tumor cell growth by mobilizing host immune and inflammatory cell responses. Thus cytokines and their receptors may play a direct role in early stages of tumor cell development and growth.
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PMID:Cytokines as positive and negative regulators of tumor promotion and progression. 132 42

Peptide growth factors are proteins that stimulate cellular proliferation by binding to specific cell membrane receptors. Evidence is accumulating that abnormal regulation of growth factors may contribute to carcinogenesis. The epithelial growth factors, EGF and TGF-alpha, which share the same receptor, EGFR, may play a pivotal role in the development and maintenance of head and neck cancer; preliminary studies concerning TGF-beta and IL-2 are inconclusive. There is increased production of TGF-alpha and EGFR mRNA in the majority of fresh tissues and cell lines from patients with SCCHN. This increase results from transcriptional activation of the gene(s). Therapies directed at the regulation of gene transcription may be useful in chemoprevention or modulation of disease. Nuclear studies that target up-regulated growth factor receptors may improve the ability to detect microscopic regional metastatic disease.
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PMID:The role of peptide growth factors in head and neck carcinoma. 140 94

Chemoprevention trials in lung and upper aerodigestive tract (UADT) cancer are guided by the field cancerization hypothesis. Inhaled carcinogens place the entire epithelial lining at risk for the development of cancer. The hypothesis is supported by the occurrence of premalignant lesions, such as leukoplakia or squamous metaplasia, and multiple primary tumors within the field. The concept of carcinogenesis as a multistep process suggests the possibility of blocking or reversing the progression to invasive cancer with systemic treatment. A series of ongoing clinical trials will determine the efficacy of retinoid chemoprevention and will attempt to develop intermediate biomarkers. Biomarkers which reliably reflect progression towards cancer could be used to dramatically improve the efficiency of chemoprevention trials and also would aid in screening potential chemoprevention agents. Genomic biomarkers include non-specific estimates of ongoing DNA injury, such as micronuclei, as well as development of aneuploidy and alterations in oncogenes. A class of biomarkers of increasing importance assess proliferation and growth regulation, and include proliferating cell nuclear antigen (PCNA), TGF-beta, EGFR and retinoid receptors. Other markers, such as the blood group antigens, reflect differentiation and may be associated with the development of premalignant lesions. Preliminary data from several of these markers has suggested an association with carcinogenic exposures and premalignant lesions, but none of these markers either alone or in panels have yet been validated as a reliable surrogate for the development of invasive cancer.
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PMID:Intermediate biomarkers in upper aerodigestive tract and lung chemoprevention trials. 146 3

2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) acts as a potent liver tumor promoter in female but not in male rats. As a basis for studying mechanisms of growth control by liver tumor promoters, the effects of TCDD, of two congeners and ethinylestradiol have been examined in primary cultures of hepatocytes. The agents alone were relatively ineffective but acted as co-mitogens when DNA synthesis was stimulated by epidermal growth factor (EGF). The co-mitogenic effect of TCDD was only observed in adult animals, which are less sensitive to EGF than juvenile animals. Similar effects were seen with two TCDD congeners (1,2,3,4,6,7,8-heptachlorodibenzo-p-dioxin and octachlorodibenzo-p-dioxin) in the rank order of their affinity to the Ah receptor. The concentration maximum required for their co-mitogenic action (3 x 10(-12) M for TCDD) was lower than that required for enzyme induction. TCDD was not able to overcome the inhibitory action of TGF-beta (1 ng/ml). Ethinylestradiol additively or even synergistically increased the effect of TCDD. The results suggest: (i) co-mitogenic actions of TCDD and congeners are mediated by the Ah receptor. They are elicited at lower concentrations than those required for the induction of drug-metabolizing enzymes. (ii) Estrogens enhance the co-mitogenic actions of dioxins.
Carcinogenesis 1992 Mar
PMID:2,3,7,8-Tetrachlorodibenzo-p-dioxin and ethinylestradiol as co-mitogens in cultured rat hepatocytes. 154 36

The majority of renal cancers are thought to arise from the proximal tubule epithelium, but little is known about their etiology. In this investigation, we have established an in vitro model to study the transformation of these target cells using rat kidney proximal tubule epithelial cells (RPTE) transformed in defined medium with SV40-viral DNA. Selection by passaging cells onto plastic surfaces yielded a population of cells (SV-RPTE) that expressed keratin and vimentin along with SV40 large-T antigen. The cells were morphologically transformed and lost their differentiated character as determined by several RPTE markers. SV-RPTE cells grew in soft agar in serum-supplemented medium containing insulin, epidermal growth factor, and cholera toxin, but were unable to grow when serum and growth factors were not combined. Acidic and basic fibroblast growth factors (aFGF and bFGF) were unique since they were the only single factor that induced anchorage-independent growth in the presence of serum alone. Transforming growth factor-beta 1 (TGF-beta 1) was a potent inhibitor of anchorage-independent growth, but the inhibition was partially overcome by a combination of growth factors. The growth factor responses of SV-RPTE in monolayer cultures differed from those in soft agar; the cells were more sensitive to growth stimulation by insulin and insulin-like growth factor, neither of which stimulated anchorage-independent growth. SV-RPTE cells in monolayer cultures had also lost the sensitivity to growth inhibition by TGF-beta 1 characteristic of normal RPTE. The RPTE transformation model described here will be very useful for investigating the molecular basis and etiology of renal cancers. Furthermore, the data suggest that maintenance of the transformed phenotype by aFGF and bFGF and loss of negative growth regulation by TGF-beta 1 could play a role in renal carcinogenesis.
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PMID:Altered growth regulation of rat kidney proximal tubule epithelial cells transformed in vitro by SV40 viral DNA: fibroblast growth factors (heparin-binding growth factors) are potent inducers of anchorage-independent growth. 164 62

The role of transforming growth factor-beta 1 (TGF-beta 1) in multisage carcinogenesis in mouse skin was assessed by studying its growth inhibitory effects on nontumorigenic and tumorigenic keratinocytes and by examining its mRNA expression in vitro and during epidermal hyperproliferation and multistage carcinogenesis. While growth of primary basal keratinocytes was inhibited by TGF-beta 1 in doses as low as 0.1 ng/mL, the immortal keratinocyte line MCA/3D ("putatively initiated" cells) responded to TGF-beta 1 with slightly reduced sensitivity, and the papilloma-producing keratinocyte line 308 was considerably less sensitive. In contrast, the squamous carcinoma cell line Carc B was completely nonresponsive, and two other tumorigenic cell lines (PDV and PDVC57) were sensitive to growth inhibition by TGF-beta 1. Steady-state levels of TGF-beta 1 mRNA were high in all the malignant cell lines and in line 308 papilloma cells, but low in primary basal cells and in the nontumorigenic keratinocyte lines V2, Reb1, and MCA/3D. Our in vivo studies showed that tumor promoters, but not mitogenic or weak hyperplasiogenic agents, were able to induce transient expression of TGF-beta 1 mRNA in mouse epidermis. A constitutive overexpression of TGF-beta 1 mRNA was observed in malignant carcinomas but not in the benign premalignant lesions, indicating that overexpression may be associated with malignant progression.
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PMID:TGF-beta 1 and skin carcinogenesis: antiproliferative effect in vitro and TGF-beta 1 mRNA expression during epidermal hyperproliferation and multistage tumorigenesis. 171 Apr 62

Topical application of benzo[a]pyrene (B[a]P) at dose rates of 32 or 64 micrograms/week to the dorsal skin of female Swiss (ICR) mice resulted in a marked and rapid increase in concentration of RNA for transforming growth factor beta 1 (TGF-beta 1) in epidermis. Two RNA species 1.9 and 2.5 kb, detected by a mouse TGF-beta 1 cDNA probe, were coordinately expressed. The concentration of these species appeared to be maximal 6-12 h after application, and returned to control levels after 48 h. A second, less intense maximum was observed 72-96 h after treatment. Similar effects were observed in CD-1 and HRS (both hr/hr and hr/+) mice, which are also sensitive to B[a[] tumorigenesis. In comparison with 32 and 64 micrograms/week a dose rate of 16 micrograms/week was essentially without activity in increasing TGF-beta 1 RNA concentration. All three dose rates induced an increase in epidermal RNA for ornithine decarboxylase, however, and with kinetics similar to those observed with the potent tumor-promoting phorbol ester 12-O-tetradecanoylphorbol-13-acetate. The results obtained support other findings made in this laboratory, that at high dose rates above 16 micrograms tumorigenesis by B[a]P involves a strong tumor-promoting component. The latter further appears to be mediated by increased TGF-beta 1 expression.
Carcinogenesis 1992 Jan
PMID:Stimulation of TGF-beta 1 mRNA concentration in mouse skin treated with benzo[a]pyrene. 173 76

The growth of human prostate cancer and its relationship to the surrounding stroma are controlled by complex mechanisms that are incompletely understood. Clearly, peptide growth factors appear to have crucial roles in these processes. One of these factors, TGF-beta, and its family members are notable for their wide spectrum of biological effects. In terms of growth, TGF-beta inhibits the growth of prostate cancer cells in a cytostatic fashion while stimulating the growth of critical stromal cells, such as fibroblasts. Since the inhibitory effects of TGF-beta on prostate cancer cells appear to diminish as the process of transformation progresses towards less differentiated states, the net effect on prostate tumour growth may be positive. Recent evidence suggests that the inhibitory effects of TGF-beta on growth, at least, might be mediated through the RB tumour suppressor gene product and the proto-oncogene c-myc. Beyond its direct growth effects, TGF-beta also alters the response of prostate cancer cells to positive mitogenic factors, such as members of the EGF and FGF families, suggesting that growth control is a delicate balance between positive and negative influences. Non-mitogenic responses to TGF-beta by prostate cancer cells, the immune system, the stroma and the vascular system provide evidence that TGF-beta might also be important in the processes of carcinogenesis, tumour establishment and metastases. In addition, TGF-beta appears to influence metabolic pathways important to drug metabolism and steroidogenesis. In vivo, limited evidence suggests that TGF-beta can alter the growth and differentiation of some tumour types but appears to be very toxic when administered in high doses. A better understanding of the response of prostate cancer cells to members of the TGF-beta family may open new avenues of treating and controlling this disease.
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PMID:Response of prostate cancer cells to peptide growth factors: transforming growth factor-beta. 184 49

This study examined the characteristics of keratinocytes from 4-nitroquinoline N-oxide-treated rat oral epithelium that formed well differentiated carcinomas or spindle cell tumours when transplanted s.c. to athymic mice. Small polygonal-type cells in early culture passage gave rise to xenografts that were well differentiated carcinomas with keratin positivity and a differential reactivity with two anti-vimentin antibodies (positive Vim Dako, negative Vim 3B4). Progressive culture of the polygonal cells resulted in cells of a more stellate-like morphology which, when transplanted, formed spindle cell tumours that were keratin negative and vimentin positive (Vim Dako and Vim 3B4). The staining pattern of the xenografts was similar to that of the cultured cell derivatives. By contrast to normal oral keratinocytes which were stimulated by epidermal growth factor (EGF), the parental and xenograft-derived cells were markedly less responsive and at times refractory to EGF. Low affinity EGF receptors characterized normal keratinocytes whilst parental and xenograft-derived cells from well differentiated carcinomas and spindle cell tumours expressed diminished numbers of low and high affinity and high affinity EGF receptors respectively. Normal keratinocytes and parental tumour cells were inhibited by transforming growth factor (TGF-beta) whereas xenograft-derived cell lines from both well differentiated carcinomas and spindle cell tumours were refractory to TGF-beta. TGF-beta receptors were predominantly of high affinity although xenograft-derived cells, particularly from spindle cell tumours, expressed increased numbers of receptors which were of lower affinity. The results indicate that spindle cell tumours are a variant of well differentiated carcinomas and express an aberrant pattern of differentiation. Resistance to EGF-induced stimulation and TGF-beta-induced inhibition appears not to be an integral part of the tumour phenotype but the pattern of EGF and TGF-beta receptor expression closely follows the degree of tumour differentiation.
Carcinogenesis 1991 Mar
PMID:Differentiation of malignant oral rat keratinocytes reflects changes in EGF and TGF-beta receptor expression but not growth factor dependence. 184 51

EBV-inducing factor/transforming growth factor type beta (EIF/TGF-beta) exhibits tumor-promoting activity for C3H-10T1/2 mouse fibroblasts in vitro. Treatment of C3H 10 T 1/2 fibroblasts seeded at low density with initiating doses of UV light, followed by culture in the presence of EIF/TGF-beta leads to the appearance of foci of stably transformed cells that have the potential to grow in soft agar. The promoting effect depends both on the dose of EIF/TGF-beta applied and its continuous presence for 2 to 3 weeks. In addition to its procarcinogenic effect in tumor promotion, EIF/TGF-beta exhibits a strong negative effect on transformed cells surrounded by normal cells, indicating a dual role of EIF/TGF-beta in carcinogenesis. The lack of completely transformed individual cells in the initiated cell population and the negative effect of EIF/TGF-beta on transformed cells in contact with normal cells exclude any possible explanation of the tumor-promoting effect of EIF/TGF-beta as being the result of a selection process due to the establishment of growth advantages for cells transformed by the initiator. The data, in fact, indicate that tumor promotion by EIF/TGF-beta implies the stable acquisition of distinct qualitative changes by the cells.
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PMID:Tumor-promoting activity of Epstein-Barr-virus-inducing factor transforming growth factor type beta (EIF/TGF-beta) is due to the induction of irreversible transformation. 184 23

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