Studies of the mutagenic action required for specific chemicals to produce benign or malignant tumours suggest that in mouse skin at least two genetic events occur before carcinoma formation. The isolation of an activated form of the c-rasH gene from skin papillomas has provided evidence that this gene may be a target for the first mutation, which could constitute the initiating mutation in skin carcinogenesis. In vitro studies indicate that the v-rasH gene of Harvey murine sarcoma virus (Ha-MSV), a replication-defective transforming retrovirus, could impart a conditional initiated phenotype on cultured keratinocytes by blocking their ability to differentiate terminally and arresting them in a late basal cell stage of maturation. We now show that when the Ha-MSV v-rasH gene is introduced into cultured keratinocytes by a defective retroviral vector, skin grafts constructed with cells carrying the mutated ras oncogene produce papillomas on athymic nude mouse recipients. Furthermore, the expression of the exogenous oncogene seems to be regulated at the transcriptional level in the differentiated portions of the benign tumour.
No abstract
Carcinogenesis in mouse skin can be divided into three distinct stages: initiation, promotion, and progression (malignant conversion). Initiation, induced by a single exposure to a genotoxic carcinogen, can result from a mutation in a single critical gene (e.g., rasHa), apparently in only a few epidermal cells. The change is irreversible. Promotion, resulting in the development of numerous benign tumors (papillomas), is accomplished by the repeated application of a nonmutagenic tumor promoter. The effects of single applications of tumor promoters are reversible since papillomas do not develop after insufficient exposure of initiated skin to promoters or when the interval between individual promoter applications is increased sufficiently. The reversibility of promotion suggests an epigenetic mechanism. Promoter treatment provides an environment that allows the selective clonal expansion of foci of initiated cells. The conversion of squamous papillomas to carcinomas (termed progression or malignant conversion) occurs spontaneously at a low frequency. The rate of progression to malignancy can be significantly increased by treatment of papilloma-bearing mice with certain genotoxic agents. These progressor agents or converting agents are likely to act via a second genetic change in papillomas already bearing the initiating mutation. Progression in the skin is characterized by genetic changes that result in several distinct changes in the levels or activity of structural proteins, growth factors, and proteases. The mechanisms involved in progression are being studied in epidermal cell culture. In order to determine the in vivo phenotype of cultured cells, a grafting system was developed in which the cells were transferred from culture to a prepared skin bed in athymic mice. Introduction of an activated v-fos oncogene into initiated cells bearing an activated rasHa gene produced cells with a carcinoma phenotype, i.e., carcinomas formed when the cells were grafted as part of reconstituted skin. Grafted keratinocytes containing the rasHa gene alone produced papillomas; with v-fos alone, normal skin formed when grafted. The rasHa/fos carcinomas showed changes in differentiation markers characteristic of chemically induced carcinomas. A cell culture assay utilizing cells initiated by the introduction of an activated rasHa oncogene was developed to study progression. After exposure of initiated cells to progressor agents under conditions in which the proliferation of the rasHa-initiated cells was suppressed, proliferating foci developed, with a good correlation of activity in the assay with activity in the progression stage in vivo. The cell culture assay provides a quantitative model to study chemically induced neoplastic progression and may be useful to identify potential progressor agents.
To investigate the role of transforming growth factor alpha (TGF alpha) in tumor development, we introduced the human TGF alpha (hTGF alpha) cDNA into cultured primary mouse epidermal cells or papilloma cells using a replication-defective retroviral vector and analyzed skin grafts constructed with such cells. Expression of the exogenous gene was confirmed by detection of hTGF alpha mRNA by northern RNA blot analysis, and the secreted hTGF alpha was measured by ELISA of culture supernatants. Tumor cells expressing hTGF alpha produced benign tumors (papillomas), which were 1.5- to 2-fold larger than tumors of parental cells when tested as skin grafts on nude mice. Grafts of normal cells that expressed hTGF alpha produced normal skin. When mixtures of parental tumor cells and normal mouse keratinocytes were grafted to nude mice, papilloma formation was suppressed and tumors that did form were small. Grafts of hTGF alpha-producing papilloma cells combined with either normal epidermal cells or hTGF alpha-producing epidermal cells yielded large tumors. Mixed grafts containing keratinocytes expressing hTGF alpha and parental papilloma cells also produced large tumors. While the tumor size was substantially increased by hTGF alpha expression, the tumors that developed in all groups were histologically benign and reached a stable size 4-5 wk after grafting. These results indicate that expression of hTGF alpha by either tumor cells (autocrine) or adjoining normal cells (paracrine) can stimulate tumor growth, particularly when tumor growth is suppressed by normal tissue. However, expression of this growth factor did not appear to influence tumor progression directly.
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