Polyclonal origin of mouse skin papillomas
Open Access
- 1 July 1989
- journal article
- research article
- Published by Springer Nature in British Journal of Cancer
- Vol. 60 (1) , 59-63
- https://doi.org/10.1038/bjc.1989.220
Abstract
We show that, from the earliest morphologically recognisable stages of development, mouse skin papillomas induced by a chemical initiation-promotion regime are polyclonal. We have demonstrated polyclonality directly by immunohistochemical staining of the mosaic cell populations in embryo aggregation chimaeras, a method which removes some of the uncertainties of previous conclusions based on analysis using electrophoretic polymorphisms. The findings may imply that initiation within a single cell and promotion of its clonal descendents is not a sufficient explanation for the origin of these tumours and that interaction between cells of more than one clone is involved.Keywords
This publication has 13 references indexed in Scilit:
- Clonal origin of chemically induced papillomas: Separate analysis of epidermal and dermal componentsJournal of Cell Science, 1987
- Immunochemical demonstration of the clonal organization of chimaeric mouse epidermisDevelopment, 1987
- Studies of skin tumorigenesis in pgk mosaic mice: Many promoter-independent papillomas and carcinomas do not develop from pre-existing promoter-dependent papillomasInternational Journal of Cancer, 1987
- v-ras genes from harvey and BALB murine sarcoma viruses can act as initiators of two-stage mouse skin carcinogenesisCell, 1986
- Autocrine growth factors and cancerNature, 1985
- QUANTITATIVE NEOPLASTIC TRANSFORMATION OF C3H-10T1/2 FIBROBLASTS - DEPENDENCE UPON THE SIZE OF THE INITIATED CELL COLONY AT CONFLUENCE1983
- Inhibition of endogenous tissue alkaline phosphatase with the use of alkaline phosphatase conjugates in immunohistochemistry.Journal of Histochemistry & Cytochemistry, 1981
- Initiation and promotion at different ages and doses in 2200 mice. III. Linear extrapolation from high doses may underestimate low-dose tumour risksBritish Journal of Cancer, 1981
- Morphological transformation of cells subcultured at low cell densitiesLife Sciences, 1978
- In vitro Malignant Transformation by Methylcholanthrene of the Progeny of Single Cells Derived from C3H Mouse ProstateProceedings of the National Academy of Sciences, 1970