The Induction of Uterine Leiomyomas and Mammary Tumors in Transgenic
Mice Expressing Polyomavirus (PyV) Large T (LT) Antigen is Associated with the Ability of
PyV LT antigen to form Specific complexes with Retinoblastoma and CUTL1 Family Members
Summary
The inactivation of certain tumor suppressor genes is thought to play an important
role in the genesis of a number of tumor types. For example, inactivation of the
Retinoblastoma (Rb) tumor suppressor is frequently observed in a proportion of sporadic
human breast cancers. While these studies suggest that inactivation of key tumor
suppressor genes may play an important role in the induction of mammary cancers, direct
evidence supporting this contention is lacking. Because polyomavirus (PyV) Large T (LT)
antigen is known to associate with and inactivate certain members of the Rb family
(p105Rb, p107, p130), we have derived transgenic mice which express PyV LT antigen in the
mammary epithelium. As expected mammary epithelial-specific expression of PyV LT antigen
resulted in the induction of mammary tumors which correlated with their capacity to
associate with Rb family members. In addition to mammary carcinomas, female transgenic
mice expressing the PyV LT transgene frequently develop uterine leiomyomas. Because loss
of heterozygosity involving the human CUTL1 (Cut like 1) gene located at chromosomal
position 7q22 has been recently implicated in sporadic human uterine leiomyomas, we tested
the hypothesis that PyV LT antigen may also form specific complexes with CUTL1. The
results of these analyses revealed that specific complexes of CUTL1 and PyV LT antigen
could be detected in both leiomyomas and mammary tumors. Taken together, these
observations suggest that PyV LT antigen may be involved in inducing these tumors by
sequestering both CUTL1 and Rb growth regulatory proteins.
Citations
Webster MA, Martin-Soudant N, Nepveu A, Cardiff RD, Muller WJ. Oncogene 1998 Apr
16;16(15):1963-1972
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William Muller
Institute for Molecular Biology and Biotechnology
Department of Biology
McMaster University
Hamilton, Ontario
Canada
mullerw@mcmail.cis.mcMaster.CA