Gerald L. Bartlett scite author profile

Carcinoma of the human uterine cervix has been associated with several infectious agents including papillomavirus. Papillomavirus group-specific antigen (GSA) and viral particles have been demonstrated in human condylomata acuminata (CA) and flat warts of the uterine cervix. Cell alterations consisting of nuclear enlargement, hyperchromasia, irregularity, binucleation and cytoplasmic clearing (koilocytosis) are often interpreted as mild to moderate dysplasia. Present evidence that human papillomavirus (HPV) is responsible for the development of these lesions relies on the association of GSA and virus particles in the affected tissue, fulfilling the first two of Koch's postulates. Direct proof of an aetiological relationship, however, requires induction of the CA change in normal, human uterine cervix after exposure to papillomavirus. Infecting human subjects with HPV is ethically unacceptable and no satisfactory alternative systems have been defined. Also, human cell cultures do not support growth or transformation by HPV. Here we report the first demonstration of the morphological transformation of human tissues with a human papillomavirus under controlled, experimental conditions. 'Transformation' is used here in its literal sense to refer to a heritable morphological alteration in the appearance of the cells. The use of this term does not indicate that the changes described are neoplastic, but they are identical to the dysplastic changes found in biopsies of uterine cervical CA. Our results demonstrate the direct involvement of CA virus in dysplastic change of human cervical tissue and indicate that the experimental system described may be useful in elucidating the contribution of human papillomaviruses to the pathogenesis of human cervical cancer.

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The Shope Papilloma-Carcinoma Complex of Rabbits: A Model System of Neoplastic Progression and Spontaneous Regression

Kreider

Bartlett

1981

106

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Surveillance, latency and the two levels of MCA‐induced tumor immunogenicity

Prehn

Bartlett

1987

Intl Journal of Cancer

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Among 154 different, MCA-induced mouse sarcomas, the immunogenicities of those tumors that had had the shortest original latencies in their autochthonous hosts were of an intermediate level with relatively little scatter. This fact is not predicted by the theory of immunological surveillance, but does fit the predictions of the immunological facilitation theory of oncogenesis. The frequency distribution of the tumor immunogenicities showed 2 peaks; the cluster of higher immunogenicity had a shorter latency than did the cluster of lower immunogenicity. The data for tumors initiated within in vivo diffusion chambers also showed 2 immunogenicity clusters, suggesting that the discrete clusters were not caused by host immunity. However, immunity apparently reduced the mean latency of the more immunogenic cluster and/or lengthened the mean latency of the less immunogenic, a result also inconsistent with the theory of immunological surveillance.

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