Prostate carcinoma has been a therapeutic challenge. The Dunning tumor, a rat prostate adenocarcinoma tumor model, has been used to evaluate prostate carcinoma treatment protocols. The Dunning tumor subline, MAT LyLu , as described in this report, has been established and characterized as an in vitro continuous cell culture. The cell culture has been stable for greater than 60 passages. The in vitro characteristics of the MAT LyLu cell culture, such as growth rate, loss of contact inhibition, clonogenicity, morphology and tumorigenicity, are consistent with the malignant characteristics of the Dunning tumor subline. The MAT LyLu cell culture has enzyme activities which can be used to characterize the cell line. The establishment of MAT LyLu as a continuous cell culture should provide a controlled approach to evaluate the etiology and treatment of prostate carcinoma.
A variety of agents can induce mammalian tumor cell lines to acquire characteristics of the normal cell counterpart. Dimethylsulfoxide (DMSO) has been an effective differentiating agent in many tumor cell lines. In the present study a Dunning rat prostate tumor subline, MAT LyLu, available as an in vitro continuous cell culture was treated with 2.25% DMSO (vol/vol). Treated MAT LyLu cells had a decreased growth rate, saturation density, and clonogenicity, an increased doubling time, and alterations in enzyme activity and tumorigenicity when compared to untreated MAT LyLu cells. The cell viability of treated cells at the saturation density was greater than 90%. MAT LyLu cells treated with DMSO and then removed from DMSO (posttreated) when compared to untreated cells had similar growth rates, doubling times, clonogenicities, enzyme activities, and tumorigenicities. Posttreated MAT LyLu cells had a different growth pattern than untreated MAT LyLu cells. Posttreated cell viability at saturation density was greater than 90%. This investigation demonstrated that a rat prostate adenocarcinoma grown in medium containing 2.25% DMSO acquired characteristics consistent with differentiated prostate cells. Posttreated MAT LyLu cells were similar in many characteristics to untreated cells but were not identical. The alterations noted were not cytotoxic and were not completely reversible. The results of this study correlated with the observations of other investigators who have studied mammalian tumor cell lines exposed to DMSO.
Data are presented demonstrating that adenylate kinase (AK; EC 2.7.4.3) is an oncodevelopmental enzyme in the prostate of Copenhagen rats. We selected the Dunning tumor (dorsal rat prostate) as a model system because it most nearly approximates the human pathology. Four sublines of the tumor (R3327-H, R3327-AT, MAT Lu, and MAT LyLu) were studied. The tumor sublines were maintained as solid tumors in syngeneic rats and as monolayers in tissue culture. AK activity appeared in conjunction with malignant transformation of the dorsal prostate. We also determined the normal developmental enzyme pattern: AK was present in prostates of newborns, but was undetectable in prostates of adults. However, AK increased after castration. Therefore, we propose AK as a potential oncofetal tumor marker in prostatic cancer.
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