A. Kooistra scite author profile

Stromal cells from the prostate were recently shown to inhibit clonal growth of the prostatic carcinoma cell lines PC-3 (hormone-independent) and LNCaP (hormone-sensitive) in coculture. Our study revealed that stromal cell-conditioned medium strongly inhibited proliferation of PC-3 and LNCaP cells when grown in monolayer culture. Antiproliferative activity was found to be reversible, and was produced specifically by prostatic stromal cells and not by stromal cells derived from skin, foreskin, uterus, kidney, and Wilms' tumor. Inhibition was not species-specific, since the cell lines AT-2.1 and MATLyLu, derived from the Dunning rat prostate tumor, were also sensitive. No inhibition, however, occurred on breast and renal carcinoma cell lines, suggesting a prostate-specific action. The putative inhibiting factor(s) could be concentrated and partially purified by ammonium sulfate precipitation. The possible role in stromal control of epithelial cell proliferation is discussed.

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Stromal inhibition of epithelial cell growth in the prostate; overview of an experimental study

Kooistra¹,

Romijn²,

Schröder³

1997

Urol. Res.

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The paracrine influence of prostatic stroma on the proliferation of prostatic epithelial cells was investigated. Using a double-layer soft agar assay it was demonstrated that stromal cells from the human prostate inhibit the anchorage-independent growth of the prostatic tumor epithelial cell lines PC-3 and LNCaP. Anchorage-dependent growth was inhibited too as was shown in the semi-automated colorimetric MTT test performed on multiwell plates. Antiproliferative activity was mediated by a diffusible factor in the stromal cell conditioned medium and was found to be produced specifically by prostatic stromal cells. Although the putative inhibiting factor shared some properties with transforming growth factor beta (TGF-beta) evidence is presented that the factor is different from this well-known inhibitor of epithelial cell growth. Absence of TGF-beta activity was shown by the lack of inhibitory response of the TGF-beta-sensitive mink lung cell line CCL-64 to prostate stromal cell conditioned medium and to concentrated partially purified preparations of the inhibitor. Furthermore, neutralizing antibodies against TGF-beta 1 or TGF-beta 2 did not cause a decline in the level of PC-3 growth inhibition caused by partially purified inhibitor. It is concluded that the prostate stroma-derived factor may be a novel growth inhibitor different from any of the currently described inhibiting factors.

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Immunocytochemical characterization of explant cultures of human prostatic stromal cells

et al. 1995

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The study of stromal-epithelial interactions greatly depends on the ability to culture both cell types separately, in order to permit analysis of their interactions under defined conditions in reconstitution experiments. Here we report the establishment of explant cultures of human prostatic stromal cells and their immunocytochemical characterization. As determined by antibodies to keratin and prostate specific acid phosphatase, only small numbers (< 5%) of epithelial cells were present in primary cultures; subsequent passaging further reduced epithelial cell contamination. Antibodies against intermediate filament proteins (keratins, vimentin, and desmin) and smooth muscle actin microfilaments demonstrated that stromal cells from benign prostatic hyperplasia and prostate carcinoma differed in regard to their differentiation markers. Two contrasting phenotypes were identified in cultures derived from these two different lesions: One exhibiting fibroblastic features, was predominant in cultures derived from benign lesions and a second, showing varying degrees of smooth muscle differentiation, was more abundant in carcinoma-derived cultures. These findings are indicative of a remarkable divergence in the stromal-epithelial relationships associated with these pathological conditions and may provide us with a potential tool for studying these processes.

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A. Kooistra

K-rasOncogene Activation as a Prognostic Marker in Adenocarcinoma of the Lung

Prospective Validation of Gallium-68 Prostate Specific Membrane Antigen-Positron Emission Tomography/Computerized Tomography for Primary Staging of Prostate Cancer

Inhibition of prostatic epithelial cell proliferation by a factor secreted specifically by prostatic stromal cells

Stromal inhibition of epithelial cell growth in the prostate; overview of an experimental study

Immunocytochemical characterization of explant cultures of human prostatic stromal cells

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