Senescence and prostate: steroid hormone and growth factors interactions in the glandular microenvironment

Senescence is a determining factor for morphological and functional prostatic alterations. The objective of this study was to characterize and correlate the interactions among fibroblast growth factor receptors (FGFR2, FGFR7, FGFR8), epidermal growth factor (EGFR), ?-actin and vimentin and the androgen receptor (AR), estrogen ? and ? (ER?, ER?) and prolactin (PR) in epithelial and stromal prostatic compartments in elderly rats on hormonal variation. Also, the objective was to characterize and correlate the AR, ER?, ER? and PR with the FGFs in the human prostatic samples, presenting high grade and low grade adenocarcinoma. Fifty male rats (10 months old) and 10 young male rats (4 months old) were divided into groups: Young (JOV) and Senile Groups (SE)- peanut oil injections for 30 days, Castrated Group (CAS)- surgical and chemical castration; Tamoxifen-Letrozole Group (TAM)- tamoxifen and letrozole injections in period of 48 hours for 30 days; Castrated + estrogen Group (REEST)- surgical and chemical castration and subsequently the animals received 17?-estradiol injections for 30 days; Tamoxifen- Letrozole + Androgen Group (RETEST): after treatment similar to the TAM group, the animals received testosterone cypionate injections for 30 days. After the treatment, the animals were sacrificed and the ventral lobe samples were collected and analyzed for the Light Microscopy, immunohistochemistry and Western blotting. Thirty human prostatic samples were collected from elderly men and divided into High-grade and Low-grade Adenocarcinoma Groups. The samples were submitted to light microscopy and immunohistochemical analyses. After estrogen administration, epithelial atrophy, microacini, inflammatory cells and stromal hypertrophy were observed. The hyperandrogenization led to the recovery of epithelium. The vimentin, ER? and PR increase was verified in the SE group in relation to JOV one. Differential localization of PR and ?-actin was seen in the CAS group in relation to SE one. Recovery of the distribution pattern of ?-actin and prolactin reactivities was observed in the RETEST group in relation to SE. In the REEST group, it was observed the ER? and ER? increase and differential localization of these receptors, and the ?-actin and vimentin decrease in relation to SE. In the group TAM, it was observed the ER? and ?-actin decrease and the prolactin increase in the stromal compartment in relation to SE group. Regarding to human samples, increased FGFR2 and FGFR8 were observed in the early stages of prostate cancer, suggesting these molecules as good therapeutic targets. Thus, it can be concluded that the involvement of ER? in activation of reactive stromal led to the favorable microenvironment to cancer progression considering the strong stromal imbalance, and the ER? contributed to the inhibition of precancerous lesions in elderly men. The imbalance caused by ablation and/or hormone therapy not only changed the feedback between steroid hormones but also changed the reactivity localization of molecules in prostatic compartments, probably interfering in the autocrine and paracrine signaling of estrogen, prolactin and EGF, and pointing these molecules as possible triggers of the formation of reactive stroma. The present results demonstrated that hormone ablation in senile rats led to increased reactivities of the FGFs, suggesting interactions among hormones and their signaling pathways and senile prostatic microenvironment. Furthermore, it can be concluded that the ways of FGFs can be activated also androgen-independent manner, considering that the FGFs showed increased levels in the severe androgen depletion characterized by castration (AU)