Nunn S E, Peehl D M, Cohen P
Department of Pharmacology, Children's Hospital of Philadelphia, University of Pennsylvania 19104, USA.
J Cell Physiol. 1997 May;171(2):196-204. doi: 10.1002/(SICI)1097-4652(199705)171:2<196::AID-JCP10>3.0.CO;2-C.
In this study, we demonstrate insulin-like growth factor binding protein (IGFBP) acid proteolysis in conditioned media (CM) from normal and malignant primary cultures of prostatic epithelial cells, prostatic cell lines, and in seminal plasma. We further demonstrate the absence of such activity in CM from prostatic stromal cells. Radio-labeled IGFBPs (1-6) were incubated with various acidified CM and seminal plasma. None of these media showed IGFBP proteolytic activity at neutral pH, but all CM from prostatic epithelial cells (PC-E) demonstrated strong IGFBP proteolysis at acidic pH. No acid-activated proteolysis was observed in the CM from stromal cell cultures. In order to ascertain the role of cathepsin D, anti-cathepsin antibodies were used to immunodeplete the media of the selected enzymes prior to incubation with IGFBPs. Depletion of cathepsin D greatly reduced the proteolytic activity of the PC-E CM. Additionally, purified cathepsin D yielded a digestion pattern identical to that produced by prostatic cell CM and seminal plasma, following acidic incubation with IGFBP-3. Remarkably, the proteolytic pattern generated by seminal plasma, when incubated with IGFBP-3 at neutral pH, corresponded to that produced by prostate-specific antigen (PSA), demonstrating the interpolation of both neutral and acid proteases from prostate cells into seminal plasma. In conclusion, prostatic epithelial cells secrete acid-specific IGFBP protease(s) related to cathepsin D. Although no significant statistical difference was observed in the degree of acid-specific proteolysis in the media from normal versus malignant primary epithelial cell cultures, physiological characteristics of the malignant state might facilitate increased cathepsin D activity. We suspect this proteolysis may play a role in prostatic cell proliferation and invasive tumor growth.
在本研究中,我们证实在前列腺上皮细胞、前列腺细胞系的正常及恶性原代培养物的条件培养基(CM)以及精浆中存在胰岛素样生长因子结合蛋白(IGFBP)酸性蛋白水解作用。我们进一步证实在前列腺基质细胞的CM中不存在这种活性。将放射性标记的IGFBPs(1 - 6)与各种酸化的CM和精浆一起孵育。这些培养基在中性pH下均未显示出IGFBP蛋白水解活性,但来自前列腺上皮细胞(PC - E)的所有CM在酸性pH下均表现出强烈的IGFBP蛋白水解作用。在基质细胞培养物的CM中未观察到酸激活的蛋白水解作用。为了确定组织蛋白酶D的作用,在与IGFBPs孵育之前,使用抗组织蛋白酶抗体免疫去除所选酶的培养基。组织蛋白酶D的去除大大降低了PC - E CM的蛋白水解活性。此外,纯化的组织蛋白酶D在与IGFBP - 3进行酸性孵育后,产生的消化模式与前列腺细胞CM和精浆产生的模式相同。值得注意的是,精浆与IGFBP - 3在中性pH下孵育时产生的蛋白水解模式与前列腺特异性抗原(PSA)产生的模式一致,表明来自前列腺细胞的中性和酸性蛋白酶都进入了精浆。总之,前列腺上皮细胞分泌与组织蛋白酶D相关的酸特异性IGFBP蛋白酶。尽管在正常与恶性原代上皮细胞培养物的培养基中酸特异性蛋白水解程度未观察到显著统计学差异,但恶性状态的生理特征可能会促进组织蛋白酶D活性的增加。我们怀疑这种蛋白水解作用可能在前列腺细胞增殖和肿瘤侵袭性生长中起作用。
