UMLS:C0376358 - FACTA Search

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Query: UMLS:C0376358 (prostate cancer)
59,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Antiandrogens can be used in various androgen-dependent diseases. Depending upon the therapeutic indication, they can be administered systemically or topically. Systemic treatment with an antiandrogen will inhibit androgen action not only in the desired target site but also in all other target tissues; thus, it will block the androgen-dependent feedback regulating the secretion (hypothalamo-pituitary-testis axis) or the action (protein factors) of androgens. In contrast, topical treatment (acting through cutaneous receptors or local metabolism) should not produce systemic side effects especially in man. Pharmacological assays which can select antiandrogens irrespective of the mechanism measure changes in the final androgenic response, but they consume a great deal of time and test compound and bear little relation to therapeutic activity. Therefore, the biological strategy that we report here and which, at Roussel-Uclaf, has led to the selection of a systemic and a topical antiandrogen (RU 23908 and RU 38882) has consisted in successively performing: (1) in vitro assays which measure an effect at a specific level in the mechanism of antiandrogen action, e.g. interaction with the androgen receptor. Assessing interactions with other classes of steroid hormone receptor can be used to predict possible hormonal side-effects, (2) in vitro determinations of agonist or antagonist activity, e.g. in pituitary cells (LH response to LHRH) or mammary tumor cells (induction of androgen-dependent proteins), (3) in vivo antiandrogen assays after a single treatment (induction of mouse kidney proteins, rat prostatic binding protein) or after repeated treatment (inhibition of the growth of rat accessory glands or of hamster sebaceous glands), to determine the active dose of the compound and possibly the absence of systemic effects by the topical route, (4) assays in animal models designed to mimic a therapeutic context e.g. for prostate cancer: inhibition of the "flare-up" effect of LHRH-A or of the trophic effect of perfused adrenal androgens on rat prostate, antitumoral activity in experimental cancer models. For hyperseborrhoea and acne: histological and stereological analysis of rat skin biopsies to measure the volume density of the smooth endoplasmic reticulum vesicles of the differentiating cells of the sebaceous gland.
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PMID:How the study of the biological activities of antiandrogens can be oriented towards the clinic. 305 62

Human prostatic acid phosphatase isoenzyme 2 (HPAcP-2) was isolated from semen. This purified enzyme was immunized to rabbit to produce polyclonal antibodies. The specificity of the antibodies was tested by Western blot transfer method. Rabbit IgG-peroxidase conjugate was prepared from the antiserum and used to localize HPAcP-2 in prostatic carcinoma. It was found that in the tumor glandular acinus the normal basal cells were replaced by tumor cells containing reaction product. In the tumor cells, the reaction product was seen in the cisternae of rough endoplasmic reticulum (ER) and Golgi apparatus. The secretory vesicles which contained reaction product-stained granules and some amorphous material were seen to fuse with the apical plasma membrane and discharged their content into the glandular lumen. On the other hand, some secretory vesicles in the tumor cells facing to the basement membrane also discharged their similar content into the extracellular spaces. Reaction product-stained granules were found in the interstitial spaces surrounding the tumor cells. These findings suggest that HPAcP-2 is synthesized on the bound ribosomes and discharged into the cisternae of rough ER. The molecules are transported to the Golgi cisternae. After concentration and packaging, HPAcP-2 molecules are then transferred to the secretory vesicles, and discharged into the glandular lumen and to the extracellular spaces. The isoenzyme released in the extracellular space may reach the blood stream through the interstitial spaces or the lymphatic system, resulting in the elevation of serum HPAcPase level in some prostatic cancer patients.
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PMID:Immunoultrastructural demonstration of prostatic acid phosphatase isoenzyme 2 in prostatic carcinoma. 371 7

The acid phosphatase (AcP) isoenzyme in a human prostatic cancer cell line was compared to that of prostatic tissue extract by electrophoresis. The major isoenzyme by prostatic tissue extract is the AcP isoenzyme 2, while only AcP isoenzyme 4 (AcP-4) was observed in the human prostatic cancer cell line. A monoclonal antibody specific to AcP-4 was used to investigate the ultrastructural distribution of AcP-4 in a prostatic cancer cell line. The peroxidase staining pattern indicates that AcP-4 is synthesized on bound ribosomes, discharged into the cisternae of rough endoplasmic reticulum, transported to the cisternae of Golgi apparatus for concentration and packaging, and transferred to the secretory vesicles for exocytosis. It is well known that synthesis and secretion of AcP-2 are the major characteristics of the highly differentiated prostatic epithelial cells. The present data demonstrate the loss of this specific function in the prostatic cancer cell line. Instead of AcP-2, the dedifferentiated cancer cell line synthesizes and secretes AcP-4, which is a common AcP isoenzyme of many nonprostatic tissues.
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PMID:Alteration of acid phosphatase isoenzyme in a human prostatic cancer cell line. 378 36

A new serially transplantable human prostatic cancer (HONDA) in nude mice was established from a patient with metastatic prostate carcinoma. The tumor grows well in male nude mice. Doubling time of the tumor weight at passage #13 was 9.5 +/- 0.87 days (mean +/- SD). The tumor retains the original histological features of adenocarcinoma even after 6 years of continuous passage. High levels of human prostatic acid phosphatase were detected by radioimmunoassay in sera from the tumor-bearing mice. The tumor cells contain human prostate specific antigen. Electron microscopy showed particles resembling type A retroviruses in cisterns of endoplasmic reticulum, and particles resembling type C retroviruses in the intercellular space of the tumor cells. The tumor grew well in female mice treated with testosterone, but not in untreated female mice or castrated male mice.
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PMID:A new serially transplantable human prostatic cancer (HONDA) in nude mice. 620 68

This is the history of discoveries of several enzyme tumor markers in the awardees laboratory. The first, beta-glucuronidase, was originally related to the physiological actions of estrogens and androgens. Perfection of histochemical techniques based on new substrates demonstrated the dual localization of beta-glucuronidase in endoplasmic reticulum and lysosomes. Tumor tissues, in general, are enriched with beta-glucuronidase. Next, acid phosphatase of the prostate gland possesses the distinctive property of undergoing inhibition by L-tartrate. This organ-specific inhibitor was incorporated into the Fishman-Lerner method for measuring serum acid phosphatase of prostatic origin. This significantly increased the specificity of the measurement of serum acid phosphatase for prostatic cancer. Finally, the discovery of the Regan Isoenzyme, placental alkaline phosphatase (PLAP) in a patient with disseminated lung cancer provided a tumor marker useful in the management of gonadal tumors, in particular. Closely related to PLAP is germ cell alkaline phosphatase which is eutopically expressed in seminoma. Finally, radioimmunolocalization and radioimmunotherapy of PLAP in these tumors have been achieved by others.
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PMID:The 1993 ISOBM Abbott Award Lecture. Isozymes, tumor markers and oncodevelopmental biology. 756 86

Elevation of intracellular calcium levels in the presence of normal androgen levels has been implicated in apoptotic prostate cell death. Since the androgen receptor (AR) plays a critical role in the regulation of growth and differentiation of the prostate, it was of interest to determine whether Ca2+ would affect the expression of androgen receptor messenger RNA (mRNA) and protein, thus affecting the ability of androgens to control prostate function. AR-positive human prostate cancer cells, LNCaP, were incubated with either the calcium ionophore A23187 or the intracellular endoplasmic reticulum Ca(2+)-ATPase inhibitor thapsigargin. Subsequently, AR mRNA and protein levels were assessed by Northern and Western blot analysis. Both A23187 and thapsigargin were found to down-regulate steady state AR mRNA levels in a time- and dose-dependent manner. AR mRNA began to decrease after 6-8 h of incubation with 10(-6) M A23187 or 10(-7) M thapsigargin, reaching a nadir at 16 and 10 h of incubation, respectively. In contrast, control mRNA (glyceraldehyde 3-phosphate dehydrogenase) did not change significantly during the treatments with either A23187 or thapsigargin. AR protein levels were found to be decreased after 12 h of incubation with either 10(-6) M A23187 or 10(-7) M thapsigargin. The decrease in AR mRNA and protein seemed to precede apoptosis, since neither A23187 (24 h) nor thapsigargin (30 h) was found to alter cell morphology within the treatment time. Cycloheximide and actinomycin D were unable to change the calcium-mediated decrease in AR mRNA, ruling out the necessity for de novo protein synthesis or a change in mRNA stability. Moreover, the decrease in AR mRNA induced by calcium does not seem to involve protein kinase C- or calmodulin-dependent pathways, since inhibitors of these cellular components had no effect. Nuclear run-on assays demonstrated little or no effects of either A23187 or thapsigargin treatment on AR gene transcription (8 h and 10 h). In conclusion, these studies show that intracellular calcium seems to be a potent regulator of AR gene expression in LNCaP cells.
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PMID:Calcium regulation of androgen receptor expression in the human prostate cancer cell line LNCaP. 772 Jun 67

Calcium (Ca2+) accumulates within the endoplasmic reticulum of cells through function of the sarcoplasmic reticulum and endoplasmic reticulum Ca(2+)-dependent ATPase family of intracellular Ca(2+)-pumping ATPases. The resulting pools have important signaling functions. Thapsigargin (TG) is a sesquiterpene gamma-lactone which selectively inhibits the sarcoplasmic reticulum and endoplasmic reticulum Ca(2+)-dependent ATPase pumps with a 50% inhibitory concentration of approximately 30 nM. Treatment of androgen-independent prostate cancer cells of both rat and human origin with TG inhibits their endoplasmic reticulum Ca(2+)-dependent ATPase activity, resulting in a 3-4-fold elevation in the level of intracellular free Ca2+ (Cai) within minutes of exposure. Due to a secondary influx of extracellular Ca2+, this increase in Cai is sustained, resulting in morphological (cell rounding) and biochemical changes within 6-12 h (enhanced calmodulin, glucose regulated protein, and tissue transglutaminase expression, and decreased expression of the G1 cyclins). Within 24 h of exposure, androgen-independent prostatic cancer cells stop progression through the cell cycle, arrest out of cycle in G0, and irreversibly lose their ability to proliferate with a median effective concentration value of 31 nM TG. During the next 24-48 h, the genomic DNA of the G0-arrested cells undergoes double-strand fragmentation. This is followed by the loss of plasma membrane integrity and fragmentation of the cell into apoptotic bodies. During this process, there is no acidification in the intracellular pH. Using cells transfected with the avian M(r) 28,000 calbindin D Ca(2+)-buffering protein, it was demonstrated that the programmed death initiated by TG is critically dependent upon an adequate (i.e., 3-4-fold) sustained (> 1 h) elevation in Cai and not depletion of the endoplasmic reticulum pools of Ca2+. These results demonstrate that TG induces programmed cell death in androgen-independent prostatic cancer cells in a dose-dependent manner and that this death does not require proliferation or intracellular acidification but is critically dependent upon an adequate, sustained (i.e., > 1 h) elevation in Cai.
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PMID:The role of calcium, pH, and cell proliferation in the programmed (apoptotic) death of androgen-independent prostatic cancer cells induced by thapsigargin. 795 63

31P magnetic resonance spectroscopy (MRS) in vivo and in vitro was used to study modulation of host liver (HL) metabolism in rats bearing the MAT-LyLu variant of the Dunning prostate tumour. Animals were inoculated either with 10(6) or 10(7) MAT-LyLu cells, or with saline to serve as controls. Carcass weight in tumour-bearing (TB) animals decreased despite similar food and water intake in both groups. Absence of metastatic tumour cells from HL of all TB animals was confirmed by histological examination. Twenty-one days after inoculation, 31P MRS showed a 2.5-fold increase in [Pi]/[ATP] ratios in HL in vivo (P < 0.001) which was confirmed by 31P MRS of liver extracts in vitro (P < 0.005). Phosphodiester to ATP ratios were significantly increased (P < 0.05) in HL in vivo, but absolute PDE levels were similar in both groups. Phosphomonoester to ATP ratios did not change, although absolute phosphomonoester levels in HL were reduced by -41% (not significant). In HL extracts in vitro, sharp reductions in the levels of glucose-6-phosphate (P < 0.05), fructose-6-phosphate (P = 0.05), phosphocholine (P < 0.001), glycerophosphocholine (P < 0.001), and glycerophosphoethanolamine (P < 0.001) were observed. Electron microscopy revealed increased amounts and altered distribution of rough endoplasmic reticulum in HL. These findings show that experimental prostate cancer significantly affects hepatic phosphorylation status, phospholipid metabolism, and gluconeogenesis in the host animal, and demonstrate the value of combined MRS in vivo and in vitro in monitoring HL metabolism in cancer.
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PMID:Altered phosphorylation status, phospholipid metabolism and gluconeogenesis in the host liver of rats with prostate cancer: a 31P magnetic resonance spectroscopy study. 851 15

Bcl-2 expression is associated with the progression of prostate cancer from androgen-dependence to androgen-independence. Bcl-2 is an integral membrane protein which localizes to mitochondria, endoplasmic reticulum, and the nuclear envelope. Using spectrofluorometry and laser confocal microscopy, the ability of bcl-2 to modulate intracellular Ca2+ was examined in the Dunning G prostate carcinoma cell line following apoptosis induction by adriamycin. Adriamycin and thapsigargin, an endoplasmic reticulum Ca2+-pump inhibitor, were effective inducers of apoptosis in control, but not bcl-2 transfected, cells. Treatment with adriamycin was accompanied by a sustained rise in cytoplasmic Ca2+ in control and bcl-2 transfected cells. An increase in intranuclear Ca2+ was observed in control cells only. Apoptosis induction by thapsigargin was associated with an increase in cytoplasmic Ca2+ in control cells that was not detected in the resistant bcl-2 transfectants. Ca2+ was excluded from nuclei isolated from bcl-2 expressing cells, but was sequestered in control nuclei, following the addition of ATP. These findings suggest that bcl-2 may regulate levels of intranuclear Ca2+ independently of cytosolic Ca2+ levels. The ability of bcl-2 to modulate, directly or indirectly, sustained increases in both cytosolic and intranuclear Ca2+ may provide a common basis for bcl-2 function in different subcellular compartments.
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PMID:Apoptosis suppression by bcl-2 is correlated with the regulation of nuclear and cytosolic Ca2+. 864 65

Prostate-specific antigen (PSA) has been demonstrated to release the active form of insulin-like growth factor I in vitro (P. Cohen et al., J. Clin. Endocrinol. & Metab., 75: 1046-1053, 1992; P. Cohen et al., J. Clin. Endocrinol. & Metab., 79: 1410-1415, 1994; P. Cohen et al., Horm. Metab. Res., 26: 81-84, 1994) and has significant mitogenic activity on osteoblast cells, fibroblasts, and other cultured cells (C. S. Killian et al., Biochem. Biophys. Res. Commun., 192: 940-947, 1993). Recently, PSA has been found not only in prostate tissues but also in breast, colon, ovarian, and other tissues (E. P. Diamandis and H. Yu, J. Clin. Endocrinol. & Metab., 80: 1515-1517, 1995; E. P. Diamandis and H. Yu, Clin. Chem., 41: 204-210, 1995; A. Clements and A. Mukhtar, J. Clin. Endocrinol. & Metab., 78: 1536-1539, 1994). Therefore, PSA has been proposed as a candidate growth factor, cytokine, or growth factor regulator. In this setting, knowing how to manipulate or block the secretion of PSA by the prostate cancer cells could be a useful approach to controlling the progression of human prostate cancers. Using metabolic labeling experiments, we have studied the biosynthesis and secretion of PSA in LNCaP cells. We have also examined the effects of DTT, tunicamycin, 1-deoxymannojirimycin, pilocarpine, and testosterone on PSA biosynthesis and secretion. The results indicate that the secretion of PSA in LNCaP cells is constitutive instead of regulated and that the disruption of intramolecular disulfide bonds affects the transport of PSA from the endoplasmic reticulum to the Golgi apparatus. The biosynthesis of PSA is potentiated by testosterone and inhibited by brefeldin A and DTT. These results will help us understand PSA biosynthesis and secretion in human prostate cancers.
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PMID:The biosynthesis and secretion of prostate-specific antigen in LNCaP cells. 928 95

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