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

Bone scans, serum tissue-specific polypeptide antigen (TPS), prostate specific antigen (PSA), and neuron-specific enolase (NSE) were assessed in a total of 80 hormonally treated prostate cancer patients. Thirty-nine patients were free of osseous lesions; in 8 subjects, 3 or fewer scintigraphic hot spots were found; in 29 patients, more than 3 bone lesions were recorded. In 3 patients, a partial contribution of endocrine cell cancer structures was found, while in one patient, a homogeneous small cell carcinoma was detected at autopsy. Measurement of the serum PSA test showed a clear-cut rise from stage D0 subjects to stage D2 patients, with a small number of bone lesions (> or = 3). However, a relative decrease in the mean PSA level was measured with further progression in a number of hot spots in bone (> 3). Androgen threshold that is critical for the induction of the PSA (and PAP) expression seems to differ markedly in various cell subpopulations that arise during adenocarcinoma dedifferentiation. This fact explains not only the rise in serum PSA in the majority of progressive and previously castrated subjects after an initial period of hormonal responsiveness, but also a relative decline of androgen-dependent PSA expression with further tumor progression. Localized disease was accompanied with normal or just slightly elevated TPS concentration. In metastatic tumors, serum TPS values revealed a steady increase with the progression in bone. These data seem to reflect not only an increase in tumor proliferation rate with progressively transformed genome, but also the rise in the number of proliferating cells. The presence of nonepithelial transformed tumor structures, such as small cell cancer within a bulk of adenocarcinoma, reduces or normalizes numerical serotests values of both TPS and PSA even during tumor progression. The extent of such decline depends upon the bulk of the endocrine component. The assessment of the above parameters, especially when associated with elevated plasma NSE concentrations, may help in distinguishing an advanced adenocarcinoma with and without elements of malignant neuroendocrine structures. The proposed approach, modified by applying corresponding organ-specific markers, may be checked for its possible general use in staging protocols of various heterogeneous tumors.
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PMID:A more objective staging of advanced prostate cancer--routine recognition of malignant endocrine structures: the assessment of serum TPS, PSA, and NSE values. 750 85

Recent clinicopathologic studies have shown that many prostatic adenocarcinomas express focal neuroendocrine differentiation and that neuroendocrine differentiation is most apparent in advanced anaplastic tumors. While studying growth-regulatory signal transduction events in human prostate carcinoma cell lines, we found that in two of four cell lines, the androgen-sensitive line LNCaP and the highly metastatic androgen-independent line PC-3-M, elevation of cAMP through addition of cAMP analogues or phosphodiesterase inhibitors induced a markedly neuronal morphology. Also in LNCaP cells ultrastructural analysis showed that cAMP induced the appearance of neurosecretory cell-like dense-core granules. Phenotypic analysis of untreated LNCaP and PC-3-M cells showed that both cell lines express markers of the neural crest including S-100, chromogranin A, pp60c-src, and neuron-specific enolase as well as the epithelial marker KS1/4 and stage-specific embryonic antigen 4. In PC-3-M cells, cAMP markedly elevated neuron-specific enolase protein and caused an increase in the specific activity of the neuroendocrine marker pp60c-src, and in both cell lines expression of KS1/4 and stage-specific embryonic antigen 4 was down-regulated. In addition to effects on lineage markers, cAMP treatment induced G1 synchronization, growth arrest, and loss of clonogenicity, indicating terminal differentiation. Our data provide direct evidence of plasticity in the lineage commitment of adenocarcinoma of the prostate. We have shown that cell-permeant cAMP analogues can induce terminal differentiation, suggesting that hydrolysis-resistant cyclic nucleotides may present an additional approach to the treatment of advanced prostate cancer.
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PMID:Terminal neuroendocrine differentiation of human prostate carcinoma cells in response to increased intracellular cyclic AMP. 820 89

Prostatic adenocarcinoma has a divergent response to androgen ablation and a varied long-term prognosis. BCL-2 is a proto-oncogene that prevents programmed cell death. Since androgen withdrawal induces apoptosis, it has been postulated that BCL-2 may play a role in androgen resistance. Neuroendocrine cells have been demonstrated in prostate cancer and have an adverse influence on long-term prognosis. This study demonstrates a proportional relationship between the tissue levels of BCL-2 and the neuroendocrine marker, neuron-specific enolase in 11 of 13 cases of primary prostate cancer. This relationship does not appear to exist in metastatic prostate cancer or in most nonprostate cancers. Direct immunohistochemical staining confirmed BCL-2 in six of the primary tumors, and these BCL-2-containing cells appeared to be intimately associated with tumor neuroendocrine cells.
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PMID:BCL-2 proto-oncogene expression in prostate cancer and its relationship to the prostatic neuroendocrine cell. 820 7

A model of prostate cancer progression based on the expression pattern of informative genes in the human prostate cancer xenograft LuCaP 23.1 is presented. Apparently, there are at least 2 tumor cell populations of LuCaP 23.1, representing 2 different phenotypes. One is NSE (neuron-specific enolase)-positive and the other NSE-negative. NSE-positive tumors were recovered after hormone-independent growth in castrated mice. These hormone-independent tumors also expressed BCL2, a gene product shown to inhibit apoptosis. With NSE, BCL2 and PSA (prostate-specific antigen) as identifying markers, the model specifies a putative progression sequence of the prostate cancer cell types. We also show a proposed lineage relationship among the 3 principal normal cell types found in the prostatic epithelium.
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PMID:Prostatic cell lineage markers: emergence of BCL2+ cells of human prostate cancer xenograft LuCaP 23 following castration. 854 2

Several serum tumor markers have been studied in different types of epithelial cell-associated cancer. The application of these markers in clinical oncologic practice is hampered by insufficient sensitivity and specificity in most primary tumors. It is important to define which markers contribute to patient management. Prostate-specific antigen can be used in prostate cancer patients for screening and monitoring advanced disease. Cancer antigen 125 is primarily used for the monitoring of combined chemotherapy in ovarian cancer patients. In breast cancer patients preoperative levels of cancer antigen 15-3, carcinoembryonic antigen, and tissue polypeptide antigen specific do not contribute in prognosis, but changes in the levels of these markers predict the clinical outcome in the treatment of advanced disease better than UICC criteria. Carcinoembryonic antigen and tissue polypeptide antigen specific can detect recurrence in colorectal cancer patients earlier than imaging methods. Tissue polypeptide antigen specific is sensitive in measuring response to combined chemotherapy in advanced gastrointestinal cancer. In bladder cancer, urine levels of cytokeratins are sensitive in indicating advanced disease. In small-cell lung cancer neuron-specific enolase is a good indicator of chemotherapy response. In non-small-cell lung cancers, cytokeratins may also predict response in chemotherapy treatment. Clinical application of tumor markers in the correct circumstances can omit more invasive and costly procedures and will contribute to better patient care.
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PMID:How to integrate serum tumor markers into clinical oncologic practice. 874 5

An androgen-repressed human prostate cancer cell line, ARCaP, was established and characterized. This cell line was derived from the ascites fluid of a patient with advanced metastatic disease. In contrast to the behavior of androgen-dependent LNCaP and its androgen-independent C4-2 subline, androgen and estrogen suppress the growth of ARCaP cells in a dose-dependent manner in vivo and in vitro. ARCaP is tumorigenic and highly metastatic. It metastasizes to the lymph node, lung, pancreas, liver, kidney, and bone, and forms ascites fluid in athymic hosts. ARCaP cells express low levels of androgen receptor mRNA and prostate-specific antigen mRNA and protein. Immunohistochemical staining shows that ARCaP cells stain intensely for epidermal growth factor receptor, c-erb B2/neu, and c-erb B3. Staining is negative for chromogranin A and positive for bombesin, serotonin, neuron-specific enolase, and the c-met protooncogene (a hepatic growth factor/scatter factor receptor). ARCaP cells also secrete high levels of gelatinase A and B and some stromelysin, which suggests that this cell line may contain markers representing invasive adenocarcinoma with selective neuronendocrine phenotypes. Along with its repression of growth, androgen is also found to repress the expression of prostate-specific antigen in ARCaP cells as detected by a prostate-specific antigen promoter-beta-galactosidase reporter assay. Our results suggest that the androgen-repressed state may be central to prostate cancer progression and that advanced prostate cancer can progress from an androgen-independent to an androgen-repressed state.
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PMID:Androgen-repressed phenotype in human prostate cancer. 898 79

Prostate cancer is a malignant tumor that is likely to increase in incidence in Japan. The most troublesome facet of this tumor is its conversion from a hormone-sensitive status to an insensitive one. Neuroendocrine differentiation may help explain this phenomenon. We studied the prevalence of neuroendocrine cells in prostate carcinoma after androgen ablation therapy. Radical prostatectomy specimens from 28 patients who had undergone neoadjuvant endocrine therapy with luteinizing hormone-releasing hormone analogue were retrospectively studied. Immunohistochemical staining was used to assess the localization of neuroendocrine cells. Neuroendocrine differentiation index, defined as the sum of the immunoreactivity scores of the specimens against anti-chromogranin A and anti-neuron specific enolase antibodies, was developed. Overall, 46.4% and 53.6% of the prostate carcinomas contained chromogranin A and neuron-specific enolase positive cells, respectively. Localization of these neuroendocrine cells in tumors was patchy. Two specific types of neuroendocrine cells were identified: a closed type and an open type based on the location of the neuroendocrine cells. The neuroendocrine differentiation index correlated with tumor grade, but not with tumor stage. The prevalence of neuroendocrine cells in higher grade prostatic carcinoma may help to explain the insensitivity of these cancers to hormonal therapy.
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PMID:Neuroendocrine cells in the prostatic carcinomas after neoadjuvant hormonal therapy. 938 86

We report what to our knowledge is the first case in the English-language literature of a primary, pure, undifferentiated large-cell neuroendocrine carcinoma of the urinary bladder. To date, only one case of a large-cell neuroendocrine carcinoma was reported, and it was associated with an adenocarcinoma most likely of urachal origin. On the other hand, slightly more than 100 cases of undifferentiated small-cell carcinoma of the urinary bladder were reported, approximately one-half of which were associated with poorly differentiated transitional-cell carcinoma of the conventional type. The patient in our case was a 73-year-old man with a history of prostatic cancer treated with radiation therapy. He presented with hematuria, leading to the discovery of a solitary tumor on the dorsal wall of the urinary bladder. A diagnosis of large-cell neuroendocrine carcinoma was made, supported by immunohistochemical reactivity for chromogranin, neuron-specific enolase, and synaptophysin; a variety of other hormonal markers of neuroendocrine tumors were negative. The radical cystoprostatectomy and bilateral pelvic lymphadenectomy specimen showed a transmurally invasive tumor, without regional lymph node metastases. The patient died 2 months after surgery, and the autopsy revealed disseminated metastases histologically identical to the urinary bladder neoplasm. Awareness of the occurrence of large-cell neuroendocrine carcinoma of the urinary bladder seems to be important because of the possible aggressive outcome associated with this tumor and because of differential diagnostic considerations, which include malignant lymphoma and metastasis from another primary, especially in tumors occurring in a pure form.
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PMID:Primary, pure, large-cell neuroendocrine carcinoma of the urinary bladder. 979 33

Neuroendocrine (NE) differentiation within prostate tumors is proposed to be a contributing factor in disease progression. However, the cellular origin and molecular mechanism controlling differentiation of prostatic NE cells are unresolved. The prostate tumor cell line, LNCaP, can reversibly acquire many NE characteristics in response to treatment with beta-adrenergic receptor agonists and activators of adenylate cyclase. In this study, we demonstrate that these treatments induce protein kinase A (PKA) activation in LNCaP cells and that ectopic expression of a constitutively activated form of the PKA catalytic subunit, CIalpha, results in acquisition of NE characteristics, including the extension of neuritic processes, cessation of mitotic activity, and production of neuron-specific enolase. Forskolin-, epinephrine-, and isoproterenol-dependent NE differentiation of LNCaP cells was significantly inhibited by expressing a dominant negative mutant of the PKA regulatory subunit, RIalpha. These results demonstrate that prostatic NE differentiation in response to these agents depends on PKA activation, and this signaling pathway may provide a therapeutic target for treating advanced forms of prostate cancer.
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PMID:Activated 3',5'-cyclic AMP-dependent protein kinase is sufficient to induce neuroendocrine-like differentiation of the LNCaP prostate tumor cell line. 1078 3

The EGR1 transactivator is overexpressed in prostate cancer, and its expression pattern suggests that EGR1 could potentially regulate a number of steps involved in initiation and progression of prostate cancer, such as mitogenesis, invasiveness, angiogenesis, and metastasis. To identify potential EGR1 target genes in an unbiased manner, we have utilized adenovirus-mediated expression of EGR1 in a prostate cancer cell line to identify specific genes that are induced by EGR1. Using oligonucleotide arrays, a number of EGR1-regulated genes were identified and their regulation was confirmed by quantitative reverse transcription-polymerase chain reaction analysis. One of the largest gene classes identified in this screen includes several neuroendocrine-associated genes (neuron-specific enolase, neurogranin), suggesting that EGR1 overexpression may contribute to the neuroendocrine differentiation that often accompanies prostate cancer progression. This screen also identified several growth factors such as insulin-like growth factor-II, platelet-derived growth factor-A, and transforming growth factor-beta1, which have previously been implicated in enhancing tumor progression. The insulin-like growth factor-II gene lies within the 11p15.5 chromosomal locus, which contains a number of other imprinted genes, and EGR1 expression was found to induce at least two other genes in this locus (IPL, p57(KIP2)). Based on our results, coupling adenoviral overexpression with microarray and quantitative reverse transcription-polymerase chain reaction analyses could be a versatile strategy for identifying target genes of transactivators.
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PMID:EGR1 target genes in prostate carcinoma cells identified by microarray analysis. 1098 81


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