Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0376358 (prostate cancer)
 59,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The retinoblastoma tumor suppressor gene (RB gene) has been reported to be deleted and/or modified in a number of human cancers, indicating that dysfunction of this tumor suppressor gene is perhaps critical in the development of many human tumors. In addition to deletion of one copy and/or mutational inactivation of the RB gene, this gene has also been reported to be altered by a small deletion in the promoter sequence in one case of small cell mixed adenocarcinoma of the prostate. A deletion of 105 nucleotides of the RB gene in exon 21, leading to an aberrant short-sized mRNA transcript, has also been reported in one cell line (DU 145) derived from brain metastasis of prostatic adenocarcinoma. We have analyzed tissues from 10 prostate specimens (3 hyperplastic and 7 neoplastic) and one prostate cancer cell line (DU 145) for the presence of short-sized mRNA transcript (exon 21 alterations) by polymerase chain reaction (PCR) using total RNA extracted from frozen tumors and the cell line. None of the prostate tissue showed any evidence of aberrant short-sized mRNA, although it was confirmed in the DU 145 cell line. Simultaneously, we have used DNA-PCR to investigate RB promoter deletion in 23 adenocarcinomas and one small cell carcinoma of the prostate. We also failed to demonstrate any indication of RB promoter deletion at the DNA level in adenocarcinomas. The single case of small cell carcinoma failed to show evidence of any aberration in RB promoter. We therefore conclude that neither RB promoter alterations nor the exon 21 deletion are associated with typical prostate adenocarcinoma.
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PMID:Analysis of retinoblastoma (RB) gene deletion in human prostatic carcinomas. 132 54

Functional loss of the retinoblastoma (RB) gene has been implicated in the initiation or progression of several human tumor types including cancer of the eye, bone, bladder, and prostate. To examine the consequence of adding one RB allele containing its normal regulatory elements back into representative examples of each of these cancer types, as well as to compare the results to those previously reported using various RB complementary DNA constructs, a neomycin resistant marked 13 chromosome was transferred by microcell fusion. Several attempts to obtain RB positive osteosarcoma cells failed. In addition, only one RB positive retinoblastoma clone was isolated. This clone contained many large cells, could not be maintained in long-term culture, and produced only RB negative tumors. Three RB positive bladder cancer cell clones were obtained, all of which grew slower in culture than their RB negative parental counterpart and did not form colonies in soft agar. Tumorigenicity was markedly suppressed in these clones. One clone yielded no tumors, and the other 2 clones produced only one small tumor each, both of which were RB negative. In contrast, the 2 RB positive prostate cancer cell clones isolated had no differences in their cell culture growth properties, including growth in soft agar compared to the parental cells. One of the clones was nontumorigenic, while the other clone produced 4 small tumors, all of which were RB positive. These results indicate that the transfer of one RB allele by microcell transfer produces different levels of growth inhibition as well as tumor suppression, depending on the cell type examined. In the case of prostate cancer, the function of the RB gene in tumor suppression appears to be independent from its growth regulatory function, since no growth inhibition in cell culture was noted in these cells, although tumor suppression was significant.
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PMID:Changes in growth and tumorigenicity following reconstitution of retinoblastoma gene function in various human cancer cell types by microcell transfer of chromosome 13. 142 76

Mutational inactivation of the retinoblastoma gene (RB) is found in all retinoblastomas and in a subset of other human neoplasms, including sarcomas of bone or soft tissue and carcinomas of lung or breast. Exogenous copies of wild-type RB have been shown to suppress the tumorigenicity of several types of tumor cells with endogenous RB mutations, including a previously described human prostatic carcinoma cell line. To further support a role for RB inactivation in the genesis of prostate cancer, seven primary or metastatic prostate carcinoma specimens were examined for evidence of RB mutation. By the use of immunoblot analysis and immunostaining of histologic sections, RB-encoded protein was readily detected in tumor cells of five specimens, was equivocally detected in one specimen, and was apparently absent from tumor cells of one specimen. RB mutations in the latter case were precisely characterized as (i) a deletion of 103 nucleotides containing transcriptional start sites and (ii) loss of the second RB allele. The 103-base-pair deletion was sufficient to abolish the promoter activity of upstream DNA sequences in a heterologous expression system. These results (i) demonstrate that RB can be inactivated in vivo by mutation of its promoter, (ii) confirm the existence of RB mutations in some human prostate carcinomas, and (iii) suggest the use of immunohistochemical methods to screen for RB mutations in clinical samples of common adult neoplasms.
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PMID:Promoter deletion and loss of retinoblastoma gene expression in human prostate carcinoma. 221 8

Five hundred and fifty two bone marrow (BM) specimens (497 aspirates, 55 biopsies) from 518 patients with nonhaematological malignancies were examined to determine the frequency of metastatic deposits. BM involvement was highest in neuroblastoma (9/14), prostate cancer (2/4), retinoblastoma (3/7), Ewing's sarcoma (14/47), rhabdomyosarcoma (5/20) and small cell carcinoma of lung (3/18). BM aspiration smears were adequate in paediatric tumours (neuroblastoma, retinoblastoma, rhabdomyosarcoma) while BM biopsies were most useful in patients with Ewing's sarcoma, prostate cancer and small cell lung cancer. We conclude that BM is an easy investigation in the diagnosis and staging of nonhaematological cancers.
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PMID:Frequency of bone marrow involvement in non-haematological malignancies. 224 93

Recently, the National Cancer Institute published a comprehensive monograph on multiple primary cancers in Connecticut and Denmark. This paper summarizes some of the observations made on the Connecticut population. Data compiled by the Connecticut Tumor Registry have extended our knowledge about the patterns of multiple primary cancers, especially among long-term survivors of cancer and among patients with relatively rare tumors about which little information currently exists. When compared with the general Connecticut population, cancer patients had a 31 percent (RR = 1.31) increased risk of developing a second cancer and a 23 percent (RR = 1.23) elevated risk of second cancer at a different site from the first. Common environmental exposures seemed responsible for the excess occurrence of many second cancers, particularly those related to cigarette smoking, alcohol consumption, or both. For example, persons with epithelial cancers of the lung, larynx, esophagus, buccal cavity, and pharynx were particularly prone to develop new cancers in the same or contiguous tissue throughout their lifetimes. Cancers of the colon, uterine corpus, breast, and ovary frequently occurred together, suggesting underlying hormonal or dietary influences. Only patients with prostate cancer were at significantly low risk for second cancer development; this might be an artifact of case finding, since advanced age at initial diagnosis was generally associated with an underascertainment of second cancers. Radiotherapy may have caused rectal and other cancer among patients with cancers of the female genital tract, and leukemia among patients with uterine corpus cancer. Chemotherapy with alkylating agents probably contributed to the excess of acute nonlymphocytic leukemia following multiple myeloma or cancers of the breast and ovary. Genetic susceptibility seemed to explain some tumor complexes, such as the multiple occurrences of cutaneous melanoma and the excess of bone cancer following retinoblastoma. Research into multiple cancer syndromes should enhance our understanding of carcinogenic factors and mechanisms and the development of strategies for cancer prevention and control.
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PMID:Multiple primary cancers in Connecticut, 1935-82. 354 9

The risk of second primary cancers developing was evaluated in individuals with 6 rare tumors in Connecticut between 1935 and 1982. Small but significant excesses of all second cancers occurred in patients with cutaneous melanoma (42%), and cancers of the brain (59%), thyroid (49%), connective tissue (23%), bone (66%), and eye (40%). In individuals with cutaneous melanoma, the highest risks were for subsequent cutaneous melanomas [relative risk (RR) = 8.5] that persisted throughout all intervals of observation. The risk for second melanomas was higher in persons under age 40, consistent with a heritable component. Connective tissue tumors and breast cancers also occurred in excess. Among patients with brain cancer, an increase of melanoma was observed that may represent an underlying neural crest abnormality, although no excess of brain cancer was seen after melanoma. Reciprocal increases of bone cancer after connective tissue cancer and connective tissue cancer after bone cancer point to shared risk factors, such as high dose radiotherapy or genetic susceptibility states. An anticipated high risk of osteogenic sarcoma following Ewing's sarcoma was not seen. An excess of breast cancer (RR = 1.9) after thyroid cancer indicates common etiologic factors. Expected excesses of bilateral retinoblastoma and bone cancer after retinoblastoma were seen. Tumors commonly treated with alkylating agents or nitrosoureas (melanoma, brain, connective tissue) showed slightly elevated risks of acute nonlymphocytic leukemia. Prostate cancer was frequently found to be in excess, but this is likely an artifact due to ascertainment bias.
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PMID:Second cancer following cutaneous melanoma and cancers of the brain, thyroid, connective tissue, bone, and eye in Connecticut, 1935-82. 408 97

Beckwith-Wiedemann syndrome, familial atypical multiple mole melanoma syndrome, and hereditary tylosis are bona fide genodermatoses with malignant potential. Each of these conditions is associated with an increased incidence of certain tumors: Wilms' tumor, adrenocortical carcinomas, pancreatoblastomas, and hepatoblastomas in Beckwith-Wiedemann syndrome; intraocular malignant melanoma, pancreatic carcinoma, and noncolorectal gastrointestinal cancers in familial atypical multiple mole melanoma syndrome; and squamous cell carcinoma of the esophagus in hereditary tylosis. Other cancer-related genodermatoses are Birt-Hogg-Dube syndrome (associated with medullary carcinoma of the thyroid and renal cell carcinoma) and its variant, Hornstein-Knickenberg syndrome (associated with colon carcinoma). Kidney tumors (Wilms' tumor and malignant rhabdoid tumor), leukemias (acute myelogenous and acute myelomonocytic), retinoblastoma, and paratesticular rhabdomyosarcoma have been reported recently in children with another genodermatosis-incontinentia pigmenti. Supernumerary nipples (polythelia) may be sporadic or familial in occurrence; their presence has been associated with an increased incidence of renal adenocarcinoma, testicular cancer, prostate cancer, and urinary bladder carcinoma. The general characteristics, mucosal and skin manifestations, and noncutaneous features of all these conditions are reviewed. Also, the associated malignancies of these genodermatoses and other conditions that are characterized by dermatologic manifestations and may be either familial or secondary to an inherited gene defect are summarized.
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PMID:Miscellaneous genodermatoses: Beckwith-Wiedemann syndrome, Birt-Hogg-Dube syndrome, familial atypical multiple mole melanoma syndrome, hereditary tylosis, incontinentia pigmenti, and supernumerary nipples. 771 45

We are investigating the role of the early response transcription factor, nerve growth factor inducible A gene (NGFI-A), as a modulator of retinoblastoma (RB) gene transcription in prostate cells. Examination of the RB promoter reveals a novel element GCGGGGGAG located at nucleotides 152-144 upstream of the methionine initiation codon. This sequence shares strong homology with the consensus NGFI-A binding element GCGGGGGCG varying by a single nucleotide. In DNA binding assays, an NGFI-A fusion protein and the native protein product of the NGFI-A gene purified from prostate cancer cells bound specifically to an oligonucleotide containing the RB promoter element. Gene expression studies in rat ventral prostate demonstrated a 1.9-fold increase in RB mRNA following castration that parallels a 2.7-fold induction of NGFI-A mRNA. In summary, the in vitro DNA binding data and the transient coregulation of rat NGFI-A and RB following castration suggests that the RB gene may be transcriptionally regulated by NGFI-A in prostate cells.
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PMID:Prostatic nerve growth factor inducible A gene binds a novel element in the retinoblastoma gene promoter. 824 9

Tumor-suppressor genes (antioncogenes or recessive oncogenes) are cancer genes that achieve their oncogenic effect by mutational inactivation of both normal alleles. By contrast, oncogenes are created from protooncogenes by mutations that lead to aberrant functional activation. Mutation of multiple suppressor genes and/or oncogenes probably is required for the genesis of most human neoplasms. Two well-characterized tumor-suppressor genes, the retinoblastoma gene (rb) on chromosome 13q and p53 on chromosome 17p, frequently are mutated in a broad range of human cancer types. Mutations of these genes have been documented in prostate carcinoma but appear to affect only a subset of cases. Nevertheless, as in other cancers, introduction of normal copies of rb or p53 suppresses the neoplastic properties of prostatic tumor cells carrying mutated alleles of the relevant gene. These results suggest that mutation of rb or p53 is involved in the genesis or progression of some prostate cancers. Frequent allelic losses of certain chromosome arms (especially 8p, 10p and q, and 16q) from prostatic cancer cells may indicate the involvement of novel suppressor genes located in these regions. Although the inactivation of suppressor genes appears to be a common genetic mechanism in human oncogenesis, the rates of mutation of particular genes vary widely with the type of cancer. It is unknown whether prostate cancers with or without mutation of rb, p53, or other suppressor loci differ biologically or prognostically; this is an area of active investigation. Fundamental understanding of the genetic lesions that occur during human oncogenesis has great potential for clinical application in diagnosis, prognosis, and therapy.
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PMID:Recessive oncogenes. 842 41

The RRR-alpha-tocopheryl succinate derivative of vitamin E, referred to as vitamin E succinate (VES), inhibits the proliferation of three metastatic human prostatic cancer cell lines, LNCaP, PC-3, and DU-145. LNCaP is a lymph node-derived androgen-sensitive prostate cell line; these cells are defective for response to transforming growth factor-beta (TGF-beta) but are normal for cell cycle-related tumor suppressor genes: p53 and retinoblastoma (Rb). PC-3 is a bone marrow-derived androgen-insensitive prostate cell line; these cells are defective for both p53 alleles but normal for both Rb alleles. DU-145 is a brain-derived androgen-insensitive prostate cell line; these cells are defective for both p53 and both Rb alleles. VES at 5, 10, and 20 micrograms/ml inhibited DNA synthesis in the three cell lines in a dose-dependent manner. Purified TGF-beta 1 at 1 ng/ml inhibited DNA synthesis of PC-3 cells within 24-72 hours and DU-145 cells at 72 hours but did not inhibit DNA synthesis of LNCaP cells. Previous studies in our laboratory showed that VES growth-inhibited tumor cells secrete biologically active antiproliferative factor TGF-beta s, suggesting that VES's mechanism of growth inhibition may involve the TGF-beta system of growth control.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:RRR-alpha-tocopheryl succinate inhibits the proliferation of human prostatic tumor cells with defective cell cycle/differentiation pathways. 858 52


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