UMLS:C0029463 - FACTA Search

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Query: UMLS:C0029463 (osteosarcoma)
16,637 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Histophysiology, ultrastructure, chemical analyses of transplants and implants of Dunn and Ridgway mouse osteosarcomas demonstrate that tumorigenesis is a manifestation of deranged morphogenesis in developing mesenchymal cell populations. The end product of development is defective, incompletely calcified, disorganized bone without any inclusions of bone marrow tissue. When Dunn osteosarcoma is freeze-dried and then implanted, the tumor is resorbed and replaced by deposits of normal cartilage, bone, and bone marrow. Freeze-dried Ridgway osteosarcoma is replaced only by a fibrous connective tissue scar. Disaggregated Dunn tumor osteoblasts synthesize a trypsin-labile collagenase-resistant cell surface localized bone morphogen. Tumor matrix stroma, prepared by sequential chemical extraction of soluble non-collagenous proteins also contains significant quantities of the same bone morphogen. Tumor tissue pulverized to particle size as small as 44 micrometer3 transmitted bone morphogen more rapidly than intact tumor tissue. The total tumor cell and stroma mediated bone morphogen produces three times more normal bone than normal cortical bone matrix. Our working hypothesis is that a normal bone morphogenetic polypeptide (BMP) is synthesized by Dunn osteosarcoma cells and retained by the tumor matrix stroma. Neither the mechanism of transmission nor the mesenchymal cell receptor sites of BMP are known.
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PMID:An osteosarcoma cell and matrix retained morphogen for normal bone formation. 27 29

Dunn osteosarcomas synthesize 2 times more alkaline phosphatase than do Ridgeway osteosarcomas, 3 times more than do HeLa cells, and 4 to 5 times more than do rat or mouse fibroblast cell cultures. Implants of killed freeze-dried Dunn cell cultures into the thigh muscles are resorbed and replaced by normal cartilage, bone, and bone marrow tissue, while implants of freeze-dried Ridgeway cells are resorbed and replaced by fibrous tissue only. Outgrowths of normal muscle septum connective tissue cells onto the stroma of Ridgeway tumors differentiate into fibrous tissue. Cultures of either tumor on a substratum of bone matrix stroma prepared from normal bone proliferate, assume a spherical shape, and perpetuate the transformed osteoblast-like cell without forming attachments or adapting to the contour of the substratum. Outgrwoths of muscle mesenchymal cells on the Dunn tumor stroma differentiate into cartilage. Dunn osteosarcoma cell cultures proliferate on the inside and produce deposits of normal bone (not tumorous bone) on the outside of diffusion chambers. Killed freeze-dried cell cultures produce transfilter deposits of normal bone and bone marrow, but the quantity is significantly lower. On a substratum of cellulose acetate, outgrowths of muscle connective tissue will differentiate into cartilage when cell-free Dunn stroma is present under the organ culture grid. Tumorigenesis and normal cartilage and bone morphodifferentiation are antithetic, but tumor cells transfer a bone morphogen similar to the bone morphogenetic protein (BMP) of normal bone matrix. BMP recruits mesenchymal cells to proliferate and differentiate into cartilage and bone.
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PMID:Osteogenesis and chondrogenesis in transplants of Dunn and Ridgway osteosarcoma cell cultures. 27 82

Amplification and rearrangement of cellular proto-oncogenes are two of the several possible genetic alterations implicated in carcinogenesis and tumor progression. Although morphologically similar tumors may be heterogeneous at the level of the genome, some tumor types have shown relatively frequent and consistent abnormalities of specific oncogenes. In order to determine the frequency of oncogene amplification and rearrangement in several types of human sarcomas and to determine if histologically similar tumors have common genetic alterations, we analyzed 26 primary sarcomas by Southern hybridization. The oncogene probes utilized were N- and H-ras, sis, EGF-R (erb-B-1), neu (erb-B-2), fos, N- and c-myc, mos, and yes. The tumors studied included: five rhabdomyosarcomas (one alveolar, four embryonal), six malignant fibrous histiocytomas, six leiomyosarcomas, four liposarcomas, two Ewing's sarcomas, one osteosarcoma, and two fibrosarcomas. Oncogene abnormalities were identified in three tumors. One rhabdomyosarcoma showed 12-fold amplification and concurrent rearrangement of sis. This particular tumor also revealed rearrangement of H-ras and 15-fold amplification of c-myc. A second rhabdomyosarcoma revealed rearrangement of neu. A liposarcoma had a sis rearrangement. These findings suggest that many sarcomas show no common structural oncogene abnormalities. The presence of differing oncogene alterations within the rhabdomyosarcoma group indicates genetic heterogeneity among histologically similar sarcomas. The finding of a sis rearrangement in both a liposarcoma and a rhabdomyosarcoma, however, may suggest common oncogenesis among different tumor types.
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PMID:Genomic alterations in sarcomas: a histologic correlative study with use of oncogene panels. 149 46

Osteosarcoma tumorigenesis is consistent with a model by which tumorigenesis results if both alleles at the retinoblastoma susceptibility locus (RBI) are altered. Additional genetic evidence strongly suggests that another obligate event in osteosarcoma tumorigenesis is the homozygous alteration of another gene, p53. Both the RB1 gene and p53 have been proposed to act as tumor-suppressor genes, suggesting that, in this instance, tumorigenesis is the result of the loss of gene function of these two genes, rather than a gain of function.
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PMID:Molecular genetic considerations in osteosarcoma. 167 82

Various sublines of cells established from an osteosarcoma that developed in a patient (O.H.) with previous bilateral retinoblastoma were examined for different restriction fragment-length polymorphisms of chromosome 13q, as well as for rearrangements of the retinoblastoma gene using a cDNA probe. The independently established sublines were used to help separate primary and secondary events taking place in tumorigenesis of the osteosarcoma of this patient. Information from the present DNA analysis, taken together with data from cytogenetic and enzymatic studies on chromosome 13 in the cell lines, revealed both common and distinct genetic changes on chromosome 13q. The common changes may indicate the nature of the first and second mutational events in the development of the osteosarcoma. The first, constitutional cancer predisposing mutation seemed to be a base mutation or a small deletion/insertion, and the second event involved a deletion of a larger part of the long arm of chromosome 13. The distinct genetic changes included other deletion and duplication events of chromosome 13q. The existence of multiple sublines with different genetic constitutions provides improved possibilities for gaining insight into the nature of the genetic lesions leading to tumor formation, as these may reflect the clonal variation present in the primary tumor. We also demonstrate the difficulty of inferring from single tumor cell isolates to properties of the primary tumor.
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PMID:Chromosome 13 alterations in osteosarcoma cell lines derived from a patient with previous retinoblastoma. 168 33

Inactivation of two tumor suppressor genes, RB and p53, is associated with tumor formation. To elucidate the molecular basis of the tumorigenesis of human osteosarcoma, structural and expressional alterations of these two genes were examined in five human osteosarcoma cell lines, two of which were from Japanese patients. In addition, I analyzed two adenovirus E1A-binding proteins, p107 and p300, putative "tumor suppressor gene products", which share similar properties with the RB protein in binding to the E1A oncoprotein. Detailed analyses of DNA, mRNA, and protein showed that (1) 3 lines including both Japanese lines lost the expression of the RB protein due to either the absence or the alteration of mRNA caused by DNA rearrangement, (2) abnormality of p53 gene was detected in all cell lines : 4 lines lost p53 expression due to either gene loss or the absence of mRNA, and one line expressed an abnormal form of the protein without detectable DNA and mRNA alterations and (3) no significant alteration of p107 or p300 was detected in all cell lines. These results further confirm that inactivating mutations of p53 and RB genes are deeply involved in the carcinogenesis of human osteosarcoma and suggest that p107 and p300 may not play a role in the tumorigenesis.
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PMID:[Roles of tumor suppressor genes in human osteosarcoma cells]. 182 50

The retinoblastoma (Rb) gene, thought by some to be associated with tumor formation of retinoblastoma as a recessive human oncogene, was investigated in 57 cases using DNA and RNA from primary osteosarcomas and other bone and soft-tissue tumors. Eight of 23 osteosarcoma cases (35%) showed structural alterations of the Rb gene. Three of the eight demonstrated homozygous deletions, and the remaining five cases showed heterozygous deletions. Seven out of eight cases represented deletion of a 7.5-kb HindIII fragment. Northern blot analysis of five cases of osteosarcoma showed that four demonstrated no detectable Rb gene transcription, and one case had a truncated 3.5-kb fragment with a faint 4.7-kb band. In the other 34 cases of bone and soft-tissue tumors, two cases of three malignant fibrous histiocytomas showed an Rb gene abnormality by Southern blot analysis. These results strongly suggest that Rb gene alteration is pertinent to the tumorigenesis of most osteosarcoma cases and some other bone and soft-tissue tumors.
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PMID:Involvement of the retinoblastoma gene in primary osteosarcomas and other bone and soft-tissue tumors. 188 49

The TPR-MET oncogenic rearrangement was originally observed in an in vitro transformed human osteosarcoma cell line. Recently, we detected the expression of this rearrangement at very low levels in several cell lines derived from human tumors of nonhematopoietic origin using a highly sensitive method based on polymerase chain reaction amplification of the transcript. We report here the results of analysis of TPR-MET expression in cell lines derived from human gastric tumors and 22 biopsy samples of human gastric mucosa showing cancer or precursor lesions. The rearranged RNA was expressed in all four cell lines as well as in biopsy samples from 12 of the 22 patients. Overexpression of TPR-MET RNA in superficial gastritis lesions with hyperplasia of glandular neck cells suggests the possible involvement of this oncogene at an early stage of gastric tumorigenesis. Analysis of gastric biopsy samples for RAS gene mutations showed base substitutions occurring in the codon 12 region of Ki- and Ha-RAS genes in four cases, including two precursor lesions.
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PMID:The TPR-MET oncogenic rearrangement is present and expressed in human gastric carcinoma and precursor lesions. 205 72

Mutations of the gene encoding p53, a 53-kilodalton cellular protein, are found frequently in human tumor cells, suggesting a crucial role for this gene in human oncogenesis. To model the stepwise mutation or loss of both p53 alleles during tumorigenesis, a human osteosarcoma cell line, Saos-2, was used that completely lacked endogenous p53. Single copies of exogenous p53 genes were then introduced by infecting cells with recombinant retroviruses containing either point-mutated or wild-type versions of the p53 cDNA sequence. Expression of wild-type p53 suppressed the neoplastic phenotype of Saos-2 cells, whereas expression of mutated p53 conferred a limited growth advantage to cells in the absence of wild-type p53. Wild-type p53 was phenotypically dominant to mutated p53 in a two-allele configuration. These results suggest that, as with the retinoblastoma gene, mutation of both alleles of the p53 gene is essential for its role in oncogenesis.
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PMID:Genetic mechanisms of tumor suppression by the human p53 gene. 227 89

A class of cellular genes in which loss-of-function mutations are tumorigenic has been proposed. Such genes would normally act to suppress the cancer phenotype at the cellular or organism level. The gene determining susceptibility to hereditary retinoblastoma (RB) appears to operate in exactly this fashion, and is the first cancer suppressor gene to be molecularly cloned. The RB gene contains 27 exons dispersed over more than 200 kb and ubiquitously expresses a 4.7 kb mRNA. From sequence analysis of RB cDNA clones, the predicted RB protein has 928 amino acids. The RB protein is a nuclear phosphoprotein capable of binding to DNA and forming a complex with oncoproteins of several DNA tumor viruses. Consistent with its ubiquitous expression pattern, RB gene inactivation was found in many other cancers such as osteosarcoma, breast carcinoma, small cell lung carcinoma and prostate carcinoma. A cloned RB gene was introduced, via retrovirus-mediated gene transfer, into such tumor cells that have inactivated endogenous RB genes. Expression of the exogenous RB gene consistently suppressed their tumorigenicity in nude mice, suggesting that RB may act as a general cancer suppressor. In an attempt to address the potential cellular function of this gene, we have observed that RB protein phosphorylation oscillates with cell-cycle and the unphosphorylated form is present predominantly in the G0/G1 phase. Furthermore, when cells were induced to differentiate only the unphosphorylated form of RB could be detected, suggesting that RB protein was modulated through phosphorylation, may play an important role in these cellular functions. A hypothesis is proposed to explain how RB participates in cell proliferation and differentiation and its role in tumorigenesis.
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PMID:The molecular basis of cancer suppression by the retinoblastoma gene. 248 31

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