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Query: UMLS:C0029463 (
osteosarcoma
)
16,637
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Small round cell
osteosarcoma
is a very rare type of
osteosarcoma
, histologically mimicking other small round cell malignancies of bone, most notably Ewing sarcoma. To distinguish small cell
osteosarcoma
from other primary small cell malignancies of bone, we evaluated the immunohistochemical (IHC) expression of CD99 and SATB2, a marker of osteoblastic differentiation. Second, we analyzed EWSR1 and FUS gene aberrations using fluorescence in situ hybridization and/or reverse transcription-polymerase chain reaction (RT-PCR) techniques to assess whether small cell
osteosarcoma
and Ewing sarcoma share the same genetic alteration analysis. Thirty-six cases of primitive small cell
osteosarcoma
of bone were included in this study. All the cases of small cell
osteosarcoma
showed strong nuclear expression of SATB2 associated with negativity for CD99 antibody or weak, cytoplasmic staining in few neoplastic cells. Reverse transcription-polymerase chain reaction was negative for
EWS
-FLI1 type 1-2,
EWS
-ERG type 1, and CIC-DUX4 in the 10 available cases of small cell
osteosarcoma
analyzed. Fluorescence in situ hybridization analysis was feasible with a readable signal in 13 cases of small cell
osteosarcoma
, and none of these cases showed any EWSR1 and FUS gene rearrangements. In conclusion, it appears extremely useful to combine IHC analysis of SATB2 and CD99 with molecular analysis of Ewing sarcoma-associated genetic aberrations, to differentiate small cell
osteosarcoma
from other small round cell malignancies of bone. The strong IHC expression of SATB2 associated with CD99 immunonegativity and the absence of EWSR1 and FUS gene rearrangements in small cell
osteosarcoma
argues against the existence of a morphologic/genetic continuum with Ewing sarcoma.
...
PMID:Small cell osteosarcoma: clinicopathologic, immunohistochemical, and molecular analysis of 36 cases. 2572 16
MicroRNA molecules have a variety of roles in cellular development and proliferation processes, including normal osteogenesis. These effects are exerted through post-translational inhibition of target genes. Altered miRNA expression has been demonstrated in several cancers, both in the tumor tissue and in the peripheral circulation. This may influence carcinogenesis if the specific miRNA targets are encoded by tumor suppressor genes or oncogenes. To date, most research investigating the role of microRNAs and primary bone tumors has focused on
osteosarcoma
and Ewing sarcoma. Several microRNAs including the miR-34 family have been implicated in
osteosarcoma
tumorigenesis via effects on the Notch signaling pathway. Progression, invasion, and metastasis of
osteosarcoma
tumor cells is also influenced by microRNA expression. In addition, microRNA expression may affect the response to chemotherapy in
osteosarcoma
and thus hold potential for future use as either a prognostic indicator or a therapeutic target. The
EWS
-FLI1 fusion protein produced in Ewing sarcoma has been shown to induce changes in miRNA expression. MicroRNA expression profiling may have some potential for prediction of disease progression and survival in Ewing sarcoma. There is limited evidence to support a role for microRNAs in other primary bone tumors, either malignant or benign; however, early work is suggestive of involvement in chondrosarcoma, multiple osteochondromatosis, and giant cell tumors of bone.
...
PMID:microRNA and Bone Cancer. 2665 3
EWS
-FLI1, a multi-functional fusion oncogene, is exclusively detected in Ewing sarcomas. However, previous studies reported that rare varieties of osteosarcomas also harbor
EWS
-ETS family fusion. Here, using the doxycycline-inducible
EWS
-FLI1 system, we established an
EWS
-FLI1-dependent
osteosarcoma
model from murine bone marrow stromal cells. We revealed that the withdrawal of
EWS
-FLI1 expression enhances the osteogenic differentiation of sarcoma cells, leading to mature bone formation. Taking advantage of induced pluripotent stem cell (iPSC) technology, we also show that sarcoma-derived iPSCs with cancer-related genetic abnormalities exhibited an impaired differentiation program of osteogenic lineage irrespective of the
EWS
-FLI1 expression. Finally, we demonstrate that
EWS
-FLI1 contributed to secondary sarcoma development from the sarcoma iPSCs after osteogenic differentiation. These findings demonstrate that modulating cellular differentiation is a fundamental principle of
EWS
-FLI1-induced
osteosarcoma
development. This in vitro cancer model using sarcoma iPSCs should provide a unique platform for dissecting relationships between the cancer genome and cellular differentiation.
...
PMID:An EWS-FLI1-Induced Osteosarcoma Model Unveiled a Crucial Role of Impaired Osteogenic Differentiation on Osteosarcoma Development. 2699 45
Although prognosis in patients with localized osteosarcoma has been dramatically improved by the introduction of multiple chemotherapy agents known as combination chemotherapy, there is growing concern about the development of secondary malignant neoplasms. We report the case of a 13-year-old girl in whom the diagnosis of Ewing sarcoma of bone localized on the shaft of left femur was made 2 years after successful treatment without radiotherapy for
osteosarcoma
of right proximal femur.
EWS
-FLI1 fusion gene was detected by reverse transcriptase-polymerase chain reaction. To our knowledge, this is the first case with Ewing sarcoma of the bone as a secondary malignant neoplasm developed in
osteosarcoma
survivor. We collected 15 cases, included this case, with secondary Ewing sarcoma family of tumor by utilizing the PubMed search and might consider the causes of this secondary cancer.
...
PMID:Ewing Sarcoma of the Bone With EWS/FLI1 Translocation After Successful Treatment of Primary Osteosarcoma. 2791 48
In 2016, as part of the Reproducibility Project: Cancer Biology, we published a Registered Report (Vanden Heuvel et al., 2016), that described how we intended to replicate selected experiments from the paper 'Systematic identification of genomic markers of drug sensitivity in cancer cells' (Garnett et al., 2012). Here we report the results. We found Ewing's sarcoma cell lines, overall, were more sensitive to the PARP inhibitor olaparib than
osteosarcoma
cell lines; however, while the effect was in the same direction as the original study (Figure 4C; Garnett et al., 2012), it was not statistically significant. Further, mouse mesenchymal cells transformed with either the
EWS
-FLI1
or
FUS-CHOP
rearrangement displayed similar sensitivities to olaparib, whereas the Ewing's sarcoma cell line SK-N-MC had increased olaparib sensitivity. In the original study, mouse mesenchymal cells transformed with the
EWS
-FLI1
rearrangement and SK-N-MC cells were found to have similar sensitivities to olaparib, whereas mesenchymal cells transformed with the
FUS-CHOP
rearrangement displayed a reduced sensitivity to olaparib (Figure 4E; Garnett et al., 2012). We also studied another Ewing's sarcoma cell line, A673: A673 cells depleted of
EWS
-FLI1
or a negative control both displayed similar sensitivities to olaparib, whereas the original study reported a decreased sensitivity to olaparib when
EWS
-FLI1
was depleted (Figure 4F; Garnett et al., 2012). Differences between the original study and this replication attempt, such as the use of different sarcoma cell lines and level of knockdown efficiency, are factors that might have influenced the outcomes. Finally, where possible, we report meta-analyses for each result.
...
PMID:Replication Study: Systematic identification of genomic markers of drug sensitivity in cancer cells. 2931 88
Undifferentiated solid tumors with small blue round cell histology and expression of CD99 mostly resemble Ewing sarcoma. However, they also may include other tumors such as mesenchymal chondrosarcoma, synovial sarcoma, or small cell
osteosarcoma
. Definitive classification usually requires detection of entity-specific mutations. While this approach identifies the majority of Ewing sarcomas, a subset of lesions remains unclassified and, therefore, has been termed "Ewing-like sarcomas" or small blue round cell tumors not otherwise specified. We developed an approach for further characterization of small blue round cell tumors not otherwise specified using an array-based DNA-methylation profiling approach. Data were analyzed by unsupervised clustering and t-distributed stochastic neighbor embedding analysis and compared with a reference methylation data set of 460 well-characterized prototypical sarcomas encompassing 18 subtypes. Verification was performed by additional FISH analyses, RNA sequencing from formalin-fixed paraffin-embedded material or immunohistochemical marker analyses. In a cohort of more than 1,000 tumors assumed to represent Ewing sarcomas, 30 failed to exhibit the typical
EWS
translocation. These tumors were subjected to methylation profiling and could be assigned to Ewing sarcoma in 14 (47%), to small blue round cell tumors with CIC alteration in 6 (20%), to small blue round cell tumors with BCOR alteration in 4 (13%), to synovial sarcoma and to malignant rhabdoid tumor in 2 cases each. One single case each was allotted to mesenchymal chondrosarcoma and adamantinoma. 12/14 tumors classified as Ewing sarcoma could be verified by demonstrating either a canonical
EWS
translocation evading initial testing, by identifying rare breakpoints or fusion partners. The methylation-based assignment of the remaining small blue round cell tumors not otherwise specified also could be verified by entity-specific molecular alterations in 13/16 cases. In conclusion, array-based DNA-methylation analysis of undifferentiated tumors with small blue round cell histology is a powerful tool for precisely classifying this diagnostically challenging tumor group.
...
PMID:Array-based DNA-methylation profiling in sarcomas with small blue round cell histology provides valuable diagnostic information. 2957 1
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