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Query: UMLS:C0035412 (
rhabdomyosarcoma
)
6,156
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chromosome abnormalities found in pediatric solid tumors include deletions, translocations, homogeneously staining regions (hsr)/double minutes (dms), and ploidy abnormalities. The discovery of a 13q14 deletion found in lymphocytes of patients with retinoblastoma and developmental delay has led to the cloning of the retinoblastoma gene. Likewise the discovery of an 11p13 deletion in lymphocytes of patients with Wilms' tumor and
aniridia
has led to the cloning of the Wilms' tumor gene. Chromosome deletions found in tumor cells are considered to play a role on the homologous deletion of cancer suppressor genes. Recently, various translocations have been found mostly in soft tissue sarcomas; i.e. t(11;22) in Ewing's sarcoma, t(2;13) in alveolar
rhabdomyosarcoma
, t(3;8) in pleomorphic adenoma, t(3;12) in lipoma, t(12;16) in liposarcoma, t(12;14) in leiomyosarcoma, and t(X;18) in synovial sarcoma. These translocations provide important information on the difficult diagnosis of soft tissue sarcomas, and on the selection of chemotherapy protocol. Tumor cells in advanced stage neuroblastomas often show hsr/dms, in which N-myc amplification occurs. While near triploidy was regularly found in early-stage neuroblastomas, near-diploidy or near-tetraploidy was usually found in advanced stage tumors. Among various prognostic factors, N-myc copy numbers and tumor cell ploidies had the largest influence on the prognosis of neuroblastoma patients. Cytogenetic and molecular genetic analyses on tumor cells are becoming increasingly important for the diagnosis of pediatric solid tumors, and the prediction of the patients' prognosis.
...
PMID:[Cytogenetics in pediatric solid tumors]. 217 98
We have compared constitutional and tumor genotypes in nine cases of hereditary Wilms tumor (WT) and in three unrelated cases of familial adrenocortical carcinoma (ADCC). Since susceptibility to these tumors can be observed in malformation syndromes associated with a constitutional deletion of band 11p13 (WT) and with a constitutional duplication of band 11p15.5 (WT, ADCC), we investigated these two candidate regions by using 11p polymorphic markers. As expected, somatic chromosomal events, resulting in a loss of heterozygosity limited to region 11p15.5, were observed in the tumor of two familial cases of adrenocortical carcinoma. Surprisingly, however, analysis of the WT of two patients with a constitutional deletion of band 11p13, associated with
aniridia
, genitourinary abnormalities, and mental retardation (WAGR syndrome), revealed a loss of heterozygosity limited to region 11p15.5. These data therefore suggest that observation of a specific loss of heterozygosity may not necessarily point to the site of the initial germinal mutation. Together with previous similar observations of a loss of heterozygosity limited to 11p15.5 in breast cancer and in
rhabdomyosarcoma
, our data suggest that region 11p15.5 may carry a non-tissue-specific gene that could be involved in genetic predisposition, in tumor progression, or in both.
...
PMID:Tumor-specific loss of 11p15.5 alleles in del11p13 Wilms tumor and in familial adrenocortical carcinoma. 256 68
Congenital anomalies were identified in 37 of 115 (32%) children and adolescents autopsied with
rhabdomyosarcoma
. An analysis of sex, age, site, and histology of cases with or without congenital anomalies showed no significant differences. Of the 45 identified anomalies, 14 were considered major and 31 minor. The distribution of the anomalies by system included central nervous (9), genitourinary (10), gastrointestinal (13), and cardiovascular systems (4). Ten patients had complex or miscellaneous anomalies. There was one child with each of the following: Rubinstein-Taybi syndrome, neurofibromatosis, single horseshoe kidney, hemihypertrophy, and Arnold-Chiari malformation. Aniridia was not noted in any case of
rhabdomyosarcoma
. Individuals with
rhabdomyosarcoma
have an increased incidence of genitourinary anomalies similar to that in Wilms' tumor. Recent molecular genetic investigations have suggested that
rhabdomyosarcoma
, Wilms' tumor, and hepatoblastoma share a common pathogenetic mechanism involving chromosome 11. The uniquely increased association of central nervous system anomalies with
rhabdomyosarcoma
and absence of
aniridia
would support a different gene locus operative on chromosome 11 for individuals with
rhabdomyosarcoma
compared to Wilms' tumor. Extensive epidemiologic studies now in progress in patients with
rhabdomyosarcoma
should provide the incidence of congenital anomalies and potential linkage with prenatal events.
...
PMID:Congenital anomalies associated with rhabdomyosarcoma: an autopsy study of 115 cases. A report from the Intergroup Rhabdomyosarcoma Study Committee (representing the Children's Cancer Study Group, the Pediatric Oncology Group, the United Kingdom Children's Cancer Study Group, and the Pediatric Intergroup Statistical Center). 327 29
About 5% of Mendelian mutations displaying neoplastic tendencies are associated with chromosomal aberrations. The best established examples are retinoblastoma and del(13)(q14) and
aniridia
-Wilms' tumor and del(11)(p13). Evidence suggests that both mutations behave as dominant traits in the individual and as recessive traits in the cells. DNA analysis indicates that tumorigenesis arises from homozygosisty for the mutant allele at these loci, as a consequence of mitotic nondisjunction or from a mitotic recombination event. An additional argument for this conclusion is provided by the demonstration of duplication of 11p15 in some patients with the Beckwith-Wiedemann syndrome, which is complicated often by Wilms' tumor and other embryonal tumors. Data obtained with molecular probes have shown that also
rhabdomyosarcoma
and hepatoblastoma arise by homozygosity for a mutant allele at a locus on 11p, suggesting ontogenic relatedness of these tumor types. Additional examples of Mendelian mutations associated with chromosome deletions and neoplasia include Langer-Giedion syndrome with multiple exostoses and del(8)(q24.1), multiple endocrine neoplasia and del(20)(p12.2). While the presence of specific chromosome changes in subjects with high susceptibility to neoplasia does pinpoint the location of DNA sequences involved in the predisposition to certain types of cancers, selected Mendelian mutations associated with chromosome instability and cancer proneness may elucidate biological principles of cell proliferation and transformation. However, our current knowledge of mechanisms resulting in increased frequency of chromosome breakage and cancer susceptibility in ataxia-teleangiectasia, Fanconi's anemia, Bloom's syndrome, and similar conditions are still very incomplete.
...
PMID:Cytogenetics of Mendelian mutations associated with cancer proneness. 382 76
Of 220 consecutive primary renal tumors of childhood, 17 contained substantial amounts of histologically identifiable striated muscle cells (over 10% of sampled tumor parenchyma). These tumors could be further subclassified into two groups: Wilms' tumors with "massive" rhabdomyogenesis (one-third or more of the tumor parenchyma composed of muscle), and Wilms' tumors with "moderate" rhabdomyogenesis (10-30% muscle composition. The former tumors were invariably seen in young children, under 4 years of age; often the patients were infants 1 year of age, or younger, and more than half of the patients in this group had bilateral tumors. Bilaterality was not seen in patients harboring tumors with "moderate" rhabdomyogenesis, whom in addition, were older children. In both groups, there was a tendency for polypoid intrapelvic growth. All but one of the tumors described in this report were classified as Wilms' tumor; the single exception was considered be be a primary
rhabdomyosarcoma
of the kidney. Patients with congenital malformations related to Wilms' tumor (one
aniridia
, one hemihypertrophy) were seen only in the group with"massive" rhabdomyogenesis. However, anatomical lesions consistent with neoplastic multifocal origin were present in both groups. Thus, our findings indicate a definite correlation between extensive rhabdomyogenesis and clinical behavior. This relation is expressed in patterns of age distribution, bilaterality and manner of growth, which are sufficiently consistent to individualize this histologic variant as a cytodifferentiated form of nephroblastoma.
...
PMID:Rhabdomyogenesis in renal neoplasia of childhood. 627 22
In recent years, the discovery of Pax genes in mouse has played an invaluable role in furthering our understanding in mouse developmental processes and disorders. To date, eight murine paired box-containing genes have been cloned. Seven of these exhibit a distinct spatiotemporal expression pattern in the developing nervous system implying a role in the regional specification of the developing spinal cord and brain. The Pax genes encode for sequence-specific DNA binding transcription factors that play a key role in embryonic development. Three of these developmental control genes are altered in mutant mice and two are associated with human diseases. Disruption of these Pax genes leads to abnormalities in neural crest derivatives, neuroectoderm, sclerotome or myotome-derived tissues. Disruption of the Pax-3 gene causes the Splotch phenotype in mice and Waardenburg syndrome in humans. Pax-6 mutations result in Small eye mice and the human genetic disorder
aniridia
. The Pax-1 gene is mutated in undulated mice. Pax proteins can transform cells in culture which then form tumours following injection in nude mice. Consistent with this activity, PAX3 has been recently implicated in the generation of the tumour alveolar
rhabdomyosarcoma
.
...
PMID:Pax: gene regulators in the developing nervous system. 822 63
