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Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Substantial genomic and functional evidence from primary tumors and cell lines indicates that a consistent region of distal chromosome 1p is deleted in a sizable proportion of human neuroblastomas, suggesting that this region contains one or more tumor suppressor genes. To determine systematically and precisely the location and extent of 1p deletion in neuroblastomas, we performed allelic loss studies of 737 primary neuroblastomas and genotype analysis of 46
neuroblastoma
cell lines. Together, the results defined a single region within 1p36.3 that was consistently deleted in 25% of tumors and 87% of cell lines. Two
neuroblastoma
patients had constitutional deletions of distal 1p36 that overlapped the tumor-defined region. The tumor- and constitutionally-derived deletions together defined a smallest region of consistent deletion (SRD) between D1S2795 and D1S253. The 1p36.3 SRD was deleted in all but one of the 184 tumors with 1p deletion. Physical mapping and DNA sequencing determined that the SRD minimally spans an estimated 729 kb. Genomic content and sequence analysis of the SRD identified 15 characterized, nine uncharacterized, and six predicted genes in the region. The RNA expression profiles of 21 of the genes were investigated in a variety of normal tissues. The
SHREW1
and KCNAB2 genes both had tissue-restricted expression patterns, including expression in the nervous system. In addition, a novel gene (CHD5) with strong homology to proteins involved in chromatin remodeling was expressed mainly in neural tissues. Together, these results suggest that one or more genes involved in
neuroblastoma
tumorigenesis or tumor progression are likely contained within this region.
...
PMID:Definition and characterization of a region of 1p36.3 consistently deleted in neuroblastoma. 1582 79
Neuroblastomas
are characterized by 1p deletions, suggesting that a tumor suppressor gene (TSG) resides in this region. We have mapped the smallest region of deletion (SRD) to a 2 Mb region of 1p36.31 using microsatellite and single nucleotide polymorphisms. We have identified 23 genes in this region, and we have analysed these genes for mutations and RNA expression patterns to identify candidate TSGs. We sequenced the coding exons of these genes in 30
neuroblastoma
cell lines. Although rare mutations were found in 10 of the 23 genes, none showed a pattern of genetic change consistent with homozygous inactivation. We examined the expression of these 23 genes in 20
neuroblastoma
cell lines, and most showed readily detectable expression, and no correlation with 1p deletion. However, 7 genes showed uniformly low expression in the lines, and 2 genes (CHD5, RNF207) had virtually absent expression, consistent with the expected pattern for a TSG. Our mutation and expression analysis in
neuroblastoma
cell lines, combined with expression analysis in normal tissues, putative function and prior implication in
neuroblastoma
pathogenesis, suggests that the most promising TSG deleted from the 1p36 SRD is CHD5, but TNFRSF25, CAMTA1 and
AJAP1
are also viable candidates.
...
PMID:Expression and sequence analysis of candidates for the 1p36.31 tumor suppressor gene deleted in neuroblastomas. 1766 43
Monosomy 1p36 is one of the most frequent subtelomeric microdeletion syndromes characterized by distinct craniofacial features and developmental delay/mental retardation. Other common symptoms include hypotonia, seizures, brain abnormalities, visual, auditory and heart defects.
Neuroblastoma
is a rare feature since to our knowledge only two patients with "pure" 1p36 deletion have been described. We report on a child with developmental delay and facial dysmorphy who developed
neuroblastoma
at 1 month of age. No primary site outside of the liver could be demonstrated and the tumour regressed spontaneously. Standard karyotyping was normal while subtelomeric screening using Multiplex Ligation-dependent Probe Amplification (MLPA) method revealed a constitutional de novo subtelomeric 1p36 deletion. Subsequent Agilent 244K oligonucleotide array-based comparative genomic hybridization (CGH) and fluorescence in situ hybridization (FISH) analysis showed a complex 1p36.3 deletion/duplication rearrangement. Among the best candidate genes predisposing to the development of
neuroblastoma
located in 1p36, the
AJAP1
gene is the only gene present in the duplication while CHD5, TNFRSF25 and CAMTA1 are located outside of the rearrangement. Therefore, a gene-dosage effect involving a gene located in the duplication including
AJAP1
might explain the
neuroblastoma
observed in our patient. The rearrangement might equally interfere with the expression of a gene located outside of it (including CHD5 located 1Mb away from the rearrangement) playing a role in the tumorigenesis. In conclusion, this study illustrates the complexity of such rearrangement characterized by array CGH and strengthens that constitutional 1p36.3 rearrangement predisposes to the development of
neuroblastoma
.
...
PMID:Complex constitutional subtelomeric 1p36.3 deletion/duplication in a mentally retarded child with neonatal neuroblastoma. 1867 3
