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Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Mutation of the p53 tumor suppressor gene frequently occurs in a variety of tumors including lung, breast, gastrointestinal, and brain, as well as lymphomas-leukemias.
Neuroblastoma
, one of the most common solid tumors in childhood, often has amplification of the N-myc gene. We examined for mutations of the p53 tumor suppressor gene by single-strand conformational polymorphism using polymerase chain reaction products and direct sequencing method in
neuroblastoma
; in addition, we assessed the relationship between p53 mutation and N-myc gene amplification in the disease. Of 86 DNA samples from patients with
neuroblastoma
, two mutations (2%) were found in the coding region of the p53 gene. Each mutation caused a substitution of amino acid residues. One mutation was located in exon 5, and another was in exon 6. N-myc gene was amplified in 26% of the samples. No p53 mutations were found in
neuroblastoma
samples with N-myc amplification. In the two individuals, p53 mutations appeared as their disease became more progressive. The
neurofibromatosis 1
(
NF1
) gene is frequently abnormal in another neural disorder, neurofibromatosis type 1; in addition, a potential mutational hot spot of
NF1
at lysine at codon 1423 has been identified in several types of tumors. Using single-strand conformational polymorphism, we were unable to detect an abnormality in this region of
NF1
in 50 samples of
neuroblastoma
. The data suggest that p53 mutations occasionally are associated with progression of neuroblastomas, and tumorigenetic influences of mutant p53 may differ from those of N-myc.
...
PMID:Mutation of the p53 gene in neuroblastoma and its relationship with N-myc amplification. 835 34
Human glioma cell extracts were found to elicit a marked growth-promoting activity on human
neuroblastoma
cells. This activity was also detected in the extracts of neurofibroma type 1 (NF1; von Recklinghausen
neurofibromatosis
) comprising aberrant Schwann cell growth. The purified substance from the NF1 extracts by HPLC on ODS columns was identical to a pyrimidine nucleoside, uridine, the chemical structure of which was identified by gas chromatography-mass spectrometry. The authentic uridine showed a strong growth-promoting activity on human
neuroblastoma
cells. Other purine or pyrimidine nucleotides, their derivatives, and ribose sources for their syntheses were employed to test the activity; a purine nucleoside, adenosine, showed a stronger activity than uridine. The current study raises the possibility that human
neuroblastoma
cells may be affected by dysfunctions of the de novo pathway of both purine and pyrimidine nucleotide biosyntheses.
...
PMID:Neuroblastoma growth factors derived from neurofibroma (NF1): participation of uridine in a neuroblastoma growth. 841 51
The NF1 gene, which is altered in patients with type 1
neurofibromatosis
, encodes neurofibromin, a protein whose GTPase-activating function can negatively regulate GTP-Ras by accelerating its conversion to inactive GDP-Ras. In schwannoma cell lines from patients with
neurofibromatosis
, loss of neurofibromin was previously shown to be associated with impaired regulation of GTP-Ras. Our analysis of other neural crest-derived tumor cell lines has shown that some melanoma and
neuroblastoma
cell lines established from tumors occurring in patients without
neurofibromatosis
contain reduced or undetectable levels of neurofibromin, with concomitant genetic abnormalities of the NF1 locus. In contrast to the schwannoma cell lines, GTP-Ras was appropriately regulated in the melanoma and
neuroblastoma
lines that were deficient in neurofibromin, even when c-H-ras was overexpressed in the lines. These results demonstrate that some neural crest tumors not associated with
neurofibromatosis
have acquired somatically inactivated NF1 genes and suggest a tumor-suppressor function for neurofibromin that is independent of Ras GTPase activation.
...
PMID:Inactivation of the NF1 gene in human melanoma and neuroblastoma cell lines without impaired regulation of GTP.Ras. 851 98
Neuroblastoma
is a childhood cancer which originates in the embryonic tissue of the developing sympathetic neural crest. In 1972, Dr. A. Knudson hypothesised a similar 'two-hit mutation' model for the origin of
neuroblastoma
as for retinoblastoma and Wilms tumor. In this model, malignant cell growth is caused by mutations of both alleles of a tumor suppressor gene. In hereditary tumors, a germinal mutation is present in all cells of the individual, a mutation of the remaining allele by a somatic hit causes loss of gene function. Sporadic tumors result from two somatic mutations of a tumor suppressor gene involving both alleles within the same cell. The occurrence of patients with a constitutional chromosomal deletion syndrome in association with tumor facilitated the cloning of a retinoblastoma gene and of a Wilms tumor suppressor gene. In
neuroblastoma
, cytogenetic and molecular studies suggest the existence of a
neuroblastoma
(suppressor) gene at chromosome 1, at subband 1p36. A constitutional chromosomal deletion syndrome was not known for
neuroblastoma
. We described a constitutional chromosome translocation t(1;17)(p36.31-21; q11.2-12) in a patient with
neuroblastoma
. We hypothesised that this translocation, involving the chromosomal band 1p36, predisposed the patient to
neuroblastoma
development by disturbance of a gene located at the translocation breakpoint. Consequently, identification of the breakpoint flanking markers can be an important step towards the identification and cloning of a
neuroblastoma
suppressor gene. Radioactive in situ hybridization methods were first applied on the patient's fibroblasts. Soon it became evident that cells with better growth characteristics were needed and that the availability of sufficient patient material was essential. Therefore a somatic cell fusion experiment was performed between the patient's fibroblasts and a thymidine kinase-deficient Chinese hamster cell line. Somatic cell hybrid clones were selected on the presence of the derivative human chromosomes 1 and 17, and of the normal homologues. With the use of fluorescence in situ hybridisation (FISH), the position of chromosome 1 and chromosome 17 markers respective to the breakpoints was determined on chromosome metaphases of the hybrid cell lines containing the human derivative chromosomes. The pronatriodilatine (PND) and the adenovirus 12 modification site (A12M2) were identified as distal and proximal 'single copy' flanking markers of the chromosome 1 breakpoint, respectively. The chromosomal break occurred in a highly repetitive region containing an adenovirus modification site and genes encoding transfer RNA and small U1-RNA genes. The breakpoint on chromosome 17 is located in a region with as proximal boundary the distal part of the
neurofibromatosis 1
(
NF1
) gene locus and as distal flanking marker the SCYA7 locus, encoding the monocyte chemotactic protein-3. Southern blot analysis showed no rearrangements of hybrid DNA using single copy probes for the four flanking markers. Identification of the four breakpoint flanking markers on chromosomes 1 and 17 constitutes a pivotal step for the cloning of the translocation breakpoints and for the identification of a presumed
neuroblastoma
suppressor gene.
...
PMID:[Identification of the breakpoint-flanking markers on chromosomes 1 and 17 of a constitutional translocation T(1;17)(P36;Q12-21) in a patient with neuroblastoma]. 857 70
Cutaneous ganglioneuroma is rare. Only five cases have been reported, and in all patients the lesions developed after birth. We describe a congenital cutaneous ganglioneuroma. The differential diagnosis includes well-differentiated cutaneous metastases of
neuroblastoma
and ganglion cells entrapped by a neurofibroma in patients with
neurofibromatosis
.
...
PMID:Primary congenital cutaneous ganglioneuroma. 869 26
Neurofibromin, the gene product of the
NF-1
gene is expressed in two isoforms. The m-RNA of
NF-1
type II contains an insertion of 63 bases in the so called GAP-related domain, that distinguishes it from the type I transcript. By sequence homology neurofibromin is supposed to have a similar function in regulating activity of ras in intracellular signal transduction as the GTPase activating protein (GAP). Both transcripts of
NF-1
are simultaneously expressed in different molar ratio in
neuroblastoma
tumors. 1) We examined 9 different
neuroblastoma
cell lines for the ratio of expression of
NF-1
type I and type II. For quantification of the two transcripts we performed RT-PCR of the m-RNA of the
neuroblastoma
cells using primers designed to cover the GAP-related domain. We found values ranging from a more than 3-fold excess of type I transcript in the cell line Kelly to a slight excess of the type II transcript (I/II = 0.6) in the cell line IMR 5. 2) As there are indications that expression of
NF-1
type II is related to the state of differentiation, we tried to shift expression of
NF-1
from type I to type II by treatment of the
neuroblastoma
cells with retinoic acid. Treatment of Kelly cells with 5 microM retinoic acid for 24 h already lowered the excess of the type I transcript from 3-fold to an only 1.6-fold excess. An inversion of the molar ratio from an excess of the type I transcript to an excess of type II transcript would enable to investigate the different role of the two transcripts in the regulation of ras-activity and differentiation.
...
PMID:Regulation of expression of two different transcripts of the NF-1 gene in neuroblastoma. 904 34
The neurofibromatosis type 1 (von Recklinghausen, NF1) gene has been proposed as a suppressor gene in tumors associated with
neurofibromatosis
. Recent publications have indicated that the NF1 gene can be rearranged in
neuroblastoma
cell lines. We analyzed DNA from a
neuroblastoma
patient with NF1 inherited as a familial trait on the paternal side. Using PCR and Southern techniques we showed that the patient had a constitutional deletion of several exons of the paternally derived NF1 gene and that the maternal copy of the gene had been deleted in the tumor of the patient. This is the first instance of a homozygous deletion reported in a primary
neuroblastoma
tumor. This suggests that NF1 inactivation in involved in the development or progression of some neuroblastomas in agreement with the hypothesized two hit model of inactivation for a tumor suppressor. These results are concordant with other groups that have detected unbalanced translocations t(1;17) in
neuroblastoma
tumors, with a breakpoint in chromosome 17 that may coincide with the location of the NF1 gene.
...
PMID:Homozygous deletion of the neurofibromatosis-1 gene in the tumor of a patient with neuroblastoma. 916 39
A 2-year-old male with
neurofibromatosis
who had a Wilms tumor of the right kidney and an ipsilateral adrenal ganglioneuroblastoma is reported. Both tumors were completely removed and no recurrence occurred for 4 years after completion of the therapy. In a review of the literature, the prognosis of
neurofibromatosis
with these embryonal tumors is not satisfactory due to development of secondary tumors and disseminated metastases of the tumors. The synchronous occurrence of Wilms tumor and
neuroblastoma
in
neurofibromatosis
is extremely rare and this may be the first report in the world.
...
PMID:Synchronous occurrence of Wilms tumor and ganglioneuroblastoma in a child with neurofibromatosis. 940 94
Loss of heterozygosity (LOH) and deletion of chromosome 1p are very often found in sporadic
neuroblastoma
. Nevertheless, very few data are available concerning 1p LOH in familial
neuroblastoma
. Families with recurrent neuroblastoma are rare and analysis of chromosome 1p in these families might give useful information for identifying the putative
neuroblastoma
suppressor gene. We used combined cytogenetic and molecular techniques to study 1p LOH in two
neuroblastoma
families. Family M has 2 out of 3 children with
neuroblastoma
and family C has 2 children, 1 of whom has
neuroblastoma
and type 1
neurofibromatosis
(NF1). All patients of both families showed tumour cells with chromosome 1p deletion (1pdel), but only the patient from family C also had MYCN gene amplification. In all cases the deleted chromosome 1 was of maternal origin.
...
PMID:Loss of heterozygosity for chromosome 1p in familial neuroblastoma. 951 31
Despite significant advances in understanding the genetic background in Hirschsprung's disease (HD), the majority of cases are believed to be multigenic and multifactorial. Conditions associated with an increased risk of HD suggest some common inherited factor and include Down's syndrome, Waardenburg syndrome (WS), dominant sensorineural deafness,
neurofibromatosis
,
neuroblastoma
, phaechromocytoma, the MEN type 2B syndrome, and other abnormalities. The reported incidence of Down's syndrome in HD is approximately 2%, but the range varies from 2% to 15%. WS, on the other hand, is one of a number of uncommon human conditions in which pigmentary disturbances are associated with sensorineural deafness. HD mutations have been mapped to a number of genes, i.e., RET proto-oncogene, at 10q11.2; the recessive EDNRB gene, located at 13q22; its ligand endothelin 3 (EDN3); and the glial cell line-derived neurotrophic factor (GDNF) in humans. Mutations of known genes appear to account for only a relatively small number of HD cases (20% in the case of RET). GDNF may modulate the disease phenotype by interacting with other susceptibility loci (e.g., RET). The genetic aspects of HD occurring in association with trisomy 21 and WS are reviewed. Clinical presentation, diagnosis, treatment and long-term outcome in this patient group are evaluated. Additional data are presented on 12 children with Down's syndrome out of 408 surgically treated HD patients. The role of associated anomalies is evaluated, and an increased susceptibility to severe enterocolitis associated with a high mortality rate is reported. Surgical correction can be achieved, but patients may require some form of ongoing help to facilitate acceptable bowel function. The decision as to the nature and timing of the surgical correction must be individualized.
...
PMID:Hirschsprung's disease: genetic and functional associations of Down's and Waardenburg syndromes. 971 53
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