Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C1326912 (tumorigenesis)
57,481 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Case reports of neuroblastoma revealed that some individuals are genetically predisposed and that this genetic predisposition may have other consequences. According to a mutation model, two classes of individuals could acquire neuroblastoma. One (prezygotic) was a rare class that carried a dominant gene imparting high risk of the tumor. The other (postzygotic) comprised all other individuals, each at low risk. The model related tumor incidence to germinal and somatic mutation rates and thereby carried implications for environmental modification of tumorigenesis and demographic variation in incidence. Case reports also revealed associations of neuroblastoma with congenital defects and a susceptibility to second tumors. Analogy with retinoblastoma and Wilms' tumor of the kidney suggested that these associations could result from action of a neuroblastoma gene or from chromosomal aberration. One known dominantly inherited condition, von Recklinghausen's disease, could dispose to neuroblastoma and create some associations. According to the two-mutation model, neuroblastoma may have been a single recessive gene disorder at the level of the cell. The phenomena of aganglionosis, neuroblastoma in situ, maturation of neuroblastoma to ganglioneuroma, and spontaneous regression suggested that such a neuroblastoma gene interfered with normal developmental processes. The specificities of this gene and of those for von Recklinghausen's disease and pheochromocytoma suggested that the functiof a membrane macromolecule.
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PMID:Developmental genetics of neuroblastoma. 18 2

All known tumor types have been reported in the neonate. A numerical listing and discussion are beyond the scope of this review. Wells and Fraumeni give some insight into common congenital malignant neoplasms. Table 2 lists the percentage of neonatal deaths caused by type-specific cancers. Retinoblastoma is probably the most common malignant tumor in the neonate. About seven per cent of these tumors have been apparent at birth. This tumor is not discussed in either article because it is not lethal until muypes in neonatal and pediatric patients. Some congenital malformations in the in the neonate are recognized as being frankly benign (cysts), potentially malignant (teratomas), and frankly malignant (neuroblastoma). A high percentage of teratomas are benign in the newborn period. Leukemia in the newborn appears to be more aggressive yet neuroblastoma has a better prognosis. More studies are needed to help us define why the neonate does better with some tumors and worse with others. Surface cell markers on neonatal leukemia, B and T cell function studies, and other immunologic surveillance studies are needed. Study of neonatal oncology may add to our knowledge of carcinogenesis and oncogenesis in the future.
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PMID:Neonatal oncology. 19 75

Eighty newborn C3H/BifB/Ki strain mice received a single intraocular inoculation of 0.002--0.003 ml of 10(8.0) TCID 50/0.1 ml human adenovirus 12 (AD 12), within 24 h after birth. Forty mice survived and in seven of these (17.5%) a solid retinoblastomalike neoplasm developed between 64 and 236 days. The tumors have been successfully cultured and also transplanted subcutaneously into syngeneic hosts. Morphologically, all tumors revealed characteristic features of retinoblastoma associated with the Homer Wright type of rosettes. Bizarre giant cells were commonly detectable. Ad 12-specific T-antigens were demonstrated in both the primary and cultured tumor cells using immunofluorescent techniques. Some giant cells also showed numerous T-positive filaments. Electron microscopy disclosed poorly differentiated unipolar cells possessing a large ovoid nucleus. Many tumor cells appeared to contain a well organized solitary cilium consisting of a typical ring of nine doublets with no axial (9 + 0) in close association with a pair of centrioles. Some multinucleated giant tumor cells also contained multiple cilia-centriole complexes within their broad syncytial cytoplasm. Occasional endogenous C particle-like virions unique to murine neuroblastomas were observed for the first time in virus-induced retinal tumors. This unprecedented tumor model in a pure strain mouse adds to the range of known animals sensitive to Ad 12 oncogenesis.
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PMID:Retinoblastoma-like neoplasm induced in C3H/BifB/Ki strain mice by human adenovirus serotype 12. 33 42

A direct causal relationship between a human DNA virus, adeno serotype 12, and malignant transformation in target cells (sensory retinal neuronal precursors) was suggested by the development of a remarkably uniform retinoblastoma-like neoplasm in rats. In order to focus upon incipient photoreceptor differentiation, 27 3-day-old CD rats were selected for intraocular virus inoculation. A single injection of 0.03 ml of the virus fluid, 104.5 TCID50 HeLa cells/0.1 ml was given in the left eye. Within 73 to 167 days after the virus inoculation, 12 rats (44.4%) developed retinal tumors in the left eye. Although retinal tumors mimicking human retinoblastoma with true rosettes were anticipated, the highly uniform histopathologic appearance of all 12 eyes was virtually indistinguishable from that of 0-day-old rats. However, multiple foci of malignant cells fusing with the inner segment of relatively well-differentiated retinal layers were found haphazardly throughout the cases; such retinal remnants were not detectable in tumors of 0-day-old rats. Electron microscopy revealed poorly differentiated tumor cells that possessed a single cilium consisting of a typical ring of nine doublets with no axial pair (a 9 plus 0 pattern). Advenovirus-specific T-antigens detected in vivo by the immunofluorescein microscopic procedure in abortively infected or transformed cells clearly indicated that some neuronal precursors destined for part of the ganglioneuronic layer are selectively susceptible to viral oncogenesis. No preferential involvement of the photoreceptor cells was observed. No control animals developed retinal neoplasms.
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PMID:Retinal tumor induction by ocular inoculation of human adneovirus in 3-day-old rats. 111 20

The development of Wilms' tumor, a pediatric kidney cancer, has been linked to the inactivation of a tumor suppressor gene both by epidemiologic studies and by genetic analyses. Like retinoblastoma, Wilms' tumors can occur bilaterally in individuals with apparent genetic susceptibility to this disease. This led Knudson and Strong to propose in 1972 that two genetic events were rate limiting in tumor development and that predisposed individuals had already inherited one mutation in the germline. The observation of karyotype abnormalities in predisposed children and studies of the molecular genetics of Wilms' tumor specimens enabled the identification of chromosome band 11p13 as one genetic locus inactivated in Wilms' tumor. The recent isolation of the WT1 gene, which is the specific target within that locus, offers new insight into the etiology of Wilms' tumor. This gene has properties distinct from those of other known tumor suppressor genes. WT1 encodes a zinc finger transcription factor that is alternatively spliced and has high sequence homology to the early growth response genes (EGR). Unlike the retinoblastoma (RB1) and p53 genes that are expressed ubiquitously, WT1 is expressed in specific cells of the kidney and only during a short period in development. Thus, disruption of a gene that is active during a critical period in the development of a specific organ can lead to neoplastic growth in that organ. Future studies are aimed at exploring the link between the role of the WT1 gene in normal development and in tumorigenesis of the kidney.
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PMID:WT1: a novel tumor suppressor gene inactivated in Wilms' tumor. 131 85

Wilms' tumour is a paediatric kidney cancer which, in a substantial number of cases, has been associated with a genetic predisposition. Susceptibility to Wilms' tumour can be manifested by the presence of bilateral tumours, and in rare cases by a family history of this tumour or by associated congenital malformations. Like retinoblastoma, Wilms' tumour has been postulated to result from the inactivation of a tumour suppressor gene, although genetic studies implicate more than a single genetic locus. The recent isolation of the WT1 gene, which maps to chromosome 11, band p13, has provided the first molecular clue to Wilms' tumorigenesis. WT1 is specifically inactivated in a number of Wilms' tumours, and mutations have been found in the germline of susceptible individuals. This gene appears to encode a transcription factor with complex alternative splices, whose expression is strictly regulated in the developing kidney. Functional studies will be required to elucidate the role of WT1 in normal kidney development and in tumorigenesis.
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PMID:Role of the WT1 gene in Wilms' tumour. 132 41

Recent developments in the field of oncogenes and growth stimulatory factors have provided limited but essential models in neuro-oncology. The observation in gliomas of platelet growth factor (PDGF)-like immunoreactivity fits with the autocrine secretion model, rising the possibility for the growth factor independence of the cancer cells. The discovery of the tumor suppressor genes, for which loss of function mutations are oncogenic as in the RB gene of the retinoblastoma and p53 gene, has introduced a new concept of oncogenesis which could be useful even in the cure of the neoplasms. Several oncogenes are amplified and/or expressed in brain tumors, some associated with polymorphism leading to abnormal protein products. Therefore, corresponding functions, such as production of deficient epidermal growth factor receptor (EGFR) encoded by erb-B, are impaired. Abnormal chromosomal patterns have been recognized in brain tumors and found mainly in chromosomes 7 and 22 on which oncogenes erb-B and sis are located, respectively. Location of proto-oncogenes, which are normally expressed in the brain, indicate that they share common distribution patterns mainly involving the cerebellum, hippocampus and olfactory bulbs. These proto-oncogenes may be regulated by physiological and pathological events. The concept of oncogene involvement in brain tumors must be extended to include the other factors such as G-proteins, growth factor receptors, membrane-associated and cytoplasmic protein kinases, which are all responsible for the control of the cell growth and their response to external signals including chemotherapeutic drigs.
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PMID:Oncogenes: cause or consequence in the development of glial tumors. 133 37

The retinoblastoma-predisposition gene, RB1, segregates as an autosomal dominant trait with high (90%) penetrance. Certain families, however, show an unusual low-penetrance phenotype with many individuals being unaffected, unilaterally affected, or with evidence of spontaneously regressed tumors. We have used single-strand conformation polymorphism analysis and PCR sequencing to study two such families. Mutations were found in exon 20 of RB1 in both cases. In one family a C----T transition in codon 661 converts an arginine (CGG) to a tryptophan (TGG) codon. In this family, incomplete penetrance and mild phenotypic expression were observed in virtually all patients, possibly indicating that single amino acid changes may modify protein structure/function such that tumorigenesis is not inevitable. In the second family the mutation in codon 675 is a G----T transversion that converts a glutamine (GAA) to a stop (TAA) codon. However, this mutation also occurs near a potential cryptic splice acceptor site, raising the possibility of alternative splicing resulting in a less severely disrupted protein.
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PMID:Oncogenic point mutations in exon 20 of the RB1 gene in families showing incomplete penetrance and mild expression of the retinoblastoma phenotype. 135 83

The retinoblastoma gene, a prototypic tumour-suppressor gene, encodes a nuclear phosphoprotein (Rb). To understand better the role of Rb in development and in tumorigenesis, mice with an insertional mutation in exon 20 of the Rb-1 locus were generated. Homozygous mutants die before the 16th embryonic day with multiple defects. The haematopoietic system is abnormal; there is a significant increase in the number of immature nucleated erythrocytes. In the nervous system, ectopic mitoses and massive cell death are found, particularly in the hindbrain. All spinal ganglion cells die, but the neural retina is unaffected. Transfer of the human retinoblastoma (RB) mini-transgene into the mutant mice corrects the developmental defects. Thus, Rb is essential for normal mouse development.
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PMID:Mice deficient for Rb are nonviable and show defects in neurogenesis and haematopoiesis. 140 28

Retinoblastoma tumor formation is initiated by loss of function of both alleles at the RB1 locus on chromosome 13. In nonhereditary retinoblastoma (60% of patients), both mutations occur during retinal development. In hereditary retinoblastoma (40% of patients), tumor formation is caused by one germline and one somatic mutation. The RB1 gene encodes a nuclear protein that arrests progression through the G1 phase of the cell cycle. In the absence of intact RB1 protein, unscheduled cell proliferation occurs. Genes on chromosomes 1 and 6, which have not yet been identified, appear to be involved in later stages of tumorigenesis.
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PMID:Genetics and cytogenetics of retinoblastoma. 142 20


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