Early PCR-negativity after allogeneic BMT in adults with t(4;11) ALL in the absence of acute or chronic GVHD.
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Acute lymphoblastic leukaemia (ALL) with the t(4;11) translocation has a very poor prognosis following conventional chemotherapy. Many patients are offered an allogeneic BMT in first remission. We report on the impact of allogeneic BMT on three patients with t(4;11) ALL in first remission. Median age was 20 years. One patient received marrow from an HLA-identical sibling and the other two from unrelated donors. All three engrafted and none of the patients developed acute or chronic GVHD. Remission status was monitored using a sensitive nested RT-PCR to detect the ALL-1/AF-4 hybrid transcript. All three were PCR-negative at 3 months post-BMT. One of the unrelated recipients died of a fungal infection 4 months post-BMT. The other two are alive and in molecular remission at 21 and 24 months post-BMT. This is the first report of longitudinal follow-up of t(4;11) ALL post-allogeneic BMT by PCR. The early attainment of molecular remission in the absence of GVHD suggests that the conditioning regimen may have been more important than a graft-versus-leukaemia effect in these patients. Follow-up of larger numbers of patients will be required to confirm these preliminary observations. (+info)
Acute myelogenous leukemia with a t(2;17;4)(p13;q21;p16) aberration: effective treatment with all-trans retinoic acid and granulocyte colony-stimulating factor.
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The efficacy of all-trans retinoic acid (ATRA) in patients with acute promyelocytic leukemia (APL) has been well documented. However, ATRA is not as effective against other types of acute myelogenous leukemia (AML) or myelodysplastic syndromes. We present a patient with AML (FAB: M2) associated with a t(2;17;4)(p13;q21;p16) chromosomal defect in which the 17q21 breakpoint was not within the retinoic acid receptor alpha locus which is typically rearranged in APL. This patient was successfully treated with ATRA and granulocyte colony-stimulating factor and improvement of hematological parameters lasted for 19 months without the use of cytotoxic agents. (+info)
Ectopic NORs on human chromosomes 4qter and 8q11: rare chromosomal variants detected in two families.
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Two different NOR bearing non-acrocentric chromosomes were detected during prenatal diagnosis performed on two probands because of advanced maternal age. In the first case, a chromosome 4 carried a NOR in the telomeric region of the long arm (4qs), while in the second case a NOR was inserted into chromosome 8q11. Family analysis showed the variant chromosomes to be transmitted through at least three generations in each family. There were no reports of reproductive problems or phenotypic effects in the carriers of these chromosomes, indicating the benign character of the aberrant chromosomes. In order to characterise the chromosomal variants more precisely, various differential banding techniques were applied. (+info)
Genetic and functional analyses exclude mortality factor 4 (MORF4) as a keratinocyte senescence gene.
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Approximately 50% of immortal human keratinocyte lines show loss of heterozygosity of chromosome region 4q33-q34, and the reintroduction of chromosome 4 into one such line, BICR 6, causes proliferation arrest and features of replicative senescence. Recently, a candidate gene, mortality factor 4 (MORF4), was identified in this region and sequenced in 21 immortal keratinocyte lines. There were no mutations or deletions, and two of the seven lines that showed loss of heterozygosity at 4q33-q34 were heterozygous for MORF4 itself. Furthermore, the transfer of a chromosomal segment containing the entire MORF4 gene did not mimic the senescence effect of chromosome 4 in BICR 6. These results suggest that the inactivation of MORF4 is not required for human keratinocyte immortality. (+info)
Genetics of graft-versus-host disease, I. A locus on chromosome 1 influences development of acute graft-versus-host disease in a major histocompatibility complex mismatched murine model.
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Graft-versus-host disease (GVHD) is the major complication occurring after bone marrow transplantation. The severity of GVHD varies widely, with this variation generally being attributed to variation in the degree of disparity between host and donor for minor histocompatibility antigens. However, it is also possible that other forms of polymorphism, such as polymorphisms in immune effector molecules, might play a significant role in determining GVHD severity. In order to investigate this hypothesis, we are studying the genetic factors that influence GVHD development in a murine model. We here report the first results of this analysis, which demonstrate that a locus on Chromosome 1 of the mouse, and possibly also a locus on Chromosome 4, exert considerable influence over the development of one aspect of acute GVHD - splenomegaly - in a parent-->F1 murine model. These results demonstrate that non-MHC genes can exert quite significant effects on the development of GVHD-associated pathology and that gene mapping can be used as a tool to identify these loci. Further analysis of such loci will allow identification of the mechanism whereby they influence GVHD and may lead in the future to improved selection of donors for human bone marrow transplantation. (+info)
Mapping of genetic deletions on the long arm of chromosome 4 in human esophageal adenocarcinomas.
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Loss of the long arm of chromosome 4 has been identified previously as a common occurrence in adenocarcinomas of the esophagus and gastroesophageal junction by relatively low resolution genetic surveys. To better define the extent of 4q deletion in these neoplasms we isolated DNA from 29 primary carcinomas using microdissection, and used DNA obtained from xenografts of 14 carcinomas grown in immunodeficient mice in an assay of loss of heterozygosity of 25 polymorphic microsatellite markers distributed along the chromosomal arm. Two carcinomas exhibited widespread microsatellite instability and were excluded from deletion mapping. In the remaining 41 carcinomas, loss of heterozygosity was detected in 33 (80%). Twenty-three cancers showed complete or extensive reduction to homozygosity along the length of the long arm. Ten cancers had smaller discrete areas of loss and were principally useful in discerning three non-overlapping areas of consensus genetic deletion. Area 1 centered on marker D4S1534 at 4q21.1-22, area 2 centered on marker D4S620 at 4q32-33, and area 3 centered on marker D4S426 at 4q35. No known tumor suppressor genes map to these loci, but the frequent deletion of these areas in gastroesophageal carcinomas and in other carcinomas suggests that undiscovered tumor suppressor genes may reside here. (+info)
Cloning and characterization of a novel human olfactory UDP-glucuronosyltransferase.
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Xenobiotic metabolizing enzymes in the olfactory epithelium have been suggested to catalyse inactivation and facilitate elimination of odorants. We report here the molecular cloning and functional characterization of a human olfactory UDP-glucuronosyltransferase (UGT). The cloned protein is composed of 527 amino acids with an identity of 87% with a rat olfactory UGT and of 43-62% with other human UGT isoforms. Based on the sequence homology, it has been designated hUGT2A1. The gene was mapped to chromosome 4q13 by fluorescence in situ hybridization. The expression appeared to be specific for the olfactory tissue. The substrate specificity of this isoform was assessed using Chinese hamster V79 cells stably transfected with the isolated cDNA. The expressed enzyme showed a broad substrate spectrum including a range of phenolic compounds as well as aliphatic and monoterpenoid alcohols, among them many odorants. Furthermore, some steroids, especially androgens, some drugs and carcinogens were conjugated. The results support a role of the enzyme in olfactory perception and in protection of the neural system against airborne hazardous chemicals. (+info)
The gene for cherubism maps to chromosome 4p16.3.
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Cherubism is a rare familial disease of childhood characterized by proliferative lesions within the mandible and maxilla that lead to prominence of the lower face and an appearance reminiscent of the cherubs portrayed in Renaissance art. Resolution of these bony abnormalities is often observed after puberty. Many cases are inherited in an autosomal dominant fashion, although several cases without a family history have been reported. Using two families with clinically, radiologically, and/or histologically proved cherubism, we have performed a genomewide linkage search and have localized the gene to chromosome 4p16.3, with a maximum multipoint LOD score of 5. 64. Both families showed evidence of linkage to this locus. Critical meiotic recombinants place the gene in a 3-cM interval between D4S127 and 4p-telomere. Within this region a strong candidate is the gene for fibroblast growth factor receptor 3 (FGFR3); mutations in this gene have been implicated in a diverse set of disorders of bone development. (+info)