KEGG:D03229 - FACTA Search

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Query: KEGG:D03229 (BLM)
1,348 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A case of common variable immunodeficiency (CVID) who developed non-Hodgkin's lymphoma (NHL) of the rectum is reported. A 22-year-old male student in whom CVID was diagnosed at 7 years of age was referred to our department for the treatment of rectal NHL. The patient had stage IE disease confined to the rectum after clinical diagnostic procedures. He was initially treated with radiation therapy alone, but a relapse soon occurred in the paraaortic lymph nodes. He was successfully treated with CHOP-Bleo chemotherapy and supplementation with immunoglobulin preparations. He has since remained free of NHL and infectious complications for over 30 months despite his persistent immunodeficiency.
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PMID:Successful treatment of non-Hodgkin's lymphoma in a patient with common variable immunodeficiency. 768 10

Bloom syndrome (BS) is a rare autosomal recessive genetic disorder characterized by lupus-like erythematous telangiectasias of the face, sun sensitivity, stunted growth infertility and immunodeficiency. In addition, BS patients are highly predisposed to cancers. Although recently the causative gene of BS (BLM) was identified as a DNA helicase homologue, the function of BLM in DNA replication has not been elucidated. In this study, p53 mutation and microsatellite instability in B-cell lymphomas originating from 2 sibling BS patients were investigated. In the originally developed tumor of both patients, no p53 mutation was detected. In one patient, however, after treatment by ionizing radiation the B-cell lymphoma recurred, showing a 9-bp deletion in exon 7. In lymphoma cells and an EB-virus-transformed cell line from BS lymphocytes of this patient, microsatellite instability was also detected from the reduced length of microsatellite DNA markers, although in the other patient microsatellite instability was not detected. Thus, 2 B-cell lymphomas, despite having the same BLM mutation, showed different phenotypes in terms of p53 mutation and microsatellite instability.
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PMID:Microsatellite instability in B-cell lymphoma originating from Bloom syndrome. 898 Feb 51

Bloom's syndrome (BS) is an autosomal recessive condition characterized by short stature, immunodeficiency, and a greatly elevated frequency of many types of cancer. The gene mutated in BS, BLM, encodes a protein containing seven "signature" motifs conserved in a wide range of DNA and RNA helicases. BLM is most closely related to the subfamily of DEXH box-containing DNA helicases of which the prototypical member is Escherichia coli RecQ. To analyze its biochemical properties, we have overexpressed an oligohistidine-tagged version of the BLM gene product in Saccharomyces cerevisiae and purified the protein to apparent homogeneity using nickel chelate affinity chromatography. The recombinant BLM protein possesses an ATPase activity that is strongly stimulated by either single- or double-stranded DNA. Moreover, BLM exhibits ATP- and Mg2+-dependent DNA helicase activity that displays 3'-5' directionality. Because many of the mutations in BS individuals are predicted to truncate the BLM protein and thus eliminate the "helicase" motifs or map to conserved positions within these motifs, our data strongly suggest that these mutations will disable the 3'-5' helicase function of the BLM protein.
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PMID:The Bloom's syndrome gene product is a 3'-5' DNA helicase. 938 93

Bloom syndrome (BS) is a rare genetic disorder characterized by small body size, sun sensitivity, immunodeficiency and a high predisposition to various types of cancer. BLM was identified as the causative gene for BS, and BLM protein is homologous to DNA helicase. There are two putative nuclear localization signals (NLSs) within amino acid residues 1334-1349 in the C-terminus of the BLM protein, which has the distinctive structure of two basic residue arms separated by a spacer. The entire coding or deleted BLM sequences of various sizes were ligated into an enhanced green fluorescent protein (EGFP) vector and transfected into HeLa cells. The EGFP vector harboring the entire BLM coding sequence was transported to the nucleus. The BLM protein truncated at 1341 amino acid, containing an intact helicase domain and only one proximal arm, was not transported to the nucleus. The BLM protein truncated at 1357 amino acid, containing an intact helicase domain and two arms, was transported to the nucleus. The EGFP vector harboring DNA fragments encoding a protein having only the distal arms of basic amino acids in the C-terminus was also transported to the nucleus. The truncated BLM proteins corresponding to previously reported mutated BLM proteins were retained in the cytoplasm or both the cytoplasm and the nucleus as was the EGFP vector with no insert. These results show that the BLM protein translocates into the nucleus and that the distal arm of the bipartite basic residues in the C-terminus of the BLM protein is essential for targeting the nucleus.
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PMID:BLM (the causative gene of Bloom syndrome) protein translocation into the nucleus by a nuclear localization signal. 938 80

Immunoglobulin gene somatic mutation leads to antibody affinity maturation through the introduction of multiple point mutations in the antigen binding site. No genes have as yet been identified that participate in this process. Bloom's syndrome (BS) is a chromosomal breakage disorder with a mutator phenotype. Most affected individuals exhibit an immunodeficiency of undetermined aetiology. The gene for this disorder, BLM, has recently been identified as a DNA helicase. If this gene were to play a role in immunoglobulin mutation, then people with BS may lack normally mutated antibodies. Since germ-line, non-mutated immunoglobulin genes generally produce low affinity antibodies, impaired helicase activity might be manifested as the immunodeficiency found in BS. Therefore, we asked whether BLM is specifically involved in immunoglobulin hypermutation. Sequences of immunoglobulin variable (V) regions were analysed from small unsorted blood samples obtained from BS individuals and compared with germ-line sequences. BS V regions displayed the normal distribution of mutations, indicating that the defect in BS is not related to the mechanism of somatic mutation. These data strongly argue against BLM being involved in this process. The genetic approach to identifying the genes involved in immunoglobulin mutation will require further studies of DNA repair- and immunodeficient individuals.
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PMID:Somatic hypermutation of immunoglobulin genes is independent of the Bloom's syndrome DNA helicase. 964 87

Bloom syndrome (BS) is a rare autosomal recessive disorder characterized by growth deficiency, immunodeficiency, genomic instability, and the early development of cancers of many types. BLM, the protein encoded by BLM, the gene mutated in BS, is localized in nuclear foci and absent from BS cells. BLM encodes a DNA helicase, and proteins from three missense alleles lack displacement activity. BLM transfected into BS cells reduces the frequency of sister chromatid exchanges and restores BLM in the nucleus. Missense alleles fail to reduce the sister chromatid exchanges in transfected BS cells or restore the normal nuclear pattern. BLM complements a phenotype of a Saccharomyces cerevisiae sgs1 top3 strain, and the missense alleles do not. This work demonstrates the importance of the enzymatic activity of BLM for its function and nuclear localization pattern.
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PMID:The DNA helicase activity of BLM is necessary for the correction of the genomic instability of bloom syndrome cells. 1006 10

Bloom's syndrome (BS) is a rare autosomal recessive disorder of humans characterized by severe pre- and postnatal growth deficiency, immunodeficiency, genomic instability, and a predisposition to a wide variety of neoplasms. The genomic instability is evidenced in BS somatic cells as a high incidence of gaps and breaks, chromatid exchanges, chromosome rearrangements, and locus-specific mutations. BS arises from a mutation in BLM, a gene encoding a protein with homology to the RecQ helicase family. Men with BS are sterile; women have reduced fertility and a shortened reproductive span. The current immunocytological study on mouse spermatocytes shows that the BLM protein is first evident as discrete foci along the synaptonemal complexes (SCs) of homologously synapsed autosomal bivalents in late zygonema of meiotic prophase. BLM foci progressively dissociate from the synapsed autosomal axes during early pachynema and are no longer seen in mid-pachynema. BLM colocalizes with the single-stranded DNA binding replication protein A, which has been shown to be involved in meiotic synapsis. However, there is a temporal delay in the appearance of BLM protein along the SCs relative to replication protein A, suggesting that BLM is required for a late step in processing of a subset of genomic DNA involved in establishment of interhomologue interactions in early meiotic prophase. In late pachynema and into diplonema, BLM is more dispersed in the nucleoplasm, especially over the chromatin most intimately associated with the SCs, suggesting a possible involvement of BLM in resolution of interlocks in preparation for homologous chromosome disjunction during anaphase I.
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PMID:Bloom's syndrome protein, BLM, colocalizes with replication protein A in meiotic prophase nuclei of mammalian spermatocytes. 1031 34

Bloom syndrome (BS) is an autosomal recessive disorder characterized by small stature, immunodeficiency, chromosomal instability, and a predisposition to different types of cancer. Although extremely rare in the general population, BS is seen in about 1 in 48,000 Ashkenazi Jews. Mutation analysis of seven Ashkenazi BS probands has shown that all were homozygous for the same mutation in the BLM gene: 2281delATCTGAinsTAGATTC, also known as blmAsh. This finding, along with the increased incidence of BS among Ashkenazi Jews, suggests a founder effect for BS in this population. The purpose of this study was to determine the frequency of blmAsh mutation carriers in a randomly sampled Ashkenazi Jewish population in Israel. The initial study group included 1,613 Ashkenazi Jews who were referred for routine DNA screening tests (cystic fibrosis, Gaucher, Canavan, fragile X). None had a family history of BS. A group of 552 non-Ashkenazi Jews served as controls. Mutation analysis was performed by PCR amplification followed by analysis of a specific BstN1 restriction site, created by the blmAsh mutation. All positive carriers were confirmed by direct sequencing. Sixteen blmAsh carriers were detected among 1,613 Ashkenazi Jews (1 in 101), compared to none among 552 non-Ashkenazi individuals. In this study, Ashkenazi Jews of biparental Polish descent had a significantly higher proportion of the blmAsh mutation (1 in 37) compared to Ashkenazi Jews of non-Polish descent. These results provide further evidence that a founder effect is responsible for the increased incidence of Bloom syndrome among Ashkenazi Jews, particularly those of Polish descent.
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PMID:High frequency of a common Bloom syndrome Ashkenazi mutation among Jews of Polish origin. 1046 6

Bloom syndrome is an autosomal recessive disorder characterized clinically by small size, sun-sensitive facial erythema, and immunodeficiency, and cytogenetically by increased chromosome breakage and sister chromatid exchange. Genomic instability renders Bloom syndrome patients at elevated risk for multiple cancers. Bloom syndrome occurs most commonly in the Ashkenazi Jewish population due to an apparent founder effect. The BLM gene on chromosome 15q26.1 was identified to encode a RecQ DNA helicase. Multiple mutations were identified, with Ashkenazi Jewish Bloom syndrome patients almost exclusively homozygous for a complex frameshift mutation (6-bp deletion/7-bp insertion at BLM nucleotide 2,281). This molecular genetic study seeks to verify the Ashkenazi Jewish carrier frequency of the BLM 2281 delta 6ins7 allele using semiautomated allele-specific oligonucleotide (ASO) analysis. Anonymized DNA samples from 1,016 Ashkenazi Jewish individuals and 307 non-Jewish individuals were screened. Ten Ashkenazi heterozygote carriers for the 2281 delta 6ins7 mutation were identified, giving a carrier frequency estimate of 0.98%, or approximately 1 carrier out of 102 individuals in the Ashkenazi Jewish population. These results are consistent with previous estimates, and combining our findings with the published molecular data collectively yields an Ashkenazi Jewish carrier frequency of approximately 1 in 104. Given its high population frequency and detection rate among Ashkenazi Jewish patients, the blmAsh mutation constitutes an appropriate addition to screening panels for Ashkenazi Jewish disease testing.
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PMID:Ashkenazi Jewish population frequency of the Bloom syndrome gene 2281 delta 6ins7 mutation. 1046 71

Bloom's syndrome (BS) is a rare autosomal recessive disorder characterized by stunted growth, sun-sensitive erythema and immunodeficiency. Chromosomal abnormalities are often observed. Patients with BS are highly predisposed to cancers. The causative gene for BS has been identified as BLM. The former encodes a protein, which is a homologue of the RecQ DNA helicase family, a family which includes helicases such as Esherichia coli RecQ, yeast Sgs1, and human WRN. WRN is encoded by the gene that when mutated causes Werner's syndrome. The function of BLM in DNA replication and repair has not yet been determined, however. To understand the function of BLM in haematopoietic cells and the cause of immunodeficiency in BS, expression of the BLM gene in various human tissues and haematopoietic cell lines was analysed and the involvement of BLM in immunoglobulin rearrangement examined. In contrast to WRN, BLM was expressed strongly in the testis and thymus. B, T, myelomonocytic and megakaryocytic cell lines also expressed BLM. All of the examined sequences at the junction of the variable (V), diversity (D) and joining (J) regions of the immunoglobulin heavy-chain genes were in-frame, and N-region insertions were also present. The frequency of abnormal rearrangements of the T cell receptor was slightly elevated in the peripheral T cells of patients with BS compared with healthy individuals, whereas a higher frequency of abnormal rearrangements was observed in the cells of patients with ataxia-telangiectasia (A-T). In DND39 cell lines, the induction of sterile transcription, which is required for class switching of immunoglobulin heavy-chain constant genes, was correlated with the induction of the BLM gene. Taking into consideration all these results, BLM may not be directly involved in VDJ recombination, but is apparently involved in the maintenance of the stability of DNA.
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PMID:Expression of the BLM gene in human haematopoietic cells. 1054 Jan 92

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