UMLS:C0002871 - FACTA Search

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Query: UMLS:C0002871 (anemia)
52,094 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fanconi anemia (FA) is an autosomal recessive disorder characterized by aplastic anemia, cancer susceptibility, and cellular sensitivity to mitomycin C. Eight of the 11 cloned Fanconi anemia gene products (FANCA, -B, -C, -E, -F, -G, -L, and -M) form a multisubunit nuclear complex (FA core complex) required for monoubiquitination of a downstream FA protein, FANCD2. FANCL, which possesses three WD40 repeats and a plant homeodomain (PHD), is the putative E3 ubiquitin ligase subunit of the FA complex. Here, we demonstrate that the WD40 repeats of FANCL are required for interaction with other subunits of the FA complex. The PHD is dispensable for this interaction, although it is required for FANCD2 mono-ubiquitination. The PHD of FANCL also shares sequence similarity to the canonical RING finger of c-CBL, including a conserved tryptophan required for E2 binding by c-CBL. Mutation of this tryptophan in the FANCL PHD significantly impairs in vivo mono-ubiquitination of FANCD2 and in vitro auto-ubiquitination activity, and partially impairs restoration of mitomycin C resistance. We propose a model in which FANCL, via its WD40 region, binds the FA complex and, via its PHD, recruits an as-yet-unidentified E2 for mono-ubiquitination of FANCD2.
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PMID:The WD40 repeats of FANCL are required for Fanconi anemia core complex assembly. 1647 67

Fanconi anemia (FA) is a complex disease involving nine identified and two unidentified loci that define a network essential for maintaining genomic stability. To test the hypothesis that the FA network is conserved in vertebrate genomes, we cloned and sequenced zebrafish (Danio rerio) cDNAs and/or genomic BAC clones orthologous to all nine cloned FA genes (FANCA, FANCB, FANCC, FANCD1, FANCD2, FANCE, FANCF, FANCG, and FANCL), and identified orthologs in the genome database for the pufferfish Tetraodon nigroviridis. Genomic organization of exons and introns was nearly identical between zebrafish and human for all genes examined. Hydrophobicity plots revealed conservation of FA protein structure. Evolutionarily conserved regions identified functionally important domains, since many amino acid residues mutated in human disease alleles or shown to be critical in targeted mutagenesis studies are identical in zebrafish and human. Comparative genomic analysis demonstrated conserved syntenies for all FA genes. We conclude that the FA gene network has remained intact since the last common ancestor of zebrafish and human lineages. The application of powerful genetic, cellular, and embryological methodologies make zebrafish a useful model for discovering FA gene functions, identifying new genes in the network, and identifying therapeutic compounds.
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PMID:The Fanconi anemia gene network is conserved from zebrafish to human. 1651 49

Fanconi anemia (FA), a recessive syndrome with both autosomal and X-linked inheritance, features diverse clinical symptoms, such as progressive bone marrow failure, hypersensitivity to DNA cross-linking agents, chromosomal instability and susceptibility to cancer. At least 12 genetic subtypes have been described (FA-A, B, C, D1, D2, E, F, G, I, J, L, M) and all except FA-I have been linked to a distinct gene. Most FA proteins form a complex that activates the FANCD2 protein via monoubiquitination, while FANCJ and FANCD1/BRCA2 function downstream of this step. The FA proteins typically lack functional domains, except for FANCJ/BRIP1 and FANCM, which are DNA helicases, and FANCL, which is probably an E3 ubiquitin conjugating enzyme. Based on the hypersensitivity to cross-linking agents, the FA proteins are thought to function in the repair of DNA interstrand cross-links, which block the progression of DNA replication forks. Here we present a hypothetical model, which not only describes the assembly of the FA pathway, but also positions this pathway in the broader context of DNA cross-link repair. Finally, the possible role for the FA pathway, in particular FANCF and FANCB, in the origin of sporadic cancer is discussed.
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PMID:The Fanconi anemia pathway of genomic maintenance. 1667 78

Several components of the Fanconi anaemia (FA) family of proteins allow the formation of the DNA repair complex foci formed by proteins such as BRCA1/2 and RAD51. Because the genes that participate in the DNA repair pathway have been described as low-penetrance breast cancer susceptibility genes, we postulated that variants in FA genes could also be associated with sporadic breast cancer risk. We studied seven SNPs in FANCA, FANCL and FANCD2 in a total of 897 consecutive and non-related sporadic breast cancer cases and 1033 unaffected controls from the Spanish population. We observed a statistically significant association with sporadic breast cancer for the variant rs2272125 (L1366L) located on FANCD2 (OR per allele=1.35; 95% C.I. 1.09-1.67; P=0.005). Both haplotype and diplotype analyses confirmed this association, where one haplotype and pooled diplotypes carrying it were associated with more than 4-fold risk (P=0.007 and P=0.006, respectively). Screening for potential causal variants in FANCD2 was performed, detecting one in the putative promoter region, which is located in a phylogenetically conserved motif with consensus binding sites for some transcriptional factors, suggesting a functional implication. Our data indicate that a relationship between FANCD2 and sporadic breast cancer risk may exist.
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PMID:FANCD2 associated with sporadic breast cancer risk. 1667 6

Fanconi anemia (FA) is a genomic instability disorder, clinically characterized by congenital abnormalities, progressive bone marrow failure, and predisposition to malignancy. Cells derived from patients with FA display a marked sensitivity to DNA cross-linking agents, such as mitomycin C (MMC). This observation has led to the hypothesis that the proteins defective in FA are involved in the sensing or repair of interstrand cross-link lesions of the DNA. A nuclear complex consisting of a majority of the FA proteins plays a crucial role in this process and is required for the monoubiquitination of a downstream target, FANCD2. Two new FA genes, FANCB and FANCL, have recently been identified, and their discovery has allowed a more detailed study into the molecular architecture of the FA pathway. We demonstrate a direct interaction between FANCB and FANCL and that a complex of these proteins binds FANCA. The interaction between FANCA and FANCL is dependent on FANCB, FANCG, and FANCM, but independent of FANCC, FANCE, and FANCF. These findings provide a framework for the protein interactions that occur "upstream" in the FA pathway and suggest that besides the FA core complex different subcomplexes exist that may have specific functions other than the monoubiquitination of FANCD2.
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PMID:Evidence for subcomplexes in the Fanconi anemia pathway. 1672 Aug 39

Fanconi anemia (FA) is a genetically heterogeneous disease characterized by developmental defects, progressive bone marrow failure and cancer susceptibility. Cells derived from patients with FA show spontaneous chromosomal aberrations and hypersensitivity to cross-linking agents, indicating a cellular defect in DNA repair. Among the 12 FA genes, only FANCD2, FANCL and FANCM have Drosophila homologs. Given this difference between the human and Drosophila FA pathways, it is unknown whether the fly homologs function in DNA repair. Here, we report that knockdown of Drosophila FANCD2 or FANCL leads to specific hypersensitivity to cross-linking agents. Further analysis revealed that FANCD2 and FANCL function in a linear pathway with FANCL being necessary for the monoubiquitination of FANCD2. FANCD2 mutants also exhibited the same defect in the ionizing radiation-inducible S-phase checkpoint that is seen in mammalian cells deficient for this gene. Finally, in an assay for inactivating mutations, FANCD2 mutants have an elevated mutation rate in response to nitrogen mustard, indicating that these flies are hypermutable. Taken together, these data demonstrate that Drosophila FANCD2 and FANCL play a critical role in DNA repair. Because of the lack of other FA genes, further studies will determine whether the conserved FA genes function as the minimal machinery or whether additional genes are involved in the Drosophila FA pathway.
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PMID:Drosophila homologs of FANCD2 and FANCL function in DNA repair. 1686 2

One of the least well understood DNA repair processes in cells is the repair of DNA interstrand cross-links (ICLs) which present a major obstacle to DNA replication and must be repaired or bypassed to allow fork progression. Fanconi anemia (FA) is an inherited genome instability syndrome characterized by hypersensitivity to ICL damage. Central to the FA repair pathway is FANCD2 that is mono-ubiquitylated in response to replication stress and ICL damage through the action of the FA core complex and its E3-ubiquitin ligase subunit, FANCL. In its mono-ubiquitylated form FANCD2 is recruited to repair foci where it is believed to somehow coordinate ICL repair and restart of impeded replication forks. However, the precise mechanism through which the FA pathway and mono-ubiquitylation of FANCD2 promotes ICL repair remains unclear. Here we report on a functional homologue of FANCD2 in C. elegans (FCD-2). Although fcd-2 mutants are homozygous viable, they are exquisitely sensitive to ICL-inducing agents, but insensitive to ionizing radiation (IR). fcd-2 is dispensable for meiotic recombination and activation of the S-phase checkpoint, indicating that ICL sensitivity is likely due to a repair rather than a signalling defect. Indeed, we show that FCD-2 is mono-ubiquitylated in response to ICL damage and is recruited to nuclear repair foci. Consistent with the sensitivity of fcd-2 mutants, FCD-2 focus formation is induced in response to ICL damage and replication stress, but not following IR, suggesting that FCD-2 responds to lesions that block DNA replication and not DNA double strand breaks per se. The realization that the FA pathway is conserved in a genetically tractable model system will permit the comprehensive analysis of the interplay between the FA, homologous recombination (HR), translesion synthesis (TLS) and nucleotide excision repair (NER) pathways, critical to the understanding of ICL repair.
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PMID:C. elegans FANCD2 responds to replication stress and functions in interstrand cross-link repair. 1691 93

The Fanconi anemia pathway is required for the efficient repair of damaged DNA. A key step in this pathway is the monoubiquitination of the FANCD2 protein by the ubiquitin ligase (E3) composed of Fanconi anemia core complex proteins. Here, we show that UBE2T is the ubiquitin-conjugating enzyme (E2) essential for this pathway. UBE2T binds to FANCL, the ubiquitin ligase subunit of the Fanconi anemia core complex, and is required for the monoubiquitination of FANCD2 in vivo. DNA damage in UBE2T-depleted cells leads to the formation of abnormal chromosomes that are a hallmark of Fanconi anemia. In addition, we show that UBE2T undergoes automonoubiquitination in vivo. This monoubiquitination is stimulated by the presence of the FANCL protein and inactivates UBE2T. Therefore, UBE2T is the E2 in the Fanconi anemia pathway and has a self-inactivation mechanism that could be important for negative regulation of the Fanconi anemia pathway.
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PMID:UBE2T is the E2 in the Fanconi anemia pathway and undergoes negative autoregulation. 1691 45

Fanconi anemia (FA) results from mutations in a group of genes whose products, including BRCA2 and BACH1/BRIP1, are known to function in one common pathway (the FA-BRCA pathway) to guard genome integrity, especially when challenged by DNA crosslinking agents, such as Cisplatin and mitomycin C (MMC). The extremely high incidence of cancer in FA patients reveals the essentialness of this pathway in tumor suppression. However, this pathway's involvement in nonFA cancers is not well understood. To evaluate the contribution of the FA-BRCA pathway to cancer, we investigated the integrity of the FA-BRCA pathway in ten human cancer cell lines. We found that the Calu-6 lung cancer cell line carries a defective FA-BRCA pathway. In this cell line, the examination of six FA proteins, essential for the activation of the FA-BRCA pathway, detected substantially reduced expression of FANCL, a catalytic subunit of the ubiquitin ligase/E3-complex. Reconstitution of FANCL in these cells restored the activation of the FA-BRCA pathway, but MMC sensitivity of the cells with a complemented FA-BRCA pathway was decreased as compared to the cells with an impaired FA-BRCA pathway. Collectively, the abnormal FANCL expression is the cause leading to a defective FA-BRCA pathway, which confers the sensitivity of Calu-6 cells to MMC. This suggests that the correlation of an intact FA-BRCA pathway with MMC resistance may emerge as a common mechanism underlying resistance to DNA crosslinking agents in cancer patients.
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PMID:Altered expression of FANCL confers mitomycin C sensitivity in Calu-6 lung cancer cells. 1722 33

The rare hereditary disorder Fanconi anemia (FA) can be caused by mutations in components of the FA core complex (FancA/B/C/E/F/G/L/M), a key regulator FancD2, the breast cancer susceptibility protein BRCA2/FancD1, or the newly identified FancJ/BRIP1 helicase. By performing yeast two-hybrid (Y2H) screens using N-terminal chicken (ch) FancD2 as a bait, we have identified chFancL, the likely ubiquitin E3 ligase subunit of the FA core complex. We also found that ectopically expressed FancD2 and FancL co-immunoprecipitated in 293T cells, and this interaction was dependent on the PHD domain of FancL. FANCL-disrupted chicken DT40 cells displayed defects in both FancD2 monoubiquitination and focus formation. Importantly, cell lines lacking the FANCL or FANCD2 genes, or carrying a "knock-in" mutation of the FancD2 monoubiquitination site (where the Lys 563 residue is changed to Arg), displayed quantitatively identical defects in the repair of I-SceI-induced chromosomal breaks by homologous recombination (HR). These data establish the role of FANCL and FancD2 monoubiquitination in HR repair.
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PMID:A requirement of FancL and FancD2 monoubiquitination in DNA repair. 1735 36

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