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1.
J Cell Biol ; 223(1)2024 01 01.
Article in English | MEDLINE | ID: mdl-37976091

ABSTRACT

Eukaryotic chromosomes compact during mitosis into elongated cylinders-and not the spherical globules expected of self-attracting long flexible polymers. This process is mainly driven by condensin-like proteins. Here, we present Brownian-dynamic simulations involving two types of such proteins with different activities. One, which we refer to as looping condensins, anchors long-lived chromatin loops to create bottlebrush structures. The second, referred to as bridging condensins, forms multivalent bridges between distant parts of these loops. We show that binding of bridging condensins leads to the formation of shorter and stiffer mitotic-like cylinders without requiring any additional energy input. These cylinders have several features matching experimental observations. For instance, the axial condensin backbone breaks up into clusters as found by microscopy, and cylinder elasticity qualitatively matches that seen in chromosome pulling experiments. Additionally, simulating global condensin depletion or local faulty condensin loading gives phenotypes seen experimentally and points to a mechanistic basis for the structure of common fragile sites in mitotic chromosomes.


Subject(s)
Adenosine Triphosphatases , Chromosomes , DNA-Binding Proteins , Multiprotein Complexes , Adenosine Triphosphatases/genetics , Adenosine Triphosphatases/metabolism , Chromatin/genetics , Chromosomes/genetics , Chromosomes/metabolism , DNA-Binding Proteins/genetics , DNA-Binding Proteins/metabolism , Mitosis , Multiprotein Complexes/genetics , Multiprotein Complexes/metabolism
2.
EMBO J ; 40(24): e105862, 2021 12 15.
Article in English | MEDLINE | ID: mdl-34786738

ABSTRACT

The onset of random X chromosome inactivation in mouse requires the switch from a symmetric to an asymmetric state, where the identities of the future inactive and active X chromosomes are assigned. This process is known as X chromosome choice. Here, we show that RIF1 and KAP1 are two fundamental factors for the definition of this transcriptional asymmetry. We found that at the onset of differentiation of mouse embryonic stem cells (mESCs), biallelic up-regulation of the long non-coding RNA Tsix weakens the symmetric association of RIF1 with the Xist promoter. The Xist allele maintaining the association with RIF1 goes on to up-regulate Xist RNA expression in a RIF1-dependent manner. Conversely, the promoter that loses RIF1 gains binding of KAP1, and KAP1 is required for the increase in Tsix levels preceding the choice. We propose that the mutual exclusion of Tsix and RIF1, and of RIF1 and KAP1, at the Xist promoters establish a self-sustaining loop that transforms an initially stochastic event into a stably inherited asymmetric X-chromosome state.


Subject(s)
Mouse Embryonic Stem Cells/cytology , RNA, Long Noncoding/genetics , Telomere-Binding Proteins/metabolism , Tripartite Motif-Containing Protein 28/metabolism , Animals , Cell Differentiation , Cell Line , Female , Mice , Promoter Regions, Genetic , Stochastic Processes , Up-Regulation , X Chromosome Inactivation
3.
Elife ; 92020 11 03.
Article in English | MEDLINE | ID: mdl-33141022

ABSTRACT

Human cells lacking RIF1 are highly sensitive to replication inhibitors, but the reasons for this sensitivity have been enigmatic. Here, we show that RIF1 must be present both during replication stress and in the ensuing recovery period to promote cell survival. Of two isoforms produced by alternative splicing, we find that RIF1-Long alone can protect cells against replication inhibition, but RIF1-Short is incapable of mediating protection. Consistent with this isoform-specific role, RIF1-Long is required to promote the formation of the 53BP1 nuclear bodies that protect unrepaired damage sites in the G1 phase following replication stress. Overall, our observations show that RIF1 is needed at several cell cycle stages after replication insult, with the RIF1-Long isoform playing a specific role during the ensuing G1 phase in damage site protection.


Subject(s)
Cell Nucleus/genetics , DNA Replication , G1 Phase , Telomere-Binding Proteins/metabolism , Tumor Suppressor p53-Binding Protein 1/metabolism , Cell Cycle , Cell Line , Cell Nucleus/metabolism , Humans , Protein Isoforms/genetics , Protein Isoforms/metabolism , RNA Splicing , Telomere-Binding Proteins/genetics , Tumor Suppressor p53-Binding Protein 1/genetics
4.
Cell Rep ; 32(12): 108177, 2020 09 22.
Article in English | MEDLINE | ID: mdl-32966795

ABSTRACT

Cells coordinate interphase-to-mitosis transition, but recurrent cytogenetic lesions appear at common fragile sites (CFSs), termed CFS expression, in a tissue-specific manner after replication stress, marking regions of instability in cancer. Despite such a distinct defect, no model fully provides a molecular explanation for CFSs. We show that CFSs are characterized by impaired chromatin folding, manifesting as disrupted mitotic structures visible with molecular fluorescence in situ hybridization (FISH) probes in the presence and absence of replication stress. Chromosome condensation assays reveal that compaction-resistant chromatin lesions persist at CFSs throughout the cell cycle and mitosis. Cytogenetic and molecular lesions are marked by faulty condensin loading at CFSs, a defect in condensin-I-mediated compaction, and are coincident with mitotic DNA synthesis (MIDAS). This model suggests that, in conditions of exogenous replication stress, aberrant condensin loading leads to molecular defects and CFS expression, concomitantly providing an environment for MIDAS, which, if not resolved, results in chromosome instability.


Subject(s)
Adenosine Triphosphatases/metabolism , Chromosome Fragile Sites , DNA Replication , DNA-Binding Proteins/metabolism , Multiprotein Complexes/metabolism , Stress, Physiological , Aphidicolin/pharmacology , Chromatin/metabolism , DNA/biosynthesis , DNA Replication/drug effects , Epithelial Cells/drug effects , Epithelial Cells/metabolism , Female , G2 Phase/drug effects , HCT116 Cells , Humans , Male , Mitosis/drug effects , Models, Biological , Stress, Physiological/drug effects
5.
Nat Commun ; 10(1): 2164, 2019 05 15.
Article in English | MEDLINE | ID: mdl-31092820

ABSTRACT

Systemic lupus erythematosus (SLE) is an autoimmune disease, characterised by increased expression of type I interferon (IFN)-regulated genes and a striking sex imbalance towards females. Through combined genetic, in silico, in vitro, and ex vivo approaches, we define CXorf21, a gene of hitherto unknown function, which escapes X-chromosome inactivation, as a candidate underlying the Xp21.2 SLE association. We demonstrate that CXorf21 is an IFN-response gene and that the sexual dimorphism in expression is magnified by immunological challenge. Fine-mapping reveals a single haplotype as a potential causal cis-eQTL for CXorf21. We propose that expression is amplified through modification of promoter and 3'-UTR chromatin interactions. Finally, we show that the CXORF21 protein colocalises with TLR7, a pathway implicated in SLE pathogenesis. Our study reveals modulation in gene expression affected by the combination of two hallmarks of SLE: CXorf21 expression increases in a both an IFN-inducible and sex-specific manner.


Subject(s)
Chromosomes, Human, X/genetics , Genes, X-Linked/genetics , Interferon Type I/metabolism , Intracellular Signaling Peptides and Proteins/metabolism , Lupus Erythematosus, Systemic/genetics , 3' Untranslated Regions/genetics , Adult , Age Factors , Case-Control Studies , Female , Genes, X-Linked/immunology , Genetic Predisposition to Disease , Humans , Interferon Type I/immunology , Intracellular Signaling Peptides and Proteins/genetics , Lupus Erythematosus, Systemic/immunology , Male , Promoter Regions, Genetic/genetics , Sex Factors , Toll-Like Receptor 7/genetics
6.
Cell ; 169(7): 1214-1227.e18, 2017 Jun 15.
Article in English | MEDLINE | ID: mdl-28622508

ABSTRACT

Higher eukaryotic chromosomes are organized into topologically constrained functional domains; however, the molecular mechanisms required to sustain these complex interphase chromatin structures are unknown. A stable matrix underpinning nuclear organization was hypothesized, but the idea was abandoned as more dynamic models of chromatin behavior became prevalent. Here, we report that scaffold attachment factor A (SAF-A), originally identified as a structural nuclear protein, interacts with chromatin-associated RNAs (caRNAs) via its RGG domain to regulate human interphase chromatin structures in a transcription-dependent manner. Mechanistically, this is dependent on SAF-A's AAA+ ATPase domain, which mediates cycles of protein oligomerization with caRNAs, in response to ATP binding and hydrolysis. SAF-A oligomerization decompacts large-scale chromatin structure while SAF-A loss or monomerization promotes aberrant chromosome folding and accumulation of genome damage. Our results show that SAF-A and caRNAs form a dynamic, transcriptionally responsive chromatin mesh that organizes large-scale chromosome structures and protects the genome from instability.


Subject(s)
Chromosomes/metabolism , Genomic Instability , Heterogeneous-Nuclear Ribonucleoprotein U/metabolism , RNA, Small Nuclear/metabolism , Amino Acid Sequence , Chromatin , HEK293 Cells , Heterogeneous-Nuclear Ribonucleoprotein U/chemistry , Humans , Interphase , Models, Molecular , Sequence Alignment , Transcription, Genetic
7.
PLoS One ; 10(3): e0119752, 2015.
Article in English | MEDLINE | ID: mdl-25811787

ABSTRACT

We tested for interactions between body mass index (BMI) and common genetic variants affecting serum urate levels, genome-wide, in up to 42569 participants. Both stratified genome-wide association (GWAS) analyses, in lean, overweight and obese individuals, and regression-type analyses in a non BMI-stratified overall sample were performed. The former did not uncover any novel locus with a major main effect, but supported modulation of effects for some known and potentially new urate loci. The latter highlighted a SNP at RBFOX3 reaching genome-wide significant level (effect size 0.014, 95% CI 0.008-0.02, Pinter= 2.6 x 10-8). Two top loci in interaction term analyses, RBFOX3 and ERO1LB-EDARADD, also displayed suggestive differences in main effect size between the lean and obese strata. All top ranking loci for urate effect differences between BMI categories were novel and most had small magnitude but opposite direction effects between strata. They include the locus RBMS1-TANK (men, Pdifflean-overweight= 4.7 x 10-8), a region that has been associated with several obesity related traits, and TSPYL5 (men, Pdifflean-overweight= 9.1 x 10-8), regulating adipocytes-produced estradiol. The top-ranking known urate loci was ABCG2, the strongest known gout risk locus, with an effect halved in obese compared to lean men (Pdifflean-obese= 2 x 10-4). Finally, pathway analysis suggested a role for N-glycan biosynthesis as a prominent urate-associated pathway in the lean stratum. These results illustrate a potentially powerful way to monitor changes occurring in obesogenic environment.


Subject(s)
Uric Acid/blood , ATP Binding Cassette Transporter, Subfamily G, Member 2 , ATP-Binding Cassette Transporters/genetics , Antigens, Nuclear/genetics , Body Mass Index , Edar Receptor/genetics , Female , Genetic Loci , Genome-Wide Association Study , Genotype , Gout/genetics , Gout/pathology , Humans , Linear Models , Male , Membrane Glycoproteins/genetics , Neoplasm Proteins/genetics , Nerve Tissue Proteins/genetics , Obesity/genetics , Obesity/pathology , Overweight/genetics , Oxidoreductases Acting on Sulfur Group Donors/genetics , Polymorphism, Single Nucleotide , Risk Factors
8.
Am J Hum Genet ; 90(3): 445-56, 2012 Mar 09.
Article in English | MEDLINE | ID: mdl-22387014

ABSTRACT

Systemic lupus erythematosus (SLE) is a chronic, multisystem autoimmune disease. Complete deficiency of complement component C4 confers strong genetic risk for SLE. Partial C4 deficiency states have also shown association with SLE, but despite much effort over the last 30 years, it has not been established whether this association is primarily causal or secondary to long-range linkage disequilibrium. The complement C4 locus, located in the major histocompatibility complex (MHC) class III region, exhibits copy-number variation (CNV) and C4 itself exists as two paralogs, C4A and C4B. In order to determine whether partial C4 deficiency is an independent genetic risk factor for SLE, we investigated C4 CNV in the context of HLA-DRB1 and MHC region SNP polymorphism in the largest and most comprehensive complement C4 study to date. Specifically, we genotyped 2,207 subjects of northern and southern European ancestry (1,028 SLE cases and 1,179 controls) for total C4, C4A, and C4B gene copy numbers, and the loss-of-function C4 exon 29 CT indel. We used multiple logistic regression to determine the independence of C4 CNV from known SNP and HLA-DRB1 associations. We clearly demonstrate that genetically determined partial C4 deficiency states are not independent risk factors for SLE in UK and Spanish populations. These results are further corroborated by the lack of association shown by the C4A exon 29 CT insertion in either cohort. Thus, although complete homozygous deficiency of complement C4 is one of the strongest genetic risk factors for SLE, partial C4 deficiency states do not independently predispose to the disease.


Subject(s)
Complement C4a/deficiency , Complement C4a/genetics , Complement C4b/deficiency , Complement C4b/genetics , DNA Copy Number Variations , Lupus Erythematosus, Systemic/genetics , White People/genetics , Alleles , Case-Control Studies , Cohort Studies , Exons , Gene Dosage , Gene Frequency , Genetic Predisposition to Disease , HLA-DRB1 Chains/genetics , Haplotypes , Homozygote , Humans , Linkage Disequilibrium , Logistic Models , Major Histocompatibility Complex/genetics , Polymorphism, Single Nucleotide , Risk Factors , Spain , United Kingdom
9.
Ann Rheum Dis ; 71(5): 777-84, 2012 May.
Article in English | MEDLINE | ID: mdl-22233601

ABSTRACT

OBJECTIVES: Systemic lupus erythematosus (SLE) is a chronic multisystem genetically complex autoimmune disease characterised by the production of autoantibodies to nuclear and cellular antigens, tissue inflammation and organ damage. Genome-wide association studies have shown that variants within the major histocompatibility complex (MHC) region on chromosome 6 confer the greatest genetic risk for SLE in European and Chinese populations. However, the causal variants remain elusive due to tight linkage disequilibrium across disease-associated MHC haplotypes, the highly polymorphic nature of many MHC genes and the heterogeneity of the SLE phenotype. METHODS: A high-density case-control single nucleotide polymorphism (SNP) study of the MHC region was undertaken in SLE cohorts of Spanish and Filipino ancestry using a custom Illumina chip in order to fine-map association signals in these haplotypically diverse populations. In addition, comparative analyses were performed between these two datasets and a northern European UK SLE cohort. A total of 1433 cases and 1458 matched controls were examined. RESULTS: Using this transancestral SNP mapping approach, novel independent loci were identified within the MHC region in UK, Spanish and Filipino patients with SLE with some evidence of interaction. These loci include HLA-DPB1, HLA-G and MSH5 which are independent of each other and HLA-DRB1 alleles. Furthermore, the established SLE-associated HLA-DRB1*15 signal was refined to an interval encompassing HLA-DRB1 and HLA-DQA1. Increased frequencies of MHC region risk alleles and haplotypes were found in the Filipino population compared with Europeans, suggesting that the greater disease burden in non-European SLE may be due in part to this phenomenon. CONCLUSION: These data highlight the usefulness of mapping disease susceptibility loci using a transancestral approach, particularly in a region as complex as the MHC, and offer a springboard for further fine-mapping, resequencing and transcriptomic analysis.


Subject(s)
Cell Cycle Proteins/genetics , Genetic Predisposition to Disease , HLA-DP beta-Chains/genetics , HLA-G Antigens/genetics , Lupus Erythematosus, Systemic/genetics , Major Histocompatibility Complex/genetics , Case-Control Studies , Chromosome Mapping , Cohort Studies , Ethnicity/genetics , Genetic Markers , Humans , Lupus Erythematosus, Systemic/diagnosis , Lupus Erythematosus, Systemic/epidemiology , Philippines/epidemiology , Polymorphism, Single Nucleotide , Spain/epidemiology
10.
PLoS One ; 6(8): e22128, 2011.
Article in English | MEDLINE | ID: mdl-21857912

ABSTRACT

Genetic variants resulting in non-expression of complement C4A and C4B genes are common in healthy European populations and have shown association with a number of diseases, most notably the autoimmune disease, systemic lupus erythematosus. The most frequent cause of a C4 "null" allele, following that of C4 gene copy number variation (CNV), is a non-sense mutation arising from a 2 bp CT insertion into codon 1232 of exon 29. Previous attempts to accurately genotype this polymorphism have not been amenable to high-throughput typing, and have been confounded by failure to account for CNV at this locus, as well as by inability to distinguish between paralogs. We have developed a novel, high-throughput, paralog-specific assay to detect the presence and copy number of this polymorphism. We have genotyped healthy cohorts from the United Kingdom (UK) and Spain. Overall, 30/719 (4.17%) individuals from the UK cohort and 8/449 (1.78%) individuals from the Spanish cohort harboured the CT insertion in a C4A gene. A single Spanish individual possessed a C4B CT insertion. There is weak correlation between the C4 CT insertion and flanking MHC polymorphism. Therefore it is important to note that, as with C4 gene CNV, disease-association due to this variant will be missed by current SNP-based genome-wide association strategies.


Subject(s)
Complement C4/genetics , DNA Copy Number Variations , Genotyping Techniques/methods , Polymorphism, Single Nucleotide , Base Sequence , Cohort Studies , Complement C4a/genetics , Complement C4b/genetics , Exons/genetics , Female , Gene Frequency , Genotype , HLA-DRB1 Chains/genetics , Haplotypes , Humans , Lupus Erythematosus, Systemic/genetics , Male , Molecular Sequence Data , Mutagenesis, Insertional , Pedigree , Spain , United Kingdom
11.
Hum Mutat ; 31(7): 866-74, 2010 Jul.
Article in English | MEDLINE | ID: mdl-20506482

ABSTRACT

The complement C4 locus is in the class III region of the MHC, and exhibits copy number variation. Complement C4 null alleles have shown association with a number of diseases including systemic lupus erythematosus (SLE). However, most studies to date have used protein immunophenotyping and not direct interrogation of the genome to determine C4 null allele status. Moreover, a lack of accurate C4 gene copy number (GCN) estimation and tight linkage disequilibrium across the disease-associated MHC haplotypes has confounded attempts to establish whether or not these associations are causal. We have therefore developed a high throughput paralog ratio test (PRT) in association with two restriction enzyme digest variant ratio tests (REDVRs) to determine total C4 GCN, C4A GCN, and C4B GCN. In the densely genotyped CEU cohort we show that this method is accurate and reproducible when compared to gold standard Southern blot copy number estimation with a discrepancy rate of 9%. We find a broad range of C4 GCNs in the CEU and the 1958 British Birth Cohort populations under study. In addition, SNP-C4 CNV analyses show only moderate levels of correlation and therefore do not support the use of SNP genotypes as proxies for complement C4 GCN.


Subject(s)
Complement C4/genetics , Gene Dosage , Haplotypes/genetics , Polymorphism, Single Nucleotide , Alleles , Gene Frequency , Genetic Association Studies/methods , Genotype , Humans , Linkage Disequilibrium , Lupus Erythematosus, Systemic/genetics , Major Histocompatibility Complex/genetics , Mutation , Reproducibility of Results , White People/genetics
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