Your search keyword '"Pelger-Huet Anomaly genetics"' showing total 13 results

1. Deletion of LBR N-terminal domains recapitulates Pelger-Huet anomaly phenotypes in mouse without disrupting X chromosome inactivation.

Author

Young AN, Perlas E, Ruiz-Blanes N, Hierholzer A, Pomella N, Martin-Martin B, Liverziani A, Jachowicz JW, Giannakouros T, and Cerase A

Subjects

Animals, Mice, Mice, Knockout, Phenotype, Receptors, Cytoplasmic and Nuclear metabolism, Lamin B Receptor, Pelger-Huet Anomaly genetics, Receptors, Cytoplasmic and Nuclear genetics, X Chromosome Inactivation genetics

Abstract

Mutations in the gene encoding Lamin B receptor (LBR), a nuclear-membrane protein with sterol reductase activity, have been linked to rare human disorders. Phenotypes range from a benign blood disorder, such as Pelger-Huet anomaly (PHA), affecting the morphology and chromatin organization of white blood cells, to embryonic lethality as for Greenberg dysplasia (GRBGD). Existing PHA mouse models do not fully recapitulate the human phenotypes, hindering efforts to understand the molecular etiology of this disorder. Here we show, using CRISPR/Cas-9 gene editing technology, that a 236bp N-terminal deletion in the mouse Lbr gene, generating a protein missing the N-terminal domains of LBR, presents a superior model of human PHA. Further, we address recent reports of a link between Lbr and defects in X chromosome inactivation (XCI) and show that our mouse mutant displays minor X chromosome inactivation defects that do not lead to any overt phenotypes in vivo. We suggest that our N-terminal deletion model provides a valuable pre-clinical tool to the research community and will aid in further understanding the etiology of PHA and the diverse functions of LBR.

Published

2021

2. [Analysis of LBR gene mutation in a pedigree affected with Pelger-Huёt anomaly].

Author

Luo X, Xu Q, Huang L, Yang N, Li Y, Zeng Q, An B, and Huang S

Subjects

Case-Control Studies, DNA Mutational Analysis, Exons, Humans, Mutation, Pedigree, Polymerase Chain Reaction, Lamin B Receptor, Pelger-Huet Anomaly genetics, Receptors, Cytoplasmic and Nuclear genetics

Abstract

Objective: To detect mutation of LBR gene in a pedigree affected with Pelger-Huёt anomaly (PHA) and to explore its clinical characteristics., Methods: Genomic DNA was extracted from the pedigree and healthy controls. The 14 exons of the LBR gene were subjected to PCR amplification and Sanger sequencing. Suspected mutations were verified in other family members and 100 healthy controls. Polyphen-2 and SIFT software were used to predict the effect of the mutation, and Swiss-model software was used to simulate the protein structure., Results: Three patients were found to carry a c.893G>A mutation in exon 8 of the LBR gene, which resulted in substitution of the 298th amino acid residue glycine by glutamic acid (p.Gly298Glu). The same mutation was not found in healthy family members and 100 healthy controls. The mutation was predicted to be damaging. Bioinformatic simulation showed the mutation has altered the 3D structure of the LBR protein., Conclusion: The c.893G>A (p.Gly298Glu) mutation in the LBR gene probably underlies the PHA in this pedigree and has enriched the spectrum of LBR gene mutations.

Published

2019

3. A novel case of Greenberg dysplasia and genotype-phenotype correlation analysis for LBR pathogenic variants: An instructive example of one gene-multiple phenotypes.

Author

Giorgio E, Sirchia F, Bosco M, Sobreira NLM, Grosso E, Brussino A, and Brusco A

Subjects

Chromatin genetics, Female, Fetus physiopathology, Genetic Association Studies, Homozygote, Humans, Lamin Type B genetics, Osteochondrodysplasias physiopathology, Pelger-Huet Anomaly physiopathology, Phenotype, Pregnancy, Lamin B Receptor, Osteochondrodysplasias genetics, Pelger-Huet Anomaly genetics, Receptors, Cytoplasmic and Nuclear genetics, Exome Sequencing

Abstract

Greenberg skeletal dysplasia is an autosomal recessive, perinatal lethal disorder associated with biallelic variants affecting the lamin B receptor (LBR) gene. LBR is also associated with the autosomal recessive anadysplasia-like spondylometaphyseal dysplasia, and the autosomal dominant Pelger-Huët anomaly, a benign laminopathy characterized by anomalies in the nuclear shape of blood granulocytes. The LBR is an inner nuclear membrane protein that binds lamin B proteins (LMNB1 and LMNB2), interacts with chromatin, and exerts a sterol reductase activity. Here, we report on a novel LBR missense variant [c.1379A>G; p.(D460R)], identified by whole exome sequencing and causing Greenberg dysplasia in two fetuses from a consanguineous Moroccan family. We revised published LBR variants to propose a genotype-phenotype correlation in LBR associated diseases. The diverse phenotypes are correlated to the functional domain affected, the heterozygous or homozygous state of the variants, and their different impact on the residual protein function. LBR represents an instructive example of one gene presenting with two different patterns of inheritance and at least three different clinical phenotypes., (© 2018 Wiley Periodicals, Inc.)

Published

2019

4. Image analysis of neutrophil nuclear morphology: Learning about phenotypic range and its reliable analysis from patients with pelger-Huët-anomaly and treated with colchicine.

Author

Schnipper N, Stassen HH, Kallinich T, Sperling K, and Hoffmann K

Subjects

Adolescent, Cell Nucleus metabolism, Cell Nucleus ultrastructure, Child, Preschool, Familial Mediterranean Fever diagnosis, Familial Mediterranean Fever genetics, Familial Mediterranean Fever metabolism, Female, Flow Cytometry, Gene Expression, Humans, Male, Mutation, Neutrophils metabolism, Neutrophils ultrastructure, Pelger-Huet Anomaly diagnosis, Pelger-Huet Anomaly genetics, Pelger-Huet Anomaly metabolism, Phenotype, Primary Cell Culture, Receptors, Cytoplasmic and Nuclear metabolism, Lamin B Receptor, Cell Nucleus drug effects, Colchicine therapeutic use, Familial Mediterranean Fever drug therapy, Neutrophils drug effects, Pelger-Huet Anomaly drug therapy, Receptors, Cytoplasmic and Nuclear genetics

Abstract

The nuclear morphology of neutrophils depends on different endogenous and exogenous factors, which can lead to hypo- or hypersegmentation of the normally 2-4 segmented nucleus. Hyposegmentation can be due to mutations in the LBR-gene (Pelger-Huët-Anomaly) or can be induced, for example, by colchicine treatment. The range of this phenotypic variation is known as "norm of reaction," which can be of major relevance for clinical diagnosis and therapeutic intervention. In this project, we studied the norm of reaction in 26 subjects with 0-3 wild type LBR alleles. In addition, the phenotypic variation was analyzed in 3 patients with Familial Mediterranean Fever (FMF), before and after colchicine treatment. We measured the phenotype nuclear segmentation of neutrophils based on two conventional qualitative methods, the "rule of threads" and the "rule of thirds." In addition, we tested a morphometric quantitative approach, the "circularity index." The circularity index was superior in cases with hyposegmentation; the rule of thirds with respect to hypersegmentation. Approximately 65% of the observed phenotypic variance was explainable by the number of LBR wild type alleles. The gene-dosage effect followed a non-additive, hysteresis-like characteristic with lower and upper plateaus. Colchicine treatment had a clear, although minor phenotypic effect compared to the number of LBR wild type genes or the mutation type. Thus, the nuclear morphology of granulocytes and its norm of reaction can be regarded as an excellent model both for detailing the interplay between endogenous and exogenous factors and for clinical diagnostic purposes. © 2016 International Clinical Cytometry Society., (© 2016 International Clinical Cytometry Society.)

Published

2017

5. Understanding and recognizing the Pelger-Huët anomaly.

Author

Colella R and Hollensead SC

Subjects

Cell Nucleus genetics, Cell Nucleus pathology, Diagnosis, Differential, Family Health, Humans, Lamins metabolism, Leukemoid Reaction diagnosis, Mutation, Myelodysplastic Syndromes diagnosis, Neutrophils metabolism, Pelger-Huet Anomaly genetics, Pelger-Huet Anomaly metabolism, Receptors, Cytoplasmic and Nuclear genetics, Lamin B Receptor, Neutrophils pathology, Pelger-Huet Anomaly diagnosis, Receptors, Cytoplasmic and Nuclear metabolism

Abstract

The Pelger-Huët anomaly (PHA) is a recognized morphologic variant affecting all granulocytes but is most evident in polymorphonuclear neutrophils (PMNs). PHA is caused by a decreased amount of the lamin B receptor (LBR). Recognition of PHA morphologic features serves as a marker for mutations in the LBR gene. This review summarizes the history of PHA and the current knowledge of the functions of the LBR. Guidance is given for distinguishing PHA from other hematologic disorders in which granulocytes may show similar changes. Recognition of PHA in the laboratory should prompt communication to the patient's physician about the possible clinical significance of this finding and the recommended screening for the anomaly in other family members by CBC and review of a peripheral blood smear.

Published

2012

6. The danger of "multi-tasking": LBR out of control.

Author

Herrmann H and Zwerger M

Subjects

Cell Line, Cell Line, Tumor, Cell Nucleus pathology, Cell Nucleus ultrastructure, Chromatin pathology, Endoplasmic Reticulum metabolism, Endoplasmic Reticulum pathology, Gene Expression Profiling, HeLa Cells, Humans, Mutation, Nuclear Envelope ultrastructure, Osteochondrodysplasias genetics, Pelger-Huet Anomaly genetics, Phenotype, Lamin B Receptor, Nuclear Envelope metabolism, Receptors, Cytoplasmic and Nuclear genetics

Abstract

The nuclear envelope (NE) is a barrier that separates nuclear from cytoplasmic processes. It is composed of an inner and outer nuclear membrane (INM, ONM), separated by the perinuclear space (PNS). The ONM is contiguous with the endoplasmic reticulum (ER), and thus, the lumen of the NE and that of the ER constitute one compartment. The lamin B receptor (LBR) is a NE protein that has a central structural role as a linker of the INM, the lamina and chromatin, and a less well characterized functional role as a sterol reductase. In a recent study, we reported that the forced expression of mutant variants of LBR in some cell types induces a separation of the INM from the outer nuclear envelope concomitantly with a separation of ER membranes, whereas in other cells no separation is observed. In this extra view, we speculate about the mechanism that leads to this fundamental disruption of NE and ER structure. Our observations furthermore raise the question to what extent LBR contributes to the establishment or maintenance of the ER and PNS luminal compartment, and how a single mutant protein can so drastically interfere with its regular organization.

Published

2010

7. Mutations causing Greenberg dysplasia but not Pelger anomaly uncouple enzymatic from structural functions of a nuclear membrane protein.

Author

Clayton P, Fischer B, Mann A, Mansour S, Rossier E, Veen M, Lang C, Baasanjav S, Kieslich M, Brossuleit K, Gravemann S, Schnipper N, Karbasyian M, Demuth I, Zwerger M, Vaya A, Utermann G, Mundlos S, Stricker S, Sperling K, and Hoffmann K

Subjects

Animals, Cell Line, Tumor, Fibroblasts metabolism, Genotype, HeLa Cells, Heterozygote, Homozygote, Humans, Mice, Mutation, Missense, Nuclear Envelope metabolism, Osteochondrodysplasias pathology, Oxidoreductases genetics, Oxidoreductases metabolism, Pelger-Huet Anomaly pathology, Phenotype, Receptors, Cytoplasmic and Nuclear analysis, Receptors, Cytoplasmic and Nuclear metabolism, Saccharomyces cerevisiae enzymology, Saccharomyces cerevisiae Proteins genetics, Saccharomyces cerevisiae Proteins metabolism, Lamin B Receptor, Osteochondrodysplasias genetics, Pelger-Huet Anomaly genetics, Receptors, Cytoplasmic and Nuclear genetics

Abstract

The lamin B receptor (LBR) is an inner nuclear membrane protein with a structural function interacting with chromatin and lamins, and an enzymatic function as a sterol reductase. Heterozygous LBR mutations cause nuclear hyposegmentation in neutrophils (Pelger anomaly), while homozygous mutations cause prenatal death with skeletal defects and abnormal sterol metabolism (Greenberg dysplasia). It has remained unclear whether the lethality in Greenberg dysplasia is due to cholesterol defects or altered nuclear morphology.To answer this question we characterized two LBR missense mutations and showed that they cause Greenberg dysplasia. Both mutations affect residues that are evolutionary conserved among sterol reductases. In contrast to wildtype LBR, both mutations failed to rescue C14 sterol reductase deficient yeast, indicating an enzymatic defect. We found no Pelger anomaly in the carrier parent excluding marked effects on nuclear structure. We studied Lbr in mouse embryos and demonstrate expression in skin and the developing skeletal system consistent with sites of histological changes in Greenberg dysplasia. Unexpectedly we found in disease-relevant cell types not only nuclear but also cytoplasmatic LBR localization. The cytoplasmatic LBR staining co-localized with ER-markers and is thus consistent with the sites of endogeneous sterol synthesis. We conclude that LBR missense mutations can abolish sterol reductase activity, causing lethal Greenberg dysplasia but not Pelger anomaly. The findings separate the metabolic from the structural function and indicate that the sterol reductase activity is essential for human intrauterine development.

Published

2010

8. The lamin B receptor under transcriptional control of C/EBPepsilon is required for morphological but not functional maturation of neutrophils.

Author

Cohen TV, Klarmann KD, Sakchaisri K, Cooper JP, Kuhns D, Anver M, Johnson PF, Williams SC, Keller JR, and Stewart CL

Subjects

Animals, CCAAT-Enhancer-Binding Proteins genetics, Cell Differentiation, Cell Nucleus Shape, Cells, Cultured, Disease Models, Animal, Gene Expression Regulation, Humans, Mice, Mice, Inbred C57BL, Mice, Knockout, Mutagenesis, Insertional, Neutrophil Activation, Neutrophils physiology, Pelger-Huet Anomaly embryology, Pelger-Huet Anomaly metabolism, Promoter Regions, Genetic, Receptors, Cytoplasmic and Nuclear metabolism, Staphylococcus aureus physiology, Lamin B Receptor, CCAAT-Enhancer-Binding Proteins metabolism, Neutrophils cytology, Pelger-Huet Anomaly genetics, Pelger-Huet Anomaly physiopathology, Receptors, Cytoplasmic and Nuclear genetics, Transcription, Genetic

Abstract

The lamin B receptor (LBR) is an integral nuclear envelope protein that interacts with chromatin and has homology to sterol reductases. Mutations in LBR result in Pelger-Huët anomaly and HEM-Greenberg skeletal dysplasia, whereas in mice Lbr mutations result in ichthyosis. To further understand the function of the LBR and its role in disease, we derived a novel mouse model with a gene-trap insertion into the Lbr locus (Lbr(GT/GT)). Phenotypically, the Lbr(GT/GT) mice are similar to ichthyosis mice. The Lbr(GT/GT) granulocytes lack a mature segmented nucleus and have a block in late maturation. Despite these changes in nuclear morphology, the innate granulocyte immune function in the killing of Staphylococcus aureus bacteria appears to be intact. Granulocyte differentiation requires the transcription factor C/EBPepsilon. We identified C/EBPepsilon binding sites within the Lbr promoter and used EMSAs and luciferase assays to show that Lbr is transcriptionally regulated by C/EBPepsilon. Our findings indicate that the Lbr(GT/GT) mice are a model for Pelger-Huët anomaly and that Lbr, under transcriptional regulation of C/EBPepsilon, is necessary for morphological but not necessarily functional granulocyte maturation.

Published

2008

9. The granulocyte nucleus and lamin B receptor: avoiding the ovoid.

Author

Hoffmann K, Sperling K, Olins AL, and Olins DE

Subjects

Animals, Cholesterol metabolism, Homozygote, Humans, Mice, Nuclear Envelope chemistry, Pelger-Huet Anomaly genetics, Phylogeny, Receptors, Cytoplasmic and Nuclear analysis, Receptors, Cytoplasmic and Nuclear genetics, Lamin B Receptor, Cell Nucleus ultrastructure, Cell Nucleus Shape genetics, Granulocytes ultrastructure, Pelger-Huet Anomaly pathology, Receptors, Cytoplasmic and Nuclear physiology

Abstract

The major human blood granulocyte, the neutrophil, is an essential component of the innate immunity system, emigrating from blood vessels and migrating through tight tissue spaces to the site of bacterial or fungal infection where they kill and phagocytose invading microbes. Since the late nineteenth century, it has been recognized that the human neutrophil nucleus is distinctly not ovoid as in other cell types, but possesses a lobulated (segmented) shape. This deformable nucleus enhances rapid migration. Recent studies have demonstrated that lamin B receptor (LBR) is necessary for the non-ovoid shape. LBR is an integral membrane protein of the nuclear envelope. A single dominant mutation in humans leads to neutrophils with hypolobulated nuclei (Pelger-Huet anomaly); homozygosity leads to ovoid granulocyte nuclei. Interestingly, LBR is also an enzyme involved in cholesterol metabolism. Homozygosity for null mutations is frequently lethal and associated with severe skeletal deformities. In addition to the necessity for LBR, formation of the mature granulocyte nucleus also depends upon lamin composition and microtubule integrity. These observations are part of a larger question on the relationships between nuclear shape and cellular function.

Published

2007

10. Benign anomaly to malign dysplasia: variable expression of lamin B receptor mutations in humans.

Author

Kasbekar DP

Subjects

Animals, Humans, Mice, Phenotype, Lamin B Receptor, Bone Diseases, Developmental genetics, Pelger-Huet Anomaly genetics, Receptors, Cytoplasmic and Nuclear genetics

Published

2004

11. Lamin B-receptor mutations in Pelger-Huët anomaly.

Author

Best S, Salvati F, Kallo J, Garner C, Height S, Thein SL, and Rees DC

Subjects

Cell Nucleus ultrastructure, Genetic Linkage, Humans, Male, Neutrophils ultrastructure, Pelger-Huet Anomaly immunology, Polymerase Chain Reaction, Polymorphism, Restriction Fragment Length, Sequence Analysis, DNA, Lamin B Receptor, Pelger-Huet Anomaly genetics, Point Mutation, Receptors, Cytoplasmic and Nuclear genetics

Abstract

Pelger-Huët anomaly is an inherited abnormality of neutrophils, characterized by reduced nuclear segmentation and an apparently looser chromatin structure. Following linkage studies in two families, the lamin B-receptor (LBR) was sequenced and mutations found: CCG-->CTG causing proline-->leucine in codon 119 of exon 3, and IVS11-9 A-->G, disrupting the splice acceptor site. The LBR gene (LBR) was also sequenced from a single English man with Pelger-Huët anomaly and a heterozygous C-->G mutation was found in codon 569 of exon 14, predicted to cause a proline-->arginine. Our results confirm recently published findings that LBR mutations cause Pelger-Huët.

Published

2003

12. Mutations at the mouse ichthyosis locus are within the lamin B receptor gene: a single gene model for human Pelger-Huët anomaly.

Author

Shultz LD, Lyons BL, Burzenski LM, Gott B, Samuels R, Schweitzer PA, Dreger C, Herrmann H, Kalscheuer V, Olins AL, Olins DE, Sperling K, and Hoffmann K

Subjects

Animals, Disease Models, Animal, Genotype, Humans, Mice, Microscopy, Electron, Pelger-Huet Anomaly pathology, Phenotype, Sequence Analysis, DNA, Lamin B Receptor, Ichthyosis genetics, Mutation, Pelger-Huet Anomaly genetics, Receptors, Cytoplasmic and Nuclear genetics

Abstract

The nature of the wild-type gene product at the mouse ichthyosis (ic) locus has been of great interest because mutations at this locus cause marked abnormalities in nuclear heterochromatin, similar to those observed in Pelger-Huët anomaly (PHA). We recently found that human PHA is caused by mutations in the gene (LBR) encoding lamin B receptor, an evolutionarily conserved inner nuclear membrane protein involved in nuclear assembly and chromatin binding. Mice homozygous for deleterious alleles at the ichthyosis (ic) locus present with a blood phenotype similar to PHA, and develop other phenotypic abnormalities, including alopecia, variable expression of syndactyly and hydrocephalus. The ic locus on mouse chromosome 1 shares conserved synteny with the chromosomal location of the human LBR locus on human chromosome 1. In this study, we identified one nonsense (815ins) and two frameshift mutations (1088insCC and 1884insGGAA) within the Lbr gene of mice homozygous for either of three independent mutations (ic, ic(J) and ic(4J), respectively) at the ichthyosis locus. These allelic mutations are predicted to result in truncated or severely impaired LBR protein. Our studies of mice homozygous for the ic(J) mutation revealed a complete loss of LBR protein as shown by immunofluorescence microscopy and immunoblotting. The findings provide the molecular basis for the heterochromatin clumping and other distinct phenotypes caused by ic mutations. These spontaneous Lbr mutations confirm the molecular basis of human PHA and provide a small animal model for determination of the precise function of LBR in normal and pathological states.

Published

2003

13. Mutations in the gene encoding the lamin B receptor produce an altered nuclear morphology in granulocytes (Pelger-Huët anomaly).

Author

Hoffmann K, Dreger CK, Olins AL, Olins DE, Shultz LD, Lucke B, Karl H, Kaps R, Müller D, Vayá A, Aznar J, Ware RE, Sotelo Cruz N, Lindner TH, Herrmann H, Reis A, and Sperling K

Subjects

Cell Line, Chromosomes, Human, Pair 1, Female, Founder Effect, Genetic Linkage, Haplotypes genetics, Heterozygote, Humans, Male, Microsatellite Repeats, Pedigree, Pelger-Huet Anomaly pathology, Receptors, Cytoplasmic and Nuclear metabolism, Sweden, Lamin B Receptor, Granulocytes pathology, Mutation, Pelger-Huet Anomaly genetics, Receptors, Cytoplasmic and Nuclear genetics

Abstract

Pelger-Huët anomaly (PHA; OMIM *169400) is an autosomal dominant disorder characterized by abnormal nuclear shape and chromatin organization in blood granulocytes. Affected individuals show hypolobulated neutrophil nuclei with coarse chromatin. Presumed homozygous individuals have ovoid neutrophil nuclei, as well as varying degrees of developmental delay, epilepsy and skeletal abnormalities. Homozygous offspring in an extinct rabbit lineage showed severe chondrodystrophy, developmental anomalies and increased pre- and postnatal mortality. Here we show, by carrying out a genome-wide linkage scan, that PHA is linked to chromosome 1q41-43. We identified four splice-site, two frameshift and two nonsense mutations in LBR, encoding the lamin B receptor. The lamin B receptor (LBR), a member of the sterol reductase family, is evolutionarily conserved and integral to the inner nuclear membrane; it targets heterochromatin and lamins to the nuclear membrane. Lymphoblastoid cells from heterozygous individuals affected with PHA show reduced expression of the lamin B receptor, and cells homozygous with respect to PHA contain only trace amounts of it. We found that expression of the lamin B receptor affects neutrophil nuclear shape and chromatin distribution in a dose-dependent manner. Our findings have implications for understanding nuclear envelope-heterochromatin interactions, the pathogenesis of Pelger-like conditions in leukemia, infection and toxic drug reactions, and the evolution of neutrophil nuclear shape.

Published

2002