A Missense Mutation (Tyr88 to Cys) in the Platelet Membrane Glycoprotein Ibβ Gene Affects GPIb/IX Complex Expression

2001 ◽  
Vol 86 (11) ◽  
pp. 1249-1256 ◽  
Author(s):  
Yumi Kurokawa ◽  
Takehiko Kamijo ◽  
Shinji Kunishima ◽  
Dermot Kenny ◽  
Kiyoshi Kitano ◽  
...  
Keyword(s):  
Missense Mutation ◽  
Dominant Negative ◽  
Dominant Negative Effect ◽  
Platelet Glycoprotein ◽  
Homozygous Mutation ◽  
Sequencing Analysis ◽  
Giant Platelets ◽  
Giant Platelet ◽  
Negative Effect ◽  
Dna Sequencing Analysis

SummaryThis study examined the molecular basis of a missense mutation of the platelet glycoprotein (GP) Ibβ gene in two families. In the propositus with a novel form of Bernard-Soulier syndrome (BSS) from Family I, only GPIbα was detectable in reduced amounts on platelet surfaces by flow cytometry. There were no GPIX or GPIbβ found by immunoblotting. DNA sequencing analysis showed a homozygous mutation in the GPIbβ gene which changed Tyr (TAC) to Cys (TGC) at residue 88. Her parents were heterozygous for Tyr88Cys in the GPIbβ gene. In transient transfection studies on 293T cells, both Tyr88Cys and Tyr88Ala mutations suppressed the expression of GPIb/IX complexes. In addition, Tyr88Cys GPIbβ mutation was found to exert a dominant negative effect on the GPIb expression.Five individuals from Family II, four of whom reported elsewhere as having giant platelet disorders with normal aggregation (BLOOD, 1997; 89: 2404) and one newly analyzed in this study, were heterozygous for Tyr88Cys in the GPIb gene. Microsatellite analysis of chromosome 22 showed a common haplotype in 8 of the individuals with Tyr88Cys mutations in Families I and II. Tyr88 in the GPIbβ gene plays a significant role in the GPIb/IX expression; the defect causes BSS in a homozygous form and possibly giant platelets in a heterozygous form.

A Mutant (Arg327→His) GPIIb Associated to Thrombasthenia Exerts a Dominant Negative Effect in Stably Transfected CHO Cells

1996 ◽  
Vol 76 (03) ◽  
pp. 292-301 ◽  
Author(s):  
Milagros Ferrer ◽  
Marta Fernandez-Pinel ◽  
Consuelo Gonzalez-Manchon ◽  
Jose Gonzalez ◽  
Matilde S Ayuso ◽  
...  
Keyword(s):  
Conformational Changes ◽  
Cho Cells ◽  
Functional Characterization ◽  
Surface Expression ◽  
Dominant Negative ◽  
Dominant Negative Effect ◽  
Platelet Glycoprotein ◽  
Wild Type ◽  
Glycoprotein Complex ◽  
Negative Effect

SummaryThis work reports the structural and functional characterization of the platelet glycoprotein complex GPIIb-IIIa (integrin αIIbβ3) in a patient of type II Glanzmann thrombasthenia, bearing a homozygous G→A base transition at position 1074 of GPIIb that results in an Arg327→His substitution.CHO cells stably transfected with cDNA encoding His327GPIIb showed a drastic reduction in the surface expression of αIIbβ3 complex relative to control cells transfected with wild type GPIIb. Immunopre-cipitation analysis demonstrated that GPIIb synthesis, heterodimeriza-tion, and short term maturation were not impeded, suggesting that conformational changes dependent on Arg327 of GPIIb may play an essential role in either the rate of maturation and/or transport of heterodimers to the cell surface.Cotransfection of CHO cells with equimolar amounts of cDNAs encoding wild type and mutant His327-GPIIb led to a marked reduction in the surface expression of αIIbβ3. This novel observation of a dominant-negative effect of the mutant His327αIIb subunit provides a molecular basis for the reduced platelet αIIbβ3 content observed in the heterozygous offspring.

scholarly journals Identification of a new SYT2 variant validates an unusual distal motor neuropathy phenotype

2018 ◽  
Vol 4 (6) ◽  
pp. e282 ◽  
Author(s):  
Nataly I. Montes-Chinea ◽  
Zhuo Guan ◽  
Marcella Coutts ◽  
Cecilia Vidal ◽  
Steve Courel ◽  
...  
Keyword(s):  
Missense Mutation ◽  
Clinical Phenotype ◽  
Positive Family History ◽  
Dominant Negative ◽  
Dominant Negative Effect ◽  
Motor Neuropathy ◽  
New Variant ◽  
Multigenerational Family ◽  
Hereditary Motor Neuropathy ◽  
Negative Effect

ObjectiveTo report a new SYT2 missense mutation causing distal hereditary motor neuropathy and presynaptic neuromuscular junction (NMJ) transmission dysfunction.MethodsWe report a multigenerational family with a new missense mutation, c. 1112T>A (p. Ile371Lys), in the C2B domain of SYT2, describe the clinical and electrophysiologic phenotype associated with this variant, and validate its pathogenicity in a Drosophila model.ResultsBoth proband and her mother present a similar clinical phenotype characterized by a slowly progressive, predominantly motor neuropathy and clear evidence of presynaptic NMJ dysfunction on nerve conduction studies. Validation of this new variant was accomplished by characterization of the mutation homologous to the human c. 1112T>A variant in Drosophila, confirming its dominant-negative effect on neurotransmitter release.ConclusionsThis report provides further confirmation of the role of SYT2 in human disease and corroborates the resultant unique clinical phenotype consistent with heriditary distal motor neuropathy. SYT2-related motor neuropathy is a rare disease but should be suspected in patients presenting with a combination of presynaptic NMJ dysfunction (resembling Lambert-Eaton myasthenic syndrome) and a predominantly motor neuropathy, especially in the context of a positive family history.

scholarly journals A Dominant Negative Effect of eth-1r, a Mutant Allele of the Neurospora crassa S-Adenosylmethionine Synthetase-Encoding Gene Conferring Resistance to the Methionine Toxic Analogue Ethionine

Genetics ◽  
1996 ◽  
Vol 144 (4) ◽  
pp. 1455-1462
Author(s):  
José L Barra ◽  
Mario R Mautino ◽  
Alberto L Rosa
Keyword(s):  
Neurospora Crassa ◽  
Dominant Negative ◽  
Dominant Negative Effect ◽  
Resistant Phenotype ◽  
Negative Effect ◽  
Encoding Gene ◽  
Adenosylmethionine Synthetase ◽  
Adomet Synthetase ◽  
Identical Gene

eth-1r a thermosensitive allele of the Neurospora crassa S-adenosylmethionine (AdoMet) synthetase gene that confers ethionine resistance, has been cloned and sequenced. Replacement of an aspartic amino acid residue (D48 → N48), perfectly conserved in prokaryotic, fungal and higher eukaryotic AdoMet synthetases, was found responsible for both thermosensitivity and ethionine resistance conferred by eth-1r. Gene fusion constructs, designed to overexpress eth-1r in vivo, render transformant cells resistant to ethionine. Dominance of ethionine resistance was further demonstrated in eth-1  +/eth-1r partial diploids carrying identical gene doses of both alleles. Heterozygous eth-1  +/eth-1r cells have, at the same time, both the thermotolerance conferred by eth-1  + and the ethionine-resistant phenotype conferred by eth-1r. AdoMet levels and AdoMet synthetase activities were dramatically decreased in heterozygous eth-1  +/eth-1r cells. We propose that this negative effect exerted by eth-1r results from the in vivo formation of heteromeric eth-1  +/eth-1r AdoMet synthetase molecules.

scholarly journals Restoration of Silencing in Saccharomyces cerevisiae by Tethering of a Novel Sir2-Interacting Protein, Esc8

Genetics ◽  
2002 ◽  
Vol 162 (2) ◽  
pp. 633-645 ◽  
Author(s):  
Guido Cuperus ◽  
David Shore
Keyword(s):  
Protein A ◽  
Dominant Negative ◽  
Class I ◽  
Dominant Negative Effect ◽  
Rna Pol Ii ◽  
Interacting Protein ◽  
Nucleosome Remodeling ◽  
Negative Effect ◽  
Close Homolog

Abstract We previously described two classes of SIR2 mutations specifically defective in either telomeric/HM silencing (class I) or rDNA silencing (class II) in S. cerevisiae. Here we report the identification of genes whose protein products, when either overexpressed or directly tethered to the locus in question, can establish silencing in SIR2 class I mutants. Elevated dosage of SCS2, previously implicated as a regulator of both inositol biosynthesis and telomeric silencing, suppressed the dominant-negative effect of a SIR2-143 mutation. In a genetic screen for proteins that restore silencing when tethered to a telomere, we isolated ESC2 and an uncharacterized gene, (YOL017w), which we call ESC8. Both Esc2p and Esc8p interact with Sir2p in two-hybrid assays, and the Esc8p-Sir2 interaction is detected in vitro. Interestingly, Esc8p has a single close homolog in yeast, the ISW1-complex factor Ioc3p, and has also been copurified with Isw1p, raising the possibility that Esc8p is a component of an Isw1p-containing nucleosome remodeling complex. Whereas esc2 and esc8 deletion mutants alone have only marginal silencing defects, cells lacking Isw1p show a strong silencing defect at HMR but not at telomeres. Finally, we show that Esc8p interacts with the Gal11 protein, a component of the RNA pol II mediator complex.

scholarly journals Dominant Negative Mutants Implicate STAT5 in Myeloid Cell Proliferation and Neutrophil Differentiation

Blood ◽  
1999 ◽  
Vol 93 (12) ◽  
pp. 4154-4166 ◽  
Author(s):  
Robert L. Ilaria ◽  
Robert G. Hawley ◽  
Richard A. Van Etten
Keyword(s):  
Dna Binding ◽  
Transcriptional Activation ◽  
Dominant Negative ◽  
Dominant Negative Effect ◽  
Cytokine Signaling ◽  
Transactivation Domain ◽  
Negative Effects ◽  
Murine Bone Marrow ◽  
Negative Effect

Abstract STAT5 is a member of the signal transducers and activation of transcription (STAT) family of latent transcription factors activated in a variety of cytokine signaling pathways. We introduced alanine substitution mutations in highly conserved regions of murine STAT5A and studied the mutants for dimerization, DNA binding, transactivation, and dominant negative effects on erythropoietin-induced STAT5-dependent transcriptional activation. The mutations included two near the amino-terminus (W255KR→AAA and R290QQ→AAA), two in the DNA-binding domain (E437E→AA and V466VV→AAA), and a carboxy-terminal truncation of STAT5A (STAT5A/▵53C) analogous to a naturally occurring isoform of rat STAT5B. All of the STAT mutant proteins were tyrosine phosphorylated by JAK2 and heterodimerized with STAT5B except for the WKR mutant, suggesting an important role for this region in STAT5 for stabilizing dimerization. The WKR, EE, and VVV mutants had no detectable DNA-binding activity, and the WKR and VVV mutants, but not EE, were defective in transcriptional induction. The VVV mutant had a moderate dominant negative effect on erythropoietin-induced STAT5 transcriptional activation, which was likely due to the formation of heterodimers that are defective in DNA binding. Interestingly, the WKR mutant had a potent dominant negative effect, comparable to the transactivation domain deletion mutant, ▵53C. Stable expression of either the WKR or ▵53C STAT5 mutants in the murine myeloid cytokine-dependent cell line 32D inhibited both interleukin-3–dependent proliferation and granulocyte colony-stimulating factor (G-CSF)–dependent differentiation, without induction of apoptosis. Expression of these mutants in primary murine bone marrow inhibited G-CSF–dependent granulocyte colony formation in vitro. These results demonstrate that mutations in distinct regions of STAT5 exert dominant negative effects on cytokine signaling, likely through different mechanisms, and suggest a role for STAT5 in proliferation and differentiation of myeloid cells.

scholarly journals Insight into the AcrAB-TolC Complex Assembly Process Learned from Competition Studies

Antibiotics ◽  
2021 ◽  
Vol 10 (7) ◽  
pp. 830
Author(s):  
Prasangi Rajapaksha ◽  
Isoiza Ojo ◽  
Ling Yang ◽  
Ankit Pandeya ◽  
Thilini Abeywansha ◽  
...  
Keyword(s):  
Efflux Pump ◽  
Dominant Negative ◽  
Dominant Negative Effect ◽  
Assembly Process ◽  
Multidrug Efflux ◽  
E Coli ◽  
Multidrug Efflux Pumps ◽  
Negative Effect ◽  
Dynamic Assembly ◽  
Pump Assembly

The RND family efflux pump AcrAB-TolC in E. coli and its homologs in other Gram-negative bacteria are major players in conferring multidrug resistance to the cells. While the structure of the pump complex has been elucidated with ever-increasing resolution through crystallography and Cryo-EM efforts, the dynamic assembly process remains poorly understood. Here, we tested the effect of overexpressing functionally defective pump components in wild type E. coli cells to probe the pump assembly process. Incorporation of a defective component is expected to reduce the efflux efficiency of the complex, leading to the so called “dominant negative” effect. Being one of the most intensively studied bacterial multidrug efflux pumps, many AcrA and AcrB mutations have been reported that disrupt efflux through different mechanisms. We examined five groups of AcrB and AcrA mutants, defective in different aspects of assembly and substrate efflux. We found that none of them demonstrated the expected dominant negative effect, even when expressed at concentrations many folds higher than their genomic counterpart. The assembly of the AcrAB-TolC complex appears to have a proof-read mechanism that effectively eliminated the formation of futile pump complex.

scholarly journals The Diagnostic Journey of a Patient with Prader–Willi-Like Syndrome and a Unique Homozygous SNURF-SNRPN Variant; Bio-Molecular Analysis and Review of the Literature

Genes ◽  
2021 ◽  
Vol 12 (6) ◽  
pp. 875
Author(s):  
Karlijn Pellikaan ◽  
Geeske M. van Woerden ◽  
Lotte Kleinendorst ◽  
Anna G. W. Rosenberg ◽  
Bernhard Horsthemke ◽  
...  
Keyword(s):  
Intellectual Disability ◽  
Single Nucleotide Polymorphism Array ◽  
Genetic Defect ◽  
Missense Variant ◽  
Dominant Negative ◽  
Dominant Negative Effect ◽  
Pituitary Hormone ◽  
Negative Effect

Prader–Willi syndrome (PWS) is a rare genetic condition characterized by hypotonia, intellectual disability, and hypothalamic dysfunction, causing pituitary hormone deficiencies and hyperphagia, ultimately leading to obesity. PWS is most often caused by the loss of expression of a cluster of genes on chromosome 15q11.2-13. Patients with Prader–Willi-like syndrome (PWLS) display features of the PWS phenotype without a classical PWS genetic defect. We describe a 46-year-old patient with PWLS, including hypotonia, intellectual disability, hyperphagia, and pituitary hormone deficiencies. Routine genetic tests for PWS were normal, but a homozygous missense variant NM_003097.3(SNRPN):c.193C>T, p.(Arg65Trp) was identified. Single nucleotide polymorphism array showed several large regions of homozygosity, caused by high-grade consanguinity between the parents. Our functional analysis, the ‘Pipeline for Rapid in silico, in vivo, in vitro Screening of Mutations’ (PRiSM) screen, showed that overexpression of SNRPN-p.Arg65Trp had a dominant negative effect, strongly suggesting pathogenicity. However, it could not be confirmed that the variant was responsible for the phenotype of the patient. In conclusion, we present a unique homozygous missense variant in SNURF-SNRPN in a patient with PWLS. We describe the diagnostic trajectory of this patient and the possible contributors to her phenotype in light of the current literature on the genotype–phenotype relationship in PWS.

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