Marta Fernandez-Pinel scite author profile

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

Ferrer

¹

,

Fernandez-Pinel

²

,

González-Manchón

³

et al. 1996

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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.

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Molecular Genetic Analysis of a Compound Heterozygote for the Glycoprotein (GP) IIb Gene Associated With Glanzmann’s Thrombasthenia: Disruption of the 674-687 Disulfide Bridge in GPIIb Prevents Surface Exposure of GPIIb-IIIa Complexes

González-Manchón

¹

,

Fernandez-Pinel

²

,

Arias-Salgado

³

et al. 1999

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This work was aimed at elucidating the molecular genetic lesion(s) responsible for the thrombasthenic phenotype of a patient whose low platelet content of glycoprotein (GP) IIb-IIIa indicated that it was a case of type II Glanzmann’s thrombasthenia (GT). The parents did not admit consanguinity and showed a reduced platelet content of GPIIb-IIIa. Polymerase chain reaction (PCR)–single-stranded conformational polymorphism analysis of genomic DNA showed no mutations in the patient’s GPIIIa and two novel mutations in the GPIIb gene: one of them was a heterozygous splice junction mutation, a C→A transversion, at position +2 of the exon 5-intron 5 boundary [IVS5(+2)C→A] inherited from the father. The predicted effect of this mutation, insertion of intron 5 (76 bp) into the GPIIb-mRNA, was confirmed by reverse transcription-PCR analysis of platelet mRNA. The almost complete absence of this mutated form of GPIIb-mRNA suggests that it is very unstable. Virtually all of the proband’s GPIIb-mRNA was accounted for by the allele inherited from the mother showing a T2113→C transition that changes Cys674→Arg674 disrupting the 674-687 intramolecular disulfide bridge. The proband showed a platelet accumulation of proGPIIb and minute amounts of GPIIb and GPIIIa. Moreover, transfection and immunoprecipitation analysis demonstrated that [Arg674]GPIIb is capable of forming a heterodimer complex with GPIIIa, but the rate of subunit maturation and the surface exposure of GPIIb-IIIa are strongly reduced. Thus, the intramolecular 674-687 disulfide bridge in GPIIb is essential for the normal processing of GPIIb-IIIa complexes. The additive effect of these two GPIIb mutations provides the molecular basis for the thrombasthenic phenotype of the proband.

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Molecular Genetic Analysis of a Compound Heterozygote for the Glycoprotein (GP) IIb Gene Associated With Glanzmann’s Thrombasthenia: Disruption of the 674-687 Disulfide Bridge in GPIIb Prevents Surface Exposure of GPIIb-IIIa Complexes

González-Manchón

¹

,

Fernandez-Pinel

²

,

Arias-Salgado

³

et al. 1999

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This work was aimed at elucidating the molecular genetic lesion(s) responsible for the thrombasthenic phenotype of a patient whose low platelet content of glycoprotein (GP) IIb-IIIa indicated that it was a case of type II Glanzmann’s thrombasthenia (GT). The parents did not admit consanguinity and showed a reduced platelet content of GPIIb-IIIa. Polymerase chain reaction (PCR)–single-stranded conformational polymorphism analysis of genomic DNA showed no mutations in the patient’s GPIIIa and two novel mutations in the GPIIb gene: one of them was a heterozygous splice junction mutation, a C→A transversion, at position +2 of the exon 5-intron 5 boundary [IVS5(+2)C→A] inherited from the father. The predicted effect of this mutation, insertion of intron 5 (76 bp) into the GPIIb-mRNA, was confirmed by reverse transcription-PCR analysis of platelet mRNA. The almost complete absence of this mutated form of GPIIb-mRNA suggests that it is very unstable. Virtually all of the proband’s GPIIb-mRNA was accounted for by the allele inherited from the mother showing a T2113→C transition that changes Cys674→Arg674 disrupting the 674-687 intramolecular disulfide bridge. The proband showed a platelet accumulation of proGPIIb and minute amounts of GPIIb and GPIIIa. Moreover, transfection and immunoprecipitation analysis demonstrated that [Arg674]GPIIb is capable of forming a heterodimer complex with GPIIIa, but the rate of subunit maturation and the surface exposure of GPIIb-IIIa are strongly reduced. Thus, the intramolecular 674-687 disulfide bridge in GPIIb is essential for the normal processing of GPIIb-IIIa complexes. The additive effect of these two GPIIb mutations provides the molecular basis for the thrombasthenic phenotype of the proband.

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