Dynamic molecular modeling of pathogenic mutations in the spectrin self-association domain

Zhang, Zhushan; Weed, Scott A.; Gallagher, Patrick G.; Morrow, Jon S.

doi:10.1182/blood.v98.6.1645

Cited by 36 publications

(25 citation statements)

References 51 publications

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“…Thus, spectrins play a central role in establishing the organization of the membrane skeleton (2,12). Mutations in spectrins lead to clinically significant forms of hereditary elliptocytosis and hereditary pyropoikilocytosis (13). Spectrin tetramers associated in a hexagonal array connect the membrane via junctional complexes by interacting with actin filaments, protein 4.1R, and glycophorin C, among which 4.1R plays a crucial role in regulating the junctional complexes by stabilizing the spectrin-actin network and anchoring it to the membrane (14).…”

Section: Resultsmentioning

confidence: 99%

Interaction between protein 4.1R and spectrin heterodimers

Zhang¹,

Wang

et al. 2011

Mol Med Rep

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Abstract. Defects or deficiencies in red cell membrane skeletal proteins often undermine the integrity and stability of the plasma membrane, and consequently cause hereditary hemolytic anemias. Genetic and biochemical studies have revealed a complicated picture of the organization of the membrane skeleton, within which α-/β-spectrin heterodimers form a protein lattice. By stabilizing the red cell membrane skeleton, the erythroid protein 4.1R greatly contributes to connecting and regulating the interaction among spectrins, actin filaments and integral proteins on the plasma membrane. In this study, we demonstrated the direct interaction between 4.1R and α-/β-spectrin. The results provide novel insights into the stoichiometry of 4.1R with spectrin, and demonstrate for the first time that the binding ratio of 4.1R to spectrin heterodimers is approximately 5.

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Section: Resultsmentioning

confidence: 99%

Interaction between protein 4.1R and spectrin heterodimers

Zhang¹,

Wang

et al. 2011

Mol Med Rep

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“…As noted by Zhang et al, 18 even though heterozygous a-spectrin self-association binding site mutations are among those most commonly found in HE and HPP patients, homozygous mutations of the a-spectrin self-association site have not been found, perhaps because complete disruption of spectrin self-association is incompatible with life. The significant disruption of hydrophobic interactions in the core of the ab spectrin repeat caused by the spectrin Los Angeles mutation Figure 3 Dynamic molecular modeling of the structural effects of the spectrin Los Angeles mutation.…”

Section: Discussionmentioning

confidence: 96%

“…28 In general, interactions of helix C with helices A and B provide stability to the spectrin self-association unit. 18 In previous studies, comparison of the degree of predicted structural disruption in the self-association site with clinical severity revealed a strong correlationr. 18 The degree of structural deviation, as derived by the root-mean-square deviation from the predicted spectrin backbone, for the Ile24Thr spectrin Los Angeles mutation was 3.296 Angstroms (normal 2.846 Å ).…”

Section: Molecular Modelingmentioning

confidence: 89%

“…18 In previous studies, comparison of the degree of predicted structural disruption in the self-association site with clinical severity revealed a strong correlationr. 18 The degree of structural deviation, as derived by the root-mean-square deviation from the predicted spectrin backbone, for the Ile24Thr spectrin Los Angeles mutation was 3.296 Angstroms (normal 2.846 Å ). Thus, the predicted structural disruption of the spectrin Los Angeles mutation correlates with the clinical severity observed.…”

Section: Molecular Modelingmentioning

confidence: 89%

“…18 These computations place the starting structure of the spectrin self-association domain in a 6-Å water shell that contains B11 1000 water molecules. The application of this approach and its fidelity has been described.…”

Section: Dynamic Molecular Modelingmentioning

confidence: 99%

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Mutation of a highly conserved isoleucine disrupts hydrophobic interactions in the αβ spectrin self-association binding site

Gallagher

Zhang

Morrow

et al. 2004

Laboratory Investigation

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We studied an infant with severe neonatal hemolytic anemia and hyperbilirubinemia that evolved into a partially compensated ellipto-poikilocytic anemia. His father had typical elliptocytosis. Their erythrocyte membranes demonstrated structural and functional defects in spectrin. Genetic studies revealed that the proband and his father were heterozygous for an a-spectrin mutation, Ile24Thr, in the ab spectrin self-association binding site. The proband also carried the low expression allele a LELY in trans, influencing the clinical phenotype. The importance of isoleucine in this position of the proposed triple helical model of spectrin repeats is highlighted by its evolutionary conservation in all a spectrins from Drosophila to humans. Molecular modeling demonstrated that replacement of a hydrophobic isoleucine with a hydrophilic threonine disrupts highly conserved hydrophobic interactions in the interior of the spectrin triple helix critical for spectrin function.

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Red Cell Membrane Abnormalities

Gallagher¹

2006

Pediatric Hematology

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Dynamic molecular modeling of pathogenic mutations in the spectrin self-association domain

Cited by 36 publications

References 51 publications

Interaction between protein 4.1R and spectrin heterodimers

Interaction between protein 4.1R and spectrin heterodimers

Mutation of a highly conserved isoleucine disrupts hydrophobic interactions in the αβ spectrin self-association binding site

Red Cell Membrane Abnormalities

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