Mutational spectrum of the CHAC gene in patients with chorea-acanthocytosis

Dobson‐Stone, Carol; Danek, Adrian; Rampoldi, Luca; Hardie, R; Rm, Chalmers; Wood, Nicholas W.; Bohlega, Saeed; Dotti, M. T.; Federico, Antonio; Shizuka, Masami; Tanaka, Masami; Watanabe, Mitsunori; Ikeda, Yoshio; Brin, Mitchell F.; Goldfarb, L. G.; Karp, B.I.; Mohiddin, Saidi A.; Fananapazir, Lameh; Storch, Alexander; Fryer, AE; Maddison, Paul; Sibon, Igor; Trevisol-Bittencourt, PC; Singer, Carlos; Caballero, IR; Aasly, JO; Schmierer, K; Dengler, Reinhard; Hiersemenzel, LP; Zeviani, Massimo; Meiner,; Lossos, Alexander; Johnson, S. E. N.; Mercado, FC; Sorrentino, Giuseppe; Dupré, Nicolas; Ga, Rouleau; Volkmann, Jens; Arpa, Javier; Lees, Andrew; Géraud, G; Chouinard, Sylvain; Németh, Andrea H.; Monaco, Anthony P.

doi:10.1038/sj.ejhg.5200866

Cited by 144 publications

(127 citation statements)

References 16 publications

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“…Thus, perturbation of intracellular signaling associated with accumulation of active Lyn in chorea-acanthocytosis erythrocytes can generate acanthocytes and might be a sign of impaired quality control mechanisms for cellular protein. This is in agreement with the reported reduction in haptoglobin levels in chorea-acanthocytosis patients, 3 suggesting that abnormal Lynmediated signal transduction might impact in vivo red cell homeostasis in chorea-acanthocytosis subjects.…”

Section: Discussionsupporting

confidence: 82%

“…[4][5][6] However, despite progress toward elucidation of the molecular defects responsible for choreaacanthocytosis, the functional contribution of chorein deficiency to chorea-acanthocytosis remains unclear. 2,3 Chorein is present in normal mature erythrocytes, but it is partially or completely absent in chorea-acanthocytosis red cells. 1,7,8 Studies comparing the human VPS13A gene product, chorein, with homologs in other organisms such as yeast and Dictyostelium discoideum suggest possible involvement of chorein in trafficking of transmembrane proteins or in vesicular sorting systems directing cargo to the prevacuolar compartment (comparable to the human late endosome).…”

Section: Introductionmentioning

confidence: 99%

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A new molecular link between defective autophagy and erythroid abnormalities in chorea-acanthocytosis

Lupo

Tibaldi

Mattè

et al. 2016

Blood

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Key Points• In chorea-acanthocytosis, spiculated red cells are characterized by heightened Lyn kinase activity and dysregulated autophagy.• Regulation of protein turnover by autophagy plays a key role in erythropoiesis and red cell integrity.Chorea-acanthocytosis is one of the hereditary neurodegenerative disorders known as the neuroacanthocytoses. Chorea-acanthocytosis is characterized by circulating acanthocytes deficient in chorein, a protein of unknown function. We report here for the first time that chorea-acanthocytosis red cells are characterized by impaired autophagy, with cytoplasmic accumulation of active Lyn and of autophagy-related proteins Ulk1 and Atg7. In chorea-acanthocytosis erythrocytes, active Lyn is sequestered by HSP90-70 to form high-molecular-weight complexes that stabilize and protect Lyn from its proteasomal degradation, contributing to toxic Lyn accumulation. An interplay between accumulation of active Lyn and autophagy was found in chorea-acanthocytosis based on Lyn coimmunoprecipitation with Ulk1 and Atg7 and on the presence of Ulk1 in Lyncontaining high-molecular-weight complexes. In addition, chorein associated with Atg7 in healthy but not in chorea-acanthocytosis erythrocytes. Electron microscopy detected multivesicular bodies and membrane remnants only in circulating chorea-acanthocytosis red cells. In addition, reticulocyte-enriched chorea-acanthocytosis red cell fractions exhibited delayed clearance of mitochondria and lysosomes, further supporting the impairment of authophagic flux. Because autophagy is also important in erythropoiesis, we studied in vitro CD341 -derived erythroid precursors. In chorea-acanthocytosis, we found (1) dyserythropoiesis; (2) increased active Lyn; (3) accumulation of a marker of autophagic flux and autolysososme degradation; (4) accumlation of Lamp1, a lysosmal membrane protein, and LAMP1-positive aggregates; and (5) reduced clearance of lysosomes and mitochondria. Our results uncover in choreaacanthocytosis erythroid cells an association between accumulation of active Lyn and impaired autophagy, suggesting a link between chorein and autophagic vesicle trafficking in erythroid maturation. (Blood. 2016;128(25):2976-2987

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Section: Discussionsupporting

confidence: 82%

Section: Introductionmentioning

confidence: 99%

A new molecular link between defective autophagy and erythroid abnormalities in chorea-acanthocytosis

Lupo

Tibaldi

Mattè

et al. 2016

Blood

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“…In human umbilical vein endothelial cells, decreased chorein expression markedly reduced the filamentous actin network which led to a distinct change in cell morphology with more prominent lamellipodium and softening of those cells. Furthermore, loss of chorein leads to caspase 3 activation and decreases survival of the human umbilical vein endothelial cells .The present observations provide compelling evidence that chorein is not only important for erythrocyte shape and neuronal function [3,6,7,8,9] but may be effective in a wide variety of further functions.…”

Section: Discussionmentioning

confidence: 56%

“…Loss of function mutations [5] of the VPS13A gene [6,7,8,9] leads to chorea-acanthocytosis (ChAc), an autosomal recessive genetic disease characterized by progressive hyperkinetic movement disorder with muscle dystrophy cognitive dysfunction, behavioural abnormalities, chronic hyperkalemia and variable acanthocytosis of red blood cells [5,10]. Clinically overt disease develops at an age between 30 and 70 years and progresses to disability and premature death [10].…”

Section: Introductionmentioning

confidence: 99%

Chorein Sensitivity of Actin Polymerization, Cell Shape and Mechanical Stiffness of Vascular Endothelial Cells

Alesutan¹,

Seifert

Pakladok³

et al. 2013

Cell Physiol Biochem

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Background/Aims: Endothelial cell stiffness plays a key role in endothelium-dependent control of vascular tone and arterial blood pressure. Actin polymerization and distribution of microfilaments is essential for mechanical cell stiffness. Chorein, a protein encoded by the VPS13A gene, defective in chorea-acanthocytosis (ChAc), is involved in neuronal cell survival as well as cortical actin polymerization of erythrocytes and blood platelets. Chorein is expressed in a wide variety of further cells, yet nothing is known about the impact of chorein on cells other than neurons, erythrocytes and platelets. The present study explored whether chorein is expressed in human umbilical vein endothelial cells (HUVECs) and addressed the putative role of chorein in the regulation of cytoskeletal architecture, stiffness and survival of those cells. Methods: In HUVECs with or without silencing of the VPS13A gene, VPS13A mRNA expression was determined utilizing quantitative RT-PCR, cytoskeletal organization visualized by confocal microscopy, G/F actin ratio and phosphorylation status of focal adhesion kinase quantified by western blotting, cell death determined by flow cytometry, mechanical properties studied by atomic force microscopy (AFM) and cell morphology analysed by scanning ion conductance microscopy (SICM). Results: VPS13A mRNA expression was detectable in HUVECs. Silencing of the VPS13A gene attenuated the filamentous actin network, decreased the ratio of soluble G-actin over filamentous F-actin, reduced cell stiffness and changed cell morphology as compared to HUVECs silenced with negative control siRNA. These effects were paralleled by a significant decrease in FAK phosphorylation following VPS13A silencing. Moreover, silencing of the VPS13A gene increased caspase 3 activity and induced necrosis in HUVECs. Conclusions: Chorein is a novel regulator of cytoskeletal architecture, cell shape, mechanical stiffness and survival of vascular endothelial cells.

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“…Multiple genetic loci are involved and include mutations in chorein (VPS13A) in ChAc, XK (XK) in MLS, junctophilin-3 (JPH3) in HDL2, and pantothenate kinase 2 (PANK2) in PKAN. [19][20][21] Most NA mutations are private, that is, each kindred has a unique mutation, making mutation detection difficult, and several of the NA genes are very large, making traditional Sanger sequencing cumbersome. Walker and colleagues used exome sequencing to identify compound heterozygous mutations of the VPS13A gene in 2 NA patients, allowing precise genetic diagnosis and providing information for genetic counseling of affected patients and their family members.…”

Section: Disease Diagnosismentioning

confidence: 99%

Applications of high-throughput DNA sequencing to benign hematology

Sankaran

Gallagher

2013

Blood

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The development of novel technologies for high-throughput DNA sequencing is having a major impact on our ability to measure and define normal and pathologic variation in humans. This review discusses advances in DNA sequencing that have been applied to benign hematologic disorders, including those affecting the red blood cell, the neutrophil, and other white blood cell lineages. Relevant examples of how these approaches have been used for disease diagnosis, gene discovery, and studying complex traits are provided. High-throughput DNA sequencing technology holds significant promise for impacting clinical care. This includes development of improved disease detection and diagnosis, better understanding of disease progression and stratification of risk of disease-specific complications, and development of improved therapeutic strategies, particularly patient-specific pharmacogenomics-based therapy, with monitoring of therapy by genomic biomarkers.

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Mutational spectrum of the CHAC gene in patients with chorea-acanthocytosis

Cited by 144 publications

References 16 publications

A new molecular link between defective autophagy and erythroid abnormalities in chorea-acanthocytosis

A new molecular link between defective autophagy and erythroid abnormalities in chorea-acanthocytosis

Chorein Sensitivity of Actin Polymerization, Cell Shape and Mechanical Stiffness of Vascular Endothelial Cells

Applications of high-throughput DNA sequencing to benign hematology

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