Expression, purification and structural properties of ABC transporter ABCA4 and its individual domains

Tsybovsky, Yaroslav; Palczewski, Krzysztof

doi:10.1016/j.pep.2014.02.010

Cited by 16 publications

(10 citation statements)

References 60 publications

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“…Mammalian ABC transporters are notoriously difficult substrates for determining crystal structure ( Dahl et al, 2004 ). The best published resolution of the native ABCA4 protein and some mutants, is 18 Å ( Tsybovsky et al, 2010 , 2013 ; Tsybovsky and Palczewski, 2014 ). The lack of high-resolution ABCA4 structure makes functional studies challenging, limiting experimental systems to animal models ( Makelainen et al, 2019 ; Molday et al, 2018 ; Molday and Molday RS, 2016 ; Zhang et al, 2015 ) and in vitro assays, including ATP binding, ATPase activity and vesicular transport studies ( Ahn and Molday, 2000 ; Beharry et al, 2004 ; Sun et al, 1999 ).…”

Section: Abca4 Structure and Functionmentioning

confidence: 99%

“…The current status of the structure and (biochemical) function of ABCA4 protein is outside of the scope of this review. These aspects have been described in depth in manuscripts from the laboratories of Robert Molday and Krzysztof Palczewski, and we direct the reader to these papers for excellent overviews of the status of structure and function correlations in ABCA4 ( Molday, 2015 ; Tsybovsky et al, 2013 ; Tsybovsky and Palczewski, 2014 ). We will address the functional studies of ABCA4 variants affecting splicing in depth below.…”

Section: Abca4 Structure and Functionmentioning

confidence: 99%

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Clinical spectrum, genetic complexity and therapeutic approaches for retinal disease caused by ABCA4 mutations

Cremers

Lee

Collin

et al. 2020

Progress in Retinal and Eye Research

217

227

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The ABCA4 protein (then called a “rim protein”) was first identified in 1978 in the rims and incisures of rod photoreceptors. The corresponding gene, ABCA4 , was cloned in 1997, and variants were identified as the cause of autosomal recessive Stargardt disease (STGD1). Over the next two decades, variation in ABCA4 has been attributed to phenotypes other than the classically defined STGD1 or fundus flavimaculatus, ranging from early onset and fast progressing cone-rod dystrophy and retinitis pigmentosa-like phenotypes to very late onset cases of mostly mild disease sometimes resembling, and confused with, age-related macular degeneration. Similarly, analysis of the ABCA4 locus uncovered a trove of genetic information, including >1200 disease-causing mutations of varying severity, and of all types – missense, nonsense, small deletions/insertions, and splicing affecting variants, of which many are located deep-intronic. Altogether, this has greatly expanded our understanding of complexity not only of the diseases caused by ABCA4 mutations, but of all Mendelian diseases in general. This review provides an in depth assessment of the cumulative knowledge of ABCA4-associated retinopathy – clinical manifestations, genetic complexity, pathophysiology as well as current and proposed therapeutic approaches.

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Section: Abca4 Structure and Functionmentioning

confidence: 99%

Section: Abca4 Structure and Functionmentioning

confidence: 99%

Clinical spectrum, genetic complexity and therapeutic approaches for retinal disease caused by ABCA4 mutations

Cremers

Lee

Collin

et al. 2020

Progress in Retinal and Eye Research

217

227

View full text Add to dashboard Cite

show abstract

“…In the present study, amino acid alteration of the hydrophilic glycine residue to the hydrophobic tryptophan residue at position 1203 (p.(Gly1203Trp)) may impact the function or tertiary structure. This alteration located in the cytoplasmic domain 1 (although often called nucleotide binding domain 1) probably covers ABCA4 protein binding sites due to hydrophobic residues mainly tending to locate on molecule surfaces [13,33]. Interestingly, a p.(Gly1203Arg) missense mutation has been reported in an Italian patient with STGD1 [34].…”

Section: Discussionmentioning

confidence: 99%

“…These suggest the functional importance of the hydrophilic glycine residue. However, the change of leucine residue to proline residue at position 2241 (p.(Leu2241Pro)) may impact retinal-activated ATPase activity on account of locating in the cytoplasmic domain 2 (although often called nucleotide binding domain 2) [13,33]. The p.(Leu2241Val) variant (c.6721C>G), a mutation at the same amino acid position, has been reported in a German individual with STGD1 [35].…”

Section: Discussionmentioning

confidence: 99%

“…The photoreceptor cell-specific ABCA4 protein encoded by the ABCA4 is an important membrane protein composed of two exocytoplasmic domains, two transmembrane domains, and two cytoplasmic domains, which transport all-trans retinal, a by-product of the retinoid cycle, from intra-disc space to photoreceptor cytoplasm to avoid abnormal accumulation of all-trans retinal in photoreceptors outer segments and in RPE cells [13,14]. As an N-retinylidene-phosphatidylethanolamine (NRPE) transporter, the protein is mainly involved in ATP-dependent vitamin A metabolite translocation from a photoreceptor outer segment disc lumen to cytoplasm [3,14].…”

Section: Introductionmentioning

confidence: 99%

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Identification of novel pathogenic ABCA4 variants in a Han Chinese family with Stargardt disease

Qin

Cao

et al. 2019

Bioscience Reports

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Stargardt disease (STGD1, OMIM 248200) is a common hereditary juvenile or early adult onset macular degeneration. It ultimately leads to progressive central vision loss. Here, we sought to identify gene mutations associated with STGD1 in a three-generation Han Chinese pedigree by whole exome sequencing and Sanger sequencing. Two novel potentially pathogenic variants in a compound heterozygous state, c.3607G>T (p.(Gly1203Trp)) and c.6722T>C (p.(Leu2241Pro)), in the ATP binding cassette subfamily A member 4 gene (ABCA4) were identified as contributing to the family’s STGD1 phenotype. These variants may impact the ABCA4 protein structure and reduce the retinal-activated ATPase activity, leading to abnormal all-trans retinal accumulation in photoreceptor outer segments and in retinal pigment epithelium cells. The present study broadens the mutational spectrum of the ABCA4 responsible for STGD1. A combination of whole exome sequencing and Sanger sequencing is likely to be a time-saving and cost-efficient approach to screen pathogenic variants in genetic disorders caused by sizable genes, as well as avoiding misdiagnosis. These results perhaps refine genetic counseling and ABCA4-targetted treatments for families affected by STGD1.

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Distribution: Principle, Methods, and Applications

Yanni¹

2015

Translational ADMET for Drug Therapy

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Expression, purification and structural properties of ABC transporter ABCA4 and its individual domains

Cited by 16 publications

References 60 publications

Clinical spectrum, genetic complexity and therapeutic approaches for retinal disease caused by ABCA4 mutations

Clinical spectrum, genetic complexity and therapeutic approaches for retinal disease caused by ABCA4 mutations

Identification of novel pathogenic ABCA4 variants in a Han Chinese family with Stargardt disease

Distribution: Principle, Methods, and Applications

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