通过蛋白质分子建模对ABCD1基因中的致病变体进行表征。
Characterization of a Pathogenic Variant in the ABCD1 Gene Through Protein Molecular Modeling.
作者信息
Richter John E, Vadlamudi Charitha, Macklin Sarah K, Samreen Ayesha, Helmi Haytham, Broderick Daniel, Mohammad Ahmed N, Hines Stephanie L, VanGerpen Jay A, Atwal Paldeep S, Caulfield Thomas R
机构信息
Department of Clinical Genomics, Mayo Clinic, Jacksonville, FL 32224, USA.
Department of Pulmonology, Mayo Clinic, Jacksonville, FL 32224, USA.
出版信息
Case Rep Genet. 2020 Jan 25;2020:3256539. doi: 10.1155/2020/3256539. eCollection 2020.
BACKGROUND
The ATP-binding cassette, subfamily D, member 1 (ABCD1) protein is a peroxisomal half-transporter that allows for very long chain fatty acid (VLCFA) degradation. Pathogenic variants of cause VLCFAs to build up in various tissues and bodily fluids, resulting in a disorder called X-linked adrenoleukodystrophy (X-ALD). This disorder is most commonly marked by adrenocortical insufficiency and high VLCFA concentration, and has varying levels of neurological involvement depending on phenotype. For example, the Addison-only form of X-ALD has no neurological impact, while the cerebral form of X-ALD often causes severe sensory loss, motor function impairment, cognitive decline, and death.
METHODS
A newly characterized and suspected pathogenic variant in cause VLCFAs to build up in various tissues and bodily fluids, resulting in a disorder called X-linked adrenoleukodystrophy (X-ALD). This disorder is most commonly marked by adrenocortical insufficiency and high VLCFA concentration, and has varying levels of neurological involvement depending on phenotype. For example, the Addison-only form of X-ALD has no neurological impact, while the cerebral form of X-ALD often causes severe sensory loss, motor function impairment, cognitive decline, and death.
RESULTS
A case of adult onset adrenomyeloneuropathy (AMN) and a novel cause VLCFAs to build up in various tissues and bodily fluids, resulting in a disorder called X-linked adrenoleukodystrophy (X-ALD). This disorder is most commonly marked by adrenocortical insufficiency and high VLCFA concentration, and has varying levels of neurological involvement depending on phenotype. For example, the Addison-only form of X-ALD has no neurological impact, while the cerebral form of X-ALD often causes severe sensory loss, motor function impairment, cognitive decline, and death.
CONCLUSIONS
Data fusion from multiple sources was combined in a comprehensive approach yielding an enriched assessment of the patient's disease and prognosis. Molecular modeling was performed on the variant to better characterize its clinical significance and confirm pathogenicity.
背景
ATP结合盒亚家族D成员1(ABCD1)蛋白是一种过氧化物酶体半转运体,可促进极长链脂肪酸(VLCFA)的降解。ABCD1的致病变体导致VLCFA在各种组织和体液中蓄积,从而引发一种名为X连锁肾上腺脑白质营养不良(X-ALD)的疾病。这种疾病最常见的特征是肾上腺皮质功能不全和高VLCFA浓度,并且根据表型不同,神经系统受累程度也有所不同。例如,仅表现为艾迪生病的X-ALD形式对神经系统没有影响,而脑型X-ALD通常会导致严重的感觉丧失、运动功能障碍、认知能力下降甚至死亡。
方法
一个新发现的疑似致病变体导致VLCFA在各种组织和体液中蓄积,从而引发一种名为X连锁肾上腺脑白质营养不良(X-ALD)的疾病。这种疾病最常见的特征是肾上腺皮质功能不全和高VLCFA浓度,并且根据表型不同,神经系统受累程度也有所不同。例如,仅表现为艾迪生病的X-ALD形式对神经系统没有影响,而脑型X-ALD通常会导致严重的感觉丧失、运动功能障碍、认知能力下降甚至死亡。
结果
一例成人起病的肾上腺脊髓神经病(AMN)以及一个新的……导致VLCFA在各种组织和体液中蓄积,从而引发一种名为X连锁肾上腺脑白质营养不良(X-ALD)的疾病。这种疾病最常见的特征是肾上腺皮质功能不全和高VLCFA浓度,并且根据表型不同,神经系统受累程度也有所不同。例如,仅表现为艾迪生病的X-ALD形式对神经系统没有影响,而脑型X-ALD通常会导致严重的感觉丧失、运动功能障碍、认知能力下降甚至死亡。
结论
来自多个来源的数据融合采用了一种综合方法,从而对患者的疾病和预后进行了更全面的评估。对该变体进行了分子建模,以更好地描述其临床意义并确认其致病性。
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