A novel double mutation in the ABCD1 gene in a patient with x-linked adrenoleukodystrophy: Analysis of the stability and function of the mutant ABCD1 protein

Masashi Morita; Junpei Kobayashi; Kozue Yamazaki; Kosuke Kawaguchi; Ayako Honda; Kenji Sugai; Nobuyuki Shimozawa; Reiji Koide; Tsuneo Imanaka

doi:10.1007/8904_2012_209

A novel double mutation in the ABCD1 gene in a patient with x-linked adrenoleukodystrophy: Analysis of the stability and function of the mutant ABCD1 protein

Masashi Morita, Junpei Kobayashi, Kozue Yamazaki, Kosuke Kawaguchi, Ayako Honda, Kenji Sugai, Nobuyuki Shimozawa, Reiji Koide, Tsuneo Imanaka^*

^*Corresponding author for this work

Molecular Cell Biology

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

13 Scopus citations

Abstract

We diagnosed an adrenomyeloneuropathy (AMN) patient with a double novel missense mutation, c.284C>A (p.A95D) and c.290A>T (p.H97L) in a single ABCD1 allele. In skin fibroblasts from the patient, no ABCD1 protein was detected by immunoblot analysis, and the C24:0 β-oxidation activity was decreased to a level at which the ABCD1 protein was absent. To determine the responsible gene mutation in the patient, we constructed three kinds of mutated ABCD1 gene expression vectors (c.284C>A, c.290A>T or c.284C>A/c.290A>T) and transfected them into CHO cells stably expressing GFP-SKL (CHO/GFP-SKL cells) or CADDS fibroblasts lacking the ABCD1 gene. ABCD1 (p.H97L) displayed the correct peroxisomal localization in CHO/GFP-SKL cells, but ABCD1 (p.A95D) and ABCD1 (p.A95D/p.H97L) were diffuse in the cytosol. Furthermore, ABCD1 (p.H97L) was detected by immunoblot analysis and restored the C24:0 β-oxidation activity in the CADDS fibroblasts, as the wild type ABCD1 did. On the other hand, ABCD1 (p.A95D) and ABCD1 (p.A95D/p.H97L) were not detected and the C24:0 β-oxidation activity was not restored. These results clearly show that c.284C>A is the responsible gene mutation, whereas c.290A>T is a novel polymorphism.

Original language	English
Title of host publication	JIMD Reports
Publisher	Springer
Pages	95-102
Number of pages	8
DOIs	https://doi.org/10.1007/8904_2012_209
State	Published - 2013

Publication series

Name	JIMD Reports
Volume	10
ISSN (Print)	2192-8304
ISSN (Electronic)	2192-8312

Keywords

Human skin fibroblast
Lignoceric acid
Peroxisomal membrane
Posterior tibial nerve
Posterior tibial nerve stimulation

ASJC Scopus subject areas

Internal Medicine
Endocrinology, Diabetes and Metabolism
Biochemistry, Genetics and Molecular Biology (miscellaneous)

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1007/8904_2012_209

Cite this

Morita, M., Kobayashi, J., Yamazaki, K., Kawaguchi, K., Honda, A., Sugai, K., Shimozawa, N., Koide, R., & Imanaka, T. (2013). A novel double mutation in the ABCD1 gene in a patient with x-linked adrenoleukodystrophy: Analysis of the stability and function of the mutant ABCD1 protein. In JIMD Reports (pp. 95-102). (JIMD Reports; Vol. 10). Springer. https://doi.org/10.1007/8904_2012_209

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title = "A novel double mutation in the ABCD1 gene in a patient with x-linked adrenoleukodystrophy: Analysis of the stability and function of the mutant ABCD1 protein",

abstract = "We diagnosed an adrenomyeloneuropathy (AMN) patient with a double novel missense mutation, c.284C>A (p.A95D) and c.290A>T (p.H97L) in a single ABCD1 allele. In skin fibroblasts from the patient, no ABCD1 protein was detected by immunoblot analysis, and the C24:0 β-oxidation activity was decreased to a level at which the ABCD1 protein was absent. To determine the responsible gene mutation in the patient, we constructed three kinds of mutated ABCD1 gene expression vectors (c.284C>A, c.290A>T or c.284C>A/c.290A>T) and transfected them into CHO cells stably expressing GFP-SKL (CHO/GFP-SKL cells) or CADDS fibroblasts lacking the ABCD1 gene. ABCD1 (p.H97L) displayed the correct peroxisomal localization in CHO/GFP-SKL cells, but ABCD1 (p.A95D) and ABCD1 (p.A95D/p.H97L) were diffuse in the cytosol. Furthermore, ABCD1 (p.H97L) was detected by immunoblot analysis and restored the C24:0 β-oxidation activity in the CADDS fibroblasts, as the wild type ABCD1 did. On the other hand, ABCD1 (p.A95D) and ABCD1 (p.A95D/p.H97L) were not detected and the C24:0 β-oxidation activity was not restored. These results clearly show that c.284C>A is the responsible gene mutation, whereas c.290A>T is a novel polymorphism.",

keywords = "Human skin fibroblast, Lignoceric acid, Peroxisomal membrane, Posterior tibial nerve, Posterior tibial nerve stimulation",

author = "Masashi Morita and Junpei Kobayashi and Kozue Yamazaki and Kosuke Kawaguchi and Ayako Honda and Kenji Sugai and Nobuyuki Shimozawa and Reiji Koide and Tsuneo Imanaka",

note = "Publisher Copyright: {\textcopyright} 2012, SSIEM and Springer-Verlag Berlin Heidelberg.",

year = "2013",

doi = "10.1007/8904_2012_209",

language = "英語",

series = "JIMD Reports",

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Morita, M, Kobayashi, J, Yamazaki, K, Kawaguchi, K, Honda, A, Sugai, K, Shimozawa, N, Koide, R & Imanaka, T 2013, A novel double mutation in the ABCD1 gene in a patient with x-linked adrenoleukodystrophy: Analysis of the stability and function of the mutant ABCD1 protein. in JIMD Reports. JIMD Reports, vol. 10, Springer, pp. 95-102. https://doi.org/10.1007/8904_2012_209

A novel double mutation in the ABCD1 gene in a patient with x-linked adrenoleukodystrophy: Analysis of the stability and function of the mutant ABCD1 protein. / Morita, Masashi; Kobayashi, Junpei; Yamazaki, Kozue et al.
JIMD Reports. Springer, 2013. p. 95-102 (JIMD Reports; Vol. 10).

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

TY - CHAP

T1 - A novel double mutation in the ABCD1 gene in a patient with x-linked adrenoleukodystrophy

T2 - Analysis of the stability and function of the mutant ABCD1 protein

AU - Morita, Masashi

AU - Kobayashi, Junpei

AU - Yamazaki, Kozue

AU - Kawaguchi, Kosuke

AU - Honda, Ayako

AU - Sugai, Kenji

AU - Shimozawa, Nobuyuki

AU - Koide, Reiji

AU - Imanaka, Tsuneo

PY - 2013

Y1 - 2013

N2 - We diagnosed an adrenomyeloneuropathy (AMN) patient with a double novel missense mutation, c.284C>A (p.A95D) and c.290A>T (p.H97L) in a single ABCD1 allele. In skin fibroblasts from the patient, no ABCD1 protein was detected by immunoblot analysis, and the C24:0 β-oxidation activity was decreased to a level at which the ABCD1 protein was absent. To determine the responsible gene mutation in the patient, we constructed three kinds of mutated ABCD1 gene expression vectors (c.284C>A, c.290A>T or c.284C>A/c.290A>T) and transfected them into CHO cells stably expressing GFP-SKL (CHO/GFP-SKL cells) or CADDS fibroblasts lacking the ABCD1 gene. ABCD1 (p.H97L) displayed the correct peroxisomal localization in CHO/GFP-SKL cells, but ABCD1 (p.A95D) and ABCD1 (p.A95D/p.H97L) were diffuse in the cytosol. Furthermore, ABCD1 (p.H97L) was detected by immunoblot analysis and restored the C24:0 β-oxidation activity in the CADDS fibroblasts, as the wild type ABCD1 did. On the other hand, ABCD1 (p.A95D) and ABCD1 (p.A95D/p.H97L) were not detected and the C24:0 β-oxidation activity was not restored. These results clearly show that c.284C>A is the responsible gene mutation, whereas c.290A>T is a novel polymorphism.

AB - We diagnosed an adrenomyeloneuropathy (AMN) patient with a double novel missense mutation, c.284C>A (p.A95D) and c.290A>T (p.H97L) in a single ABCD1 allele. In skin fibroblasts from the patient, no ABCD1 protein was detected by immunoblot analysis, and the C24:0 β-oxidation activity was decreased to a level at which the ABCD1 protein was absent. To determine the responsible gene mutation in the patient, we constructed three kinds of mutated ABCD1 gene expression vectors (c.284C>A, c.290A>T or c.284C>A/c.290A>T) and transfected them into CHO cells stably expressing GFP-SKL (CHO/GFP-SKL cells) or CADDS fibroblasts lacking the ABCD1 gene. ABCD1 (p.H97L) displayed the correct peroxisomal localization in CHO/GFP-SKL cells, but ABCD1 (p.A95D) and ABCD1 (p.A95D/p.H97L) were diffuse in the cytosol. Furthermore, ABCD1 (p.H97L) was detected by immunoblot analysis and restored the C24:0 β-oxidation activity in the CADDS fibroblasts, as the wild type ABCD1 did. On the other hand, ABCD1 (p.A95D) and ABCD1 (p.A95D/p.H97L) were not detected and the C24:0 β-oxidation activity was not restored. These results clearly show that c.284C>A is the responsible gene mutation, whereas c.290A>T is a novel polymorphism.

KW - Human skin fibroblast

KW - Lignoceric acid

KW - Peroxisomal membrane

KW - Posterior tibial nerve

KW - Posterior tibial nerve stimulation

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DO - 10.1007/8904_2012_209

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PB - Springer

ER -

A novel double mutation in the ABCD1 gene in a patient with x-linked adrenoleukodystrophy: Analysis of the stability and function of the mutant ABCD1 protein

Abstract

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Keywords

ASJC Scopus subject areas

UN SDGs

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