ABCMdb

ABCD1 p.Ser108Leu

Predicted by SNAP2:	A: D (91%), C: D (91%), D: D (95%), E: D (95%), F: D (95%), G: D (91%), H: D (95%), I: D (95%), K: D (95%), L: D (95%), M: D (95%), N: D (91%), P: D (95%), Q: D (95%), R: D (95%), T: D (80%), V: D (95%), W: D (95%), Y: D (95%),
Predicted by PROVEAN:	A: N, C: D, D: D, E: D, F: D, G: D, H: D, I: D, K: D, L: D, M: D, N: D, P: D, Q: D, R: D, T: N, V: D, W: D, Y: D,

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[hide] Identification of novel SNPs of ABCD1, ABCD2, ABCD... Neurogenetics. 2011 Feb;12(1):41-50. Epub 2010 Jul 27. Matsukawa T, Asheuer M, Takahashi Y, Goto J, Suzuki Y, Shimozawa N, Takano H, Onodera O, Nishizawa M, Aubourg P, Tsuji S
Identification of novel SNPs of ABCD1, ABCD2, ABCD3, and ABCD4 genes in patients with X-linked adrenoleukodystrophy (ALD) based on comprehensive resequencing and association studies with ALD phenotypes.
Neurogenetics. 2011 Feb;12(1):41-50. Epub 2010 Jul 27., [PMID:20661612]

Abstract [show]
Adrenoleukodystrophy (ALD) is an X-linked disorder affecting primarily the white matter of the central nervous system occasionally accompanied by adrenal insufficiency. Despite the discovery of the causative gene, ABCD1, no clear genotype-phenotype correlations have been established. Association studies based on single nucleotide polymorphisms (SNPs) identified by comprehensive resequencing of genes related to ABCD1 may reveal genes modifying ALD phenotypes. We analyzed 40 Japanese patients with ALD. ABCD1 and ABCD2 were analyzed using a newly developed microarray-based resequencing system. ABCD3 and ABCD4 were analyzed by direct nucleotide sequence analysis. Replication studies were conducted on an independent French ALD cohort with extreme phenotypes. All the mutations of ABCD1 were identified, and there was no correlation between the genotypes and phenotypes of ALD. SNPs identified by the comprehensive resequencing of ABCD2, ABCD3, and ABCD4 were used for association studies. There were no significant associations between these SNPs and ALD phenotypes, except for the five SNPs of ABCD4, which are in complete disequilibrium in the Japanese population. These five SNPs were significantly less frequently represented in patients with adrenomyeloneuropathy (AMN) than in controls in the Japanese population (p=0.0468), whereas there were no significant differences in patients with childhood cerebral ALD (CCALD). The replication study employing these five SNPs on an independent French ALD cohort, however, showed no significant associations with CCALD or pure AMN. This study showed that ABCD2, ABCD3, and ABCD4 are less likely the disease-modifying genes, necessitating further studies to identify genes modifying ALD phenotypes.

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84 Interestingly, the five previously described SNPs (rs17782508, rs2301345, rs4148077, rs4148078, and rs3742801) that are in complete linkage disequilibrium were significantly less frequently represented in the patients with Japanese AMN than in the controls in the Japanese population (p=0.0468), whereas Table 2 Identified ABCD1 mutations: mutations of ABCD1 that result in amino acid substitutions or in-frame deletions Patient number Phenotype Mutation of ABCD1 Effect of mutation of ABCD1 Position of mutation 13 CCALD 709C>T S108L Loop1 14 CCALD 709C>T S108L Loop1 15 CCALD 829A>G N148S TM2 16 CCALD 1026A>G N214D TM3 17 CCALD 1182G>A G266R Between TM4 and EAA-like 18 CCALD 1324T>Ca L313P Between EAA-like and TM5 19 CCALD 1938C>T R518W Walker A 20 CCALD 1939G>A R518Q Walker A 21 CCALD 2017A>G Q544R Between Walker A and Cons 22 CCALD 2017A>G Q544R Between Walker A and Cons 23 CCALD 2065C>T P560L Between Walker A and Cons 24 CCALD 2065C>T P560L Between Walker A and Cons 25 CCALD Del. 2145-2156 Del. HILQ587-590 Between Walker A and Cons 26 AdultCer Del. 1257-1259 Del.E291 EAA-like 27 AdultCer 2005T>C F540S Between Walker A and Cons 28 AdultCer 2358C>T R660W C-terminal to Walker B 29 AdultCer 2385C>A H667N C-terminal to Walker B 30 AMN-Cer 1146A>C T254P TM4 31 AMN 636C>T P84S TM1 32 AMN 709C>T S108L Loop1 33 AMN 1182G>A G266R Between TM4 and EAA-like 34 AMN 1197G>A E271K Between TM4 and EAA-like 35 AMN 1215G>Aa G277R Between TM4 and EAA-like 36 AMN 1255C>G S290W EAA-like 37 AMN 1581C>T R401W Between TM6 and Walker A 38 AMN 2233C>A A616D Cons 39 AMN 2385C>A H667N C-terminal to Walker B 40 Asymptomatic 2211G>A E609K Cons Amino acid residue numbers in ALDP are based on Mosser et al. [1]. Login to comment

[hide] Molecular characterization of 21 X-ALD Portuguese ... Mol Genet Metab. 2002 May;76(1):62-7. Guimaraes CP, Lemos M, Sa-Miranda C, Azevedo JE
Molecular characterization of 21 X-ALD Portuguese families: identification of eight novel mutations in the ABCD1 gene.
Mol Genet Metab. 2002 May;76(1):62-7., [PMID:12175782]

Abstract [show]
X-linked adrenoleukodystrophy (X-ALD) is the most common inherited peroxisomal disorder. The gene associated with X-ALD, ABCD1, encodes a peroxisomal ATP-binding cassette half-transporter. In this study, we describe the molecular characterization of 21 affected Portuguese families. The complete coding region of the ABCD1 gene was amplified by reverse transcription polymerase chain reaction (RT-PCR) or genomic PCR. After conformation-sensitive gel electrophoresis analysis, fragments with a conformational heteroduplex pattern were sequenced. Using this strategy, we have identified 14 missense mutations, two nonsense mutations, two splicing site defects, and three small deletions, two of them resulting in frameshifts. Eight of the genetic alterations characterized in this study are novel. The levels of the ABCD1 transcript as well as the levels of ALDP in cultured skin fibroblasts of male probands were also determined in most cases. The levels of the ABCD1 transcript in one patient (corresponding to a nonsense mutation) were below the detection limit of Northern-blotting analysis. ALDP was found at normal levels in only three patients, absent in five (corresponding to a double missense, two nonsense, and two frameshift mutations), and decreased in all the others.

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66 Type of genetic alteration Exon RT-PCR fragmenta Nucleotide change Amplicon usedb /RFLP associatedc ALDP (WB) ABCD1 mRNA (NB) References Missense 1 S103R 1 F2 c.309C > G ALDe1A/þCfoI Diminished Detectable [19] 2 S108W 1 - c.323C > G ALDe1B/þRleAI Not done Not done [18] 3 S108L 1 - c.323C > T - Normal Not done [20] 4 L114P 1 F2 c.341T > C ALDe1B/ÀEcoRII Diminished Detectable Novel mutation 5 ½R236H; G512S 1 F3 [c.707G > A; ALDe1C/þNcoI Novel mutation 6 F6 c.1534G > A] ALDe6/þPstI Not detectable Not done [16,17] 6 G266R 1 F3 c.796G > A - Normal Detectable [21] 7 R518W 6 F6 c.1552C > T ALDe6/ÀHpaII Diminished Detectable [22] 8 R518Q 6 F6 c.1153G > A ALDe6/ÀBamHI Diminished Not done [23] 9 R545W 6 - c.1633A > T ALDe6/þTspRI Not done Not done Novel mutation 10 R591W 7 F7 c.1171C > T ALDe7/ÀAciI Normal Not done [24] 11 L655P 9 F8 c.1964T > C ALDe8/9/ÀSapId Diminished Detectable Novel mutation 12 R660W 9 F7/F8 c.1978C > T ALDe8/9/þBsrI Diminished Detectable [16,17,25] 13 H667L 10 F8 c.2000A > T ALDe10/þDdeId Diminished Detectable Novel mutation Nonsense 14 Q574X 7 F6 c.1720C > T ALDe7/ÀAlwNI Not detectable Detectable Novel mutation 15 W601X 8 F7 c.1802G > A ALDe8/9/ÀBsrI Not detectable Not detectable [9] Frameshift 16 fs G298 1 F3 [c.893delG; c.894C > T] ALDe1C/ÀNlaIV Not detectable Detectable Novel mutation 17, 18 fs E472 5 F5 c.1415-1416delAG - Not detectable Detectable [21,26,27] Microdeletion 19 F175del 1 F2 c.522-524delCTT d Diminished Detectable Novel mutation Splicing defect 20 Splicing IVS1 - c.900G > A - Not done Not done [10] 21 Splicing IVS7 - c.1760+1G > A - Not done Not done [18] Polymorphism 1, 5 F673F 8 F8 c.2019C > T ÀTaqI - - [28] 1, 2, 5, 11, 13 30 UTR F8 - ÀDrdI - - [27] a RT-PCR fragment (defined according to [10]) which shows heteroduplex molecules in a CSGE analysis. Login to comment
159 While most of the missense mutations presented here may interfere with any of these processes, it is highly unlikely that this is the case for the S108L, G266R, and R591W missense mutations. Login to comment
158 While most of the missense mutations presented here may interfere with any of these processes, it is highly unlikely that this is the case for the S108L, G266R, and R591W missense mutations. Login to comment

[hide] Two novel missense mutations causing adrenoleukody... Mol Cell Probes. 1999 Jun;13(3):179-82. Perusi C, Gomez-Lira M, Mottes M, Pignatti PF, Bertini E, Cappa M, Vigliani MC, Schiffer D, Rizzuto N, Salviati A
Two novel missense mutations causing adrenoleukodystrophy in Italian patients.
Mol Cell Probes. 1999 Jun;13(3):179-82., [PMID:10369742]

Abstract [show]
The authors present two new missense mutations in exon 1 of the adrenoleukodystrophy (ALD) gene. The first, a C813T transition, results in the substitution Pro143 Ser in the third putative transmembrane domain of the adrenoleukodystrophy protein (ALDP) in an adult onset case. The second, a de novo C709T transition, results in a substitution Ser 108 Leu between the second and the third putative transmembrane segments, in a childhood case.

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4 The second, a de novo C709T transition, results in a substitution Ser 108 Leu between the second and the third putative transmembrane segments, in a childhood case. Login to comment
43 Moreover studies regarding a homologous peroxisomal transmembrane protein (PMP70) have suggested a role of the corresponding region for targeting and insertion in the peroxisomal membrane.14 The mutation C709T results in the substitution of serine 108 for leucine in the loop between the second and the third putative transmembrane segments. Login to comment
44 Other mutations in this segment have been described that cause ALD including the substitution of serine 108 for tryptophan described in a ChALD and in an AMN.9 The authors9 demonstrated that the substitution of this serine for tryptophan showed decreased ALDP immunoreactivity and a weak 75 kD ALDP band on Western blotting indicating that the substitution of serine 108 probably results in the synthesis of an unstable protein that is rapidly degraded in the cytosol. Login to comment
46 EX 1 96 77 Ser 108 Leu CTG TCG GTG * 0 C C T T C C T G T T G G T G A T (a) (b) T { Both amino acids involved in the substitutions de- Fig. 2. Login to comment
47 (a) Sequence determination of the C709T scribed here are conserved in mouse ALDP, mouse (Ser108Leu) mutation of the adrenoleukodystrophy (ALD) ALDRP and human ALDRP.15 Restriction analysisgene. Login to comment
48 (a) Sequence determination of the C709T scribed here are conserved in mouse ALDP, mouse (Ser108Leu) mutation of the adrenoleukodystrophy (ALD) ALDRP and human ALDRP.15 Restriction analysis gene. Normal sequence is shown in the upper line. The demonstrated that the mutations were not present in * indicates the involved nucleotide. Login to comment

[hide] Decreased expression of ABCD4 and BG1 genes early ... Hum Mol Genet. 2005 May 15;14(10):1293-303. Epub 2005 Mar 30. Asheuer M, Bieche I, Laurendeau I, Moser A, Hainque B, Vidaud M, Aubourg P
Decreased expression of ABCD4 and BG1 genes early in the pathogenesis of X-linked adrenoleukodystrophy.
Hum Mol Genet. 2005 May 15;14(10):1293-303. Epub 2005 Mar 30., [PMID:15800013]

Abstract [show]
Childhood cerebral adrenoleukodystrophy (CCER), adrenomyeloneuropathy (AMN) and AMN with cerebral demyelination (AMN-C) are the main phenotypic variants of X-linked adrenoleukodystrophy (ALD). It is caused by mutations in the ABCD1 gene encoding a half-size peroxisomal transporter that has to dimerize to become functional. The biochemical hallmark of ALD is the accumulation of very-long-chain fatty acids (VLCFA) in plasma and tissues. However, there is no correlation between the ALD phenotype and the ABCD1 gene mutations or the accumulation of VLCFA in plasma and fibroblast from ALD patients. The absence of genotype-phenotype correlation suggests the existence of modifier genes. To elucidate the mechanisms underlying the phenotypic variability of ALD, we studied the expression of ABCD1, three other peroxisomal transporter genes of the same family (ABCD2, ABCD3 and ABCD4) and two VLCFA synthetase genes (VLCS and BG1) involved in VLCFA metabolism, as well as the VLCFA concentrations in the normal white matter (WM) from ALD patients with CCER, AMN-C and AMN phenotypes. This study shows that: (1) ABCD1 gene mutations leading to truncated ALD protein are unlikely to cause variation in the ALD phenotype; (2) accumulation of saturated VLCFA in normal-appearing WM correlates with ALD phenotype and (3) expression of the ABCD4 and BG1, but not of the ABCD2, ABCD3 and VLCS genes, tends to be correlated with the severity of the disease, acting early in the pathogenesis of ALD.

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No. Sentence Comment
76 Mutation Amino acid alteration Type of mutation at the protein level Tissue sample CCER1 521A.G Y174C Missense CCER2 1414insC fsE471 Frame shift CCER3 Unknown Unknown Unknown Fibroblast CCER4 411G.A W137X Nonsense CCER5 1961T.C L654P Missense CCER6 529C.T Q177X Nonsense CCER7 901-1G.A fsE300 Frame shift CCER8 796G.A G266R Missense CCER9 1822G.A G608S Missense Brain CCER10 1390C.A R464X Nonsense CCER11 253-254insC fsP84 Frame shift CCER12 619_627del S207_A209del Deletion AMN-C1 1414-1415insC fsE471 Frame shift AMN-C2 1661G.A R554H Missense AMN-C3 1585delG fsG528 Frame shift Fibroblast AMN-C4 1661G.A R554H Missense AMN-C5 1825G.A E609K Missense AMN-C6 919C.T Q307X Nonsense AMN-C7 1850G.A R617H Missense AMN-C8 887A.G Y296C Missense AMN-C9 965T.C L322P Missense Brain AMN-C10 1390C.T R464X Nonsense AMN-C11 [1165C.T;1224 þ 1GT.TG] [R389C;fSE408] Missense; frame shift AMN-C12 1661G.A R554H Missense AMN-C13 [1997A.C;2007C.G] [Y666S;H669Q] Missense AMN-C14 1755delG fsH586 Frame shift AMN1 529C.T Q177X Nonsense AMN2 1999C.G H667D Missense AMN3 1415delAG fsE471 Frame shift Fibroblast AMN4 337delC fsA112 Frame shift AMN5 310C.T R104C Missense AMN6 919C.T Q307X Nonsense AMN7 323C.T S108L Missense Brain All mutation designations conform to the nomenclature described by Antonarakis and den Dunnen (30,31). Login to comment