ABCA3 p.Leu1580Pro

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PMID: 15044640 [PubMed] Shulenin S et al: "ABCA3 gene mutations in newborns with fatal surfactant deficiency."
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44 Family History/ Consanguinity Outcome Histologic Findings ABCA3 Mutation 1 White F 1 Yes/Yes Death within 3 mo after birth DIP, PAP W1142X/W1142X 2 White F 1 Yes/Yes Death during neonatal period DIP, PAP W1142X/W1142X 3 Black M 2 Yes/Yes Death during neonatal period NA L101P/L101P 4 Black M 2 Yes/Yes Death during neonatal period NA L101P/L101P 5 White F 3 Yes/No Death during neonatal period NA 4552insT/L1580P 6 White F 3 Yes/No Death during neonatal period NA 4552insT/L1580P 7 White M 4 Yes/No Death within 3 mo after birth PAP G1221S/L982P 8 White M 4 Yes/No Death during neonatal period PAP G1221S/L982P 9 Middle Eastern M 5 Yes/Yes Death during neonatal period DIP, PAP L1553P/L1553P 10 Middle Eastern M 5 Yes/Yes Death during neonatal period NA L1553P/L1553P 11 White M 6 Yes/No Recovery from RDS NA None found 12 White M 6 Yes/No Recovery from RDS NA None found 13 Middle Eastern M 7 No/Yes Unknown NA 1644delC/1644delC 14 Middle Eastern M 8 Yes/No Death during neonatal period DIP, PAP R106X/R106X 15 Asian F 9† Yes/Yes Death during neonatal period NA 4909+1G>A/4909+1G>A 16 White M 10 Yes/Yes Death during neonatal period NA None found 17 White M 11 No/No Recovery from RDS NA None found 18 White F 12 No/No Death during neonatal period NA None found 19 White M 13 Yes/No Chronic lung disease CPI, DIP Q1591P/-‡ 20 Hispanic M 14 No/No Death after lung transplantation PAP N568D/-‡ 21 Asian F 9† Yes/Yes Death during neonatal period PAP 4909+1G>A/4909+1G>A entorganisms,weusedthededucedaminoacidse- quence of ABCA3 (GenBank accession number NP_001080) to search the sequence data base using the BLAST program (http://www.ncbi.nlm.nih.
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ABCA3 p.Leu1580Pro 15044640:44:406
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59 Seven missense muta- tionswereidentifiedinconservedaminoacids(Fig. 2), including homozygous substitutions of proline for leucine in codons 101 and 1553 (L101P and L1553P, respectively) and heterozygous substitutions of aspartic acid for asparagine at position 568 (N568D), proline for leucine at position 982 (L982P), serine for glycine at position 1221 (G1221S), proline for leucine at position 1580 (L1580P), and proline for glutamine at position 1591 (Q1591P).
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85 The sequences of the puffer fish and the zebra fish are not complete, resulting in some gaps in this information in the case of L982P, G1221S, L1552P, L1553P, and L1580P.
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ABCA3 p.Leu1580Pro 15044640:85:163
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87 Human Mouse Rat Puffer fish ETVRRALVIN ETVKREFMIK EAVRREFMIK EDVRGKLELS QDVQQNLVRG L101P NGAGKTT NGAGKTT NGAGKTT NGAGKTT NGAGKTT N568D VARRLL VARRLL VARRLL VARRLL L1553P Q1591P T301C(L101P) C316T(R106X) A1702G(N568D) 1644delC G3426A(W1142X) G3661A(G1221S) T4657C(L1553P) 4552insT A4771C(Q1591P) 4909+1G>A G1221S LSGIAT LSGIAT LSGIAT ATP-binding domains L982P QQLSEHL QQLSENL QQLSEHL T2945C(L982P) ECEALC LAIMVQGQFKC ECEALC ECEALC L1580P T4739C(L1580P) Nonsense MissenseSpliceFrameshift LAIMVQGQFKC LAIMVQGQFKC LAVMVNGQFKC Zebra fish LAVMVNGQFKC tified occur in residues that are highly conserved (Fig.2).Theaminoacidalignmentwasusedtopro- duce a phylogenetic tree of the ABCA3-related proteins showing the relation of the proteins from different organisms (see Supplementary Appendix 2, available with the full text of this article at www. nejm.org).ThefishABCA3proteinsclusterwiththe mammalian ABCA3 proteins and are distinct from other, more distant ABCA-family proteins, such as the mouse Abca14, Abca15, and Abca16 proteins and the sea-urchin ABCA proteins (see Supplementary Appendix 2.
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ABCA3 p.Leu1580Pro 15044640:87:430
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106 Nucleotide Affected* Site Affected or Outcome SNP No.† Mutation Exon 5 3, 4 T301C L101P‡ Exon 5 14 C316T R106X‡ Exon 14 20 A1702G N568D Exon 14 13 1644delC Frameshift‡ Exon 21 7, 8 T2945C L982P Exon 23 1, 2 G3426A W1142X‡ Exon 24 7, 8 G3661A G1221S Exon 30 9, 10 T4657C L1553P Exon 30 5, 6 4552insT Frameshift Exon 31 15, 21 4909+1G>A Splice site‡ Exon 31 5, 6 T4739C L1580P Exon 31 19 A4772C Q1591P Polymorphism Exon 5 Multiple Exon 5+50A/G Intron rs46725 Exon 6 20 393C/T A131A Exon 6 18 Exon 6+119G/A Intron rs323059 Exon 7 19 Exon 7-14C/G Intron Exon 8 14 681C/T A227A Exon 10 Multiple Exon 10-105C/A Intron rs323066 Exon 10 Multiple Exon 10-20C/T Intron Exon 10 Multiple 1058C/T F353F Exon 14 Multiple Exon 14+33G/A Intron rs170447 Exon 15 Multiple 1755C/G P585P rs323043 Exon 18 13 Exon 18-17G/A Intron Exon 18 1 2340C/T H780H Exon 21 Multiple Exon 21-20C/G Intron rs313908 Exon 21 Multiple Exon 21+34C/T Intron rs313909 Exon 27 Multiple 4116C/T S1372S rs149532 Exon 32 11 4944C/T V1648V In two patients, a mutation was identified on only one allele.
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43 Family History/ Consanguinity Outcome Histologic Findings ABCA3 Mutation 1 White F 1 Yes/Yes Death within 3 mo after birth DIP, PAP W1142X/W1142X 2 White F 1 Yes/Yes Death during neonatal period DIP, PAP W1142X/W1142X 3 Black M 2 Yes/Yes Death during neonatal period NA L101P/L101P 4 Black M 2 Yes/Yes Death during neonatal period NA L101P/L101P 5 White F 3 Yes/No Death during neonatal period NA 4552insT/L1580P 6 White F 3 Yes/No Death during neonatal period NA 4552insT/L1580P 7 White M 4 Yes/No Death within 3 mo after birth PAP G1221S/L982P 8 White M 4 Yes/No Death during neonatal period PAP G1221S/L982P 9 Middle Eastern M 5 Yes/Yes Death during neonatal period DIP, PAP L1553P/L1553P 10 Middle Eastern M 5 Yes/Yes Death during neonatal period NA L1553P/L1553P 11 White M 6 Yes/No Recovery from RDS NA None found 12 White M 6 Yes/No Recovery from RDS NA None found 13 Middle Eastern M 7 No/Yes Unknown NA 1644delC/1644delC 14 Middle Eastern M 8 Yes/No Death during neonatal period DIP, PAP R106X/R106X 15 Asian F 9ߤ Yes/Yes Death during neonatal period NA 4909+1G>A/4909+1G>A 16 White M 10 Yes/Yes Death during neonatal period NA None found 17 White M 11 No/No Recovery from RDS NA None found 18 White F 12 No/No Death during neonatal period NA None found 19 White M 13 Yes/No Chronic lung disease CPI, DIP Q1591P/-ߥ 20 Hispanic M 14 No/No Death after lung transplantation PAP N568D/-ߥ 21 Asian F 9ߤ Yes/Yes Death during neonatal period PAP 4909+1G>A/4909+1G>A entorganisms,weusedthededucedaminoacidse- quence of ABCA3 (GenBank accession number NP_001080) to search the sequence data base using the BLAST program (http://www.ncbi.nlm.nih.
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ABCA3 p.Leu1580Pro 15044640:43:406
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58 Seven missense muta- tionswereidentifiedinconservedaminoacids(Fig. 2), including homozygous substitutions of proline for leucine in codons 101 and 1553 (L101P and L1553P, respectively) and heterozygous substitutions of aspartic acid for asparagine at position 568 (N568D), proline for leucine at position 982 (L982P), serine for glycine at position 1221 (G1221S), proline for leucine at position 1580 (L1580P), and proline for glutamine at position 1591 (Q1591P).
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ABCA3 p.Leu1580Pro 15044640:58:364
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84 The sequences of the puffer fish and the zebra fish are not complete, resulting in some gaps in this information in the case of L982P, G1221S, L1552P, L1553P, and L1580P.
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ABCA3 p.Leu1580Pro 15044640:84:163
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86 Human Mouse Rat Puffer fish ETVRRALVIN ETVKREFMIK EAVRREFMIK EDVRGKLELS QDVQQNLVRG L101P NGAGKTT NGAGKTT NGAGKTT NGAGKTT NGAGKTT N568D VARRLL VARRLL VARRLL VARRLL L1553P Q1591P T301C(L101P) C316T(R106X) A1702G(N568D) 1644delC G3426A(W1142X) G3661A(G1221S) T4657C(L1553P) 4552insT A4771C(Q1591P) 4909+1G>A G1221S LSGIAT LSGIAT LSGIAT ATP-binding domains L982P QQLSEHL QQLSENL QQLSEHL T2945C(L982P) ECEALC LAIMVQGQFKC ECEALC ECEALC L1580P T4739C(L1580P) Nonsense Missense Splice Frameshift LAIMVQGQFKC LAIMVQGQFKC LAVMVNGQFKC Zebra fish LAVMVNGQFKC tified occur in residues that are highly conserved (Fig.2).Theaminoacidalignmentwasusedtopro- duce a phylogenetic tree of the ABCA3-related proteins showing the relation of the proteins from different organisms (see Supplementary Appendix 2, available with the full text of this article at www. nejm.org).ThefishABCA3proteinsclusterwiththe mammalian ABCA3 proteins and are distinct from other, more distant ABCA-family proteins, such as the mouse Abca14, Abca15, and Abca16 proteins and the sea-urchin ABCA proteins (see Supplementary Appendix 2.
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ABCA3 p.Leu1580Pro 15044640:86:430
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ABCA3 p.Leu1580Pro 15044640:86:444
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105 Nucleotide Affected* Site Affected or Outcome SNP No.ߤ Mutation Exon 5 3, 4 T301C L101Pߥ Exon 5 14 C316T R106Xߥ Exon 14 20 A1702G N568D Exon 14 13 1644delC Frameshiftߥ Exon 21 7, 8 T2945C L982P Exon 23 1, 2 G3426A W1142Xߥ Exon 24 7, 8 G3661A G1221S Exon 30 9, 10 T4657C L1553P Exon 30 5, 6 4552insT Frameshift Exon 31 15, 21 4909+1G>A Splice siteߥ Exon 31 5, 6 T4739C L1580P Exon 31 19 A4772C Q1591P Polymorphism Exon 5 Multiple Exon 5+50A/G Intron rs46725 Exon 6 20 393C/T A131A Exon 6 18 Exon 6+119G/A Intron rs323059 Exon 7 19 Exon 7-14C/G Intron Exon 8 14 681C/T A227A Exon 10 Multiple Exon 10-105C/A Intron rs323066 Exon 10 Multiple Exon 10-20C/T Intron Exon 10 Multiple 1058C/T F353F Exon 14 Multiple Exon 14+33G/A Intron rs170447 Exon 15 Multiple 1755C/G P585P rs323043 Exon 18 13 Exon 18-17G/A Intron Exon 18 1 2340C/T H780H Exon 21 Multiple Exon 21-20C/G Intron rs313908 Exon 21 Multiple Exon 21+34C/T Intron rs313909 Exon 27 Multiple 4116C/T S1372S rs149532 Exon 32 11 4944C/T V1648V In two patients, a mutation was identified on only one allele.
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ABCA3 p.Leu1580Pro 15044640:105:404
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PMID: 19861431 [PubMed] Park SK et al: "Identification and characterization of a novel ABCA3 mutation."
No. Sentence Comment
99 Type I mutations include L101P, L982P, L1553P, and Q1591P; type II mutations include E292V, N568D, E690K, T1114, G1221S, and L1580P (13, 14).
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ABCA3 p.Leu1580Pro 19861431:99:125
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110 The level of the ABCA3-R295C-GFP mutant protein was comparable to that of wild-type ABCA3-GFP as demonstrated in the anti-GFP immunoblot.
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ABCA3 p.Leu1580Pro 19861431:110:109
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115 Other mutations in the ABCA3 protein also result in impaired ATP hydrolysis, including E292V, N568D, G1221S, L1580P, and T1114M (13, 14).
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ABCA3 p.Leu1580Pro 19861431:115:109
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94 Type I mutations include L101P, L982P, L1553P, and Q1591P; type II mutations include E292V, N568D, E690K, T1114, G1221S, and L1580P (13, 14).
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ABCA3 p.Leu1580Pro 19861431:94:125
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PMID: 18676873 [PubMed] Matsumura Y et al: "Aberrant catalytic cycle and impaired lipid transport into intracellular vesicles in ABCA3 mutants associated with nonfatal pediatric interstitial lung disease."
No. Sentence Comment
230 Although E292V, E690K, and T1114M mutant proteins were found to traffic to intracellular vesicles, the lipid transport function of E292V mutant protein was partially impaired, and those of E690K and T1114M mutant protein were severely impaired, accompanied by an aberrant catalytic cycle.
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ABCA3 p.Leu1580Pro 18676873:230:210
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233 Patients with fatal surfactant deficiency carrying a type I homozygous ABCA3 mutation (W1142X/W1142X, L101P/ L101P, or L1553P/L1553P) or a type I/type II compound heterozygous mutation (L982P/G1221S or Ins1518/L1580P) die within the neonatal period (Table 1) (27).
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ABCA3 p.Leu1580Pro 18676873:233:210
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252 Genotype-phenotype correlation for ABCA3 mutation ABCA3 Mutation Age of Symptoms Phenotype Ref. W1142X W1142X Neonate FSD 27 L101P L101P Neonate FSD 27 L1553P L1553P Neonate FSD 27 Ins1518 L1580P Neonate FSD 27 L982P G1221S Neonate FSD 27 E292V T1114M Neonate pILD 4 E292V E690K 5 or 7 yr pILD 4 W1148X T1114A 12 mo pILD 37 Type I and type II ATP binding cassette A3 (ABCA3) mutations are shown in italics and roman, respectively.
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ABCA3 p.Leu1580Pro 18676873:252:189
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249 Genotype-phenotype correlation for ABCA3 mutation ABCA3 Mutation Age of Symptoms Phenotype Ref. W1142X W1142X Neonate FSD 27 L101P L101P Neonate FSD 27 L1553P L1553P Neonate FSD 27 Ins1518 L1580P Neonate FSD 27 L982P G1221S Neonate FSD 27 E292V T1114M Neonate pILD 4 E292V E690K 5 or 7 yr pILD 4 W1148X T1114A 12 mo pILD 37 Type I and type II ATP binding cassette A3 (ABCA3) mutations are shown in italics and roman, respectively.
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PMID: 17618459 [PubMed] Yokota T et al: "Heterozygous ABCA3 mutation associated with non-fatal evolution of respiratory distress."
No. Sentence Comment
40 All of the patients reported with fatal surfactant deficiency carrying type I/type II compound heterozygous ABCA3 mutation (L982P/G1221S or Ins1518fs/L1580P) died within the neonatal period [4], and ATP-hydrolysis activity was severely impaired in the case of the G1221S and L1580P mutants [2].
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PMID: 16959783 [PubMed] Matsumura Y et al: "Characterization and classification of ATP-binding cassette transporter ABCA3 mutants in fatal surfactant deficiency."
No. Sentence Comment
3 Green fluorescent protein-tagged L101P, L982P, L1553P, Q1591P, and Ins1518fs/ter1519 mutant proteins remained localized in the endoplasmic reticulum, and processing of oligosaccharide was impaired, whereas wild-type and N568D, G1221S, and L1580P mutant ABCA3 proteins trafficked to the LAMP3-positive intracellular vesicle, accompanied by processing of oligosaccharide from high mannose type to complex type.
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4 Vanadate-induced nucleotide trapping and ATP-binding analyses showed that ATP hydrolysis activity was dramatically decreased in the N568D, G1221S, and L1580P mutants, accompanied by a moderate decrease in ATP binding in N568D and L1580P mutants but not in the G1221S mutant, compared with the wild-type ABCA3 protein.
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ABCA3 p.Leu1580Pro 16959783:4:151
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5 In addition, mutational analyses of the Gly-1221 residue in the 11th transmembrane segment and the Leu-1580 residue in the cytoplasmic tail, and homology modeling of nucleotide binding domain 2 demonstrate the significance of these residues for ATP hydrolysis and suggest a mechanism for impaired ATP hydrolysis in G1221S and L1580P mutants.
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35 Partial cDNA fragments containing various fatal surfactant deficiency mutations (L101P, N568D, L982P, G1221S, L1553P, L1580P, Q1591P, W1142X, and Ins1518fs (abbreviation of Ins1518fs/ter1519 in this study), see Fig. 1A), were generated with PCR methods and replaced with the corresponding fragment of pEGFPN1-ABCA3.
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ABCA3 p.Leu1580Pro 16959783:35:118
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98 To examine the effect of the mutations found in fatal surfactant deficiency patients on subcellular localization of ABCA3, wild-type and mutant ABCA3-GFP (seven missense mutations L101P, N568D, L982P, G1221S, L1553P, L1580P, and Q1591P, and one nonsense mutation, Ins1518fs) were transiently expressed in HEK293 cells (Fig. 1A).
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99 The N568D, G1221S, and L1580P mutant proteins were mainly localized to the LAMP3-positive intracellular vesicle membrane (Fig. 2B, panels a-c, d-f, and g-i), similar to wild-type ABCA3 protein (Fig. 2A, panels e-h).
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102 In another cell line, mouse lung epithelial MLE12 cells, transiently expressed GFP-tagged wild-type and N568D, G1221S, and L1580P mutant proteins were mainly localized at the intracellular vesicle membrane, whereas the L101P, L982P, L1553P, Q1591P, and Ins1518fs mutant proteins were mainly localized to the ER (data not shown), confirming defective intracellular sorting of L101P, L982P, L1553P, Q1591P, and Ins1518fs ABCA3 mutant proteins.
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105 In the N568D, G1221S, and L1580P mutant proteins, which were mainly localized to the intracellular vesicle membrane, both the 220-kDa noncleaved form and the 180-kDa cleaved form were detected, similar to wild-type protein (Fig. 3A).
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121 A merged image of panels i-k is shown in panel l. B, HEK293 cells transiently expressing mutant ABCA3-GFP proteins (panels a, d, g, and j) were processed for immunofluorescence labeling of LAMP3 (panels b, e, h, and k): N568D (panels a-c), G1221S (panels d-f), L1580P (panels g-i), and L101P (panels j-l).
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124 The scale bar represents 5 ␮m. kDa wild-type ABCA3-GFP and the seven missense mutant (L101P, N568D, L982P, G1221S, L1553P, L1580P, and Q1591P) proteins to produce a 210-kDa deglycosylated protein (Fig. 3B).
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128 In the N568D, G1221S, and L1580P mutant proteins, about 30-40% of the 220-kDa protein remained as Endo H-insensitive complex-type protein (Fig. 3, C and D, band I), indicating that processing of oligosaccharide from high mannose type to complex type is largely preserved in these mutants.
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131 These results indicate that the N568D, G1221S, and L1580P mutant proteins are mainly localized at the intracellular vesicle membrane accompanied by processing of oligosaccharide from high mannose type to complex type, whereas the four missense mutant (L101P, L982D, L1553P, and Q1591P) and one nonsense mutant (Ins1518fs) proteins remain localized at the ER, with impaired processing of oligosaccharide.
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132 ATP Hydrolysis of ABCA3-GFP and Mutants-To investigate the mechanism of loss of function of the N568D, G1221S, and L1580P mutant proteins that are trafficked to intracellular vesicles accompanied by processing of sugar chains as is wild-type ABCA3 protein, we examined ATP hydrolysis of wild-type ABCA3-GFP and the mutant proteins.
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148 *, p Ͻ 0.05; **, p Ͻ 0.005 versus wild type. N.S., not significant. Characterization and Classification of ABCA3 Mutants 34508 expressing wild-type or mutant (N568D, G1221S, and L1580P) ABCA3-GFP fusion proteins were established.
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152 In the N568D, G1221S, and L1580P mutant proteins, vanadate-induced nucleotide trapping was significantly decreased to 12, 33, and 9% of that of the wild-type protein, respectively (Fig. 4, A, lanes 5-10, and C).
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157 ATP Binding of ABCA3-GFP and Mutants-To clarify the mechanism of loss of ATP hydrolysis activity of the N568D, G1221S, and L1580P mutant proteins, we examined ATP binding of wild-type ABCA3-GFP and the mutant proteins.
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162 A, 20,000 ϫ g membrane fraction prepared from HEK293 cells stably expressing the wild-type (Wt) ABCA3-GFP (lanes 3 and 4), N568D (lanes 5 and 6), G1221S (lanes 7 and 8), L1580P (lanes 9 and 10), or untransfected HEK293 cells (lanes 1 and 2) was incubated with 10 ␮M 8-azido-[␣- 32 P]ATP in the absence (-) or presence (ϩ) of 0.4 mM orthovanadate (Vi) and 3 mM MgCl2 for 10 min at 37 °C. Proteins were photoaffinity-labeled with UV irradiation after removal of unbound ATP, electrophoresed on SDS-PAGE (5%), and transferred to a PVDF membrane.
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175 However, the levels of photoaffinity labeling of N568D and L1580P mutant proteins were moderately decreased to 60 and 54% of that of wild-type protein, respectively.
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177 These results suggest that decreased ATP binding contributes to impaired ATP hydrolysis in the N568D, L1580P, and L101P mutants but not in the G1221S mutant.
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184 ATP Hydrolysis of Site-directed Mutants of Leu-1580 in NBD-2-Because both leucine and proline are hydrophobic amino acids, alteration of side-chain size could be responsible for the impaired ATP hydrolysis in the L1580P mutant.
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ABCA3 p.Leu1580Pro 16959783:184:213
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198 Substitution of Leu-1580 with Pro, considering the best rotamer conformation, extended the distance from ␥-carbon of Pro-1580 to beta-carbon of Trp-1554 to 5.4 Å (Fig. 8D).
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210 Thus, impaired ATP hydrolysis in the L1580P mutant protein may result in part from the alteration of side-chain size.
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226 In contrast, the N568D, G1221S, and L1580P mutant proteins were localized to intracellular vesicle membrane accompanied by processing of oligosaccharide from high mannose type to complex type as found in wild-type ABCA3 protein.
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227 However, vanadate-induced nucleotide trapping analysis revealed ATP hydrolysis activity to be significantly decreased in N568D, G1221S, and L1580P mutant ABCA3 proteins compared with wild type.
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231 A, 20,000 ϫ g membrane fraction prepared from HEK293 cells stably expressing wild-type (Wt) ABCA3-GFP (lanes 3 and 4), L1580A (lanes 5 and 6), L1580V (lanes 7 and 8), L1580F (lanes 9 and 10), L1580P (lanes 11 and 12), or untransfected HEK293 cells (lanes 1 and 2) was incubated with 10 ␮M 8-azido-[␣-32 P]ATP in the absence (-) or presence (ϩ) of 0.4 mM orthovanadate (Vi) and 3 mM MgCl2 for 10 min at 37 °C. Proteins were photoaffinity-labeled with UV irradiation after removal of unbound ATP, electrophoresed on SDS-PAGE (5%), and transferred to a PVDF membrane.
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ABCA3 p.Leu1580Pro 16959783:231:198
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236 homozygous type II ABCA3 mutations have not been reported, patients with type I/type II compound heterozygous ABCA3 mutations (L982P/G1221S and Ins1518fs/L1580P) died of surfactant deficiency during the neonatal period, and the lamellar bodies of lung tissue from a patient with L982P/G1221S were reported to be smaller than those from normal lung tissue (12).
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ABCA3 p.Leu1580Pro 16959783:236:114
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238 Type II mutations lie in various locations as follows: N568D in the Walker A motif of NBD-1, G1221S in TM-11, and L1580P in NBD-2 (Fig. 1A), and all of these amino acids are conserved in the ABCA subfamily (Fig. 1, B-D).
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ABCA3 p.Leu1580Pro 16959783:238:114
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255 Mutational analysis of Leu-1580 suggested that impaired ATP hydrolysis in the L1580P mutant protein is in part due to the change in side-chain size.
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256 However, because Pro is known as a helix breaker (39), disruption of helix 7 by the introduction of the Pro residue may also contribute to the impaired ATP hydrolysis in the case of the L1580P mutant protein.
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ABCA3 p.Leu1580Pro 16959783:256:186
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209 Thus, impaired ATP hydrolysis in the L1580P mutant protein may result in part from the alteration of side-chain size.
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ABCA3 p.Leu1580Pro 16959783:209:37
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225 In contrast, the N568D, G1221S, and L1580P mutant proteins were localized to intracellular vesicle membrane accompanied by processing of oligosaccharide from high mannose type to complex type as found in wild-type ABCA3 protein.
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ABCA3 p.Leu1580Pro 16959783:225:36
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230 A, 20,000 afb; g membrane fraction prepared from HEK293 cells stably expressing wild-type (Wt) ABCA3-GFP (lanes 3 and 4), L1580A (lanes 5 and 6), L1580V (lanes 7 and 8), L1580F (lanes 9 and 10), L1580P (lanes 11 and 12), or untransfected HEK293 cells (lanes 1 and 2) was incubated with 10 òe;M 8-azido-[ॷ-32 P]ATP in the absence (afa;) or presence (af9;) of 0.4 mM orthovanadate (Vi) and 3 mM MgCl2 for 10 min at 37 &#b0;C. Proteins were photoaffinity-labeled with UV irradiation after removal of unbound ATP, electrophoresed on SDS-PAGE (5%), and transferred to a PVDF membrane.
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ABCA3 p.Leu1580Pro 16959783:230:198
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234 *, p b0d; 0.01 versus wild type. Characterization and Classification of ABCA3 Mutants NOVEMBER 10, 2006ߦVOLUME 281ߦNUMBER 45 JOURNAL OF BIOLOGICAL CHEMISTRY homozygous type II ABCA3 mutations have not been reported, patients with type I/type II compound heterozygous ABCA3 mutations (L982P/G1221S and Ins1518fs/L1580P) died of surfactant deficiency during the neonatal period, and the lamellar bodies of lung tissue from a patient with L982P/G1221S were reported to be smaller than those from normal lung tissue (12).
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ABCA3 p.Leu1580Pro 16959783:234:328
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253 Mutational analysis of Leu-1580 suggested that impaired ATP hydrolysis in the L1580P mutant protein is in part due to the change in side-chain size.
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ABCA3 p.Leu1580Pro 16959783:253:78
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254 However, because Pro is known as a helix breaker (39), disruption of helix 7 by the introduction of the Pro residue may also contribute to the impaired ATP hydrolysis in the case of the L1580P mutant protein.
X
ABCA3 p.Leu1580Pro 16959783:254:186
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PMID: 26186947 [PubMed] Mulugeta S et al: "Lost after translation: insights from pulmonary surfactant for understanding the role of alveolar epithelial dysfunction and cellular quality control in fibrotic lung disease."
No. Sentence Comment
267 Summary of reported phenotypic features for surfactant component mutations Mutation (Domain) Clinical Diagnosis Lung Phenotype (in vivo) Subcellular Localization Trafficking Cellular Responses (in vitro) References SFTPA2 F198S (CRD) G231V (CRD) Familial pulmonary fibrosis Total BAL [SP-A] Normal ER retention Intracellular aggregation Not secreted (af9;) ER stress, cleared by ERAD (af9;) TGFbeta1 elaboration 99, 100, 175 SFTPC Group A1 èc;Exon4 (BRICHOS) L188Q (BRICHOS) G100S (BRICHOS) NSIP (Children) IPF/UIP (Adult) Absence of mature SP-C (humans) Arrested lung development (mice) ER stress (humans; mice) 1Sensitivity to bleomycin (mice) Epithelial cytotoxicity ER retention&#a1; aggresomes Intracellular aggregates ERAD requires Erdj 4/5 MG132 blocks degradation 4-PBA improves aggregates (af9;) ER stress (af9;) Apoptosis (af9;) Incomplete or absent proSP-C processing (af9;) IL-8/TGFbeta1 expression (af9;) Polyubiquitinated isoforms 21, 39, 97, 98, 100, 111, 112, 116, 117, 120, 153, 159, 160, 173, 193 Group A2 L110R (BRICHOS) P115L (BRICHOS) A116D (BRICHOS) Unspecified ILD Unspecified ILD Unspecified chILD Phenotype not reported EEA-1 (af9;); Syntaxin2 (afa;) Intracellular aggregation 2 PC secretion (af9;) Aberrant processing, 2 cell viability 1 HSP response (af9;) Congo red aggregates 160, 193 Group B1 E66K (Linker) I73T (Linker) NSIP/PAP (Child) IPF/UIP (Adult) 1 Phospholipid; 1SP-A, PAS positive staining Biopsy: PM and EE localization Misprocessed SP-C (BAL) Misprocessed SP-B (BAL) Plasma membrane&#a1;EE&#a1;LE/MVB (af9;) Aberrantly processed protein (af9;) Late autophagy block 2 Mitophagy 1 Mysfunctional mitochondria 1, 19, 24, 26, 49, 116, 118, 128, 152 Group B2 èc;91-93 (Non-BRICHOS) NSIP/PAP 2 BAL SP-B 1 BAL SP-A 2 Surfactant surface tension (af9;) Intracellular aggregates (af9;) Congo red staining Plasma membraneߥ EEA1 (af9;) compartmentsߥ Not reported 55, 181 Group C P30L (NH2-terminal) Unspecified ILD Phenotype not reported (af9;) ER retention 1 Bip expression (af9;) Polyubiquitinated isoforms 13, 116, 160 ABCA3 Group I (Trafficking Defective) L101P (1st luminal loop) R280C (1st cytosolic loop) L982P (3rd luminal loop) G1221S (11th TM domain) L1553P (COOH-terminal) Q1591P (COOH-terminal) Surfactant deficiency* RDS* chILDߤ Phenotype not reported Phenotype not reported Phenotype not reported (af9;) ER retention Non-LRO cytosolic vesicles (af9;) ER stress 30, 31, 103, 147, 172, 177 Group II (Functionally Defective) R43L (1st luminal loop) D253H (1st luminal loop) E292V (1st cytosolic loop) N568D (ABC1) E690K (ABC1) T1114M (8thTM domain) T1173R (1st luminal loop) L1580P (COOH-terminal) Surfactant deficiency* RDS* chILD (CPI)ߤ Reduced SP-B and SP-C (afa;) ER retention Lysosomes or LROs (normal) Impaired lipid transport Impaired ATP hydrolysis Impaired ATP binding Abnormal LBs 1 IL8 secretion 20, 25, 103, 104, 147, 148, 177 *Seen with homozygous or compound heterozygous ABCA3 expression; ߤfound with heterozugous ABCA3 expression.
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ABCA3 p.Leu1580Pro 26186947:267:2700
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