ABCMdb

ABCA4 p.Gln636His

ClinVar:	c.1908G>T , p.Gln636His ? , not provided
Predicted by SNAP2:	A: N (53%), C: N (53%), D: N (66%), E: N (78%), F: N (53%), G: N (61%), H: D (80%), I: N (66%), K: N (78%), L: N (61%), M: N (66%), N: N (78%), P: N (61%), R: N (78%), S: N (78%), T: N (78%), V: N (66%), W: D (66%), Y: N (61%),
Predicted by PROVEAN:	A: D, C: D, D: D, E: D, F: D, G: D, H: D, I: D, K: D, L: D, M: D, N: D, P: D, R: D, S: D, T: D, V: D, W: D, Y: D,

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[hide] Spectrum of ABCR gene mutations in autosomal reces... Eur J Hum Genet. 1998 May-Jun;6(3):291-5. Rozet JM, Gerber S, Souied E, Perrault I, Chatelin S, Ghazi I, Leowski C, Dufier JL, Munnich A, Kaplan J
Spectrum of ABCR gene mutations in autosomal recessive macular dystrophies.
Eur J Hum Genet. 1998 May-Jun;6(3):291-5., [PMID:9781034]

Abstract [show]
Stargardt disease (STGD) and late-onset fundus flavimaculatus (FFM) are autosomal recessive conditions leading to macular degenerations in childhood and adulthood, respectively. Recently, mutations of the photoreceptor cell-specific ATP binding transporter gene (ABCR) have been reported in Stargardt disease. Here, we report on the screening of the whole coding sequence of the ABCR gene in 40 unrelated STGD and 15 FFM families and we show that mutations truncating the ABCR protein consistently led to STGD. Conversely, all mutations identified in FFM were missense mutations affecting uncharged amino acids. These results provide the first genotype-phenotype correlations in ABCR gene mutations.

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45 Furthermore, all ABCR missense mutations Table 1 Mutations in the ABCR gene in STGD and FFM families Conserved aa in: Nucleotide change Amino acid change Domain ABCs RmP Phenotype Families Comment (571-2)A®G splicing mutation STGD 1 HAD1 (1938-2)A®G splicing mutation STGD 1 (4668+2)T®C splicing mutation STGD 1 (4735+2)T®A splicing mutation STGD 1 del(5196+1-5196+6 splicing mutation STGD 1 LOZ2 2570 delT frameshift mutation STGD 1 3209insGT frameshift mutation STGD 2 CHE2 G3754T E1252X STGD 1 C3994T Q1332X STGD 1 C6337G I2113X STGD 1 JEG2 C52T R18W IC - + STGD 1 C634T R212C EC - + STGD 5 GEN2, JEG2 G1908T Q636H IC - + STGD 1 LOZ2 C3056T T1019M IC - + STGD 1 C3322T R1107C IC - + STGD 1 JUL2 C4916T R1640W IC + + STGD 2 MAR1 G5929A G1977S ATP2 + + STGD 1 GEN2 G6320A R2107H IC + + STGD 1 JUL2 C3114T A1038V IC - + STGD 2 CHE2 +FFM +1 VII2 T1622C L541P EC - + FFM 1 VII2 T31C L11P IC + + FFM 1 G3272A G1090E IC + + FFM 1 G4522T G1508C IC + + FFM 1 C5908T L1970F IC + + FFM 1 GON2 T5912G L1971R IC + + FFM 1 GON2 Mutations refer to the standard nomenclature. Login to comment

[hide] G1961E mutant allele in the Stargardt disease gene... Exp Eye Res. 2009 Jun 15;89(1):16-24. Epub 2009 Feb 13. Cella W, Greenstein VC, Zernant-Rajang J, Smith TR, Barile G, Allikmets R, Tsang SH
G1961E mutant allele in the Stargardt disease gene ABCA4 causes bull's eye maculopathy.
Exp Eye Res. 2009 Jun 15;89(1):16-24. Epub 2009 Feb 13., [PMID:19217903]

Abstract [show]
The aim of this study was to characterize the pathological and functional consequences of the G1961E mutant allele in the Stargardt disease gene ABCA4. Data from 15 patients were retrospectively reviewed and all the patients had at least one G1961E mutation. Comprehensive ophthalmic examination, full-field and pattern electroretinograms, and fundus autofluorescence (FAF) imaging were performed on all patients. Microperimetry, spectral-domain optical coherence tomography (OCT), and fluorescein angiography were performed in selected cases. Genetic screening was performed using the ABCR400 micro-array that currently detects 496 distinct ABCA4 variants. All patients had normal full-field scotopic and photopic electroretinograms (ERGs) and abnormal pattern electroretinograms (PERGs) performed on both eyes, and all the fundi had bull's eye maculopathy without retinal flecks on FAF. On OCT, 1 patient had disorganization of photoreceptor outer segment, 2 had outer nuclear layer (ONL) thinning likely due to photoreceptor atrophy proximal to the foveal center, and 3 had additional retinal pigment epithelium (RPE) atrophy. On microperimetry, 6 patients had eccentric superior fixation and amongst this group, 5 had an absolute scotoma in the foveal area. DNA analysis revealed that 3 patients were homozygous G1961E/G1961E and the rest were compound heterozygotes for G1961E and other ABCA4 mutations. The G1961E allele in either homozygosity or heterozygosity is associated with anatomical and functional pathologies limited to the parafoveal region and a trend to delayed onset of symptoms, relative to other manifestations of ABCA4 mutations. Our observations support the hypothesis that the G1961E allele contributes to localized macular changes rather than generalized retinal dysfunction, and is a cause of bull's eye maculopathy in either the homozygosity or heterozygosity state. In addition, genetic testing provides precise diagnosis of the underlying maculopathy, and current non-invasive imaging techniques could be used to detect photoreceptor damage at the earliest clinical onset of the disease.

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89 Of the compound heterozygous group, 5 patients from 2 families had the complex mutation L541P/A1038V, 2 patients (siblings) had the splicing mutation IVS20 þ 5G / A, and 5 patients had missense mutations Q636H, R2077W, T1253M, C54Y and D1532N (Table 1). Login to comment
131 In 5 patients (patients 7-11), missense mutations Q636H, R2077W, T1253M, C54Y and D1532N were found in addition to the G1961E allele, respectively. Login to comment
142 Case #, sex Age of onset Duration (years) Visual acuity (OD, OS) Allele 2 Bull`s eye type (FAF) SD-OCT MP-1 1, f 20 1 20/25, 20/40 G1961E (homozygous) B Not tested Not tested 2, f 49 13 20/200, 20/150 G1961E (homozygous) B Photoreceptor loss, thinner ONL and RPE atrophy Absolute scotoma in the central 4 degrees OD and in the central 6 degrees OS, eccentric PRL (superior retina) 3, m 19 13 20/70, 20/70 G1961E (homozygous) A Not tested Absolute scotoma in the central 6 degrees in both eyes, eccentric PRL (superior retina) 4.1, f 17 30 20/200, 20/200 L541P/A1038V B Not tested Not tested 4.2, m 28 2 20/25, 20/30 L541P/A1038V B Not tested Decreased sensitivity by 6 dB in the central 2 degrees in both eyes, foveal fixation 4.3, m 28 2 20/30, 20/40 L541P/A1038V B Not tested Decreased sensitivity by 9 dB OD and 11 dB OS in the central 2 degrees, foveal fixation 5.1, f 14 5 20/200, 20/400 L541P/A1038V C Photoreceptor loss (foveal optical gap), thinner ONL and normal RPE Decreased sensitivity by 8 dB in the central 2 degrees in both eyes, eccentric PRL (superior retina) 5.2, f 14 1 20/20, 20/25 L541P/A1038V A Photoreceptor disorganization, normal ONL and normal RPE Decreased sensitivity by 6 dB in the central 2 degrees in both eyes, foveal fixation 6.1, f 17 5 20/100, 20/100 IVS20 þ 5G / A C Photoreceptor loss, thinner ONL and RPE atrophy Absolute scotoma in the central 2 degrees in both eyes, eccentric PRL (superior retina) 6.2, m 14 3 20/40, 20/25 IVS20 þ 5G / A A Photoreceptor loss (foveal optical gap), thinner ONL and normal RPE Absolute scotoma in the central 2 degrees OD and decreased sensitivity by 18 dB in the central 2 degrees OS, eccentric PRL (superior retina) 7, m 28 12 20/200, 20/150 Q636H B Photoreceptor loss, thinner ONL and RPE atrophy Not tested 8, f 25 9 20/80, 20/25 R2077W B Not tested Not tested 9, m 67 2 20/800, 20/60 T1253M B Not tested Not tested 10, f 26 10 20/80, 20/80 C54Y B Not tested Not tested 11, f 44 20 20/400, 20/60 D1532N C Not tested Absolute scotoma in the central 8-10 degrees OD and absolute scotoma in the central 8 degrees OS, eccentric PRL (superior retina) Abbreviations: m, male; f, female; OD, right eye; OS, left eye; FAF, fundus autofluorescence; bull`s eye type A, presence of a ring of increase autofluorescence surrounding decreased autofluorescence; bull`s eye type B, decreased fovea autofluorescence without a surrounding ring of increase autofluorescence; bull`s eye type C, speckled macular appearance with slightly increased surround autofluorescence; SD-OCT, spectral-domain optical coherence tomography; ONL, outer nuclear layer; MP-1, microperimetry; and PRL, preferred retinal location. Login to comment
180 Visual acuity level related to disease duration was also observed in patients 7, 10 and 11 with missense mutations Q636H, C54Y and D1532N. Login to comment
182 An exception was patient 9 with the missense mutation T1253M that imparts an amino acid change outside of ABCA4 functional domain and presented with poor visual acuity but uncertain disease duration. Login to comment
143 Case #, sex Age of onset Duration (years) Visual acuity (OD, OS) Allele 2 Bull`s eye type (FAF) SD-OCT MP-1 1, f 20 1 20/25, 20/40 G1961E (homozygous) B Not tested Not tested 2, f 49 13 20/200, 20/150 G1961E (homozygous) B Photoreceptor loss, thinner ONL and RPE atrophy Absolute scotoma in the central 4 degrees OD and in the central 6 degrees OS, eccentric PRL (superior retina) 3, m 19 13 20/70, 20/70 G1961E (homozygous) A Not tested Absolute scotoma in the central 6 degrees in both eyes, eccentric PRL (superior retina) 4.1, f 17 30 20/200, 20/200 L541P/A1038V B Not tested Not tested 4.2, m 28 2 20/25, 20/30 L541P/A1038V B Not tested Decreased sensitivity by 6 dB in the central 2 degrees in both eyes, foveal fixation 4.3, m 28 2 20/30, 20/40 L541P/A1038V B Not tested Decreased sensitivity by 9 dB OD and 11 dB OS in the central 2 degrees, foveal fixation 5.1, f 14 5 20/200, 20/400 L541P/A1038V C Photoreceptor loss (foveal optical gap), thinner ONL and normal RPE Decreased sensitivity by 8 dB in the central 2 degrees in both eyes, eccentric PRL (superior retina) 5.2, f 14 1 20/20, 20/25 L541P/A1038V A Photoreceptor disorganization, normal ONL and normal RPE Decreased sensitivity by 6 dB in the central 2 degrees in both eyes, foveal fixation 6.1, f 17 5 20/100, 20/100 IVS20 &#fe; 5G / A C Photoreceptor loss, thinner ONL and RPE atrophy Absolute scotoma in the central 2 degrees in both eyes, eccentric PRL (superior retina) 6.2, m 14 3 20/40, 20/25 IVS20 &#fe; 5G / A A Photoreceptor loss (foveal optical gap), thinner ONL and normal RPE Absolute scotoma in the central 2 degrees OD and decreased sensitivity by 18 dB in the central 2 degrees OS, eccentric PRL (superior retina) 7, m 28 12 20/200, 20/150 Q636H B Photoreceptor loss, thinner ONL and RPE atrophy Not tested 8, f 25 9 20/80, 20/25 R2077W B Not tested Not tested 9, m 67 2 20/800, 20/60 T1253M B Not tested Not tested 10, f 26 10 20/80, 20/80 C54Y B Not tested Not tested 11, f 44 20 20/400, 20/60 D1532N C Not tested Absolute scotoma in the central 8-10 degrees OD and absolute scotoma in the central 8 degrees OS, eccentric PRL (superior retina) Abbreviations: m, male; f, female; OD, right eye; OS, left eye; FAF, fundus autofluorescence; bull`s eye type A, presence of a ring of increase autofluorescence surrounding decreased autofluorescence; bull`s eye type B, decreased fovea autofluorescence without a surrounding ring of increase autofluorescence; bull`s eye type C, speckled macular appearance with slightly increased surround autofluorescence; SD-OCT, spectral-domain optical coherence tomography; ONL, outer nuclear layer; MP-1, microperimetry; and PRL, preferred retinal location. Login to comment

[hide] Macular pigment and visual acuity in Stargardt mac... Graefes Arch Clin Exp Ophthalmol. 2002 Oct;240(10):802-9. Epub 2002 Sep 14. Zhang X, Hargitai J, Tammur J, Hutchinson A, Allikmets R, Chang S, Gouras P
Macular pigment and visual acuity in Stargardt macular dystrophy.
Graefes Arch Clin Exp Ophthalmol. 2002 Oct;240(10):802-9. Epub 2002 Sep 14., [PMID:12397427]

Abstract [show]
PURPOSE: To test the hypothesis that macular pigment reflects foveal cone function and possibly the presence of foveal cones in recessive Stargardt macular dystrophy. METHODS: Sixteen patients (32 eyes) diagnosed to have Stargardt macular dystrophy by clinical criteria were studied with a scanning laser ophthalmoscope (SLO) comparing argon laser blue (488 nm), green (514), helium-neon laser red (633 nm) and infrared diode laser (780 nm) images for the presence or absence of macular pigment in the fovea. Fifteen of the patients were screened for mutations in the ABCR gene. Eyes were graded into three categories: those without foveal macular pigment, those with partial pigment and those with normal amounts of macular pigment. These categories were compared with visual acuity determined by the Snellen chart. RESULTS: All patients with a visual acuity of 20/200 or worse had no macular pigment in the fovea. All patients with visual acuity of 20/40 or better had a normal amount of macular pigment in the fovea. Patients with partial macular pigment had intermediary acuity values except for two eyes, one with 20/20 and another with 20/200 acuity. Infrared light revealed more retinal abnormalities than blue light at early stages of the disease. CONCLUSION: Foveal macular pigment is related to foveal cone acuity in Stargardt macular dystrophy and may be a marker for the presence of foveal cones. Infrared light is a sensitive monitor of early Stargardt macular dystrophy.

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54 Blue light images (A, C); infrared images (B, D) Table 1 Visual acuity, macular pigment and ABCR mutations in patients with Stargardt dystrophy Patient Age/Sex Visual Acuity Macular Pigment Exon Allele 1 Exon Allele 2 OD OS OD OS 1 33F 0.67 0.38 + + ND ND 2 36F 1 0.5 + + ND ND 3 54F 0.48 0.6 + + 42 G1961E 42 G1061E 4 11M 0.8 1 + + NS NS 5 33F 0.67 0.4 +- + 20 V989A ND 6 12F 0.5 0.2 +- +- 30 C1490Y 40 GIVS+5A 7 47M 0.5 0.4 +- +- 17 G863A/R943Q 45 R2077W 8 53M 0.1 1 +- +- 14 W663X ND 9 29F 0.1 0.1 +- +- 26 3819insT ND 10 43M 0.005 0.005 - - 17 G863A/R943Q ND 11 32F 0.1 0.1 - - 19 N965S ND 12 29F 0.005 0.005 - - 23 R1129H ND 13 30F 0.1 0.1 - - 5 R152Q ND 14 63F 0.1 0.1 - - 42 G1961E ND 15 36M 0.07 0.1 - +- 13 Q636H 42 G1961E 16 41F 0.005 0.005 - - 12 L514P/A1038V ND NS: Not screened; ND: Not detected + Normal macular pigment; +- Partial macular pigment; - Absent macular pigment absorption of infrared light in the center of the macula where maximum absorption of blue light occurs, implying that the macula pigments in this subject`s foveas are normal. Login to comment

[hide] Distinct characteristics of inferonasal fundus aut... Invest Ophthalmol Vis Sci. 2013 Oct 17;54(10):6820-6. doi: 10.1167/iovs.13-12895. Duncker T, Lee W, Tsang SH, Greenberg JP, Zernant J, Allikmets R, Sparrow JR
Distinct characteristics of inferonasal fundus autofluorescence patterns in stargardt disease and retinitis pigmentosa.
Invest Ophthalmol Vis Sci. 2013 Oct 17;54(10):6820-6. doi: 10.1167/iovs.13-12895., [PMID:24071957]

Abstract [show]
PURPOSE: To report distinct characteristics of fundus autofluorescence (AF) patterns inferior to the optic disc in recessive Stargardt disease (STGD1) and retinitis pigmentosa (RP). METHODS: Short-wavelength (SW) and near-infrared (NIR) AF images were acquired from patients with STGD1 and RP. In SW- and NIR-AF images of STGD1 patients, gray levels (GL) on both sides of the demarcation line were measured. RESULTS: In STGD1, a demarcation line, which has been assigned to the closed optic fissure, was visible on SW-AF and NIR-AF inferior to the optic disc. In healthy subjects, this demarcation line is only visible by SW-AF. At 20 degrees inferior to the disc center, AF levels on the nasal side were 25% (+/-11%) lower than on the temporal side in SW-AF images and 18% (+/-11%) lower in NIR-AF images. For both STGD1 and RP, the inferonasal quadrant exhibited distinct SW- and NIR-AF patterns compared with other fundus areas. Disease-related AF changes, such as flecks, appeared to respect the demarcation line as a boundary. CONCLUSIONS: Disease-related AF patterns originating in RPE in STGD1 and RP appear to respect the demarcation line in the inferonasal quadrant of the fundus as a border. The visibility of the inferonasal demarcation line by NIR-AF in STGD1 but not in healthy eyes may indicate that increased levels of RPE lipofuscin modulate the melanin-related NIR-AF signal. This feature of NIR-AF images may aid in the diagnosis of STGD1 patients.

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51 Summary of Demographic, Clinical, and Genetic Data Patient Condition ABCA4 Mutations Sex Age, y Eye Iris Color Race/Ethnicity BCVA Snellen (logMAR) P1 STGD1 p.P1380L, p.G1961E M 12 OS Blue White 20/100 (0.70) P2 STGD1 p.P1380L, p.G1961E F 17 OS Brown White 20/150 (0.88) P3 STGD1 p.Q1003X, p.G1961E M 25 OS Brown White 20/40 (0.30) P4 STGD1 p.C54Y F 48 OD Blue White 20/30 (0.20) P5 STGD1 p.R2077W F 52 OD Blue White 20/40 (0.30) P6 STGD1 p.[L541P;A1038V] M 13 OS Brown White 20/150 (0.88) P7 STGD1 p.T972N, p.L2027F F 14 OS Blue White 20/80 (0.60) P8 STGD1 c.4537_4538insC, p.V1686M M 49 OS Brown White 20/50 (0.40) P9 STGD1 p.R1108H, p.P1380L M 50 OS Blue White 20/200 (1.00) P10 STGD1 c.5714&#fe;5G>A F 34 OD Blue White 20/200 (1.00) P11 STGD1 p.Q636H, p.G1961E M 46 OD Brown Indian 20/400 (1.30) P12 STGD1 c.5461-10T>C M 35 OD Brown Black 20/400 (1.30) P13 STGD1 p.R1640W F 20 OD Brown Black 20/125 (0.80) P14 STGD1 p.R290W M 47 OS Brown White 20/40 (0.30) P15 STGD1 p.A1773V, p.G1961E M 18 OD Brown White 20/150 (0.88) P16 AD RP p.T17M* F 23 OD Brown Hispanic 20/30 (0.20) P17 AD RP N/A M 39 OS Brown White 20/20 (0.00) P18 AR RP N/A M 50 OS Green White 20/20 (0.00) AD, autosomal dominant; AR, autosomal recessive; BCVA, best corrected visual acuity; F, female; logMAR, logarithm of the minimum angle of resolution; M, male; N/A, not available. Login to comment

[hide] Quantitative fundus autofluorescence in recessive ... Invest Ophthalmol Vis Sci. 2014 May 1;55(5):2841-52. doi: 10.1167/iovs.13-13624. Burke TR, Duncker T, Woods RL, Greenberg JP, Zernant J, Tsang SH, Smith RT, Allikmets R, Sparrow JR, Delori FC
Quantitative fundus autofluorescence in recessive Stargardt disease.
Invest Ophthalmol Vis Sci. 2014 May 1;55(5):2841-52. doi: 10.1167/iovs.13-13624., [PMID:24677105]

Abstract [show]
PURPOSE: To quantify fundus autofluorescence (qAF) in patients with recessive Stargardt disease (STGD1). METHODS: A total of 42 STGD1 patients (ages: 7-52 years) with at least one confirmed disease-associated ABCA4 mutation were studied. Fundus AF images (488-nm excitation) were acquired with a confocal scanning laser ophthalmoscope equipped with an internal fluorescent reference to account for variable laser power and detector sensitivity. The gray levels (GLs) of each image were calibrated to the reference, zero GL, magnification, and normative optical media density to yield qAF. Texture factor (TF) was calculated to characterize inhomogeneities in the AF image and patients were assigned to the phenotypes of Fishman I through III. RESULTS: Quantified fundus autofluorescence in 36 of 42 patients and TF in 27 of 42 patients were above normal limits for age. Young patients exhibited the relatively highest qAF, with levels up to 8-fold higher than healthy eyes. Quantified fundus autofluorescence and TF were higher in Fishman II and III than Fishman I, who had higher qAF and TF than healthy eyes. Patients carrying the G1916E mutation had lower qAF and TF than most other patients, even in the presence of a second allele associated with severe disease. CONCLUSIONS: Quantified fundus autofluorescence is an indirect approach to measuring RPE lipofuscin in vivo. We report that ABCA4 mutations cause significantly elevated qAF, consistent with previous reports indicating that increased RPE lipofuscin is a hallmark of STGD1. Even when qualitative differences in fundus AF images are not evident, qAF can elucidate phenotypic variation. Quantified fundus autofluorescence will serve to establish genotype-phenotype correlations and as an outcome measure in clinical trials.

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80 [L541P; A1038V] 356 354 1.7 1.8 5 F 14 1 0.60 0.60 II II p.L2027F; p.T972N 737 718 2.3 2.6 6 M 45 31 1.00 0.88 I I p.G1961E; p.P1380L 623 543 4.2 4.0 7 F 42 5 0.30 CF - I p.E1252* 557 2.1 8 M 15 4 0.80 0.80 II II p.L2027F; p.R2077W 728 697 3.2 3.2 9 F 24 2 0.60 0.40 II II p.R1161S 571 647 3.8 3.5 10 M 46 15 1.30 1.30 I I p.G1961E; p.Q636H 394 351 2.3 2.4 11.1 M 12 2 1.00 1.00 II - p. Login to comment