Purification and Partial Characterization of a Lutein-Binding Protein from Human Retina

Bhosale, Prakash; Li, Binxing; Sharifzadeh, Mohsen; Gellermann, Werner; Frederick, Jeanne M.; Tsuchida, Kozo; Bernstein, Paul S.

doi:10.1021/bi9004478

Cited by 96 publications

(89 citation statements)

References 42 publications

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“…Taken with the previous reports of heritability in excess of 70%, these findings suggest that genetic factors exert an overwhelming influence on the amount of MP that is deposited in the eye. Given that several specific xanthrophyll-binding proteins have been identified, 38,39 including the Pi isoform of gluthathione S-transferase, 38 it is possible that specific polymorphisms may exist that influence the uptake, metabolism or deposition of L and Z. Indeed, genetic factors are likely to account for part of the variance unaccounted for in studies investigating the relationships between dietary, serum, and macular carotenoid concentrations.…”

Section: Discussionmentioning

confidence: 99%

“…A recent population-based study that looked specifically at the spatial profile of MP using dual-wavelength analysis of autofluorescence images found that a ring-like structure of MP was present in almost 20% of the participants, tended to be bilateral and was significantly more common in females and never smokers. 40 Although substantial progress has been made in understanding mechanisms involved in the uptake, metabolism, and deposition of L and Z, 39,41 it is clearly a complex process. The ratio of L/Z/meso-zeaxanthin varies with retinal profile with Z predominant at the central peak and L predominant in the peripheral retina.…”

Section: Discussionmentioning

confidence: 99%

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Heritability of the spatial distribution and peak density of macular pigment: a classical twin study

Hogg

Ong

Chamberlain

et al. 2012

Eye

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Purpose To elucidate the heritability of peak density and spatial width of macular pigment (MP) using a Classical Twin Study. Methods Fundus autofluorescence images were obtained at 488 nm from 86 subjects or 43 twin pairs (21 monozygotic (MZ) and 22 dizygotic (DZ)) (27 male, 59 female) aged from 55 to 76 years (mean 62.2 ± 5.3 years). The relative topographic distribution of MP was measured using a grey scale of intensity (0-255 units) in a 71 eccentricity around the fovea. Relative peak MP density (rPMPD) and relative spatial distribution of MP (rSDMP) were used as the main outcome measure in the statistical analysis. Results A significantly higher correlation was found within MZ pairs as compared with that within DZ pairs for rPMPD, (r ¼ 0.99, 95% confidence interval (95% CI) 0.93 to 1.00) and 0.22, 95% CI À 0.34 to 0.71), respectively, suggesting strong heritability of this trait. When rSDMP was compared, there was no significant difference between the correlations within MZ pairs (r ¼ 0.48, 95% CI À 0.02 to 0.83) and DZ pairs (r ¼ 0.63, 95% CI 0.32 to 0.83), thus rSDMP is unlikely to have a considerable heritable component. In addition, there was no difference between any MP parameter when normal maculae were compared with early age-related macular degeneration (AMD) (rPMPD 0.36 vs 0.34, t ¼ 1.18 P ¼ 0.243, rSDMP 1.75 vs 1.75, t ¼ 0.028 P ¼ 0.977). Conclusions rPMPD is a strongly heritable trait whereas rSDMP has minimal genetic influence and a greater influence by environmental factors. The presence of macular changes associated with early AMD did not appear to influence any of these pigment parameters.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Heritability of the spatial distribution and peak density of macular pigment: a classical twin study

Hogg

Ong

Chamberlain

et al. 2012

Eye

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“…The antibody to B. mori CBP has cross-reactivity to macular carotenoid transporter identified from human retina and layers of the primate macula where the macular carotenoid pigment is at its highest concentration (15). The human macular carotenoid transporter StARD3 (also known as MLN64) was discovered by Bernstein et al in 2009 (16).…”

Section: The Human Macular Carotenoid Transporter Discovered Using Anmentioning

confidence: 99%

Can the silkworm (<i>Bombyx mori</i>) be used as a human disease model?

Tabunoki

Bono

Ito

et al. 2016

DD&T

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“…Bhosale et al characterized a zeaxanthin-binding protein Pi isoform of human glutathione S-transferase (GSTP1) (26). Steroidogenic acute regulatory domain 3 (stARD3) was identified as a lutein-binding protein (27,28). stARD was shown to be expressed in mitochondria (29).…”

Section: Discussionmentioning

confidence: 99%

Intracellular Uptake Mechanism of Lutein in Retinal Pigment Epithelial Cells

et al. 2013

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-Purpose. Lutein is a carotenoid mainly found in green leafy vegetables and is located in the macula lutea in the human eye. It has received much attention recently due to its preventive effect on age-related macular degeneration, and it has been consumed as a supplement. However, little information about the pharmacokinetic properties of lutein is available. Detailed knowledge of pharmacokinetic properties of lutein is needed for the development of pharmaceutics. In this study, we focused on the macular accumulation of lutein and investigated the uptake mechanism into human retinal pigment epithelial cells. Methods. ARPE-19 cells were used for the study on the accumulation mechanism of lutein. The concentration of lutein was determined using an HPLC system. Involvement of scavenger class B type 1 (SR-B1) in the accumulation of lutein in ARPE-19 cells was suggested from the results of an inhibition study using block lipid transport 1 (BLT-1), a selective inhibitor of SR-B1. To investigate the involvement of SR-B1 in more detail, small interfering RNA (siRNA) was transfected and the mRNA and protein expression levels of SR-B1 were assessed by quantitative real-time reverse transcription polymerase chain reaction and Western blotting, respectively. Results. We confirmed a sufficient siRNA knockdown effect in both mRNA and protein expression levels of SR-B1. We then found that lutein uptake was significantly decreased by siRNA knockdown of SR-B1. Conclusion. The uptake of lutein was significantly decreased by 40% compared with the control uptake level. This suggested that active transport of lutein into ARPE-19 cells is mainly via SR-B1, given the result that lutein uptake at 4ºC was about 40% less that that at 37ºC.

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Purification and Partial Characterization of a Lutein-Binding Protein from Human Retina

Cited by 96 publications

References 42 publications

Heritability of the spatial distribution and peak density of macular pigment: a classical twin study

Heritability of the spatial distribution and peak density of macular pigment: a classical twin study

Can the silkworm (<i>Bombyx mori</i>) be used as a human disease model?

Intracellular Uptake Mechanism of Lutein in Retinal Pigment Epithelial Cells

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