Structure of biomimetic casein micelles: Critical tests of the hydrophobic colloid and multivalent-binding models using recombinant deuterated and phosphorylated β-casein

IF 3.5 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Structural Biology: X Pub Date : 2024-01-22 DOI:10.1016/j.yjsbx.2024.100096
Jared K. Raynes , Jitendra Mata , Karyn L. Wilde , John A. Carver , Sharon M. Kelly , Carl Holt
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Abstract

Milk contains high concentrations of amyloidogenic casein proteins and is supersaturated with respect to crystalline calcium phosphates such as apatite. Nevertheless, the mammary gland normally remains unmineralized and free of amyloid. Unlike κ-casein, β- and αS-caseins are highly effective mineral chaperones that prevent ectopic and pathological calcification of the mammary gland. Milk invariably contains a mixture of two to five different caseins that act on each other as molecular chaperones. Instead of forming amyloid fibrils, several thousand caseins and hundreds of nanoclusters of amorphous calcium phosphate combine to form fuzzy complexes called casein micelles. To understand the biological functions of the casein micelle its structure needs to be understood better than at present. The location in micelles of the highly amyloidogenic κ-casein is disputed. In traditional hydrophobic colloid models, it, alone, forms a stabilizing surface coat that also determines the average size of the micelles. In the recent multivalent-binding model, κ-casein is present throughout the micelle, in intimate contact with the other caseins. To discriminate between these models, a range of biomimetic micelles was prepared using a fixed concentration of the mineral chaperone β-casein and nanoclusters of calcium phosphate, with variable concentrations of κ-casein. A biomimetic micelle was also prepared using a highly deuterated and in vivo phosphorylated recombinant β-casein with calcium phosphate and unlabelled κ-casein. Neutron and X-ray scattering experiments revealed that κ-casein is distributed throughout the micelle, in quantitative agreement with the multivalent-binding model but contrary to the hydrophobic colloid models.

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仿生酪蛋白胶束的结构:使用重组氘化和磷酸化 β -酪蛋白对疏水胶体和多价结合模型进行关键测试
牛奶中含有高浓度的致淀粉样蛋白的酪蛋白,并含有过饱和的结晶钙磷酸盐,如磷灰石。不过,乳腺通常不会矿化,也不含淀粉样蛋白。与κ-酪蛋白不同,β-和α-S-酪蛋白是高效的矿物质伴侣,可防止乳腺发生异位和病理性钙化。牛奶中无一例外地含有两到五种不同酪蛋白的混合物,这些酪蛋白相互之间起着分子伴侣的作用。几千个酪蛋白和数百个无定形磷酸钙纳米簇结合成模糊的复合物,称为酪蛋白胶束,而不是形成淀粉样纤维。要了解酪蛋白胶束的生物功能,就必须对其结构有更深入的了解。高度淀粉样化的κ-酪蛋白在胶束中的位置存在争议。在传统的疏水胶体模型中,κ-酪蛋白单独形成一层稳定的表面包膜,这也决定了胶束的平均大小。在最新的多价结合模型中,κ-酪蛋白存在于整个胶束中,与其他酪蛋白亲密接触。为了区分这些模型,我们使用固定浓度的矿物伴侣β-酪蛋白和纳米磷酸钙簇以及不同浓度的κ-酪蛋白制备了一系列仿生胶束。此外,还利用高度氚化和体内磷酸化的重组β-酪蛋白与磷酸钙和未标记的κ-酪蛋白制备了一种仿生物胶束。中子和 X 射线散射实验显示,κ-酪蛋白分布在整个胶束中,这与多价结合模型在数量上一致,但与疏水胶体模型相反。
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来源期刊
Journal of Structural Biology: X
Journal of Structural Biology: X Biochemistry, Genetics and Molecular Biology-Structural Biology
CiteScore
6.50
自引率
0.00%
发文量
20
审稿时长
62 days
期刊最新文献
Corrigendum to “Minimizing ice contamination during specimen preparation for cryo-soft X-ray tomography and cryo-electron tomography” [J. Struct. Biol.: X 10(2024) 100113] Structural analysis of the stable form of fibroblast growth factor 2 – FGF2-STAB Localization of albumin with correlative super resolution light- and electron microscopy in the kidney Minimizing ice contamination during specimen preparation for cryo-soft X-ray tomography and cryo-electron tomography Assessment of submicron bone tissue composition in plastic-embedded samples using optical photothermal infrared (O-PTIR) spectral imaging and machine learning
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