Vitamin D in Clinical Medicine. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: Ingram
Серия: Frontiers of Hormone Research
Жанр произведения: Биология
Год издания: 0
isbn: 9783318063394
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      DBP Functions

      Vitamin D Metabolite Transport

      The main role of DBP is the transport of vitamin D metabolites [17]. Steroid hormones are lipophilic and need to be carried by a protein to become soluble in the bloodstream. Therefore, after cutaneous synthesis, vitamin D is transported bound to DBP. In the liver, it is converted into 25(OH)D by the action of vitamin D 25-hydroxylase (CYP21R) and re-enters the bloodstream where it circulates once more, mainly bound to DBP. This is the metabolite measured to establish vitamin D status; however, it is not the active form. To be converted into 1,25(OH)2D in the kidney, the DBP-bound 25(OH)D needs to undergo endocytosis by the proximal tubular cells. The process is mediated by megalin, a large transmembrane protein, and facilitated by two others, cubilin and disabled-2. In the kidney, 1,25(OH)2D is synthesized by the action of CYP27B1. The active form is transported bound to DBP.

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      Both 25(OH)D and 1,25(OH)2D circulate bound to DBP (85–90%) or to albumin (10–15%) or in the free form (<1%). DBP’s affinity for vitamin D metabolites is much greater than that of albumin [16]. DBP’s measured affinity constant for 25(OH)D is 7 × 108M–1 and for 1,25(OH)2D it is 4 × 107M–1, while ALB is 6 × 105 and 5.4 × 105M–1, respectively [17]. DBP binding reduces hepatic degradation of vitamin D metabolites, increasing the circulating half-life, and it limits the access of target cells to them [2].

      DBP circulates in the bloodstream at higher levels than vitamin D metabolites and less than 5% of the protein’s sterol binding sites are occupied [1, 12]. The molar excess suggests that DBP could act as a protective mechanism against vitamin D toxicity, but also that the protein is involved in other physiological functions.

      Other DBP Functions

      Actin Scavenger System

      Actin is an important cytoskeletal protein, highly conserved in eukaryotic cells. Two main forms of the protein are described, a monomeric globular form (G-actin) and a linear polymeric form called F-actin. Once in the extracellular compartment, actin polymerizes in the filamentary form [2]. The polymer may cause coagulation cascade activation, vascular obstruction, and cellular dysfunction. Actin is released by tissue injury and cell death, and DBP is able to bind to it with high affinity and to prevent filament formation [18]. In conjunction with gelsolin, another serum protein, DBP forms an actin scavenger system. It is able to rapidly sequester free actin from circulation, and the major DBP polymorphisms have equal binding affinity. It is possible that the molar excess of the protein is related to this function [2].

      Fatty Acid Transport

      All the members of the albumin superfamily of binding proteins are able to transport free fatty acids (FFA). ALB has several low- and high-affinity binding sites for FFA, while DBP has a single high-affinity binding site. ALB is also much more abundant in the plasma, which results in DBP having only a contributory role. The binding of unsaturated FFA reduces DBP affinity for vitamin D metabolites, but this effect is not observed for saturated FFA [17]. These variations are a result of the specific conformational changes induced for each FFA in DBP [2].

      DBP-Macrophage Activation Factor