Molecular Control of Phosphorus Homeostasis and Precision Treatment of Hypophosphatemic Disorders.

Current molecular biology reports Pub Date : 2019-06-01 Epub Date: 2019-02-09 DOI:10.1007/s40610-019-0118-1
Thomas J Weber, L Darryl Quarles
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引用次数: 10

Abstract

Purpose of review: Serum phosphorus is maintained in a narrow range by balancing dietary phosphate absorption, influx and efflux of phosphorus from bone and intracellular stores, and renal reabsorption of filtered phosphate. Acute hypophosphatemia, typically caused by transient increases in cellular uptake, can lead to severe complications such as cardiopulmonary dysfunction and rhabdomyolysis that can warrant parenteral phosphate repletion. Chronic hypophosphatemia, however, generally represents true phosphate deficiency and may result in long-term metabolic and skeletal complications, particularly in children due to the critical importance of phosphorus to skeletal mineralization and longitudinal growth.

Recent findings: In addition to the well characterized roles of vitamin D and parathyroid hormone (PTH), a new bone-kidney axis has been discovered that regulates phosphate homeostasis through the bone-derived hormone Fibroblast Growth Factor 23 (FGF23) and its phosphaturic actions that are mediated by activation of fibroblast growth factor receptors (FGFRs) complexed with α-Klotho in renal tubules. Chronic hypophosphatemia can now be classified as FGF23 dependent or independent.

Summary: In cases of FGF23 dependent hypophosphatemia, traditional non-specific treatments with elemental phosphorus and 1,25(OH)2 vitamin D (calcitriol) can now be replaced with a targeted approach by using an FGF-23 blocking antibody (Burosumab).

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磷稳态的分子调控与低磷血症的精准治疗。
综述目的:血清磷通过平衡膳食磷酸盐吸收、骨内和细胞内储存的磷流入和流出以及肾脏对过滤后磷酸盐的重吸收来维持在一个狭窄的范围内。急性低磷血症通常由细胞摄取的短暂性增加引起,可导致严重的并发症,如心肺功能障碍和横纹肌溶解,这可能需要肠外磷酸盐补充。然而,慢性低磷血症通常代表真正的磷酸盐缺乏,并可能导致长期的代谢和骨骼并发症,特别是在儿童中,因为磷对骨骼矿化和纵向生长至关重要。最近的发现:除了维生素D和甲状旁腺激素(PTH)的作用外,已经发现了一种新的骨肾轴,它通过骨源性激素成纤维细胞生长因子23 (FGF23)及其磷酸化作用调节磷酸盐稳态,该磷酸化作用是由肾小管中成纤维细胞生长因子受体(FGFRs)与α-Klotho复合物的激活介导的。慢性低磷血症现在可分为FGF23依赖型和独立型。摘要:在FGF23依赖性低磷血症的病例中,传统的元素磷和1,25(OH)2维生素D(骨化三醇)的非特异性治疗现在可以通过使用FGF-23阻断抗体(Burosumab)替代。
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