The Molecular Mechanisms Underlying the Systemic Effects Mediated by Parathormone in the Context of Chronic Kidney Disease

背景(考古学) 肾脏疾病 甲状旁腺激素 医学 维生素D与神经学 骨重建 内分泌学 内科学 成纤维细胞生长因子23 骨吸收 疾病 生物 古生物学
作者
Minela Aida Maranducă,Cristian Tudor Cozma,Andreea Clim,Alin Constantin Pînzariu,Ionuț Tudorancea,Irene Paula Popa,Cristina Iuliana Lazar,Roxana Moscalu,Nina Filip,Mihaela Moscalu,Mihai Constantin,Dragoş Viorel Scripcariu,Dragomir Nicolae Șerban,Ionela Lăcrămioara Șerban
出处
期刊:Current Issues in Molecular Biology [Caister Academic Press]
卷期号:46 (5): 3877-3905 被引量:4
标识
DOI:10.3390/cimb46050241
摘要

Chronic kidney disease (CKD) stands as a prominent non-communicable ailment, significantly impacting life expectancy. Physiopathology stands mainly upon the triangle represented by parathormone–Vitamin D–Fibroblast Growth Factor-23. Parathormone (PTH), the key hormone in mineral homeostasis, is one of the less easily modifiable parameters in CKD; however, it stands as a significant marker for assessing the risk of complications. The updated “trade-off hypothesis” reveals that levels of PTH spike out of the normal range as early as stage G2 CKD, advancing it as a possible determinant of systemic damage. The present review aims to review the effects exhibited by PTH on several organs while linking the molecular mechanisms to the observed actions in the context of CKD. From a diagnostic perspective, PTH is the most reliable and accessible biochemical marker in CKD, but its trend bears a higher significance on a patient’s prognosis rather than the absolute value. Classically, PTH acts in a dichotomous manner on bone tissue, maintaining a balance between formation and resorption. Under the uremic conditions of advanced CKD, the altered intestinal microbiota majorly tips the balance towards bone lysis. Probiotic treatment has proven reliable in animal models, but in humans, data are limited. Regarding bone status, persistently high levels of PTH determine a reduction in mineral density and a concurrent increase in fracture risk. Pharmacological manipulation of serum PTH requires appropriate patient selection and monitoring since dangerously low levels of PTH may completely inhibit bone turnover. Moreover, the altered mineral balance extends to the cardiovascular system, promoting vascular calcifications. Lastly, the involvement of PTH in the Renin–Angiotensin–Aldosterone axis highlights the importance of opting for the appropriate pharmacological agent should hypertension develop.
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