Klotho in pregnancy and intrauterine development – Potential clinical implications: a review from the European Renal Association CKD-MBD Working Group

纺神星 调节器 脐带 胎盘 子痫前期 宫内生长受限 医学 怀孕 内科学 生物 生物信息学 内分泌学 胎儿 免疫学 遗传学 生物化学 基因
作者
Mehmet Kanbay,Ali Mutlu,Çiçek Nur Bakır,İbrahim Batuhan Peltek,Ata Alpay Canbaz,Juan Miguel Díaz‐Tocados,Mathias Haarhaus
出处
期刊:Nephrology Dialysis Transplantation [Oxford University Press]
标识
DOI:10.1093/ndt/gfae066
摘要

Abstract Intrauterine development is crucial for life-long health; therefore, elucidation of its key regulators is of interest for their potential prognostic and therapeutic implications. Originally described as a membrane-bound anti-aging protein, Klotho has evolved as a regulator of numerous functions in different organ systems. Circulating Klotho is generated by alternative splicing or active shedding from cell membranes. Recently, Klotho was identified as a regulator of placental function, and while Klotho does not cross the placental barrier, increased levels of circulating α-Klotho have been identified in umbilical cord blood compared to maternal blood, indicating that Klotho may also play a role in intrauterine development. In this narrative review, we discuss novel insights into the specific functions of the Klotho proteins in the placenta and in intrauterine development, while summarizing up-to-date knowledge about their structures and functions. Klotho plays a role in stem cell functioning, organogenesis, and haematopoiesis. Low circulating maternal and foetal levels of Klotho are associated with preeclampsia, intra-uterine growth restriction, and an increased perinatal risk for newborns, indicating a potential used of Klotho as biomarker and therapeutic target. Experimental administration of Klotho protein indicates a neuro- and nephroprotective potential, suggesting a possible future role of Klotho as a therapeutic agent. However, the use of Klotho as intervention during pregnancy is yet unproven. Here, we summarize novel evidence, suggesting Klotho as a key regulator for healthy pregnancies and intrauterine development with promising potential for clinical use.

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