Energy Metabolism of Osteocytes.

IF 4.2 2区 医学 Q1 ENDOCRINOLOGY & METABOLISM
Current Osteoporosis Reports Pub Date : 2021-08-01 Epub Date: 2021-06-12 DOI:10.1007/s11914-021-00688-6
Vivin Karthik, Anyonya R Guntur
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引用次数: 10

Abstract

Purpose of review: In this review, we provide a recent update on bioenergetic pathways in osteocytes and identify potential future areas of research interest. Studies have identified a role for regulation of bone formation and bone resorption through osteocyte mechanosensing and osteocyte secreted factors. Nevertheless, there is a paucity of studies on the bioenergetics and energy metabolism of osteocytes, which are required for the regulation of bone remodeling.

Recent findings: Osteocytes are cells of the osteoblast lineage embedded in bone. The osteocyte lacunocanalicular network within the skeletal matrix is exposed to a unique hypoxic environment. Therefore, the bioenergetic requirements of these cells could differ from other bone cells due to its location in the ossified matrix and its role in bone regulation transduced by mechanical signals. Recent findings highlighted in this review provide some evidence that metabolism of these cells is dependent on their location due to the substrates present in the microenvironment and metabolic cues from stress pathways. Both glycolysis (glucose metabolism) and oxidative phosphorylation (mitochondrial dynamics, ROS generation) affect osteocyte function and viability. In this review, we provide evidence that is currently available about information regarding bioenergetics pathways in osteocytes. We discuss published studies showing a role for hypoxia-driven glucose metabolism in regulating osteocyte bioenergetics. We also provide information on various substrates that osteocytes could utilize to fuel energetic needs, namely pyruvate, amino acids, and fatty acids. This is based on some preliminary experimental evidence that is available in literature. The role of parathyroid hormone PTH and parathryoid hormone-related peptide PTHrP in bone anabolism and resorption, along with regulation of metabolic pathways in the cells of the skeletal niche, needs to be explored further. Mitochondrial metabolism has a role in osteocyte bioenergetics through substrate utilization, location of the osteocyte in the bone cortex, and mitochondrial biogenesis. While there are limitations in studying metabolic flux in traditional cell lines, there are now novel cell lines and sophisticated tools available to study osteocyte bioenergetics to help harness its potential in vivo in the future.

Abstract Image

骨细胞的能量代谢。
综述目的:在这篇综述中,我们提供了骨细胞生物能量通路的最新进展,并确定了潜在的未来研究兴趣领域。研究已经确定了骨形成和骨吸收的调节作用,通过骨细胞机械感应和骨细胞分泌因子。然而,关于骨细胞的生物能量学和能量代谢的研究却很少,而骨细胞的生物能量学和能量代谢是调节骨重塑所必需的。最近发现:骨细胞是嵌入骨中的成骨细胞系的细胞。骨基质内的骨细胞腔管网络暴露在独特的缺氧环境中。因此,这些细胞的生物能量需求可能不同于其他骨细胞,因为它们位于骨化基质中,并在由机械信号传导的骨调节中发挥作用。本综述强调的最新发现提供了一些证据,表明这些细胞的代谢依赖于它们的位置,这是由于微环境中存在的底物和应激途径的代谢线索。糖酵解(葡萄糖代谢)和氧化磷酸化(线粒体动力学,ROS生成)都会影响骨细胞的功能和活力。在这篇综述中,我们提供了目前有关骨细胞生物能量学途径的证据。我们讨论已发表的研究表明缺氧驱动的葡萄糖代谢在调节骨细胞生物能量学中的作用。我们还提供了各种底物的信息,骨细胞可以利用燃料的能量需求,即丙酮酸,氨基酸和脂肪酸。这是基于文献中提供的一些初步实验证据。甲状旁腺激素PTH和甲状旁腺激素相关肽PTHrP在骨合成代谢和吸收中的作用,以及对骨生态位细胞代谢途径的调节,有待进一步探讨。线粒体代谢通过底物利用、骨细胞在骨皮质中的位置和线粒体生物发生在骨细胞的生物能量中发挥作用。虽然研究传统细胞系的代谢通量存在局限性,但现在有新的细胞系和复杂的工具可用于研究骨细胞生物能量学,以帮助在未来利用其在体内的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Current Osteoporosis Reports
Current Osteoporosis Reports Medicine-Endocrinology, Diabetes and Metabolism
CiteScore
8.80
自引率
2.30%
发文量
44
期刊介绍: This journal intends to provide clear, insightful, balanced contributions by international experts that review the most important, recently published clinical findings related to the diagnosis, treatment, management, and prevention of osteoporosis. We accomplish this aim by appointing international authorities to serve as Section Editors in key subject areas, such as current and future therapeutics, epidemiology and pathophysiology, and evaluation and management. Section Editors, in turn, select topics for which leading experts contribute comprehensive review articles that emphasize new developments and recently published papers of major importance, highlighted by annotated reference lists. An international Editorial Board reviews the annual table of contents, suggests articles of special interest to their country/region, and ensures that topics are current and include emerging research. Commentaries from well-known figures in the field are also provided.
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