In Vivo Glycation – Interplay between Oxidant and Carbonyl Stress in Bone

IF 3.4 Q2 ENDOCRINOLOGY & METABOLISM JBMR Plus Pub Date : 2024-08-08 DOI:10.1093/jbmrpl/ziae110
G. Sroga, Deepak Vashishth
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Abstract

Metabolic syndromes (e.g., obesity, type 2 diabetes (T2D), atherosclerosis, and neurodegenerative diseases) and aging, they all have a strong component of carbonyl and reductive-oxidative (redox) stress. Reactive carbonyl (RCS) and oxidant (ROS) stress species are commonly generated as products or byproducts of cellular metabolism or are derived from the environment. RCS and ROS can play a dual role in living organisms. Some RCS and ROS function as signaling molecules which control cellular defenses against biological and environmental assaults. However, due to their high reactivity, RCS and ROS inadvertently interact with different cellular and extracellular components, and for example, lead to the formation of undesired posttranslational modifications of bone matrix proteins. These are advanced glycation (AGEs) and glycoxidation (AGOEs) end products generated in vivo by non-enzymatic amino-carbonyl reactions. In this review, metabolic processes involved in generation of AGEs and AGOEs within and on protein surfaces including extracellular bone matrix are discussed from the perspective of cellular metabolism and biochemistry of certain metabolic syndromes. The impact of AGEs and AGOEs on some characteristics of mineral is also discussed. Different therapeutic approaches with potential to prevent formation of RCS, ROS and driven by these chemicals formation of AGEs and AGOEs are also briefly reviewed. These are antioxidants, scavenging agents of reactive species, and newly emerging technologies for the development of synthetic detoxifying systems. Further research in the area of in vivo glycation and glycoxidation should lead to the development of diverse new strategies for halting the progression of metabolic complications before irreversible damage to body tissues materializes.
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体内糖化--骨中氧化剂和羰基压力之间的相互作用
代谢综合征(如肥胖、2 型糖尿病(T2D)、动脉粥样硬化和神经退行性疾病)和衰老,它们都有很强的羰基和还原氧化(氧化还原)应激成分。反应性羰基(RCS)和氧化应激物质(ROS)通常作为细胞新陈代谢的产物或副产品产生,或来自环境。RCS 和 ROS 可在生物体内发挥双重作用。一些 RCS 和 ROS 可作为信号分子,控制细胞防御生物和环境攻击。然而,由于它们的高反应性,RCS 和 ROS 会在不经意间与不同的细胞和细胞外成分相互作用,例如,导致骨基质蛋白形成不想要的翻译后修饰。这些是非酶促氨基羰基反应在体内产生的高级糖化(AGEs)和糖氧化(AGOEs)终产物。在本综述中,将从细胞代谢和某些代谢综合征的生物化学角度,讨论在包括细胞外骨基质在内的蛋白质表面生成 AGEs 和 AGOEs 的代谢过程。此外,还讨论了 AGEs 和 AGOEs 对矿物质某些特性的影响。此外,还简要回顾了有可能防止形成 RCS、ROS 以及在这些化学物质驱动下形成 AGEs 和 AGOEs 的各种治疗方法。这些方法包括抗氧化剂、活性物质清除剂以及用于开发合成解毒系统的新兴技术。体内糖化和糖氧化领域的进一步研究应能开发出多种新策略,在对身体组织造成不可逆转的损害之前阻止代谢并发症的发展。
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来源期刊
JBMR Plus
JBMR Plus Medicine-Orthopedics and Sports Medicine
CiteScore
5.80
自引率
2.60%
发文量
103
审稿时长
8 weeks
期刊最新文献
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