Glucose Metabolism in Osteoblasts in Healthy and Pathophysiological Conditions.

Antonia Donat, Paul-Richard Knapstein, Shan Jiang, Anke Baranowsky, Tobias-Malte Ballhause, Karl-Heinz Frosch, Johannes Keller

International journal of molecular sciences 2021 Apr 16

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Bone tissue in vertebrates is essential to performing movements, to protecting internal organs and to regulating calcium homeostasis. Moreover, bone has also been suggested to contribute to whole-body physiology as an endocrine organ, affecting male fertility; brain development and cognition; and glucose metabolism. A main determinant of bone quality is the constant remodeling carried out by osteoblasts and osteoclasts, a process consuming vast amounts of energy. In turn, clinical conditions associated with impaired glucose metabolism, including type I and type II diabetes and anorexia nervosa, are associated with impaired bone turnover. As osteoblasts are required for collagen synthesis and matrix mineralization, they represent one of the most important targets for pharmacological augmentation of bone mass. To fulfill their function, osteoblasts primarily utilize glucose through aerobic glycolysis, a process which is regulated by various molecular switches and generates adenosine triphosphate rapidly. In this regard, researchers have been investigating the complex processes of energy utilization in osteoblasts in recent years, not only to improve bone turnover in metabolic disease, but also to identify novel treatment options for primary bone diseases. This review focuses on the metabolism of glucose in osteoblasts in physiological and pathophysiological conditions.

Citation

Antonia Donat, Paul-Richard Knapstein, Shan Jiang, Anke Baranowsky, Tobias-Malte Ballhause, Karl-Heinz Frosch, Johannes Keller. Glucose Metabolism in Osteoblasts in Healthy and Pathophysiological Conditions. International journal of molecular sciences. 2021 Apr 16;22(8)