Bone tissue is a complex structure, consisting of mineralized collagen fibers and a variety of non-collagenous proteins, including proteoglycans such as biglycan and decorin. These proteoglycans interact with water and other components in the extracellular matrix, playing a critical role in influencing the mechanical properties of bone. Despite their importance, the specific functions of biglycan and decorin in bone health have not been well understood. Given their potential impact on conditions like osteoporosis, there is a growing need for research to better comprehend the roles these proteoglycans play in maintaining bone integrity.

In a study (DOI: 10.1038/s41413-024-00380-2) published on January 2, 2025, in Bone Research, researchers from the University of Texas Health Science Center and the University of Texas at San Antonio examined the roles of biglycan and decorin in bone structure and function. Using genetically modified mouse models, including single and double knockout (KO) mice, the team investigated how the absence of these proteoglycans affects bone mass, water retention, bulk/in situ tissue properties, and cell signaling pathways.

This research, led by the University of Texas Health Science Center and the University of Texas at San Antonio, has provided significant insights into the critical roles of biglycan and decorin in bone health. The study found that biglycan deficiency led to a substantial decrease in trabecular bone mass and fracture toughness, while decorin deficiency, though less impactful on bone mass, still influenced bone's mechanical properties. Both proteoglycans were shown to be crucial for retaining bound water in the bone matrix, which is essential for maintaining bone toughness and flexibility. Advanced technologies such as low-field nuclear magnetic resonance and atomic force microscopy were employed to measure changes in bone structure and mechanical properties. The results indicated that biglycan and decorin activate the ERK and p38 MAPK signaling pathways, which are vital for bone remodeling and homeostasis. This study not only clarifies the distinct functions of these proteoglycans but also highlights their complementary effects in maintaining bone health, suggesting that targeting these pathways could provide new therapeutic avenues for preventing fractures and enhancing bone strength in patients with bone diseases.

Dr. Jean X. Jiang, one of the lead researchers, commented, “Our findings underscore the critical role of biglycan and decorin in bone structure and function. Understanding these mechanisms could pave the way for developing novel therapies to enhance bone strength and prevent fractures in patients with bone diseases.”

The implications of this study extend far beyond the laboratory. By revealing the roles of biglycan and decorin, scientists can now explore targeted interventions aimed at improving bone health. These findings may lead to the development of new treatments for osteoporosis and other bone disorders, potentially enhancing the quality of life for millions of individuals worldwide. Furthermore, the research offers valuable insights into the fundamental biology of bone, contributing to a deeper understanding of how bones maintain their strength and resilience over time.

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References

DOI

10.1038/s41413-024-00380-2

Original Source URL

https://doi.org/10.1038/s41413-024-00380-2

Funding information

This work was supported by the National Institutes of Health (NIH) Grants: RO1 AR076190 (to X.W and J.X.J) and Welch Foundation grant: AQ-1507 (to J.X.J.).

About Bone Research

Bone Research was founded in 2013. As a new English-language periodical, Bone Research focuses on basic and clinical aspects of bone biology, pathophysiology and regeneration, and supports the foremost discoveries resulting from basic investigations and clinical research related to bone. The aim of the Journal is to foster the worldwide dissemination of research in bone-related physiology, pathology, diseases and treatment.