Scientists at Leipzig University have identified a little-known receptor, GPR133, as a key player in bone health. By stimulating this receptor with a new compound called AP503, they were able to boost bone strength in mice, even reversing osteoporosis-like conditions. The breakthrough highlights a promising path toward safer and more effective treatments for millions struggling with bone loss, while also hinting at broader benefits for aging populations.
FULL STORY
A new receptor target, GPR133, shows major promise for reversing bone loss and fighting osteoporosis. Credit: Shutterstock
There is a high demand for safe and long-lasting medications to treat bone loss, known medically as osteoporosis. In Germany, around six million people - mostly women - are affected by this widespread condition. Discovering new targets for drug development is therefore a key step towards better therapies with fewer side effects. The adhesion G protein-coupled receptor GPR133 belongs to a still relatively unexplored group of receptors. In a recent study, scientists at Leipzig University demonstrated that GPR133 plays a central role in building and maintaining healthy bone.
"If this receptor is impaired by genetic changes, mice show signs of loss of bone density at an early age - similar to osteoporosis in humans. Using the substance AP503, which was only recently identified via a computer-assisted screen as a stimulator of GPR133, we were able to significantly increase bone strength in both healthy and osteoporotic mice," explains Professor Ines Liebscher, lead investigator of the study from the Rudolf Schönheimer Institute of Biochemistry at the Faculty of Medicine.
In bone tissue, GPR133 is activated through the interaction of neighboring bone cells and mechanical strain. This triggers a signal that stimulates bone-forming cells (osteoblasts) and inhibits bone-resorbing cells (osteoclasts). The result: stronger, more resilient bones. The new active substance AP503 can mimic this natural activation. In the future, it could be used both to further strengthen healthy bones and to rebuild weakened ones - for instance, in cases of osteoporosis in women going through menopause.
Great potential for an aging population
In an earlier study, researchers at Leipzig University had already found that activation with AP503 also strengthens skeletal muscle. "The newly demonstrated parallel strengthening of bone once again highlights the great potential this receptor holds for medical applications in an aging population," says Dr Juliane Lehmann, lead author of the study and a researcher at the Rudolf Schönheimer Institute of Biochemistry. The Leipzig research team is already working on several follow-up projects to explore the use of AP503 in various diseases and to further investigate the role of GPR133 in the body.
Background
For more than ten years, the study of adhesion G protein-coupled receptors has been a key focus at Leipzig University within Collaborative Research Centre 1423, Structural Dynamics of GPCR Activation and Signaling. Internationally, Leipzig is regarded as a leading center in this field of research.
Story Source:
Materials[1] provided by Universität Leipzig. Note: Content may be edited for style and length.
Journal Reference:
Juliane Lehmann, Hui Lin, Zihao Zhang, Maren Wiermann, Albert M. Ricken, Franziska Brinkmann, Jana Brendler, Christian Ullmann, Luisa Bayer, Sandra Berndt, Anja Penk, Nadine Winkler, Franz Wolfgang Hirsch, Thomas Fuhs, Josef Käs, Peng Xiao, Torsten Schöneberg, Martina Rauner, Jin-Peng Sun, Ines Liebscher. The mechanosensitive adhesion G protein-coupled receptor 133 (GPR133/ADGRD1) enhances bone formation. Signal Transduction and Targeted Therapy, 2025; 10 (1) DOI: 10.1038/s41392-025-02291-y[2]
Cite This Page:
Universität Leipzig. "Scientists may have found a way to strengthen bones for life." ScienceDaily. ScienceDaily, 8 September 2025. <www.sciencedaily.com/releases/2025/09/250908175438.htm>.
Universität Leipzig. (2025, September 8). Scientists may have found a way to strengthen bones for life. ScienceDaily. Retrieved September 8, 2025 from www.sciencedaily.com/releases/2025/09/250908175438.htm
Universität Leipzig. "Scientists may have found a way to strengthen bones for life." ScienceDaily. www.sciencedaily.com/releases/2025/09/250908175438.htm (accessed September 8, 2025).
Apr. 8, 2025 Researchers conducted a large-scale epidemiological study to explore the potential health benefits of high muscle strength in preventing type 2 diabetes (T2D) across varying levels of genetic risk. ...
Mar. 5, 2025 While a gradual loss in muscle strength is a natural part of aging, for many older adults it's more than just feeling a little weaker. Sarcopenia -- a condition affecting nearly half of adults ...
Nov. 16, 2022 High-intensity isometric training is considered to be important in achieving greater strength gain. Recent study has shown that training volume is more important for strength gain than training ...
Sep. 7, 2022 A new study in mice found that hypertension may be linked to significant bone loss. Bone quality in young mice with high blood pressure was similar to the bones of older mice without high blood ...
Feb. 16, 2021 Researchers have identified the role a critical enzyme plays in skeletal aging and bone loss, putting them one step closer to understanding the complex biological mechanisms that lead to ...
Sep. 11, 2020 Osteoporosis is characterized by a deterioration of the bones and an increased risk of fractures. With one third of postmenopausal women affected, it is a major public health problem. A research team ...
Scientists at Leipzig University have identified a little-known receptor, GPR133, as a key player in bone health. By stimulating this receptor with a new compound called AP503, they were able to boost bone strength in mice, even reversing osteoporosis-like conditions. The breakthrough highlights a promising path toward safer and more effective treatments for millions struggling with bone loss, while also hinting at broader benefits for aging populations.
FULL STORY
A new receptor target, GPR133, shows major promise for reversing bone loss and fighting osteoporosis. Credit: Shutterstock
There is a high demand for safe and long-lasting medications to treat bone loss, known medically as osteoporosis. In Germany, around six million people - mostly women - are affected by this widespread condition. Discovering new targets for drug development is therefore a key step towards better therapies with fewer side effects. The adhesion G protein-coupled receptor GPR133 belongs to a still relatively unexplored group of receptors. In a recent study, scientists at Leipzig University demonstrated that GPR133 plays a central role in building and maintaining healthy bone.
"If this receptor is impaired by genetic changes, mice show signs of loss of bone density at an early age - similar to osteoporosis in humans. Using the substance AP503, which was only recently identified via a computer-assisted screen as a stimulator of GPR133, we were able to significantly increase bone strength in both healthy and osteoporotic mice," explains Professor Ines Liebscher, lead investigator of the study from the Rudolf Schönheimer Institute of Biochemistry at the Faculty of Medicine.
In bone tissue, GPR133 is activated through the interaction of neighboring bone cells and mechanical strain. This triggers a signal that stimulates bone-forming cells (osteoblasts) and inhibits bone-resorbing cells (osteoclasts). The result: stronger, more resilient bones. The new active substance AP503 can mimic this natural activation. In the future, it could be used both to further strengthen healthy bones and to rebuild weakened ones - for instance, in cases of osteoporosis in women going through menopause.
Great potential for an aging population
In an earlier study, researchers at Leipzig University had already found that activation with AP503 also strengthens skeletal muscle. "The newly demonstrated parallel strengthening of bone once again highlights the great potential this receptor holds for medical applications in an aging population," says Dr Juliane Lehmann, lead author of the study and a researcher at the Rudolf Schönheimer Institute of Biochemistry. The Leipzig research team is already working on several follow-up projects to explore the use of AP503 in various diseases and to further investigate the role of GPR133 in the body.
Background
For more than ten years, the study of adhesion G protein-coupled receptors has been a key focus at Leipzig University within Collaborative Research Centre 1423, Structural Dynamics of GPCR Activation and Signaling. Internationally, Leipzig is regarded as a leading center in this field of research.
Story Source:
Materials[1] provided by Universität Leipzig. Note: Content may be edited for style and length.
Journal Reference:
Juliane Lehmann, Hui Lin, Zihao Zhang, Maren Wiermann, Albert M. Ricken, Franziska Brinkmann, Jana Brendler, Christian Ullmann, Luisa Bayer, Sandra Berndt, Anja Penk, Nadine Winkler, Franz Wolfgang Hirsch, Thomas Fuhs, Josef Käs, Peng Xiao, Torsten Schöneberg, Martina Rauner, Jin-Peng Sun, Ines Liebscher. The mechanosensitive adhesion G protein-coupled receptor 133 (GPR133/ADGRD1) enhances bone formation. Signal Transduction and Targeted Therapy, 2025; 10 (1) DOI: 10.1038/s41392-025-02291-y[2]
Cite This Page:
Universität Leipzig. "Scientists may have found a way to strengthen bones for life." ScienceDaily. ScienceDaily, 8 September 2025. <www.sciencedaily.com/releases/2025/09/250908175438.htm>.
Universität Leipzig. (2025, September 8). Scientists may have found a way to strengthen bones for life. ScienceDaily. Retrieved September 8, 2025 from www.sciencedaily.com/releases/2025/09/250908175438.htm
Universität Leipzig. "Scientists may have found a way to strengthen bones for life." ScienceDaily. www.sciencedaily.com/releases/2025/09/250908175438.htm (accessed September 8, 2025).
Apr. 8, 2025 Researchers conducted a large-scale epidemiological study to explore the potential health benefits of high muscle strength in preventing type 2 diabetes (T2D) across varying levels of genetic risk. ...
Mar. 5, 2025 While a gradual loss in muscle strength is a natural part of aging, for many older adults it's more than just feeling a little weaker. Sarcopenia -- a condition affecting nearly half of adults ...
Nov. 16, 2022 High-intensity isometric training is considered to be important in achieving greater strength gain. Recent study has shown that training volume is more important for strength gain than training ...
Sep. 7, 2022 A new study in mice found that hypertension may be linked to significant bone loss. Bone quality in young mice with high blood pressure was similar to the bones of older mice without high blood ...
Feb. 16, 2021 Researchers have identified the role a critical enzyme plays in skeletal aging and bone loss, putting them one step closer to understanding the complex biological mechanisms that lead to ...
Sep. 11, 2020 Osteoporosis is characterized by a deterioration of the bones and an increased risk of fractures. With one third of postmenopausal women affected, it is a major public health problem. A research team ...
