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Researchers from Leipzig University in Germany and Shandong University in China have discovered a key mechanism for strengthening bones in the body, which could be used to treat osteoporosis.

The new study conducted by researchers from both universities identified the cell receptor "GPR133," also known as "ADGRD1," as a crucial factor in bone density; it plays a significant role in activating bone-forming cells.

The researchers conducted tests on mice that lacked the cell receptor "GPR133," finding that these mice developed weak bones and exhibited symptoms similar to osteoporosis.

However, when they activated this receptor using a chemical called "AP503," they found that bone density and strength improved significantly.

Ines Lipscher, a biochemist at Leipzig University, stated: "By using the substance 'AP503,' we were able to significantly increase bone strength in mice affected by osteoporosis, as 'AP503' acts as a biological switch that stimulates bone-forming cells to work harder. We recommend using this substance alongside exercise to further strengthen bones."

Lipscher pointed out that while the results are based on an animal model, the underlying processes are likely similar in humans. If the cell receptor "GPR133" is affected by genetic changes and becomes absent, the mice show signs of bone density loss at an early age, similar to osteoporosis in humans.

For their part, the researchers said that in addition to treating osteoporosis, their study could also help strengthen healthy bones.

Osteoporosis is a serious condition that affects millions of people worldwide. While available treatments may slow the progression of the condition, there is currently no way to reverse its course or fully cure it.