AI Finds that an Antimalarial Drug might Treat Osteoporosis Too

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Using a deep learning algorithm, which is a kind of artificial intelligence (AI), researchers reporting have found that dihydroartemisinin (DHA), an antimalarial drug and derivative of a traditional Chinese medicine, could treat osteoporosis as well. Publishing their findings in ACS Central Science, the team showed that in mice, DHA effectively reversed osteoporosis-related bone loss.

In healthy people, there is a balance between the osteoblasts that build new bone and osteoclasts that break it down. Current treatments for osteoporosis primarily focus on slowing the activity of the ‘wrecking crew’ of osteoclasts. But osteoblasts, or more specifically, their precursors known as bone marrow mesenchymal stem cells (BMMSCs), could be the basis for a different approach. During osteoporosis, these multipotent cells tend to turn into fat-creating cells instead, but they could be reprogrammed to help treat the disease. Previously, Zhengwei Xie and colleagues developed a deep learning algorithm that could predict how effectively certain small-molecule drugs reversed changes to gene expression associated with the disease. This time, joined by Yan Liu and Weiran Li, they wanted to use the algorithm to find a new treatment strategy for osteoporosis that focused on BMMSCs.

The team ran their program on a profile of differently expressed genes in newborn and adult mice. One of the top-ranked compounds identified was DHA, a derivative of artemisinin and a key component of malaria treatments. Administering DHA extract for six weeks to mice with induced osteoporosis significantly reduced bone loss in their femurs and nearly completely preserved bone structure. To improve delivery, the team designed a more robust system using injected, DHA-loaded nanoparticles. Bones of mice with osteoporosis that received the treatment were similar to those of the control group, and the treatment showed no evidence of toxicity. In further tests, the team determined that DHA interacted with BMMSCs to maintain their stemness and ultimately produce more osteoblasts. The researchers say that this work demonstrates that DHA is a promising therapeutic agent for osteoporosis.

Source: American Chemical Society