New Study Suggests Humans May Possess Hidden Regenerative Powers for Tissue Repair - Video

Scientists have developed a two-step treatment that enabled damaged digits in mammals to regrow bone, joints, ligaments, and tendons, challenging the long-held belief that mammals cannot regenerate lost body parts. The findings, published in Nature Communications, suggest that the body's natural healing process may contain hidden regenerative abilities that can be switched on under the right conditions.

Researchers from Texas A&M University found that instead of introducing stem cells, they could reprogram cells already present at the injury site. Normally, after an injury, fibroblast cells produce scar tissue to quickly close wounds. However, the team discovered that these cells can be redirected away from scarring and toward regeneration, similar to the process seen in salamanders, which can regrow entire limbs.

The treatment involved applying two growth factors in sequence. First, fibroblast growth factor 2 (FGF2) was administered after the wound had healed to encourage the formation of a blastema-like structure, a collection of regenerative cells rarely seen in mammals. Several days later, bone morphogenetic protein 2 (BMP2) was applied to stimulate these cells to rebuild new tissues.

Using this approach, researchers successfully regenerated bone, joints, tendons, and ligaments at the amputation site. Although the regenerated structures were not perfect replicas of the originals, they closely resembled normal anatomy and significantly reduced scar formation.

The study also suggests that regeneration may not require stem cell transplantation, as previously believed. Instead, dormant regenerative cells already exist within the body and simply need the right biological signals to activate them.

While the research remains in the early stages, the scientists believe the strategy could eventually improve wound healing, reduce fibrosis, and enhance tissue repair after severe injuries or amputations.

REFERENCE: Ling Yu, Mingquan Yan, Katherine Zimmel Scaturro, Osama Qureshi, Yu-Lieh Lin, Benjamin B. Bartelle, C. Addison Smith, Daniel Osorio Hurtado, James J. Cai, Lindsay A. Dawson, Regina Brunauer, Larry J. Suva, Manjong Han, Connor P. Dolan, Ken Muneoka. Digit regeneration in mice is stimulated by sequential treatment with FGF2 and BMP2. Nature Communications, 2026; 17 (1) DOI: 10.1038/s41467-026-72066-8