Discovery marks 1 step closer to regrowing human limbs

Researchers at Texas A&M University have made a breakthrough discovery that brings them closer to regrowing human limbs.
The team has identified a fibroblast growth factor (FGF) called FGF8, which can regenerate an entire finger joint, including articular cartilage, tendons, and ligaments.
FGF8 is capable of regenerating more complex tissues than previously thought, with the potential to stimulate full-limb regeneration in the future.
The discovery is a significant step towards helping the 2.1 million people in the US living with limb loss, who are expected to triple in number by 2060 due to increasing vascular diseases like diabetes.
Further research is needed to understand how FGF8 can be applied to stimulate joint regeneration across the lifespan and potentially regrow entire limbs.

A person holds up their index finger to indicate the number one.

Researchers have uncovered a key element of joint cartilage regrowth, which brings them one step closer to regrowing human limbs.

Their goal is to help the 2.1 million people in the United States living with limb loss, a population expected to more than triple by the year 2060 because of the increase in vascular diseases such as diabetes.

Unlike some popular animals like the axolotl, a type of salamander that can regrow lost limbs, humans can only regrow the very tips of their fingers—and only under certain circumstances.

But now, researchers at the College of Veterinary Medicine and Biomedical Sciences (VMBS) at Texas A&M University have discovered a fibroblast growth factor (FGF)—a type of protein—capable of regenerating an entire finger joint, including articular cartilage, tendons, and ligaments.

“We know that bone regeneration requires many different factors, one of which is FGFs,” says Lindsay Dawson, assistant professor in the VMBS’ veterinary physiology and pharmacology department.

“We were able to implant different FGFs into tissues that normally do not regenerate and we found one—FGF8—that can regenerate a complete joint and the beginnings of a fingertip.”

While FGF8 can’t regenerate some recognizable elements like a fingernail, its discovery is an important step toward full-limb regeneration.

“Our expectation is that if we can figure out all the factors that regenerate a finger, then we could apply those factors anywhere on the rest of the arm, or even a leg, and regrow a limb,” Dawson says.

“This study is a proof of concept. These cells would normally undergo scar formation, but FGF8 tells them to do something else and they end up making five tissues. We were amazed at how much this one factor can do,” she says.

Dawson’s graduate student, Sarah Wolff, is excited to continue the studies.

“We’ve discovered that joint regeneration is associated with less mature tissues,” Wolff says. “What I’m really driven to understand is how can we stimulate joint regeneration across the lifespan.”

The research appears in Bone.

Source: Texas A&M University

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Q. What is the main goal of researchers at Texas A&M University?

A. To help the 2.1 million people in the United States living with limb loss, a population expected to more than triple by the year 2060.

Q. Can humans regrow lost limbs like some animals, such as axolotls?

A. No, humans can only regrow the very tips of their fingers—and only under certain circumstances.

Q. What type of protein has been discovered capable of regenerating an entire finger joint in humans?

A. Fibroblast growth factor (FGF), specifically FGF8.

Q. What is one of the factors required for bone regeneration, according to Lindsay Dawson?

A. Fibroblast growth factors (FGFs).

Q. Can FGF8 regenerate all recognizable elements of a limb, such as a fingernail?

A. No, its discovery is an important step toward full-limb regeneration.

Q. What is the expectation of researchers if they can figure out all the factors that regenerate a finger?

A. They could apply those factors anywhere on the rest of the arm or leg and regrow a limb.

Q. What was discovered by Sarah Wolff’s research team about joint regeneration?

A. Joint regeneration is associated with less mature tissues.

Q. What is Sarah Wolff’s main goal in her research?

A. To understand how to stimulate joint regeneration across the lifespan.

Q. Where did the research appear?

A. In the journal Bone.

Q. Who conducted the research at Texas A&M University?

A. Researchers at the College of Veterinary Medicine and Biomedical Sciences (VMBS) at Texas A&M University.