Business Standard

Tuesday, December 24, 2024 | 09:35 AM ISTEN Hindi

Notification Icon
userprofile IconSearch

Scientists grow leg muscle from cells in dish

Image

Press Trust of India London
Researchers have grown a mature and functional leg muscle in a mouse using a new approach for tissue engineering.

The scientists grew a leg muscle starting from engineered cells cultured in a dish to produce a graft.

The graft was then implanted close to a normal, contracting skeletal muscle where the new muscle was nurtured and grown.

In time, the method could allow for patient-specific treatments for a large number of muscle disorders, researchers said.

The scientists used muscle precursor cells - mesoangioblasts - grown in the presence of a hydrogel (support matrix) in a tissue culture dish.

The cells were also genetically modified to produce a growth factor that stimulates blood vessel and nerve growth from the host.
 

Cells engineered in this way express a protein growth factor that attracts other essential cells that give rise to the blood vessels and nerves of the host, contributing to the survival and maturation of newly formed muscle fibres.

After the graft was implanted onto the surface of the skeletal muscle underneath the skin of the mouse, mature muscle fibres formed a complete and functional muscle within several weeks.

Replacing a damaged muscle with the graft also resulted in a functional artificial muscle very similar to a normal Tibialis anterior.

Tissue engineering of skeletal muscle is a significant challenge but has considerable potential for the treatment of the various types of irreversible damage to muscle that occur in diseases such as Duchenne muscular dystrophy.

So far, attempts to re-create a functional muscle either outside or directly inside the body have been unsuccessful.

In vitro-generated artificial muscles normally do not survive the transfer in vivo because the host does not create the necessary nerves and blood vessels that would support the muscle's considerable requirements for oxygen.

"The morphology and the structural organisation of the artificial organ are extremely similar to if not indistinguishable from a natural skeletal muscle," said Cesare Gargioli of the University of Rome, one of the lead authors of the study.

In future, irreversibly damaged muscles could be restored by implanting the patient's own cells within the hydrogel matrix on top of a residual muscle, adjacent to the damaged area.

"While we are encouraged by the success of our work in growing a complete intact and functional mouse leg muscle we emphasise that a mouse muscle is very small and scaling up the process for patients may require significant additional work," said European Molecular Biology Organization (EMBO) Member Giulio Cossu, one of the authors of the study.

The results are published in the journal EMBO Molecular Medicine.

Don't miss the most important news and views of the day. Get them on our Telegram channel

First Published: Feb 25 2015 | 1:10 PM IST

Explore News