Tuesday, June 29, 2010

Scientists grow new lungs using ‘skeletons’ of old ones

R&D Magazine

For someone with a severe, incurable lung disorder such as cystic fibrosis or chronic obstructive pulmonary disease, a lung transplant may be the only chance for survival. Unfortunately, it’s often not a very good chance. Matching donor lungs are rare, and many would-be recipients die waiting for the transplants that could save their lives.

Such deaths could be prevented if it were possible to use stem cells to grow new lungs or lung tissue. Specialists in the emerging field of tissue engineering have been hard at work on this for years. But they’ve been frustrated by the problem of coaxing undifferentiated stem cells to develop into the specific cell types that populate different locations in the lung.

Now, researchers from the Univ. of Texas Medical Branch at Galveston have demonstrated a potentially revolutionary solution to this problem. As they describe in an article published electronically ahead of print by the journal Tissue Engineering Part A, they seeded mouse embryonic stem cells into “acellular” rat lungs—organs whose original cells had been destroyed by repeated cycles of freezing and thawing and exposure to detergent.

The result: empty lung-shaped scaffolds of structural proteins on which the mouse stem cells thrived and differentiated into new cells appropriate to their specific locations.

“In terms of different cell types, the lung is probably the most complex of all organs—the cells near the entrance are very different from those deep in the lung,” said Dr. Joaquin Cortiella, one of the article’s lead authors. “Our natural matrix generated the same pattern, with tracheal cells only in the trachea, alveoli-like cells in the alveoli, pneumocytes only in the distal lung, and definite transition zones between the bronchi and the alveoli.”

Such “site-specific” cell development has never been seen before in a natural matrix, said professor Joan Nichols, another of the paper’s lead authors. The complexity gives the researchers hope that the concept could be scaled up to produce replacement tissues for humans—or used to create models to test therapies and diagnostic techniques for a variety of lung diseases.

“If we can make a good lung for people, we can also make a good model for injury,” Nichols said. “We can create a fibrotic lung, or an emphysematous lung, and evaluate what’s happening with those, what the cells are doing, how well stem cell or other therapy works. We can see what happens in pneumonia, or what happens when you’ve got a hemorrhagic fever, or tuberculosis, or hantavirus—all the agents that target the lung and cause damage in the lung.”

The researchers have already begun work on large-scale experiments, “decellularizing” pig lungs with an eye toward using them to produce larger samples of lung tissue that could lead to applications in humans. They’re also taking on the challenge of vascularization—stimulating the growth of blood vessels that will enable the engineered tissues to survive outside the special bioreactors that the researchers now use to keep them alive by bathing them in a life-sustaining cocktail of nutrients and oxygen.

“People ask us why we’re doing the lung, because it’s so hard,” Cortiella said. “But the potential is so great, and the technology is here. It’s going to take time, but I think we’re going to create a system that works.”

Other authors of the Tissue Engineering Part A paper (“Influence of Acellular Natural Lung Matrix on Murine Embryonic Stem Cell Differentiation and Tissue Formation”) are UTMB research associate Jean Niles, associate professor Gracie Vargas, medical student Sean Winston, graduate student Shannon Walls, summer research fellows Andrea Brettler and Jennifer Wang, Andrea Cantu of Stanford University and Dr. Anthony Pham of Brown Medical School.


“You Have the Power to Save Lives – Register to be an organ and tissue donor & Tell Your Loved Ones of Your Decision”
Register to be a donor in Ontario or Download Donor Cards from Trillium Gift of Life Network. NEW for Ontario: recycleMe.org - Learn The Ins & Outs Of Organ And Tissue Donation. Register Today! For other Canadian provinces click here
In the United States, be sure to find out how to register in your state at ShareYourLife.org or Download Donor Cards from OrganDonor.Gov
In Great Britain, register at NHS Organ Donor Register
In Australia, register at Australian Organ Donor Register
Your generosity can save up to eight lives with heart, kidneys, liver, lungs, pancreas and small intestine transplants (see allotransplantation). One tissue donor can help 75 to 100 other people by donating skin, corneas, bone, tendon, ligaments and heart valves

Has your life been saved by an organ transplant? "Pay it forward" and help spread the word about the need for organ donation - In the U.S. another person is added to the national transplant waiting list every 11 minutes and 18 people die each day waiting for an organ or tissue transplant. Organs can save lives, corneas renew vision, and tissue may help to restore someone's ability to walk, run or move freely without pain. Life Begins with You

No comments: