New Revolutionary Culturing Technique for Liver and Pancreas
News Jan 23, 2015
Researchers at the Hubrecht Institute and the University Medical Center (UMC) Utrecht have successfully developed a culturing system for human liver stem cells as well as stem cells from pancreatic cancer. They describe the development of these culturing systems in two articles in this week’s edition of Cell magazine.
Until recently it appeared impossible to keep healthy or diseased tissue from patients alive under laboratory conditions, let alone multiply it. However, in 2009, the research group headed by Hans Clevers, professor of molecular genetics at the Hubrecht Institute/UMC Utrecht and president of the Royal Netherlands Academy of Arts and Sciences (KNAW), described a revolutionary culturing method that allowed the culturing of mini-guts from single mouse intestine stem cells.
These organoids are functional miniature organs that can grow in tissue culture. The same research group now adds a culturing system for liver stem cells and stem cells from pancreatic cancer to their record. In future, cultured stem cells could conceivably replace donor organs for transplantation. They also offer prospects for research into 'personalized medicine', the prescription of medication specifically geared to individual patients.
Cultured liver stem cells
The technology described in Cell can be used for the long-term replication in the laboratory of minute amounts of tissue harvested from a healthy or diseased liver. Over a period of four months, the equivalent of a full-grown liver can be cultured from a single liver stem cell. All analyses show that this cultured tissue is genetically the same as healthy liver tissue and is very stable as well.
The cultured human ‘mini-livers' have already been successfully transplanted in mice with liver damage. This is the first step towards using this cultured liver tissue to replace donor livers for transplantation. As such, this technology could solve the world-wide shortage of donor livers.
Moreover, this technology offers future potential for personalized medicine. Organoids could, for instance, be grown from the tissue of patients suffering from genetic liver diseases, so that drugs can be tested on this patient material first before being administered to the patient themselves. Examples of such diseases are alpha-1 antitrypsin deficiency and Allagile syndrome.
Cultured pancreatic stem cells
Hans Clevers’ research group additionally reports on a technology for the long-term laboratory culturing of healthy and diseased pancreatic stem cells, which was not possible before. To this end, the group worked with one of the world’s leading lights in the field of pancreatic cancer, David Tuveson of Cold Spring Harbor Laboratory in New York.
The study in Cell shows that the sensitivity or resistance of the tumor tissue of individual patients to a wide range of cancer drugs can be determined in the laboratory. As a next step, this method can therefore be used to prescribe individualized therapy for each cancer patient.
The technology described was then used to create a ‘Living Biobank’ of cultured pancreatic tumors from a large group of patients with pancreatic cancer. This allows the culturing of organoids from multiple patients, which in turn makes it possible to study larger populations. Established with support from the Dutch Cancer Society/Stand up to Cancer campaign (KWF/Sta Op Tegen Kanker), this biobank is open to cancer researchers and companies worldwide wanting to develop new cancer drugs and treatments.
Pancreatic cancer is one of the deadliest forms of the disease: only 6% of patients survive for over 5 years. There is no effective therapy for pancreatic cancer at the moment.
Why Internal Scars Won't Stop GrowingNews
Normal scar tissue forms to heal an internal wound and quietly retreats when the job is done. But in many common diseases the scar tissue goes rogue and strangles vital organs. These diseases are largely untreatable and ultimately fatal. A new study has newly identified a trigger of some fibrotic diseases and an experimental compound to treat it.
New Approach Sheds Light on the Effects of Anti-Cancer DrugsNews
A new approach established at the University of Zurich sheds light on the effects of anti-cancer drugs and the defense mechanisms of cancer cells. The method makes it possible to quickly test various drugs and treatment combinations at the cellular level.READ MORE
An Unexpected Twist in the Tumor Versus T Cell BattleNews
Researchers from the University of California San Diego have identified an unexpected mechanism that could help determine whether a cancer patient will respond to immunotherapy.READ MORE