Major step taken in creating complex organs in the lab – Drug Target Review


A major step has been taken towards developing functional miniature versions of human organs in a Petri dish which can be used to shed light on the processes involved in the genesis of diseases.

Scientists from the University of Wrzburg, Germany have taken a major step towards developing functional miniature versions of human organs, known as complex organoids.

Japanese researchers had previously developed a way of creating pluripotent stem cells through epigenetic reprogramming of connective tissue cells, which has yielded a highly valuable cell type that can be used to grow all cells of the human body in a Petri dish.

When culturing these so-called induced pluripotent stem cells (iPS cells) as three-dimensional (3D) cell aggregates, the organoids can be created by selectively adding growth factors.

Such organoid models are often similar to real embryonic tissues. However, most remained incomplete because they lacked stromal cells and structures, the supportive framework of an organ composed of connective tissue.

This new development was part of a project led by Dr Philipp Wrsdrfer and Professor Sleyman Ergn, the head of the Institute of Anatomy and Cell Biology, which has resulted in organoids that have complexity similar to that of normal tissue and are far superior to previous structures.

Organoid models are often surprisingly similar to real embryonic tissues. Shown here (from left): 3D reconstruction of the vascular network within an organoid, brain organoid with blood vessels (red) and brain stem cells (green) and a tumour organoid with blood vessels (red) and tumour cells (green) (credit: Institute for Anatomy and Cell Biology).

We used a trick to achieve our goal, explained Philipp Wrsdrfer. First we created so-called mesodermal progenitor cells from pluripotent stem cells. Under the right conditions, such progenitor cells are capable of producing blood vessels, immune cells and connective tissue cells.

To demonstrate the potential of the mesodermal progenitor cells, the scientists mixed these cells with tumour cells and brain stem cells that had previously been generated from human iPS cells. This mixture grew to form complex 3D tumour or brain organoids in the Petri dish featuring functional blood vessels, connective tissue, and in the case of the brain tissue, brain-specific immune cells.

In the future, the miniature organ models generated with this new technique can help scientists shed light on the processes involved in the genesis of diseases and to analyse the effect of therapeutic substances in more detail before using them on animals and human patients, added Sleyman Ergn.

This would allow the number of animal experiments to be reduced. Moreover, the organ models could contribute to gaining a better understanding of embryonic development processes and grow tissue that can be transplanted efficiently.

The project was published Scientific Reports.

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Major step taken in creating complex organs in the lab - Drug Target Review

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