Researchers create three-dimensional organoid models of human forebrain

January 24, 2020 by Bob Yirka, Medical Xpress
Credit: Wikimedia Commons

A team of researchers at Stanford University has, for the first time, created three-dimensional organoid models of the human forebrain. In their paper published in the journal Science, the group describes growing the organoids and their uses.

For most of the history of the biological sciences, researchers have had to use test animals to study live brains in action— could not be studied in such ways for ethical reasons. But in recent years, scientists have found a way to grow clumps of cells to serve as stand-ins for , providing a better option. Known as organoids, they are grown using , which can grow into any type of human cell. Researchers use drugs and growth factors to direct them to grow into the type of organ they want to study. In other studies, researchers have grown or other —in this new effort, the researchers have taken the work further by coaxing stem cells to grow into forebrain organoids—and they are longer lived, allowing the researchers to learn more about .

The organoids are spherical structures that self-organize into models of different parts of the forebrain—the anterior part of the brain that is believed to house our "humanness"—it includes organs such as the epithalamus, thalamus, subthalamus and the hypothalamus. The real organs play a key role in cognitive and sensory processing and motor function.

As part of their work, the researchers also found a way to increase the longevity of the organoids greatly—up to 300 days—enough to watch them develop into more complex structures. The researchers are hoping that such a long growing time will allow for studying brain disease development and perhaps lead toward a way to prevent illnesses from happening.

Some in the field have noted that such work is leading toward an ethical dilemma—how far to go? It is conceivable that someday, scientists will be able to grow an entire human brain—one that has consciousness. But the scientists in this new effort are not concerned with such issues; they note that their organoids are very simple compared to the human brain, and do not exhibit awareness or pain. The organoids are nothing but clumps of cells—at least for now.

More information: Alexandro E. Trevino et al. Chromatin accessibility dynamics in a model of human forebrain development, Science (2020). DOI: 10.1126/science.aay1645

Journal information: Science

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