Media Contacts Julie Kiefer
Associate Director, Science Communications, University of Utah HealthEmail: julie.kiefer@hsc.utah.eduPhone: 801-587-1293
Oct 06, 2022 9:00 AM
Whatever you do, dont call them mini-brains, say University of Utah Health scientists. Regardless, the seed-sized organoidswhich are grown in the lab from human cellsprovide insights into the brain and uncover differences that may contribute to autism in some people.
We used to think it would be too difficult to model the organization of cells in the brain, says Alex Shcheglovitov, PhD, assistant professor of neurobiology at U of U Health. But these organoids self-organize. Within a few months, we see layers of cells that are reminiscent of the cerebral cortex in the human brain.
The research describing the organoids and their potential for understanding neural diseases publishes in Nature Communications on Oct 6 with Shcheglovitov as senior author and Yueqi Wang, PhD, a former graduate student in his lab, as lead author. They carried out the research with postdoctoral scientist Simone Chiola, PhD, and other collaborators at the University of Utah, Harvard University, University of Milan, and Montana State University.
These organoids self-organize. Within a few months, we see layers of cells that are reminiscent of the cerebral cortex in the human brain.
Investigating autism
Having the ability to model aspects of the brain in this way gives scientists a glimpse into the inner workings of a living organ that is otherwise nearly impossible to access. And since the organoids grow in a dish, they can be tested experimentally in ways that a brain cannot.
Shcheglovitovs team used this approach to investigate effects of a genetic abnormality associated with autism spectrum disorder and human brain development. They found that organoids engineered to have lower levels of the gene, called SHANK3, had distinct features.
Even though the autism organoid model appeared normal, some cells did not function properly:
These findings are helping to uncover the cellular and molecular causes of symptoms associated with autism, the authors say. They also demonstrate that the lab-grown organoids will be valuable for gaining a better understanding of the brain, how it develops, and what goes wrong during disease.
A key application is to use the brain organoids, derived from the genetic material of each individual patient, to test drugs or other interventions to treat disorders in a personalized manner, says Jan Kubanek, PhD, a co-author on the study and an assistant professor of biomedical engineering at the U. This would truly realize the potential of personalized medicine.
Building a better brain model
Scientists have long searched for suitable models for the human brain. Lab-grown organoids are not new, but previous versions did not develop in a reproduceable way, making experiments difficult to interpret.
To create an improved model, Shcheglovitovs team took cues from how the brain develops normally. The researchers prompted human stem cells to become neuroepithelial cells, a specific stem cell type that forms self-organized structures, called neural rosettes, in a dish. Over the course of months, these structures coalesced into spheres and increased in size and complexity at a rate similar to the developing brain in a growing fetus.
After five months in the lab, the organoids were reminiscent of one wrinkle of a human brain at 15 to 19 weeks post-conception, Shcheglovitov says. The structures contained an array of neural and other cell types found in the cerebral cortex, the outermost layer of the brain involved in language, emotion, reasoning, and other high-level mental processes.
Like a human embryo, organoids self-organized in a predictable fashion, forming neural networks that pulsated with oscillatory electrical rhythms and generated diverse electrical signals characteristic of a variety of different kinds of mature brain cells.
These organoids had patterns of electrophysiological activity that resembled electrophysiological rhythms of the brain. I didnt expect that, Kubanek says. This new approach models functional brain networks of the human nervous tissue.
Shcheglovitov explains that these organoids, which more reliably reflect intricate structures in the cortex, will allow scientists to study how specific types of cells in the brain arise and work together to perform more complex functions.
Were beginning to understand how complex neural structures in the human brain arise from simple progenitors, Wang says. And were able to measure disease-related phenotypes using 3D organoids that are derived from stem cells containing geneticmutations.
He adds that using the organoids, researchers will be able to better investigate what happens at the earliest stages of neurological conditions, before symptoms develop.
# # #
Visit UBrain browser to visualize the cells and electrical responses detected in organoids.
The research published as Modeling human telencephalic development and autism-associated SHANK3 deficiency using organoids generated from single neural rosettes.
Support for the work came from the National Institutes of Health, Brain Research Foundation, Brain and Behavior Research Foundation, Whitehall Foundation, University of Utah Neuroscience Initiative, and University of Utah Genome Project Initiative.
Research News Neuroscience
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