When it became possible to remove a tumor from a patient and study it in a dish, the field of oncology was transformed. Sergiu Paşca, a neuroscientist at Stanford University, wants psychiatry to experience the same kind of revolution. Yet the brain presents an even greater challenge than cancer. Without the option of simply cutting out pieces of a person’s healthy cerebral cortex the way physicians can dissect a tumor, brain scientists have had to get creative.
Now Paşca has joined other researchers in growing little balls of human brain tissue, about four millimeters in diameter, from stem cells in the lab. With prompting from the right chemicals, these cultures grow into neurons and other cell types that organize themselves over weeks and months into structures that resemble actual regions of the human brain, at least to some degree. (Qualification is necessary because these structures are missing crucial components, including blood vessels and immune cells.) Researchers are optimistic that this feat of tissue engineering will bring about a sea change in basic brain research, disease modeling and personalized medicine.
Over the past five years, scientists have worked to make these “mini-brains,” or cerebral organoids, more like the real thing. Earlier this month, for example, Quanta reported on a new method for assembling forebrain circuits that allows interneurons to migrate from one region to another, as they do in the real brain.
But most of the cultures studied to date mimic the brain only in its first trimester of development. Growing evidence suggests that processes involved in neurodevelopmental disorders such as autism and schizophrenia begin later, in the second or third trimester or even after birth. The changes in brain composition across that broad span of time can be profound at even the subcellular level, a fact that would seem to curb the research value of early fetal mini-brains.
In a study recently published in Neuron, however, Paşca and his team may have hurdled that obstacle by pushing mini-brains to unprecedented longevity. They have nurtured their cerebral organoids for nearly two years — making them some of the longest-lasting human cell cultures on record. (In an interview, Paşca added that some of the organoids persist even now, at over 850 days.) To help demonstrate the mini-brains’ worth, the scientists focused on the maturation of a type of brain cell that has largely been ignored in previous cell-culture studies because it’s slow to develop and difficult to examine.
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