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Cocktail of Molecules Induces Astrocytes to Transform into Neurons

By LabMedica International staff writers
Posted on 30 Dec 1899
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Image: A simple treatment using four small molecules converts human astrocytes - a common type of cells in the nervous system - into new neurons, which develop complex structures after four months (Photo courtesy of the Gong Chen Laboratory, Pennsylvania State University).
Image: A simple treatment using four small molecules converts human astrocytes - a common type of cells in the nervous system - into new neurons, which develop complex structures after four months (Photo courtesy of the Gong Chen Laboratory, Pennsylvania State University).
A team of neurobiological researchers developed a simple recipe requiring only three or four small molecules to convert human fetal astrocytes into neurons.

Investigators at Pennsylvania State University (University Park, USA) had previously developed a cocktail of nine small molecules to convert human fetal astrocytes into neurons, but a nine-molecule recipe was difficult to use for clinical applications.

The investigators reported in the February 7, 2019, online edition of the journal Stem Cell Reports that modulation of three to four signaling pathways among the Notch, glycogen synthase kinase 3, transforming growth factor beta, and bone morphogenetic protein pathways was sufficient to induce an astrocyte to transform into a neuron. By using four molecules they could efficiently convert up to 70% of human astrocytes into functional neurons. A cocktail of three of the small molecules also converted astrocytes into neurons, but the conversion rate dropped by about 20%.

The chemically converted human neurons were able to survive for more than seven months in culture, fire repetitive action potentials, and display robust synaptic burst activities. Cortical astrocyte-converted neurons were mostly glutamatergic, while midbrain astrocyte-converted neurons could yield some gamma-aminobutyric acid- producing (GABAergic) neurons in addition to glutamatergic neurons. When administered in vivo through intracranial or intraperitoneal injection, the four-drug combination could significantly increase production of adult hippocampal neurons.

"The biggest problem for brain repair is that neurons do not regenerate after brain damage, because they do not divide," said senior author Dr. Gong Chen, professor of biology at Pennsylvania State University. "In contrast, glial cells, which gather around damaged brain tissue, can proliferate after brain injury. I believe turning glial cells that are the neighbors of dead neurons into new neurons is the best way to restore lost neuronal functions."

"The most significant advantage of the new approach is that a pill containing small molecules could be distributed widely in the world, even reaching rural areas without advanced hospital systems," said Dr. Chen. "My ultimate dream is to develop a simple drug delivery system, like a pill, that can help stroke and Alzheimer's patients around the world to regenerate new neurons and restore their lost learning and memory capabilities. Our years of effort in discovering this simplified drug formula take us one step closer to reaching our dream."

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Pennsylvania State University

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