New CRISPR technique could alter the way we look at brain diseases
Drug Target Review
A team of scientists have achieved a CRISPR first, which may fundamentally alter the way scientists study brain diseases and improve therapies.
The researchers from UC San Francisco and the
As a postdoc in the lab of UCSF Professor
In the new paper, Kampmann and his collaborators describe how they adapted their modified form of CRISPR technology for use in human iPSCs and iPSC-derived neurons and found that it could target and interfere with genes without killing the cell.
Using this system, the researchers demonstrated how their technique can be used to find genes that may cause or contribute to brain diseases. For example, they identified genes that specifically extend the lifespan of neurons, but have no comparable effect on iPSCs or cancer cells. They also found genes that increased the number of neurites (projections that grow from neurons and transmit nerve signals) and determined how frequently they branched.
The team discovered that ‘housekeeping’ genes actually behave differently in neurons and stem cells. When the researchers interfered with the same housekeeping genes in these two cell types, the cells responded by activating (or inactivating) a vastly different set of genes. The result suggests that housekeeping genes may not work the same way in different cell types.
…the researchers demonstrated how their technique can be used to find genes that may cause or contribute to brain diseases”
Kampmann is now using the technology to study different types of neurons in an effort to determine why certain diseases selectively affect only a subset of neurons. He’s also expanding his investigations into other types of brain cells which scientists only recently figured out how to produce from human iPSCs.
But ultimately, the goal is to turn this technology that combines CRISPRi and iPSCs into a tool that uncovers much-needed new therapeutic approaches to treating brain diseases.
The paper was published in the journal Neuron.