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Parkinson’s is a neurodegenerative condition – this means that certain cells in the brain are being lost. Restorative therapies are those focused on replacing the lost cells in the hope that the new cells will be able to take up the lost function.
Tremendous efforts are being made in cell transplantation programs for Parkinson’s. But this month scientists have published a new research report proposing a novel method of changing the fate of cells already in the brain (removing the need to introduce new cells).
Their approach involves new technology and remarkably only requires the manipulation of a single protein.
In today’s post, we will explore the growing world of in vivo reprogramming, review the new research report, and discuss where in vivo reprogramming could go next.
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Changing cell fates. Source: MDPI
In vivo reprogramming of cells is a red hot topic in restorative research at the moment. The ability to change the fate of mature cells inside of an organism represents a ‘holy grail’-like goal for regenerative medicine.
Rather than transplanting ‘foreign’/external cells into the body (and having to deal with an immune system response), in vivo cellular reprogramming offers the possibility of simply changing the fate of a cell that is already present inside the body. And there are a lot of research groups around the world now exploring various methods of achieving this goal.
We have discussed the background research associated with in vivo cellular reprogramming for Parkinson’s in a previous SoPD post (Click here to read that post).
In today’s post, we are going to discuss a new research report that was published this month on this topic:
Title: Glia-to-Neuron Conversion by CRISPR-CasRx Alleviates Symptoms of Neurological Disease in Mice.
Authors: Zhou H, Su J, Hu X, Zhou C, Li H, Chen Z, Xiao Q, Wang B, Wu W, Sun Y, Zhou Y, Tang C, Liu F, Wang L, Feng C, Liu M, Li S, Zhang Y, Xu H, Yao H, Shi L, Yang H.
Journal: Cell. 2020 Apr 1. pii: S0092-8674(20)30286-5. [Epub ahead of print]
In this study, the researchers used a new technology (called CRISPR-CasRx) to reduce levels of a single protein, and the reduction of this protein appears to have aided the conversion of cells in the brains of mice to become dopamine neurons – the population of cells that are severely affected in Parkinson’s.
What is CRISPR-CasRx?