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What Makes a Neuron a Neuron


Image shows neurons from the cingulate cortex of mouse brain.

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What Makes a Neuron a Neuron?

By Iqbal Pittalwala

UC Riverside-led research finds clues in RNA-binding proteins in brain cells

It remains unclear to scientists why almost every RNA-binding protein has a sibling – or “paralog.” While such sibling proteins have the same origins and are similar to each other in a number of ways, they are presumed to fulfill different functions in the cell.

Focusing on two such sibling RNA-binding proteins – PTBP1 and PTBP2 – that are important for the nervous system, a team of researchers has found that these proteins serve both redundant and unique functions in the developing brain when neural stem cells are changed into neurons – cells that process and transmit information through electrical and chemical signals.

“PTBP1 is expressed in neural stem cells, and PTBP2 in differentiating neurons,” said Sika Zheng, an assistant professor of biomedical sciences in the School of Medicine at the University of California, Riverside, who led the research project. “Their expressions are almost mutually exclusive. During brain development, cells switch expression of PTBP1 to PTBP2. This contributes to the neuronal differentiating process, and can offer us insights into understanding what makes a neuron a neuron.”

Study results appear Dec. 6 in Cell Reports.

The research, done using multiple mouse models, has implications for fine-tuning stem cell therapeutic strategies for neurologic disorders such as stroke, ALS, and Parkinson’s disease.

Zheng explained that in humans it normally takes months to differentiate a stem cell into a neuron. “Understanding at the molecular level how these proteins work and how neurons acquire their building blocks can help us speed up the differentiation process and make it more efficient,” he said.

He explained that PTBP1 and PTBP2 could be visualized as siblings who are both born musicians, except that PTBP1 is a master of classical music, while PTBP2 masters contemporary music.

“One can imagine that both like music and sometimes perform a piece in the same way,” Zheng said. “But at other times they interpret and play the music differently, for example, with different styles and instruments, giving the same score different meanings and emotions. In this analogy, the musical scores are primitive genetic messages or premature RNA in a cell.”

Premature RNA is an unprocessed RNA molecule that is “copied” from a DNA template in the cell nucleus. Premature RNA undergoes extensive modification via the aid of RNA binding proteins to produce the mature RNA genetic message. Depending on how the modification is conducted, the same premature RNA can be processed differently to create variants of the final RNA product. The compositions of all mature RNA within a cell collectively determine the cell identity.

“Using the same analogy, the performance is the final product or mature RNA,” Zheng continued. “Neural stem cells and neurons have somewhat different collections of RNA thanks to the activity of PTBP1 and PTBP2.”

source : The University of California, Riverside

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