https://www.goodnewsnetwork.org/breakthrough-using-crispr-to-target-fat-cells-in-genetic-study-of-obesity/

Breakthrough Using CRISPR to Target Fat Cells in Genetic Study of Obesity

By Good News Network -Jan 8, 2022

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Fat—it is vital for life but too much can lead to a host of health problems. Studying how fat tissue, or adipose, functions in the body is critical for understanding obesity and other issues.

Illustration by Jill George / NIH Image Gallery -CC license

But structural differences in fat cells and their distribution throughout the body make doing so challenging.

“Fat cells are different from other cells in that they lack unique cell surface receptors and only account for a minority of the cells within fat tissue,” said Steven Romanelli, Ph.D., from the Department of Molecular & Integrative Physiology at the University of Michigan.https://ecf8e886e888764bccaad102ae6819a7.safeframe.googlesyndication.com/safeframe/1-0-38/html/container.html

In a new paper published in the Journal of Biological Chemistry, Romanelli, Ormand MacDougald, Ph.D. and their colleagues describe a breakthrough using CRISPR-Cas9, a tool that has transformed molecular biological research, but whose use in the study of adipose tissue had been elusive.

It’s a gene editing technique comprised of an enzyme called Cas9, which can break strands of DNA, and a piece of RNA that guides the Cas9 enzyme to a specific site in the genome for editing. The tool has been successfully used to study heart, liver, neurons, and skin cells, to name a few, but never a certain type of adipose cells known as brown fat.

Using the technique, the team was able to successfully target brown fat, a specialized adipose tissue used to generate heat and protect core body temperature.

Using their adeno-associated virus CRISPR-Cas9 components, they knocked out the UCP1 gene that defines brown adipose and enables it to generate heat, in adult mice. They observed that the knockout mice were able to adapt to the loss of the gene and maintain their body temperature in cold conditions, hinting at other pathways involved in temperature homeostasis.

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“The biggest challenge in terms of adipose research to date has been that if you want to study a gene’s function, you have to commit a considerable amount of time, resources and money into developing a transgenic mouse,” said Romanelli.https://ecf8e886e888764bccaad102ae6819a7.safeframe.googlesyndication.com/safeframe/1-0-38/html/container.html

The traditional way of developing mouse models involves breeding mice with a desired mutation to delete or introduce certain genes of interest, which can take more than a year and tens of thousands of dollars.

CRISPR-Cas9 has revolutionized this process.

“What we’ve been able to do is take that whole process and distill it into anywhere from two weeks to a month to generate a transgenic mouse, reducing the cost to less than $2,000. Not only does it reduce time and cost, it democratizes the research so that any lab that is familiar with molecular biology techniques can adopt this method and do it themselves,” said Romanelli.

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They were also able to use this method to delete multiple genes simultaneously, a fact that could help researchers better understand important molecular pathways.

Though these results are exploratory, the breakthrough represents an important step forward in studying fat.

(Source: Michigan Medicine, University of Michigan – by Kelly Malcom)

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