Organizing a cell's genetic material from the sidelines

June 28, 2018, Carnegie Institution for Science
Organizing a cell's genetic material from the sidelines
The purple threads represent DNA segments found at the nuclear periphery. The red, orange, yellow, green, and blue, threads represent DNA segments found at the nuclear interior. The two nuclear membrane layers, nuclear pores (holes on the nuclear membrane through which communication occurs), and the lamin meshwork are depicted in black. Arrows represent gene expression and arrows with crosses represent no gene expression. Removing the lamin meshwork changes the relative positions of the colored DNA segments and alters gene expression throughout the nucleus. Credit: The illustration is courtesy of the authors and appears in the Molecular Cell paper.

A tremendous amount of genetic material must be packed into the nucleus of every cell—a tiny compartment. One of the biggest challenges in biology is to understand how certain regions of this highly packaged DNA can be called upon so that the genes encoded in them can be "turned on" or expressed and used to manufacture RNA and proteins.

New work published in Molecular Cell by a team of biologists from Carnegie, Soonchunhyang University, and Johns Hopkins University have shed light on this process and their findings have implications for certain age-related diseases and organ decay.

The , where a cell's DNA is housed, is surrounded by two membrane layers. Some of the cell's DNA is packed in the nuclear interior and some at its periphery. Filament-forming proteins called lamins form a meshwork that connects the DNA at the nuclear periphery to this nuclear membrane.

Lamins are evolutionarily conserved and they have several important roles, including maintaining the shape of the nucleus and influencing by sensing the cell's needs—like a cellular butler. Mutations in lamins or changes in the amounts of lamin proteins present in a cell are linked to defects in animal development, including human diseases such as premature aging, certain neuropathies, heart defects, and age-associated organ decay.

Since lamins interact with the DNA found at the nuclear periphery, many scientists believed that if the lamin meshwork were removed, it would only affect the folding and packaging of the DNA that exists close to the .

But this research team, led by Carnegie's Yixian Zheng, showed that when cells are lacking in lamins, changes in how the DNA on the nuclear periphery is packaged alter the structural positions of DNA segments in the nuclear interior.

"It was initially thought that lamins would only influence of genes encoded by DNA packaged at the nuclear periphery, but reports, including our own, have shown that cells without lamins, or with lamin-related mutations, have alterations in their expression of genes found throughout the DNA in the nucleus," Zheng explained.

Through in-depth analyses of DNA interactions occurring in the nuclei of that lack lamins, the team demonstrated that lamins maintain the relative positions of DNA segments throughout the nucleus. When the positions of genes are altered due to lamin-related mutations or lamin depletion, the genes are not "turned on" or "turned off" correctly. This explains why proteins from the nuclear sidelines can influence the expression of throughout the nucleus.

"Lamins are known to build organs during embryonic development and maintain organ and tissue functions later in life. One of the most-interesting aspects of our findings is that the broad influence we now know lamins have on DNA organization and gene expression can help explain how these crucial lamin functions are achieved," Zheng added.

Going forward, the team wants to determine how sense the needs of the cell to help call on gene expression, because such understanding is critical to understanding lamin-associated aging and diseases.

Explore further: Super-resolution microscopy reveals lamin protein meshwork at the inner side of the nuclear membrane

More information: Xiaobin Zheng et al. Lamins Organize the Global Three-Dimensional Genome from the Nuclear Periphery, Molecular Cell (2018). DOI: 10.1016/j.molcel.2018.05.017

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