Nucleus-like Structure Assembly During Bacteriophage Replication

The process that very large viruses use to reprogram the cellular machinery of bacteria during infection, to more closely resemble an animal or human cell has been documented by biologists at UC San Diego.

The process enables the invaders to trick cells into producing hundreds of new viruses, which eventually explode from and kill the cells they infect.

Joe Pogliano, the professor of molecular biology who headed the research team, said:

“Scientists have been studying viruses for a hundred years, but we’ve never seen anything like this before. Every experiment produced something new and exciting about this system.”

Bacteriophages

Viruses that infect bacteria, also known as bacteriophages, are some of the most numerous entities on earth. The researchers conducted a series of experiments that allowed them to view in detail what happens inside bacterial cells as the invading viruses replicate.

“We chose to study a family of unusually large bacteriophage and to apply cutting edge methods to watch their replication in unprecedented detail,”

said Pogliano.

Joe Pogliano and his colleagues found that shortly after bacteriophages infect bacteria, they destroy much of the existing architecture of the bacterial cells, including bacterial DNA, then hijack the remaining cellular machinery. The viruses then reorganize the entire cell into an efficient, centralized factory to produce the next generation of viruses.

“This factory and the surrounding arrangement of the infected cell are remarkably similar to the organization seen in plant and animal cells,” said Pogliano.

Bacteria lack many of the specialized structures that compartmentalize cellular processes in plant or animal cells, which biologists call eukaryotic cells. Bacteria, for example, lack an enclosed nucleus, which contains genetic information and acts as the control center of the cell.

Eukaryotic Cell Mimicry

But Vorrapon Chaikeeratisak, a postdoctoral fellow, and Katrina Nguyen, a graduate student in Pogliano’s laboratory, found that invading viruses organize the structures within bacteria to mimic those found in eukaryotic cells.

Using fluorescent microscopy, the two biologists discovered that as viruses replicate within bacterial cells, they build compartments to separate the different processes going on during infection.

“These compartments enclose all the viral DNA, just as a nucleus does in a plant or mammalian cell,” said first author Chaikeeratisak. “DNA processes, like replication or transcription, occur inside the compartment while proteins are produced outside the compartment.”

Elizabeth Villa, a professor of chemistry and biochemistry at UC San Diego, and David Agard, a professor of biochemistry and biophysics at UC San Francisco, used a specialized technique, called cryo-electron tomography, to produce images of the processes that Chaikeeratisak and Nguyen initially discovered at extremely high magnification.

Viral Manipulation

Those pictures showed viral offspring being assembled around the nucleus-like compartment in the bacterium. Eventually, these new viruses burst the cell open and spread out to infect neighboring cells.

“These observations of viral manipulation of a cell are completely unexpected, as no bacterial virus has been seen to reorganize a cell in so drastic a manner,” said Pogliano. “The restructuring of a simple cell to resemble an existing, more complicated system blurs the line between simple bacterial cells and those of ‘higher’ organisms, such as plants and animals.”

Could this be how multicellular organisms evolved?

One existing theory, called viral eukaryogenesis, suggests that the first eukaryotic cell was created when a large virus took over a bacterium. Eventually, the bacterium and virus formed a compound cell, in which the virus evolved into the nucleus.

“It may be too early to know if this particular virus is an intermediate step in the transition from bacteria and viruses to multicellular eukaryotes, but this discovery could broaden knowledge about the origins of life as we know it,” said Pogliano.

The study was supported by grants from the National Institutes of Health and the Howard Hughes Medical Institute.

Vorrapon Chaikeeratisak, Katrina Nguyen, Kanika Khanna, Axel F. Brilot, Marcella L. Erb, Joanna K. C. Coker, Anastasia Vavilina, Gerald L. Newton, Robert Buschauer, Kit Pogliano, Elizabeth Villa, David A. Agard, Joe Pogliano
Assembly of a nucleus-like structure during viral replication in bacteria
Science, 2017; 355 (6321): 194 DOI: 10.1126/science.aal2130

Image: Cryo-electron tomography shows how the bacterial cell is reorganized to resemble a more complicated plant or animal cell with a red nucleus-like compartment and ribosomes, the smaller light blue structures. The reproducing viruses appear with dark blue heads and pink tails. Credit: Vorrapon Chaikeeratisak, Kanika Khanna, Axel Brilot, Katrina Nguyen

166 Shares
166 Shares
Share
Tweet
+1