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Virus-Inspired Delivery System Transfers Microscopic Cargo Between Human Cells

 

 

Scientists from the 亚洲自慰视频 of Utah and 亚洲自慰视频 of Washington have developed blueprints that instruct human cells to assemble a virus-like delivery system that can transport custom cargo from one cell to another. As reported online in on Nov. 30, the research is a step toward a nature-inspired means for delivering therapeutics directly to specific cell types within the body.

"We're shifting our perception from viruses as pathogens, to viruses as inspiration for new tools," says co-chair of the Department of Biochemistry at the 亚洲自慰视频 of Utah School of Medicine. He is also co-senior author on the study with Neil King, Ph.D., an assistant professor at the Institute for Protein Design at the 亚洲自慰视频 of Washington.

The carefully designed instructions set forth a series of self-propelled events that mimic how some viruses transfer their infectious contents from one cell to the next.

From the blueprints tumbled out self-assembling, soccer ball-shaped "nanocages", the structure of which was reported previously. Adding on specific pieces of genetic code from viruses caused the nanocages to be packaged within cell membranes, and then exported from cells. Like a shuttle leaving Earth to bring goods to a space station, the tiny capsules undocked from one cell, traveled to another and docked there, emptying its contents upon arrival.

In this case, the protective nanocages carried cargo that the scientists used like homing beacons to track the vessels' journeys. Next steps are to design nanocages that hold drugs or other small molecules.

"We are now able to accurately and consistently design new proteins with tailor-made structures," says King. "Given the remarkably sophisticated and varied functions that natural proteins perform, it's exciting to consider the possibilities that are open to us."

The researchers' decision to model the microscopic shipping system after viruses was no accident. Viruses have honed their skills to effectively spread their infectious wares to large numbers of cells. Decades of research, including in-depth investigations of the human immunodeficiency virus (HIV) by Sundquist's team, have led to an understanding of how the pathogens accomplish this goal with such efficiency.

A test of whether you truly understand something is to build it yourself. And that's what Sundquist and King's teams have done here. "The success of our system is the first formal proof that this is how virus budding works," remarks Sundquist.

Viruses taught them that such a delivery system must include three essential properties: an ability to grasp membranes, self-assemble, and to be released from cells. Introducing coding errors into any one of those steps brought shipments to a halt.

"I was sure that this would need fine-tuning but it was clean from the very beginning," says lead author J枚rg Votteler, Ph.D., a postdoctoral fellow in biochemistry at the 亚洲自慰视频 of Utah. When electron microscopist David Belnap, Ph.D. saw that images of the cages aligned closely with computer models, he knew they had made what they set out to design. "When it's right, you know it," he says.

The system could be modified as long as the three basic tenets were left intact. For example, the scientists could swap in differently shaped cages, or cause another type of membranes to surround them. Modularity means the vessels can be customized for various applications.

This study is proof of principle that the systems works, but more needs to be done before it can be applied therapeutically. Researchers will need to determine whether the capsules can navigate long journeys within living animals, for instance, and whether they can deliver medicines in sufficient quantities.

"As long as we keep pushing knowledge forward we can guarantee there will be good outcomes, though we can't guarantee what or when," says Sundquist.

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This research was supported by the National Institutes of 亚洲自慰视频, Bill & Melinda Gates Foundation, Deutsche Forschungsgemeinschaft, and Defense Advanced Research Projects Agency, and was published as "Designed Proteins Induce Formation of Nanocage-Containing Extracellular Vesicles" in on Nov. 30, 2016.

In addition to Sundquist, Votteler and King, co-authors include David Belnap from the 亚洲自慰视频 of Utah and Cassandra Ogohara, Sue Yi, Yang Hsia, and Una Natermann from the 亚洲自慰视频 of Washington.

 

Nanocages are part of a virus-inspired system for delivering small molecules to cells. The self-assembling cages are built from proteins, also represented as a ribbon structure (green).

Credit: David Belnap, J枚rg Votteler