Top 100: The most desirable cars of all time

Cloaked DNA devices evade the body's immune system

By

April 28, 2014

The team constructed a lipid-coated nanodevice that survived the mouse immune system due t...

The team constructed a lipid-coated nanodevice that survived the mouse immune system due to the phospholipid layer around the outside (Image: Harvard's Wyss Institute)

Image Gallery (2 images)

Researchers from Harvard University's Wyss Institute for Biologically Inspired Engineering have developed a cloaked DNA nanodevice capable of evading the body's immune defenses. The design was inspired by real world viruses and could be used to diagnose cancer and better target treatments to specific areas of tissue.

The researchers used a method known as "DNA origami" to construct the nanoscale device. This method involves folding a long strand of DNA into three-dimensional shapes and programming them to carry molecular instructions to specific cells. In 2012, researchers from Wyss demonstrated the potential of this approach by constructing a barrel-shaped robotic device, loading it with an antibody and programming it to hone in on leukemia and lymphoma cells. Once located, the antibody activated the cells' "suicide switch," causing them to self-destruct through what is known as apoptosis.

While this delivery mechanism could prove useful in treating a variety of diseases, one significant obstacle is that in testing, the nanorobots are quickly digested after being injected into the bloodstream of mice. This led the researchers at Wyss to explore how they could prevent the particles from being chewed up before performing their task.

"We suspected that a virus-like envelope around our particles could solve our problem," says Wyss Institute Core Faculty member and lead author of the study, William Shih, Ph.D.

The team set about replicating a type of virus that protects its genome using a solid protein casing and layer of oily coating. Within this coating is a double layer of phospholipid, a lipid containing phosphate that helps viruses to evade the immune system.

An enveloped virus (left) coats itself with lipid as part of its life cycle. New lipid-coa...
An enveloped virus (left) coats itself with lipid as part of its life cycle. New lipid-coated DNA nanodevices (right) closely resemble those viruses and evade the immune defenses of mice (Image: Steven Perrault/Harvard's Wyss Institute)

In testing the resilience of the nanodevices in the body, the team loaded them with fluorescent dye and injected them into mice, some with the phospholipid coating and some without. The uncoated devices were quickly broken down, with whole-body imaging revealing a concentrated glow in the bladder. Those receiving the coated version showed a full-bodied glow, indicating that the devices remained in the bloodstream for hours after being injected.

The team also observed a link between the presence of the coated nanodevices in the bloodstream and activation of the immune system. Two particular immune-activating molecules were found to be 100-fold lower in mice administered the coated devices as opposed to those given the uncoated versions.

Such manipulation of the immune system could prove beneficial for treating certain conditions, such as activating the immune system to fight cancer cells or conversely, suppressing it to allow transplanted tissue to become established. Despite these potential applications, the researchers are mindful of the potential for adverse effects.

"Activating the immune response could be useful clinically or it might be something to avoid," says Steve Perrault, Ph.D., a Wyss Institute Technology Development fellow. "The main point is that we can control it."

The team's research was published in the journal ACS Nano.

You can hear more about the cloaked nanodevices from the researchers in the video below.

Source: Wyss Institute

About the Author
Nick Lavars Nick was born outside of Melbourne, Australia, with a general curiosity that has drawn him to some distant (and very cold) places. Somewhere between enduring a winter in the Canadian Rockies and trekking through Chilean Patagonia, he graduated from university and pursued a career in journalism. He now writes for Gizmag, excited by tech and all forms of innovation, Melbourne's bizarre weather and curried egg sandwiches.   All articles by Nick Lavars
3 Comments

It is very likely that sometime nanodevices will replace our good bacteria.

Rafael Kireyev
29th April, 2014 @ 10:19 pm PDT

Sounds like something an evil guy would love to get his hands on. A virus or controlling bacteria that can evade your body's defenses. Sounds dangerous.

Andrew Zuckerman
30th April, 2014 @ 03:17 pm PDT

DANGER WILL ROBINSON!!! I agree with Andrew Zuckerman... this tech could save many lives, but could just as easily be used for nefarious purposes... who is funding your research? Who gets to decide the list of who lives and who dies?

Bravo for your technical accomplishment, but what if this thing mutates, becomes self-replicating, and infects the bio-sphere!?!?!?!?!?!?

Now we have become gods. We must act with god-like responsibility!!

In hope, and respect,

TorontoJer,

Jeremy Nasmith

Dancer/Choreographer/Composer/Teacher

TorontoJer
7th May, 2014 @ 04:39 pm PDT
Post a Comment

Login with your gizmag account:

Or Login with Facebook:


Related Articles
Looking for something? Search our 29,888 articles
Recent popular articles in Science
Product Comparisons