Posted on 07/30/2015 10:20:42 AM PDT by Red Badger
Researchers have recreated the evolutionary lineage of adeno-associated viruses (AAVs) to reconstruct an ancient viral particle that is highly effective at delivering gene therapies targeting the liver, muscle, and retina. This approach, published July 30 in Cell Reports, could be used to design a new class of genetic drugs that are safer and more potent than those currently available.
"Our novel methodology allows us to understand better the intricate structure of viruses and how different properties arose throughout evolution," says senior study author Luk H. Vandenberghe of Harvard Medical School. "We believe our findings will teach us how complex biological structures, such as AAVs, are built. From this knowledge, we hope to design next-generation viruses for use as vectors in gene therapy."
Viruses need to efficiently transfer their genetic material into host cells in order to replicate and survive. Researchers have taken advantage of this natural property to develop viral vectors, or carriers, capable of shuttling therapeutic genes to the appropriate cells or tissues.
Early-stage clinical trials have demonstrated the safety and effectiveness of this approach for treating inherited blindness and hemophilia. But so far, AAVs used for gene therapy have been chosen from naturally circulating viral strains, which patients may already have been exposed to, which means they would have natural immunity. Because natural immunization blocks the transfer of the therapeutic gene, these individuals are often ineligible for gene therapy.
The generation of AAV vectors that reliably evade the host immune system is pivotal for the long-term success of this promising therapeutic approach. However, efforts to engineer improved AAVs have been stymied by the intricate structure of these viruses. Like pieces of a jigsaw puzzle, every protein in the shell of the virus must fit together perfectly for the virus to function normally. Altering proteins in one part of the virus to achieve a certain benefit, such as more efficient gene transfer or reduced recognition by host immune cells, could end up destroying the structural integrity of the entire shell.
To overcome this challenge, Vandenberghe and his team at the Grousbeck Gene Therapy Center at the Massachusetts Eye and Ear Infirmary turned to evolutionary history for guidance. Under selective pressure, AAV ancestors have undergone a series of changes that altered viral function while preserving the structural integrity and other core viral functions. "Analysis of these evolutionary intermediates provides insights into how to uncouple important vector properties to build safer and improved gene therapy vectors," says first author Eric Zinn of the Schepens Eye Research Institute.
Using computational techniques, the researchers analyzed amino acid sequences of contemporary AAVs and used this information to predict the ancestral amino acid sequence for the AAV protein shell. This analysis allowed them to reconstruct in the laboratory nine synthetic predecessors for AAVs that are currently undergoing clinical testing. The most ancient of those, named Anc80, was extensively tested for applications in gene therapy. When injected into mice, Anc80 successfully targeted the liver, muscle, and retina, with levels of gene transfer equivalent or superior to those of contemporary AAVs used in clinical trials. Moreover, the ancestral virus did not produce any toxicity and was less susceptible to the immunity induced by AAVs currently circulating in nature. "Our work is the first demonstration of a computationally designed and fully synthetic viral vector for gene therapy," Vandenberghe says.
According to Vandenberghe, generating novel infectious agents may raise some concerns, but several safety measures have been taken. For example, AAVs are not known to cause any diseases, and their replication machinery is crippled prior to their use in gene therapy. "With the safeguards that have been put in place, we believe our contained approach to achieve a therapeutic gene delivery vehicle with beneficial properties and a distinct immunological profile to existing technology is not less or more unethical or dangerous as compared to other efforts to discover viral vectors," he says.
In future studies, the researchers will characterize the interplay between the virus and host through evolution and continue to seek improved vectors for clinical applications. They will also examine the potential of Anc80 for treating liver diseases and retinal forms of blindness. "The vectors developed and characterized in this study demonstrate unique and potent biology that justify their consideration for gene therapy applications," Vandenberghe says.
More information: Cell Reports, Zinn et al. "In Silico Reconstruction of the Viral Evolutionary Lineage Yields a Potent Gene Therapy Vector" dx.doi.org/10.1016/j.celrep.2015.07.019
Journal reference: Cell Reports
Bring Out Your Dead
Post to me or FReep mail to be on/off the Bring Out Your Dead ping list.
The purpose of the Bring Out Your Dead ping list (formerly the Ebola ping list) is very early warning of emerging pandemics, as such it has a high false positive rate.
So far the false positive rate is 100%.
At some point we may well have a high mortality pandemic, and likely as not the Bring Out Your Dead threads will miss the beginning entirely.
*sigh* Such is life, and death...
I Am Legend . . .
Well yeah! ;’)
Well, to be honest, it wasn’t the FR RF I was thinking about, it was the Stephen King character I was referring to...
But I suppose you’re right, just hope our RF doesn’t have the same abilities or motives as the character.
Dang, I know better...
Always read through, you got it.
Just when you thought you were up to date on your shots...
That does read like the start of a horror novel.
We brought back old viruses, made them better, and then gave them to people.
And the first went, and poured out his vial upon the earth; and there fell a noisome and grievous sore upon the men which had the mark of the beast, and [upon] them which worshipped his image.
It seems to me that after the first round of gene therapy using one of these synthetic viruses, the patient would become immune, rendering the synthetic virus unusable for subsequent therapies.
In other words, these researchers have only temporarily bypassed the problem of preexisting immunity to gene therapy adenovirus based vectors.
The great promise of gene therapy has always been derailed by the body’s strong and effective defenses against the entry of foreign nucleic acids, whether they come in the form of carrier vectors (plasmids or cosmids), or modified viruses. Basically, if the nucleic acid is not already present inside the cells, the body doesn’t want it.
I’m nekulturny in these times. This is a movie, right?
I don’t do movies so I don’t get the allusion
I wouldn’t say you are uncultured. That picture is of the mad Russian scientist from the television series “The Last Ship.”
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