J C Glorioso and N Lemoine; Gene Therapy (2017) 24, 495–496; doi:10.1038/gt.2017.23
While there have been many hurdles to overcome that relate to safety, immunity and manufacturing, still, the logic of this treatment modality remains intact and most of us in the field believe that it will take its place as a standard of care just as the use of monoclonal antibodies and pharmaceutical drugs of all types has become widely employed. This is especially true for diseases that are too complex to treat with single approaches, such as cancer.
GT is one of the most highly regulated therapeutic fields. There were numerous control bodies formed to understand the long-term impact of gene therapy and to consider the dangers of viral vector engineering and transfer to humans. While the risk inherent in GT success is quite high, the rewards are potentially enormous both from a commercial as well as human medicine point of view.
There are many fields such as organ transplantation technology that have taken many years to develop before they have become standard practice, and no doubt gene therapy will take a similar path. We predict that by mid-century, there will be many GT options for patients, and in combination with other treatment strategies, will move human medicine to reach heights that are currently unanticipated. The challenge will be how to deliver what are now expensive and difficult treatments to people worldwide who have less developed health care systems and wealth. Our sense is that as we create better treatment options, their costs will come down and rival immunization protocols.
Gene therapy—from small beginnings to where we are now