triple combination therapy
Posted on by Dr. Francis Collins
When your world has been touched by a life-threatening disease, it’s hard to spend a lot of time dreaming about the future. But that’s exactly what Jenny, an 8-year-old girl with cystic fibrosis (CF), did 30 years ago upon hearing the news that I and my colleagues in Ann Arbor and Toronto had discovered the gene for CF [1,2]. Her upbeat diary entry, which you can read above, is among the many ways in which people with CF have encouraged researchers on the long and difficult road toward achieving our shared dream of effective, molecularly targeted therapies for one of the nation’s most common potentially fatal recessive genetic diseases, affecting more than 30,000 individuals in the United States .
Today, I’m overjoyed to say that this dream finally appears to have come true for about 90 percent of people with CF. In papers in the New England Journal of Medicine and The Lancet [4,5], two international teams, including researchers partly supported by NIH, report impressive results from phase 3 clinical trials of a triple drug therapy for individuals with CF and at least one copy of Phe508del, the most common CF-causing mutation. And Jenny happens to be among those who now stand to benefit from this major advance.
Now happily married and living in Colorado, Jenny is leading an active life, writing a children’s book and trying to keep up with her daughter Pippa Lou, whom you see with her in the photo above. In a recent email to me, her optimistic outlook continues to shine through: “I have ALWAYS known in my heart that CF will be cured during my lifetime and I have made it my goal to be strong and ready for that day when it comes. None of the advancements in care would be what they are without you.”
But there are a great many more people who need to be recognized and thanked. Such advances were made possible by decades of work involving a vast number of other researchers, many funded by NIH, as well as by more than two decades of visionary and collaborative efforts between the Cystic Fibrosis Foundation and Aurora Biosciences (now, Vertex Pharmaceuticals) that built upon that fundamental knowledge of the responsible gene and its protein product. Not only did this innovative approach serve to accelerate the development of therapies for CF, it established a model that may inform efforts to develop therapies for other rare genetic diseases.
To understand how the new triple therapy works, one first needs to understand some things about the protein affected by CF, the cystic fibrosis transmembrane regulator (CFTR). In healthy people, CFTR serves as a gated channel for chloride ions in the cell membrane, regulating the balance of salt and water in the lungs, pancreas, sweat glands, and other organ systems.
People with the most common CF-causing Phe508del mutation produce a CFTR protein with two serious problems: misfolding that often results in the protein becoming trapped in the cell’s factory production line called the endoplasmic reticulum; and deficient activation of any protein that does manage to reach its proper location in the cell membrane. Consequently, an effective therapy for such people needs to include drugs that can correct the CFTR misfolding, along with those than can activate, or potentiate, the function of CFTR when it reaches the cell membrane.
The new triple combination therapy, which was developed by Vertex Pharmaceuticals and recently approved by the Food and Drug Administration (FDA) , is elexacaftor-tezacaftor-ivacaftor (two correctors and one potentiator). This approach builds upon the success of ivacaftor monotherapy, approved by the FDA in 2012 for rare CF-causing mutations; and tezacaftor-ivacaftor dual therapy, approved by the FDA in 2018 for people with two copies of the Phe508del mutation.
Specifically, the final results from two Phase 3 multi-center, randomized clinical trials demonstrated the safety and efficacy of the triple combination therapy for people with either one or two copies of the Phe508del mutation—which represents about 90 percent of people with CF. Patients in both trials experienced striking improvements in a key measure of lung capacity (forced expiratory volume in 1 second) and in sweat chloride levels, which show if the drugs are working throughout the body. In addition, the triple therapy was generally safe and well tolerated, with less than 1 percent of patients discontinuing the treatment due to adverse effects.
This is wonderful news! But let’s be clear—we are not yet at our journey’s end when it comes to realizing the full dream of defeating CF. More work remains to be done to help the approximately 10 percent of CF patients whose mutations result in the production of virtually no CFTR protein, which means there is nothing for current drugs to correct or activate.
Beyond that, wouldn’t it be great if biomedical science could figure out a way to permanently cure CF, perhaps using nonheritable gene editing, so no one needs to take drugs at all? It’s a bold dream, but look how far a little dreaming, plus a lot of hard work, has taken us so far in Jenny’s life.
In closing, I’d like to leave you with the chorus of a song, called “Dare to Dream,” that I wrote shortly after we identified the CF gene. I hope the words inspire not only folks affected by CF, but everyone who is looking to NIH-supported research for healing and hope.
Dare to dream, dare to dream,
All our brothers and sisters breathing free.
Unafraid, our hearts unswayed,
‘Til the story of CF is history.
. Identification of the cystic fibrosis gene: chromosome walking and jumping. Rommens JM, Iannuzzi MC, Kerem B, et al. Science 1989; 245:1059-1065.
. Identification of the cystic fibrosis gene: cloning and characterization of complementary DNA. Riordan JR, Rommens JM, Kerem B, et al. Science 1989; 245:1066-73. Erratum in: Science 1989; 245:1437.
 Realizing the Dream of Molecularly Targeted Therapies for Cystic Fibrosis. Collins, FS. N Engl J Med. 2019 Oct 31. [Epub ahead of print]
. Elexacaftor-Tezacaftor-Ivacaftor for CF with a Single Phe508del Mutation. Middleton P, Mall M, Drevinek P, et al.N Engl J Med. 2019 Oct 31. [Epub ahead of print]
 Efficacy and safety of the elexacaftor/tezacaftor/ivacaftor combination regimen in people with cystic fibrosis homozygous for the F508del mutation: a double-blind, randomised, phase 3 trial. Heijerman H, McKone E, Downey D, et al. Lancet. 2019 Oct 31. [Epub ahead of print]
 FDA approves new breakthrough therapy for cystic fibrosis. FDA News Release, Oct. 21, 2019.
Cystic Fibrosis (Genetics Home Reference/National Library of Medicine/NIH)
Research Milestones (Cystic Fibrosis Foundation, Bethesda, MD)
Wheezie Stevens in “Bubbles Can’t Hold Rain,” by Jennifer K. McGlincy
NIH Support: National, Heart, Lung and Blood Institute; National Institute of Diabetes and Digestive and Kidney Diseases; National Center for Advancing Translational Sciences