Summary: Treating coronavirus patients with alpha-blockers may help prevent the cytokine storm associated with severe COVID-19 infection. Alpha-blockers interfere with the cell signaling that triggers cytokine storms. Mice with bacterial infections that were treated with alpha-blockers experienced reduced cytokine storms and decreased death rates.
For some COVID-19 patients, the body’s immune response may be as destructive as the virus that causes the disease. The persistent high fevers, severe respiratory distress, and lung damage seen in some critically ill patients are all signs of an immune system in overdrive.
Now, a new clinical trial will test a treatment that targets this overactive immune response, says Howard Hughes Medical Investigator Bert Vogelstein. He and his team at the Johns Hopkins University School of Medicine are currently recruiting individuals for the trial, which includes patients ages 45 to 85 at the Johns Hopkins Hospital who have COVID-19 but who aren’t on a ventilator or in the ICU.
Their treatment, a common type of prescription drug called an alpha blocker, might break a cycle of hyperinflammation before it ramps up, their findings from mouse studies and a recent analysis of medical claims data suggest.
“The approach we’re advocating involves treating people who are at high risk early in the course of the disease, when you know they’re infected but before they have severe symptoms,” says Vogelstein. If the trial’s results suggest the drug is safe and effective against COVID-19, it could potentially help many people recover safely at home and lessen the strain on hospital resources, he says.
A hyperactive immune response isn’t unique to COVID-19. People with autoimmune diseases and cancer patients receiving immunotherapy can experience similar symptoms. These responses are referred to as macrophage activation syndrome, cytokine release syndrome — or simply “cytokine storms.”
When macrophages (and some other kinds of immune cells) detect virus particles, they send out alert messages by releasing various proteins known as cytokines. Those cytokines recruit other immune cells to the scene – an inflammatory response that, in moderation, helps the body fight off a virus. But macrophages can also release other signaling molecules, called catecholamines, that amplify this response further, triggering the release of more cytokines. The result is a runaway feedback loop, like a snowball getting bigger as it barrels down a hill.
“It seems that once this process starts, there’s this inability to properly switch it off,” says Maximilian Konig, a rheumatologist at Hopkins who is helping to coordinate the trial.
Before COVID-19 hit, Vogelstein’s team was already exploring ways to ease the hyperinflammatory immune response in cancer patients treated with immunotherapy. The researchers were interested in drugs called alpha blockers, which are widely prescribed for prostate conditions and high blood pressure — and also interfere with the cell signaling that triggers cytokine storms. In theory, alpha blockers might stop a cytokine storm before it starts.
Giving mice with bacterial infections an alpha blocker lessened cytokine storms and decreased deaths, Vogelstein’s team reported in the journal Nature in 2018. And, the researchers found, the treatment didn’t seem to harm other aspects of the immune response.
Staving off the storm
As the COVID-19 pandemic escalated in the United States over the past few months and severely ill patients presented with cytokine storm symptoms, the idea of testing alpha blockers in humans has become more urgent, Vogelstein’s team recently argued in the Journal of Clinical Investigation.
To obtain approval for an alpha blocker clinical trial, Vogelstein’s team first surveyed medical claims data. They combed through records from people hospitalized for pneumonia and acute respiratory distress and analyzed whether patients’ outcomes were better if they had been taking alpha blockers for unrelated conditions. The team’s tentative conclusion: taking alpha blocker drugs correlated to a lower risk of death from respiratory distress.
On its own, that’s not strong enough evidence to prescribe the drug for a wholly new disease like COVID-19, says Susan Athey, an economist at Stanford University who collaborated with Vogelstein’s team on the claims analysis. But it helps bolster the case for the team’s clinical trial.
In the trial, COVID-19 patients will take gradually increasing doses of an alpha blocker called prazosin, sold under the brand name Minipress, over six days, says Chetan Bettegowda, a neurosurgeon at Hopkins who is helping to design and run the trials. Then, the team will evaluate whether people who received this treatment had a lower ICU admission rate or ventilator use than patients who received the standard treatment. They’ll follow each patient for 60 days, but preliminary data from the first patients could be available within weeks to months, Bettegowda says.
If the trial’s results suggest alpha blockers are safe and effective, the team hopes to run a second trial with patients who have been diagnosed with COVID-19 but are not yet hospitalized. They’re also encouraging colleagues at other hospitals to join their clinical trial efforts, to gather patient data more quickly.
This treatment, if it works, would be a secondary form of prevention, Vogelstein says, mitigating symptoms before they become severe, rather than stopping infection in the first place. “Eventually, hopefully, a vaccine will be produced, and that will be the essence of prevention,” he says. “But until vaccines are available, secondary prevention makes a lot of sense.”
About this coronavirus research article
Meghan Rosen – HHMI
The image is credited to scientificanimations.com / Wikimedia Commons.
Original Research: Closed access
“Preventing cytokine storm syndrome in COVID-19 using α-1 adrenergic receptor antagonists”. by Maximilian F. Konig, Michael A. Powell, Verena Staedtke, Ren-Yuan Bai, David L. Thomas, Nicole M. Fischer, Sakibul Huq, Adham M. Khalafallah, Allison Koenecke, Ruoxuan Xiong, Brett Mensh, Nickolas Papadopoulos, Kenneth W. Kinzler, Bert Vogelstein, Joshua T. Vogelstein, Susan Athey, Shibin Zhou, Chetan Bettegowda.
Journal of Clinical Investigation doi: arXiv:2004.10117
“Alpha-1 adrenergic receptor antagonists for preventing acute respiratory distress syndrome and death from cytokine storm syndrome”. by Joshua T. Vogelstein, Michael Powell, Allison Koenecke, Ruoxuan Xiong, Nicole Fischer, Sakibul Huq, Adham M. Khalafallah, Brian Caffo, Elizabeth A. Stuart, Nickolas Papadopoulos, Kenneth W. Kinzler, Bert Vogelstein, Shibin Zhou, Chetan Bettegowda, Maximilian F. Konig, Brett Mensh, Susan Athey.a.
Preventing cytokine storm syndrome in COVID-19 using α-1 adrenergic receptor antagonists
Medications that target catecholamine-associated inflammation may prevent cytokine storm syndrome associated with COVID-19 and other diseases.
Alpha-1 adrenergic receptor antagonists for preventing acute respiratory distress syndrome and death from cytokine storm syndrome
In severe viral pneumonias, including Coronavirus disease 2019 (COVID-19), the viral replication phase is often followed by a hyperinflammatory reaction (‘cytokine storm syndrome’) that leads to acute respiratory distress syndrome and death, despite maximal supportive care. Preventing hyperinflammation is key to avoiding these outcomes. We previously demonstrated that alpha-1 adrenergic receptor antagonists (α-blockers) can prevent cytokine storm syndrome and death in mice. Here, we conduct a retrospective analysis of patients with acute respiratory distress or pneumonia (n = 13,125 and n = 108,956, respectively) from all causes; patients who were incidentally taking α-blockers had a reduced risk of requiring ventilation (by 35% and 16%, respectively), and a reduced risk of being ventilated and dying (by 56% and 20%, respectively), compared to non-users. Beta-adrenergic receptor antagonists had no significant effects. These results highlight the urgent need for prospective trials testing whether prophylactic α-blockers improve outcomes in diseases with a prominent hyperinflammatory component such as COVID-19.
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