In comments a regular commenter pointed out an interesting article at Medium.com which is worthy of your attention. Apparently, a team of researchers at Oak Ridge put one of their supercomputers to work on the problem, and came up with an interesting hypothesis about how COVID-19 produces the effects that it does:
According to the team’s findings, a Covid-19 infection generally begins when the virus enters the body through ACE2 receptors in the nose, (The receptors, which the virus is known to target, are abundant there.) The virus then proceeds through the body, entering cells in other places where ACE2 is also present: the intestines, kidneys, and heart. This likely accounts for at least some of the disease’s cardiac and GI symptoms.
But once Covid-19 has established itself in the body, things start to get really interesting. According to Jacobson’s group, the data Summit analyzed shows that Covid-19 isn’t content to simply infect cells that already express lots of ACE2 receptors. Instead, it actively hijacks the body’s own systems, tricking it into upregulating ACE2 receptors in places where they’re usually expressed at low or medium levels, including the lungs.
In this sense, Covid-19 is like a burglar who slips in your unlocked second-floor window and starts to ransack your house. Once inside, though, they don’t just take your stuff — they also throw open all your doors and windows so their accomplices can rush in and help pillage more efficiently.
The renin–angiotensin system (RAS) controls many aspects of the circulatory system, including the body’s levels of a chemical called bradykinin, which normally helps to regulate blood pressure. According to the team’s analysis, when the virus tweaks the RAS, it causes the body’s mechanisms for regulating bradykinin to go haywire. Bradykinin receptors are resensitized, and the body also stops effectively breaking down bradykinin. (ACE normally degrades bradykinin, but when the virus downregulates it, it can’t do this as effectively.)
The end result, the researchers say, is to release a bradykinin storm — a massive, runaway buildup of bradykinin in the body. According to the bradykinin hypothesis, it’s this storm that is ultimately responsible for many of Covid-19’s deadly effects. Jacobson’s team says in their paper that “the pathology of Covid-19 is likely the result of Bradykinin Storms rather than cytokine storms,†which had been previously identified in Covid-19 patients, but that “the two may be intricately linked.†Other papers had previously identified bradykinin storms as a possible cause of Covid-19’s pathologies.
If true here are some of the implications:
As Jacobson and team point out, several drugs target aspects of the RAS and are already FDA approved to treat other conditions. They could arguably be applied to treating Covid-19 as well. Several, like danazol, stanozolol, and ecallantide, reduce bradykinin production and could potentially stop a deadly bradykinin storm. Others, like icatibant, reduce bradykinin signaling and could blunt its effects once it’s already in the body.
Interestingly, Jacobson’s team also suggests vitamin D as a potentially useful Covid-19 drug. The vitamin is involved in the RAS system and could prove helpful by reducing levels of another compound, known as REN. Again, this could stop potentially deadly bradykinin storms from forming. The researchers note that vitamin D has already been shown to help those with Covid-19. The vitamin is readily available over the counter, and around 20% of the population is deficient. If indeed the vitamin proves effective at reducing the severity of bradykinin storms, it could be an easy, relatively safe way to reduce the severity of the virus.
Other compounds could treat symptoms associated with bradykinin storms. Hymecromone, for example, could reduce hyaluronic acid levels, potentially stopping deadly hydrogels from forming in the lungs. And timbetasin could mimic the mechanism that the researchers believe protects women from more severe Covid-19 infections. All of these potential treatments are speculative, of course, and would need to be studied in a rigorous, controlled environment before their effectiveness could be determined and they could be used more broadly.
It would also explain why African Americans appear to be more susceptible to the worst effects of the disease—prevalence of Vitamin D deficiency is higher among people of sub-Saharan African descent than among the rest of the population.
Yes, thank you Andy for highlighting. I would note that this very same issue was brought forth about two months ago as part of an advocacy for vitamin D. It looks like it may have legs.
I can’t vouch for anything in there as I’m completely ignorant and had never heard of Bradykinin before. Upon reading, it all sounds reasonable and coherent and it was sent to me by a science friend who is not a doctor.
But it seems that if any of this is remotely true, then this could be a pretty big deal. The paper was published a month ago, so I would think there would be more on this, but haven’t had time to do any research. Hopefully steve’s expertise can shed some light.
On the one hand it would be very good news if that hypothesis were correct—there would be lots of good prospects for treatments. But on the other it wouldn’t be particularly empowering because to the best of my knowledge there is presently no reliable quantitative assay of Bradykinin. Maybe one has been developed fairly recently and I just haven’t heard of it.
Another question for Steve: Did he work with the steroid dexamethasone? Apparently in the UK it had some success saving lives of people on ventilators.
‘But it seems that if any of this is remotely true, then this could be a pretty big deal.’
Not if OMB gets wind of it and tweets about it. That would be the kiss of death for its utilization.
We started adding vitamin D supplement months ago. One of those things that are cheap and can’t hurt. Hope the road outlined leads somewhere.
There is an assay for bradykinin. Link below. That said, from my POV this is mostly research science level stuff right now. The body’s inflammatory response and how it behaves or misbehaves has been a hot topic for quite a while now. One of the problems is that everything affects everything else. Bradykinin activates part of the cytokine pathway. It will take a lot of effort and people smarter than me (low bar fortunately) to sort it out, and I suspect that it could be both cytokine and bradykinin that are involved.
The clinician in me thinks it fits and explains a lot of stuff, but there are parts about Covid that dont fit. Either storm could lead to fluid in the lungs. Either could account for the total body effects, though bradykinin might account for GGI stuff better. The hypokalemia we sometimes see would fit bradykinin and the huge amount of fluid in the lungs might fit bradykinin better. But, we do have experience with pts who have bradykinin “storms”. Hereditary angioedema has a C1 deficiency (mostly) that leads to high bradykinin levels. That results in localized edema depending upon the pt. When it is in the airway it is life threatening immediately. In the gut it is life threatening but not as quickly. With Covid we see the leaky fluid part in the lungs, but we arent seeing edema for the most part. With high bradykinin levels you would expect hypotension but with Covid you tend to have hypoxia but with other vitals mostly pretty normal or needing low level support. (Maybe this is from activating another pathway to counterbalance that?)
Also, it is interesting that when initiating ACE inhibitor therapy some people have drug induced angioedema and need to be taken off of it. If memory serves this happens much more frequently among African Americans. So all of this interesting and I think all along we have thought that something in the renin-angiotensin-cytokine-bradykinin -inflammatory system axis is askew, but they are all so inter-related will be hard to sort it out. Lets hope we get lucky and we find some drug that affects the right part of the cascade without screwing up something else. Maybe symptomatic rx aimed at hyaluronic acid will be easier?
Tars- Yes. Dex is a bit of a wonder drug. Besides its use for inflammatory issues it is also an antiemetic and it has analgesic properties. Use it all of the time. Dex and other steroids have been used to treat Covid. Just listened to a podcast by some guys going over the research and they noted that there were several other ongoing studies with other steroids when the dex study came out. The dex study was considered so good that they thought it unethical to continue their own studies. However, they did open those, they were blinded, and I think they may have published them somewhere. They found that the other steroids in their studies also helped. We used a different one and had good effects. We changed to dex since it is cheaper.
Vitamin D. We used it a lot early on. Didnt see much effect. Our local population has a higher than average percentage of hispanics and a bit lower in blacks so if you are speculating on racial differences maybe we didnt have enough to see it. I am a skeptic on dietary therapy so I wouldn’t expect much.
https://www.enzolifesciences.com/ADI-900-206/bradykinin-elisa-kit/
Steve