A unique scientific collaboration that could offer an innovative potential treatment for atrial fibrillation has blossomed within 新澳门六合彩内幕信息Health, thanks to a chance encounter in a hallway, a plain green chalkboard and a most surprising star: the European honeybee.
It represents a convergence of two distinctly different medical mindsets 鈥 pharmacology and immunology 鈥 and a blend of high-tech bio-engineering with an old-school writing surface. And then there鈥檚 the bee, which has pollinated the process in an exciting and novel way.
The result is that details efforts to develop a non-invasive treatment for atrial fibrillation (also referred to as AFIB or AF) by blocking a potassium channel that can go rogue within the heart, leading to a dangerous, irregular and fast rhythm in the atria, the heart鈥檚 upper chambers, increasing the risk of blood clots that can travel to the brain and cause a stroke.
The material to create this blocker is a small peptide that has been successfully tested in mice and sheep.
鈥淭his peptide was originally isolated in the past from the European honeybee鈥檚 venom,鈥 said Sami Noujaim, PhD, associate professor in Molecular Pharmacy and Physiology and senior author of the eight-person study that includes lead investigator Bojjibabu Chidipi, PhD, a researcher in the 新澳门六合彩内幕信息Health Morsani College of Medicine. 鈥淲e have demonstrated in tests on small animals that it can block this rogue potassium channel. And by blocking this channel, it was able to eliminate atrial fibrillation.鈥
That research might well have never progressed to this point had it not been for a pair of fortuitously situated offices. Co-author Michael Teng, PhD, an associate professor in the Division of Allergy and Immunology in the College of Medicine, works in an office adjacent to the one occupied by Dr. Noujaim 鈥 in spite of their divergent fields.
鈥淚 work in viruses, a completely different area than Sami鈥檚,鈥 Dr. Teng said. 鈥淏ut there鈥檚 this green chalkboard hanging on the wall outside our offices 鈥 I can see it right now from my desk, in fact. You鈥檇 think, 鈥楲et鈥檚 take it down, nobody uses chalkboards anymore.鈥 But Sami loves this chalkboard. So, we鈥檙e neighbors and we talk to each other. And one day, prior to the pandemic, he was trying to figure out a problem.鈥
Here鈥檚 how Dr. Noujaim remembers it unfolding: 鈥淚 was at the board with Bojji and other members of the lab. We drew the potassium channel on the board. And I was telling them that the drugs currently available for AF are small molecules and have side effects. What if we鈥檙e able to actually design our own blocker? And instead of that blocker being a small molecule, what if it was a protein? Because we can design and generate proteins.鈥
At that moment, Dr. Teng was passing by the group in the hallway en route to his office.
鈥淚 go, 鈥楬ey Mike, I know that in immunology there are ways people have been engineering proteins 鈥 can we do this here?鈥 鈥 Dr. Noujaim recalled. 鈥淢ike said, 鈥楢bsolutely,鈥 and that鈥檚 where things took off.鈥
Electrical activity is generated by the heart via ion channels of sodium and potassium. They work like resistors and can conduct current. Atrial fibrillation occurs, in part, when a specific type of potassium channel in the heart goes out of whack, and starts passing potassium when it should not.
鈥淭his is where the problem occurs,鈥 Dr. Chidipi said. 鈥淚nstead of contracting and emptying the blood vessels into the ventricles, and the ventricles contracting and ejecting blood into the circulation, these atria cannot contract because of the atrial fibrillation caused by the rogue potassium current. They just sit there and quiver.鈥
鈥淲hen that happens, they cannot completely empty the blood,鈥 Dr. Noujaim added. 鈥淎nd blood does not like to stay stagnant. So there鈥檚 a high probability of forming a clot in the atrial chamber. At some point that clot can launch into the circulation and reach the brain, causing a stroke.鈥
One common form of treatment is to put a person with AFIB on blood thinners. Pharmaceuticals are also utilized to restore normal sinus rhythm of the heart. A more invasive step is called ablation, a procedure in which the trouble spots in the atria are located and corrected via catheters inserted through the groin and advanced to the atria.
鈥淭he problem is that there is a high chance the AF will return at some point,鈥 Dr. Noujaim said. 鈥淎nother alternative is medication. But the problems with the existing medications are two-fold: One, they are not very effective, and two, they may cause other types of arrhythmia. And that is where we came in. We asked ourselves, 鈥榃hat would be the best way to restore the normal sinus rhythm with a pharmaceutical, without having other side effects on the heart?鈥欌
Now back to the green chalkboard. The challenge was that the very small peptide, called tertiapin, comprised of 21 amino acids from honeybee venom, doesn鈥檛 last long enough to be effective as a blocking agent. It is very short-lived when exposed to air. That led previously to the creation of a synthetic oxidation-resistant version called tertiapinQ. This is what Dr. Noujaim and his team would rely upon in their testing.
But there was still a problem with these peptides breaking down too quickly in the body, whether injected or taken as a pill. So they wondered: Could this peptide be fused with an antibody fragment and give it longer-lasting life to combat AFIB?
鈥淲e talked it through and drew on the board for about 15-20 minutes,鈥 Dr. Teng said. 鈥淎nd we came up with this idea of attaching that little peptide onto the stem of an antibody.鈥
The stem could be hooked onto the peptide, forming a 鈥減eptibody.鈥 That concept has been utilized before, but not for treating atrial fibrillation. With this new peptibody AFIB application, a drug could remain in the bloodstream for longer periods of time without breaking down.
鈥淭hat way you will have a sustained effect of the therapeutics,鈥 Dr. Noujaim said. 鈥淣ow we have a formulation that does not need to be administered daily鈥 it could be every week or every month. We鈥檙e excited to have received a patent for this as well as a nice grant from the National Institutes of Health.鈥
鈥淪o far, there are two peptibodies approved by the FDA and available in the market to treat low blood platelet counts, and for glucose control in type 2 diabetes鈥 Dr. Chidipi added. 鈥淲e are the first to demonstrate that bioengineered peptibodies could potentially treat cardiac arrhythmia.鈥
Meanwhile, new collaborators are on board at a cardiovascular center in Spain to work with 新澳门六合彩内幕信息Health in testing it further..
It took collaboration with a bee and a board at 新澳门六合彩内幕信息Health to make it all possible.
鈥 Story by Dave Scheiber for 新澳门六合彩内幕信息Health News; photos by Allison Long, 新澳门六合彩内幕信息Health Communications.