Nov 15, 2021
Please join authors Babken Asatryan and Anwar Chahal, and Associate Editor Ntobeko Ntusi as they discuss the Primer article "Inflammation and Immune Response in Arrhythmogenic Cardiomyopathy: State-of-the-Art Review."
Dr. Carolyn Lam:
Welcome to Circulation on the Run, your weekly podcast summary and backstage pass to the journal and its editors. We're your co-hosts, I'm Dr. Carolyn Lam, associate editor from the National Heart Center and Duke National University of Singapore.
Dr. Greg Hundley:
And I'm Dr. Greg Hundley, associate editor, director of the Pauley Heart Center at VCU Health at Richmond, Virginia. Well, Carolyn this week, our feature discussion, we're not going to go with one of our original articles, but we are going to feature a primer and a primer is a state of the art review article. The topic is going to be on arrhythmogenic cardiomyopathy and we'll be looking at the role of inflammation and the immune response in arrhythmogenic cardiomyopathy. But before we get to that feature, how about we grab a cup of coffee and talk about some of the other articles in the issue? Would you like to go first?
Dr. Carolyn Lam:
I would, because guess what? I'm going to be talking about prescription opioids. We know these are a major contributor to the ongoing epidemic of persistent opioid use. What do you think is the incidence after cardiac implantable electronic device procedures? Greg, let's start with a Greg Hundley quiz. I'll give you multiple choice, how about that? Do you think it is 1%, 10%, 25%. 50%?
Dr. Greg Hundley:
All right, Carolyn, I'm going to guess here. I'm going to go 10%.
Dr. Carolyn Lam:
Smart. Well, guess what? Today's paper actually gives us insight into that question, it's from Dr. Frankel from the hospital of the university of Pennsylvania and his colleagues, and these authors performed a retrospective cohort study using data from a national Administrative Claims Database from 2004 to 2018 of patients undergoing cardiac implantable electronic device procedures. Adult patients were included if they were opioid naive during the 180 day period before the procedure and did not undergo another procedure with anesthesia in the following 180 days.
Dr. Carolyn Lam:
Persistent opioid use, which is what we're interested in, was defined by filling an additional opioid prescription more than 30 days following the procedure. So, here's your answer. Of the more than 143,000 patients meeting these inclusion criteria, 11%, so you were right Greg, 11% filled an opioid prescription within 14 days of surgery. Among these patients, persistent opioid use occurred in 12.4% of patients, 30 to 180 days after surgery. The likelihood for developing persistent opioid use was increased for patients who had a history of drug abuse, pre-operative muscle relaxant or benzodiazepine use or opioid use in the prior five years. Also, patients who have prescribed more than 135 milligrams of oral morphine equivalence had a significantly increased risk of persistent opioid use.
Dr. Carolyn Lam:
Now, this is important because all physicians who perform cardiac implantable electronic device procedures and care for these patients should be aware of the risk of persistent opioid use. This is discussing in editorial by Dr. Kandil from UT Southwestern.
Dr. Greg Hundley:
Very interesting Carolyn, so connecting sometimes the prescription use of opioids after cardiac implantable electronic devices. Great presentation. Well, my first paper comes to us from the world of preclinical science and it's from our prior editor in chief Dr. Joseph Loscalzo from Brigham and Women's Hospital and the Harvard Medical School. So Carolyn, interferon gamma, producing CD4 positive and CD8 positive T-lymphocytes, have been identified as the predominant pathological cell subsets in human atherosclerotic plaques.
Dr. Greg Hundley:
While the immunological consequences of these cells have been extensively evaluated, their interferon gamma mediated metabolic effects on endothelial cells remains unknown. So Carolyn, the purpose of this study was to determine the metabolic consequences of the T-lymphocyte cytokine interferon gamma on human coronary artery endothelial cells.
Dr. Carolyn Lam:
Interesting. So what did Dr. Loscalzo and colleagues find?
Dr. Greg Hundley:
Right, Carolyn. So, the authors found that interferon gamma impairs endothelial glucose metabolism via altered tryptophan metabolism while depleting NAD plus, which results in a metabolic shift toward increased fatty acid oxidation, and therefore, Carolyn, this work suggests a novel mechanistic basis for pathologic T-lymphocyte endothelial interactions in atherosclerosis, mediated by interferon gamma, linking endothelial glucose, tryptophan, and fatty acid metabolism with NADH and ATP generation and their adverse endothelial functional consequences.
Dr. Carolyn Lam:
Oh, very nice, Greg. Thank you. The next paper describes a comprehensive characterization of cardiomyopathy caused by filament C truncating variance.
Dr. Greg Hundley:
Whoa. Okay, Carolyn. Now what is filamin-C?
Dr. Carolyn Lam:
I thought you may ask and I wasn't going to quiz you, see Greg? The filamin-C gene can cause a striated muscle protein that crosslinks actin and anchors cell membrane proteins to the cytoskeleton, sarcolemmal and sarcomere Z-disc. So, the co-corresponding authors of today's paper Drs. Mestroni and Taylor from University of Colorado, Denver Anschutz Medical Campus, analyzed longitudinal clinical data from an international multicenter cohort of 85 carriers of this filamin-C truncating variants. And this is what they found.
Dr. Carolyn Lam:
First, the cardiomyopathy associated with filimin-C truncating variants appeared to be a disease with heterogeneous phenotypic presentation, ranging from typical dilated cardiomyopathy to arrhythmogenic, right ventricular cardiomyopathy, and with frequently overlapping forms.
Dr. Carolyn Lam:
Number two, left ventricular ejection fraction was associated with the risk of death, either all cause or non-arrhythmic, heart transplantation, or LVAD, but not with the risk of sudden cardiac death or major ventricular arrhythmias, highlighting the need for alternative strategies of stratification of the arrhythmic risk in these patients with the filimin-C truncating variant cardiomyopathy.
Dr. Carolyn Lam:
And number three, this cardiomyopathy was associated with a high risk of ventricular arrhythmias with frequencies of life-threatening ventricular arrhythmias, not significantly different from things like Lamin and desmoplakin cardiomyopathy.
Dr. Greg Hundley:
Well, Carolyn, just fantastic. My next paper comes to us from Professor Lena Claesson-Welsh from Uppsala University and Carolyn, palmdelphin belongs to the family of paralemmin proteins implicated in cytoskeletal regulation and single nuclide polymorphisms in the palmdelphin locus that result in reduced expression are strong risk factors for development of calcific aortic valve stenosis, and predict the severity of the disease.
Dr. Carolyn Lam:
Wow, interesting. Palmdelphin, great. So tell us, what did they find and what are the clinical implications please?
Dr. Greg Hundley:
Right, Carolyn, great question. So first, calcific aortic valves stenosis patients with the single nucleotide polymorphism RS754 3130 express reduce palmdelphin levels in valve endothelial cells, which shows hallmarks of palmdelphin deficiency, such as loss of cytoplasmic RanGAP1, altered nuclear morphology and nuclear rest of P53 of P21. Carolyn, second, gene-regulatory changes affecting actin reorganization, are detected in seemingly healthy regions of calcifying bowels, in agreement with disturbed actin-dependent processes, being an early event, instigating the calcific process. And so Carolyn, the take home message is that palmdelphin is prominently expressed in endothelial cells and the presence of the palmdelphin single nucleotide polymorphism correlated both with a Barrett endothelium and calcific aortic valve stenosis suggesting that endothelial cell dysfunction is essential in development of calcific aortic valve disease.
Dr. Carolyn Lam:
Oh, wow, wow. Thank you for translating that into the clinical implication. Thanks Greg. Let's maybe discuss what else is in today's issue. There's a prospective piece by Dr. Kirchof entitled “In Patients With Recently Diagnosed Atrial Fibrillation, Think Anticoagulation And Rhythm Control.” There's an exchange of letters between Drs. Liao and Hakala regarding the article Cardiovascular Risk Factor Trajectory Since Childhood And Cognitive Performance In Midlife, The Cardiovascular Risk In Young Finns, study.
Dr. Greg Hundley:
And Carolyn, I've got a research letter from Professor Ramin entitled “Association Between Sarcomeric Variants In Hypertrophic Cardiomyopathy In Myocardial Oxygenation, Insights From A Novel Oxygen-Sensitive CMR Approach.” Well, how about now we get onto that primer feature discussion relating to arrhythmogenic cardiomyopathy?
Dr. Carolyn Lam:
Yay. All right, let's go, Greg.
Dr. Greg Hundley:
Well, listeners, we are now onto our feature discussion and this week we've got a different aspect to the feature discussions. We're going to work through a review article and what we call as a primer. It's one of our state-of-the-art family of publications, where we take a topic and perform a review on a new evolutionary concept that might be occurring in a particular field. This week, we are going to discuss arrhythmogenic cardiomyopathy and we have with us two of the authors of this primer, Dr. Babken Asatryan from Bern, Switzerland and also Dr. Anwar Chahal from Lancaster, Pennsylvania. And of course, as always, we invite one of our associate editors and we have with us this week Ntobeko Ntusi from South Africa. Welcome gentlemen and Babken, let's start with you. Can you give us just a little bit of review regarding arrhythmogenic cardiomyopathy? We hear that term as opposed to arrhythmogenic right ventricular cardiomyopathy, and then maybe also, what are the underlying fundamental histopathologic and pathophysiologic findings associated with this disease?
Dr. Babken Asatryan:
Thank you, Greg. It's really an absolute pressure being here and thank you for your invitation again. So arrhythmogenic cardiomyopathic is genetically-determined heart disease and the common cause of sudden cardiac death in individuals younger than 40 years of age, it's characterized pathologically by fibrosis and/or fibro fatty infiltration of the myocardium. This infiltration provides a substrate for electrical and stability and leads to ventricular arrhythmias ranging from isolated premature ventricular contractions to sustain ventricular tachycardia and ventricular fibrillation. Live ventricular arrhythmias are cardio manifestations of the orthogenic cardiomyopathy, and they typically occur at early stages of the disease, preceding pathological and functional abnormalities. We call that a concealed stage of the disease.
Dr. Babken Asatryan:
The typical form for arrhythmogenic cardiomyopathy, which has been previously termed as arrhythmogenic right ventricular cardiomyopathy, primarily affects the right ventricle and has been recognized for decades. Following implementation of postmortem autopsy, increased use of contrast, enhanced cardiac MRI, and improved understanding of the genotype phenotype correlations, more recently cases with more pronounced left ventricular involvement have been discovered as well as cases with biventricular involvement of the disease.
Dr. Babken Asatryan:
Nowadays, we believe that around 60% of cases have also left ventricular involvement, even if they're diagnosed based on the 2010 task force criteria for arrhythmogenic cardiomyopathy. Causative variants in desmosomal genes are identified in about 60% of patients with typical arrhythmogenic right ventricular cardiomyopathy.
Dr. Babken Asatryan:
Recently, there have been studies reporting non-desmosomal gene variants in patients with arrhythmogenic right ventricular cardiomyopathy, as well as in those left ventricular and biventricular forms of the disease. But the left ventricular form is quite new to us, so we are learning a lot every day about this disease.
Dr. Babken Asatryan:
The pathogenesis of this condition appears to be quite complex. We know that these pathogenic variant in desmosomal genes can initiate several pathways and these could be gene dependent. What we do know, that these eventually lead to fibrosis and fibro fatty infiltration of the myocardium, which is the hallmark feature of arrhythmogenic cardiomyopathy.
Dr. Greg Hundley:
And patients present generally when, in terms of lifespan?
Dr. Babken Asatryan:
So, patients present in between 30 to 40 years of age, there's a typical presentation for arrhythmogenic cardiomyopathies but young presentations are also common nowadays, particularly. So, programs in families, they usually present 30 to 40 years of age. But in families, we do discover patients who have typical arrhythmogenic right ventricular cardiomyopathy or left and right ventricular involvement were younger at age, but they still need the criteria.
Dr. Greg Hundley:
And then when we diagnose this condition, do we also need to think about, at least clinically, looking for other affected individuals within a family?
Dr. Babken Asatryan:
Absolutely. So most of the arrhythmogenic biventricular cardiomyopathy, arrhythmogenic left ventricular cardiomyopathy cases are autosomal dominant diseases. So, this means if an individual carries a pathogenic variant in one of the genes responsible for the condition, the likelihood that the first degree family members will carry the same variant is about 50%. The disease however, presents with reduced penetrance and variable expressivity. Some of the family members may have just arrhythmias and others may develop arrhythmias and structural heart disease. And some of the individuals who carry pathogen occurrence in desmosomal are the genes responsible for the condition may not show phenotype at all. So, that makes the decision-making in families quite challenging.
Dr. Greg Hundley:
Very nice. Well, thank you so much Babken and now, we're going to turn to one of your co-authors, Anwar and Anwar, in this primer, you start to present a new sort of theme, that inflammation actually may play a role in this disease, at least in terms of adverse events. Can you describe a little bit what your team was thinking here and what took you in this direction and what are some of the research that you've revered here that supports this new line of thinking?
Dr. Anwar Chahal:
Thanks, Greg and Ntobeko, for first, the kind invitation to come on this podcast. I must add that I normally listen to the podcast and very much enjoy it, so it's a great honor and privilege for us.
Dr. Anwar Chahal:
Let me contextualize it, I think it's important to think about what are problems are when we evaluate cases, whether that's the program or the family members, and try to determine what's actually going on. There's been a number of changes over the last 15 years that really evolve around a better understanding and the availability of multimodality imaging, which has altered the way we evaluate these cases. If you look at the 2010 taskforce criteria, for example, they talk about volumetric changes and injection fractions by echo or MRI, and even ventriculogram synapse on fluoroscopy, which I don't think many people do anymore, but they don't mention gadolinium enhancement, and there is an updated version that will come out and talk about that, and the advantages of MRI and even contrast-enhanced CT, and now 18F-FDG, CT PET imaging.
Dr. Anwar Chahal:
So, the patient journey and the problem that we face is that actually some people present with very unusual features, chest pain, troponin rise, undergo coronary angiography, normal coronary arteries, or unobstructed coronary arteries. We put them through MRI scanners and we see a little bit of gadolinium enhancement. We follow them over the next five years or so, and it develops into taskforce criteria, positive ARVC. So, that's the sort of clinical angle where we've started to see this.
Dr. Anwar Chahal:
As we put people through scanners, we see the hearts lights up on PET scanners, pretty reproducibly and reliably, that tells us that there's some inflammation there. We look back into the literature and actually very, very early work that was done, autopsy-based, some of it endomyocardial biopsy-based describing lymphocytic infiltrates. Usually that's dry, as you say, or sterile, but there have been reports of even viral pathogens.
Dr. Anwar Chahal:
That's where it stirred this debate up for us about whether there's this signal that we're seeing there, what is it? What's actually going on? It raises a question, we recognize the other mechanisms, the fiber fatty replacement, the apoptotic pathways, that contribute to that. But there's such variable expressivity with this disease. It's a difficult disease to pin down and it raises a question. What are these other effect modifiers? Is there something else that we do not recognize? And that's really what's driven this.
Dr. Anwar Chahal:
Our group of co-authors are leaders in the field. Some of them are colleagues in veterinary medicine, Dr. Anna Geltser, and we work together on boxer dog patients. So, she is a practicing vet and a scientist, and has lots of boxer dogs with arrhythmogenic cardiomyopathy. We've been looking at how we could utilize that as a model to test some of the findings that we have in humans and pioneering work really by Bob Hamilton in Toronto, in this paper where they described anti-DSG2 antibodies, which were found not only in humans, whatever the underlying genotype, but also in boxer dogs with arrhythmogenic cardiomyopathy. And that's been followed up with work from Europe, describing anti-heart antibodies, anti-intercalated disk antibodies.
Dr. Anwar Chahal:
It doesn't really matter what the genotype is, but we're seeing these antibodies there and we're seeing these positive scans indicating inflammation. So the big question is, is this inflammation of primary insult or is it secondary? Is it that the heart in somebody with a genetic cardiomyopathy is predisposed, maybe the remodeling is affected. Bob Hamilton thinks this is probably the best explanation to explain why, whatever the genotype, that these antibodies were positive, that actually that myocardium becomes exposed. The epitope of DSG is now exposed to the immune system, which mounts an antibody response, and hence you see the rise in these antibodies, but it's possible it could it be primary as well. With COVID, and this is a bit of a stretch, so just bear with me there, with COVID we've been recognizing that there's myocardial injury.
Dr. Anwar Chahal:
There's not as much myocarditis as we expected, but there's been, with virus SARS-CoV-2, we know regular human coronavirus is a recognized cause of viral myocarditis. So, the question really arose are we going to see a lot more of this myocarditis? In our lab discussion, it was, "Well, do you think we're going to see something similar in that we've seen with arrhythmogenic cardiomyopathy, these genetically predisposed individuals are more likely to get invaded? Now, we haven't really seen that with COVID and I won't delve too much into it, but going back to the classical viral infections that we see with myocarditis, here's a really, really interesting biological link. Most of them invade through the desmosome, so with SARS-CoV-2, we see the ACE2 receptors as the way the virus really invades. But with these regular coxsackie virus, for example, parvovirus, a lot of them invade through the desmosome, and that's where we thought, here's a link.
Dr. Greg Hundley:
Very nice. Ntobeko, you see a lot of papers come across your desk. What attracted you to this group of investigators and this particular review article?
Dr. Ntobeko Ntusi:
Thank you very much, Greg. I want to start by congratulating Babken, and Anwar for a really fantastic submission, which as an associate editor, was an absolute pleasure to handle. There really are six things that stood out for me about this article. The first one really relates to the question that you ask Babken, which relates to the nomenclature and people have traditionally thought of this is a disease of the right ventricle. I think it's now timely to consider a clear change in nomenclature, that recognizes not only right ventricular involvement, but also left ventricular involvement. And the common finding of biventricular disease in patients with ACM.
Dr. Ntobeko Ntusi:
The second really important contribution for me from this primer was that we've always thought of arrhythmogenic cardiomyopathies as a genetic disorder with abnormalities in the genes, encoding components of the desmosome. Many groups recently, including our own group that described novel mutations for arrhythmogenic cardiomyopathy in adhering to poultry and other genes outside of the desmosome are showing that the genetic underpinnings are much wider. But the key contribution here is really the consideration of the centrality of inflammation to the pathogenesis of this disease. Anwar has spoken to some length about that, so I won't rehash those comments, but for me, what is key for future work in this area is really to clarify whether the inflammation, as in with many other forms of cardiovascular disease, is merely an epiphenomenon, or whether it plays a critical role in the causal pathway for the phenotypes that we see.
Dr. Ntobeko Ntusi:
The next important feature for me was the review of the literature and evidence in the association with myocarditis. So, we've seen lots of case reports and small case series showing young people presenting with myocarditis and meeting either the Dallas criteria histologically, or the Lake Louise criteria on imaging, and then subsequent genetic testing confirming the diagnosis of an arrhythmogenic cardiomyopathy. I thought for the first time with quite a compelling review of the link between these two.
Dr. Ntobeko Ntusi:
The fourth important contribution relates really to the contribution of imaging modalities, both in diagnostics, but critically in risk stratification for this clinical entity. And for me, the importance of cardiovascular magnetic resonance, either with planimetric mapping or late gadolinium enhancement to really add to our ability to predict future events.
Dr. Ntobeko Ntusi:
Then there's been quite a number of publications in the last five years that have clarified our understanding of the at risk patient with arrhythmogenic cardiomyopathy who's likely to suffer a sudden cardiac death event. This tends to be somebody who was young, who was male, who has a history of documented non-sustained ventricular tachycardia or a history of syncope and on ECG, quite extensive T wave inversion. So again, this is nicely reviewed, and we think about those as candidates who'll benefit from implantation of an ICD.
Dr. Ntobeko Ntusi:
Then I thought for me, the last really nice contribution from this piece was the review of advancing our understanding of the hot phase. So in all forms of heart muscle disease, we speak of the presentation of patients with the chest pain syndrome, with a troponin leak, but unobstructed coronaries. On further investigation, we don't really find any other evidence of an inflammatory event. We call this a hot phase. And in some case reports in small case series, endomyocardial biopsy has revealed the association of these, whether in TCM, HCM, or arrhythmogenic cardiomyopathy with lymphocytic infiltration. I thought this was all very nicely reviewed.
Dr. Ntobeko Ntusi:
So, the question that really left me with having read this review, was whether in the future, we may actually need to consider targeting inflammatory pathways as a therapeutic target in this heart muscle disorder. Thanks Greg.
Dr. Greg Hundley:
Yes. Thanks so much in Ntobeko. You've really led us to the next question that I'm going to ask both Babken and Anwar, you've discussed where do you feel this field is moving and what is the next study or series of studies we need to perform. Babken, first you, and then Anwar. Babken, what do you think is the next study to be performed in this space?
Dr. Babken Asatryan:
I so much agree with Ntobeko, that perhaps understanding better what can be targeted in these patients, in order to prevent development of phenotype or least to prevent cardiac events, is perhaps the most important next step. In our first figure, we have summarized this potential mechanisms, involving inflammation leading to with arrhythmogenic cardiomyopathy in these patients. We have also highlighted the potential mechanisms that perhaps in the future can be targeted. This could include both targeting the inflammatory cytokines, as well as the primary agents that cause the myocardial inflammation in patients, depending on the results that we will receive over the next years and perhaps animal models should be the next step to better understand how similar arrhythmogenic cardiomyopathy phenotype, where inflammatory contributors to the phenotype are important. And then we can understand whether this can be the same in humans as well.
Dr. Greg Hundley:
Very nice. And Anwar, do you have anything to add?
Dr. Anwar Chahal:
Yes. So, agree with that. I guess I would add what are we doing to try to help decipher this? So some of the work that we're doing, I mentioned earlier with the boxer dog patients, who have arrhythmogenic cardiomyopathy. So some of the aspects that we're actually looking at is taking swab cells to see if we can phenotype as a alternative tender myocardial biopsy. And one of the co-authors, Angeliki Asimaki, really pioneered that as a alternative tool because the desmosis are ubiquitous and this may help us phenotype patients better. But also, we want to look at using that as a tool in the pheno copies of arrhythmogenic cardiomyopathy. So we would advocate, re-phenotyping people as well as possible and trying to use some of these techniques.
Dr. Anwar Chahal:
The next thing we're really looking at is antibody based tools, either working with collaborators, who've already described these antibodies such as anti-DSG2, anti-heart antibody, and anti-skeletal disc to see if we can develop those and perhaps identify others in both human and ox models. And that will then hopefully open the way for us to develop therapeutics that may be able to target those and address that, and maybe use these antibodies as markers to see disease progression, or halting of disease.
Dr. Greg Hundley:
Very nice. Well listeners, we want to thank Dr. Babken Asatran from Bern, Switzerland, Anwar Chalal from Lancaster, Pennsylvania, and our own associate editor, Ntobeko Ntusi from South Africa, really helping us see this new scientific consideration regarding the potential role of inflammation in causal pathways of adverse manifestations of arrhythmogenic cardiomyopathy. Well, on behalf of Carolyn and myself, we want to wish you a great week and we will catch you next week on the run. This program is copyright of the American Heart Association, 2021. The opinions expressed by speakers in this podcast are their own and not necessarily those of the editors or of the American Heart Association. For more visit ahajournals.org.