What Patients Should Know About Developing MPN Treatments and Research from Patient Empowerment Network on Vimeo.
MPN expert Dr. Gabriela Hobbs provides an update on developments in myeloproliferative neoplasm (MPN) treatment and research. Dr. Hobbs explains how clinical trials and global research collaborations advance MPN care.
Dr. Gabriela Hobbs is a hematology-oncology physician specializing in the care of patients with myeloproliferative neoplasms (MPN), chronic myeloid leukemia and leukemia. Dr. Hobbs serves as clinical director of the adult leukemia service at Massachusetts General Hospital. Learn more about Dr. Gaby Hobbs.
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Transcript:
Katherine:
Hello and welcome. I’m Katherine Banwell, your host for today’s program. Today we’re going to discuss the advancements in MPN research through clinical trials. Before we get into the discussion, please remember that this program is not a substitute for seeking medical advice. Please refer to your healthcare team about what might be best for you. Well, let’s meet our guest today. Joining me is Dr. Gabby Hobbs. Dr. Hobbs, welcome. Would you please introduce yourself?
Dr. Hobbs:
Hi, how are you? Thank you so much for having me. My name is Gabby Hobbs. I’m the clinical director of the Adult Leukemia Service at the Massachusetts General Hospital in Boston. And I dedicate my clinical time and research efforts to the care of patients with Myeloproliferative Neoplasms.
Katherine:
Thank you so much for taking the time to join us today.
Dr. Hobbs:
Thank you.
Katherine:
I’d like to start by discussing your role as an MPN researcher. You’re on the front lines for advancements in the field. What led you to there and why is it so important to you?
Dr. Hobbs:
Many things in my life led me to becoming an MPN clinician. First, I wanted to be a clinical investigator since I was very little, and I read a Louis Pasteur book about – you know. And I was fascinated by the fact that you could be both a scientist and a clinician. And after that, I had phenomenal teachers and mentors. And I was really always drawn to patients with hematologic malignancies. I thought that that interaction was very intense and intimate.
And I was honored to be a part of that interaction. And then from a research perspective and from a scientific perspective, I very clearly remember seeing when the first targeted therapy, Imatinib, was approved when I was an undergrad. And I just thought that was the most fascinating thing. And so, I’ve basically continued to feel that way as I’ve gone through my training and I’m thrilled to be able to have actually become an MPN clinician so many years later.
Katherine:
With the American Society of Hematology or ASH meeting taking place this month, it demonstrates how researchers work together around the world to advance care.
Can you share with the audience how this collaboration works?
Dr. Hobbs:
Yeah. So, the American Society of Hematology meeting – or the ASH meeting – is really one of my favorite events of the year.
And it really highlights what you said. It is such a positive environment, and it’s so exciting to use that opportunity to talk to my collaborators from across the globe. And I really think that that’s where the scientific community shines because really all of us are actually trying to figure out how to work together and overcome sometimes a lot of obstacles – bureaucratic obstacles, regulatory obstacles – to make sure that we can share data, do it the right way. But really we always have one thing in mind.
And that is to be able to advance the care that we give our patients. And so, that collaboration and really that collaborative environment is always very positive. And I always come back home very energized from that. And then just seeing all my colleagues presenting all the wonderful things that they are working on and getting updates on their research is just an exciting environment.
Katherine:
In your view, why is it essential to present and share data at these larger conferences like ASH?
Dr. Hobbs:
So, for many different reasons. I mean, there are many different ways of presenting data that can be done through just publishing a paper. But the nice thing about conferences – and especially large conferences – is that you really get an opportunity to present work in progress. And some of these research projects may not end up turning into bigger projects or they may not become bigger trials. But all of them have at least an opportunity to learn something from them, whether or not they worked or they didn’t work.
Oftentimes when things are published in journals, especially the high-impact journals, we are seeing trials that had positive results. But sometimes we don’t see those smaller trials that never went anywhere. And so, having a forum when we can discuss work that’s ongoing, discuss about projects that are maybe having issues, all those things actually really help us to change our research questions or develop new research questions based on what’s working and also really what’s not working. And so, having this large forum to present all of that data, I think, is really, really important to helping us design future clinical trials and projects.
Katherine:
Yeah. Well, this is a great way to begin our clinical trial discussion, Dr. Hobbs. This research all requires MPN patients to participate in clinical trials. So, what should be considered when deciding whether to join a trial?
Dr. Hobbs:
What a great question. Many things need to be considered when joining a trial. And I think some patients are really eager to join a trial, and they just need to be aware that they may be either too healthy, or they may have other things going on that may not make them eligible.
And that’s okay. There are actually many ways of participating in research, even if it’s not a clinical trial that requires a medicine. For example, we often can send patients to what’s called a tissue bank where they have patients just give a sample of blood.
So, patients can participate in research in many different ways. When considering whether or not a patient should enroll in an actual clinical trial with a new medicine, I think it’s really important for the patients to be informed and to not be afraid to ask questions. First, what is a clinical trial? Second, what will this trial involve? Is this a drug that has never been given to people before, or is this a drug that has already undergone many different clinical trials? And this trial that’s being offered is a Phase III trial where the purpose of the study is to get the drug to be approved.
So, I think learning about the risk of the study, how it’s been utilized. And also the other more practical things. What is the time commitment of this clinical trial? How often are you going to have to be going to the office because of the clinical trial? Because there’s certainly a big investment in the part of the patients in terms of their time. Participating in a clinical trial most of the time requires more time than not participating in a clinical trial. That’s not always the case. There are some studies that definitely don’t require that many visits.
But most clinical trials will require at least something extra from the patient. And I think it’s really important to ask about that, to read the consent that’s given to the patients. Oftentimes these consents are very long.
And so, they can be overwhelming. I personally find them overwhelming. And I review a lot of those consents. And so, I think taking a minute to really ask those questions, speaking to the research staff, and getting the clarification on that is really important.
Like you said, it is impossible to approve new therapies and improve the care that we offer our patients without patients participating in the clinical trial. But that doesn’t mean that absolutely every single patient needs to participate in a clinical trial if it just doesn’t make sense for them. [14:17]
Katherine:
There have been huge developments in the last 10 to 15 years in the field of MPN. So, I’d like to dig a little deeper. We hear about the common driver mutations in MPNs like JAK2, CALR, and MPL. How are these being studied , and what is being discovered?
Dr. Hobbs:
Yeah. So, it’s amazing how in the last 15 years really so much has been discovered. You know. The JAK2 mutation was first published out in 2005 and calreticulin in 2013. So, those are relatively recent discoveries. And I think a lot of efforts has been put into learning about what these mutations are doing and how they lead to disease. And so, we have the JAK inhibitors, which block the signaling through a pathway called JAK-STAT. And all of these mutations will activate that pathway within cells.
And so, many of the approved drugs, for example, ruxolitinib (Jakafi), fedratinib (Inrebic), and pacritinib (Vonjo), work on blocking that pathway.
But since then we’ve also learned that there are other mutations and other pathways that are likely involved in the development of myeloproliferative neoplasms and also their progression. And so, what we’re seeing now is that many of the clinical trials that are being conducted don’t just target the JAK-STAT pathway or the pathway that’s influenced by these main mutations.
But also block other pathways to try to really block all the variant expression of signaling in the myeloproliferative neoplasms. And so, we’re trying to attack it by many different angles.
Katherine:
Yeah. Is there a possibility of specific targeted therapies at MPNs similar to those in AML such as FLT3 inhibitors?
Dr. Hobbs:
Absolutely. So, similarly to AML, we know that we have mutations in similar types of genes called tyrosine kinases. So, these are enzymes that are turned on and always active. And so, I think there is definitely hope that we can develop some targeted agents. For example, ruxolitinib or the other JAK inhibitors are similar. They’re tyrosine kinase inhibitors where they block an enzyme, specifically the JAK2 enzyme.
But I think that we can definitely do better and develop more specific inhibitors, for example, a molecule that just blocks the JAK2 mutation and not just every JAK2 molecule in every cell. Similarly to AML, there are mutations, for example, in enzymes called IDH.
And we have IDH inhibitors for AML. And there are some studies that are using IDH inhibitors for MPN. So, I think we’re going to continue to see more targeted therapies specific to the mutations that occur in MPN.
Katherine:
Yeah. Let’s talk about ET for a moment. Is there any research being done to help better manage this condition?
Dr. Hobbs:
Yeah. I would say that of the three MPNs, ET is certainly the one that has the least amount of drugs that are being currently studied for this group. But that doesn’t mean that there isn’t any research. Ropeginterferon (Besremi), which was recently approved in polycythemia vera, is now being studied in essential thrombocythemia.
So, I would expect in the next couple of years, if those trials are successful, to have ropeginterferon as a therapy to offer patients. There is also a clinical trial that we have at our site.
We’re using ruxolitinib or Jakafi for patients with ET that have symptoms of their disease to see if it can help them in the same way that it can help PV or myelofibrosis patients. So, there’s definitely some research going on in ET. But probably less than for PV and myelofibrosis.
Katherine:
Mm-hmm. While ET is typically well-managed, what patient type might benefit from joining a trial?
Dr. Hobbs:
It really depends on what the patient is experiencing. I think there are some patients that really are very asymptomatic and can expect to have an excellent outcome with their disease. But they can also participate in research, for example, by participating in a tissue bank and offering a sample of their blood or if they have a bone marrow by offering some bone marrow if there’s extra. Because that can really help to understand the disease biology, if a patient is going to progress from ET to myelofibrosis.
So, we can learn a lot from that. But then there are maybe some ET patients that need to be on a medication to reduce their blood counts or a cytoreductive agent.
And that’s a patient that could ask about participation in a clinical trial. For example, the ropeginterferon study or, like I mentioned, there may be some patients that maybe are already on a medication and their blood counts aren’t well controlled on the first drug that was used.
So, before considering switching to a second-line agent or a second medication, that could inquire with their clinician if there’s a clinical trial available for second-line use. Or those patients that have a lot of symptoms with ET, they could potentially be eligible for a study that addresses just symptoms.
Katherine:
Right. That’s really good news. I’m glad you talked about that.
Dr. Hobbs:
Mm-hmm.
Katherine:
There was recently an interferon approved for use in patients with PV. What other studies are showing promise for patients with PV?
Dr. Hobbs:
Yeah. So, we as a community, there’s been a lot of excitement about this new interferon that was approved, the ropeginterferon study. And there are still some ongoing studies utilizing ropeginterferon to see if we can use it differently. Because currently the way that that drug is approved is that it has to be titrated up very slowly to get to the maximum dose. So, that’s something that is still ongoing. In addition, there’s a new drug that’s being studied called Rusfertide (PTG-300) from a company called Protagonist. And this drug has been very interesting. It acts through iron metabolism.
And so far in preliminary results, it has shown that a lot of the participants that receive this medication no longer need phlebotomy. And I think what’s exciting about this is that phlebotomy is a very archaic way of treating patients.
And I hope that we can stop utilizing it. So, it’s nice to have a compound that’s specifically asking that question. And the other thing to keep in mind is that this drug has been used in combination with other drugs, which is really reflective of how participants or patients show up to clinics.
Some patients are not going to be on any medications. Some patients may be on hydroxyurea.
Some patients may be on an interferon. Some patients may be on Jakafi. And these trials allow participants to be on a variety of different medications. So, that’s an exciting new compound.
Katherine:
What about myelofibrosis, Dr. Hobbs? What advances are being made in the care of patients with this more advanced MPN?
Dr. Hobbs:
Yeah. So, in myelofibrosis, I would say it is almost difficult to keep track of how many clinical trials are currently open. So, in 2011, we had ruxolitinib approved, or Jakafi. That was the first JAK inhibitor. Since then we’ve had two more JAK inhibitors approved, fedratinib and most recently pacritinib. And we’re currently awaiting the fourth JAK inhibitor to be approved, and that’s called momelotinib.
And in addition to the JAK inhibitors, there are lots of other clinical trials underway right now that are either alone – a drug by itself or a drug in combination with ruxolitinib.
So, there are several Phase III studies. And the reason why that’s important is that after Phase III we usually see a drug approval. So, we can expect, hopefully in the next couple of years, to see many more drugs available on the market to treat patients with myelofibrosis. Some of those include agents that block different pathways within a cell. And that includes a drug called parsaclisib. There’s a drug called pelabresib, which is a BET inhibitor.
There’s another drug called navitoclax, which is a cousin of venetoclax (Venclexta), which is a drug that we’ve been using a lot in leukemia. So, there’s lots of different drugs that are being used in combination with Ruxolitinib. There’s also a drug called luspatercept (Reblozyl) that’s also been approved for myelodysplastic syndromes. And I suspect that that’ll be approved as well to help patients with anemia. So, really, there’s lots of drugs that are being studied right now. And I think the question that we’re all asking is, well, how are we going to use all of these different drugs? So, I look forward to seeing the results of those studies.
Katherine:
Mm-hmm. Will some drugs work better for some patients and others not?
Dr. Hobbs:
That is such a good question. And so, what I’m hoping to see is exactly that. I’m hoping to see that for patients, for example with anemia, perhaps we’re going to be using luspatercept and momelotinib. Perhaps we’re going to see that patients with certain mutations may respond better to certain medications like the BET inhibitors or navitoclax or the PI3 kinase inhibitor, parsaclisib. But as of now, we don’t have enough information.
We haven’t seen enough results of these studies to start to be able to know, you know, what is the patient that’s going to do better with two drugs versus one drug? And so, I think that over the next couple of years we’re going to start to have answers to those questions.
Katherine:
Yeah. I’d like to get specific about your research. What are you excited about right now?
Dr. Hobbs:
A few different things. There’s a clinical trial that I’ve been leading for several years now that got somewhat delayed due to the pandemic that’s utilizing ruxolitinib before, during, and after transplantation for patients with Myelofibrosis.
And that study is hopefully going to finish accrual in the next couple of months. So, I’m excited to see the results of that study. That study was presented at ASH of last year, the interim results of that study. And so far, we’ve seen exciting results. Patients have done well with transplant while receiving ruxolitinib.
We’ve seen that patients that have undergone transplant and have received ruxolitinib have had very low rates of a complication of transplant called graft-versus-host disease.
And that’s been very exciting, because we know that graft-versus-host disease is really very difficult to deal with after transplant. It can really impact quality of life. And so, that’s been exciting to see that we can hel
