Lung Cancer / Mesothelioma
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Loading ...Immune-based approaches in lung cancer tend to generate significant buzz among patients and the general public, as well as in the media, but not as much optimism within the oncology world. Much of that is for good reason: while the concept of a minimally toxic, long-lasting anti-cancer approach like a vaccine is very appealing to all of us, oncologists have seen many hyped immune-based therapies deliver far less than their promise. This is for several reasons. One is that cancer cells derive from normal host cells, so it can be hard to find targets on a cancer cell that aren’t also seen on normal cells. If the immunologic treatment fights normal tissues as well, it can lead to autoimmune complications. Also, many of the early studies measure success as an immune response measured on skin or in a test tube, not the more meaningful endpoints that we really care about, like tumors shrinking or people living longer. Who cares if your blood cells seem to recognize the target in a lab test, if it doesn’t translate to a patient actually doing better because of that? Also, the idea of a vaccine is generally employed before someone has the disease: you get vaccinated not when you have measles, but before you get it, so your immune system can mount a response at the first minimal threat of it. We think of immune-based therapies being most effective against a minimal tumor burden, which is not something we see enough in lung cancer, especially advanced disease. Finally, chemotherapy as well as progressing cancer can leave the body relatively immunosuppressed, so that the immune system may not have the ability to mount a strong enough response to combat a cancer meaningfully. At the end of the day, we don’t have vaccine therapies for active cancers yet. But as I write this, I wonder when I’ll need to go back to revise that statement. The FDA is considering a vaccine for advanced prostate cancer, and there are a few good leads in lung cancer as well. Today I’ll focus on L-BLP 25, now also known as Stimuvax®
Stimuvax is a synthetic human protein called MUC1 that is comprosed of a 20-amino acid peptide that is capable of producing a robust immune response. Although the protein MUC1 is present on both normal epithelial tissues of the body and cancer, the pattern of sugars that are put on the MUC1 protein of cancer cells is different from the pattern on normal cells:
(click to enlarge)
The vaccine consists of the immune-reponse inducing peptide (specific for the kind appearing on cancer cells), along with an immune system stimular called an immunoadjuvant or just adjuvant (same word as the one we use for post-operative treatment, but different meaning here). These are enclosed in what is called a liposomal vehicle that enhances recognition of the cancer antigen (target piece of protein) by the immune system and facilitates better delivery. The vaccine approach involves injecting it under the skin (subcutaneously) to be taken up by the patient’s immune cells so they can be trained to detect and combat the cancer cells that have this particular protein on them.
There was a key clinical trial of this vaccine (abstract here) in NSCLC that has generated significant interest, based on the improved results in at least some of the patients who participated. Completed in Canada and the UK, it randomized 171 patients with stage IIIB (not just with a malignant pleural effusion, but also many with unresectable but what would generally be considered curable stage IIIB disease without an effusion) or stage IV NSCLC to the vaccine with supportive care or supportive care alone after first-line treatment with chemo, and sometimes radiation as well (a standard component for locoregional stage IIIB NSCLC, although not always given, for unclear reasons), but only for patients who had a response or at least stable disease after initial treatment. It was therefore a maintenance approach administered at a time when the tumor burden would potentially be reduced, if not exactly minimal. The schema is as shown:
The trial evaluated survival and safety of treatment, as well as quality of life. The treatment involved a single low dose of a chemo (cyclophosphamide) to stimulate the immune system, followed by eight weekly injections of the vaccine under the skin. After that, patients on the vaccine arm could also receive a maintenance vaccine injection once every six weeks. Quality of life was not very different between the two groups and was modestly better in vaccine recipients (which could possibly be because they were happier to be receiving the vaccine), certainly no evidence that the vaccine bothered people much. The formal toxicity evaluation showed that treatment was well tolerated, primarily with local skin reactions like redness and slight swelling at the injection site:
The median survival for everyone was 4.4 months better in the group that received vaccination (17.4 vs. 13 months). This included about 60-65% of patients with advanced disease and 35-40% with earlier stage, locoregional disease that can be treated curatively and have a very different, better survival. When they broke down the groups by stage, there was really no difference in outcome among the patients with advanced NSCLC (”wet” IIIB or stage IV):
In contrast, the differences were striking for the minority of patients with stage IIIB NSCLC without a pleural effusion, also referred to as locoregional stage IIIB, with median survival in the final paper 30.6 vs. 13.3 months, highly favoring the vaccine recipients. Here is the survival curve from an earlier presentation for patients with stage IIIB locoregional NSCLC, starting after the end of chemo or chemoradiation:
That’s pretty impressive, but with the caveat that these results are based on only 65 patients, and overall they were treated pretty unconventionally, not just because of the vaccine. In contrast with the ideal standards of care for locoregional stage IIIB NSCLC, only 23 patients received chemo and radiation concurrently, and only 19 received a dose of 50 Gray or more. It’s a bit squirrelly (not a technical term), enough that we would all prefer to see these results reproduced in a larger setting.
Fortunately, that’s what the world will now get. Building on the momentum from the smaller phase II trial, the manufacturer just opened the START trial (Stimulating Targeted Antigenic Response to NSCLC Trial). This study is a randomized (2 getting vaccine for every 1 getting placebo), double-blind (both sides will get injections on the same schedule, so it won’t be clear who’s receiving active treatment), placebo-controlled trial of 1300 patients with stage IIIB unresectable locoregional (”dry”, without a malignant pleural effusion) who have demonstrated a response or stable disease after at least two cycles of platinum-based chemo with radiation. Patients will be enrolled from about 140 centers in North America and Europe. Information on the trial can be found here or here.
I and many others in oncology remain somewhat skeptical about vaccine-based therapies for lung cancer, but the results from the phase II trial are intriguing and leave me more hopeful about such an approach than I have ever been before. It would be fabulous to have a maintenance/consolidation therapy for unresectable NSCLC that was minimally or non-toxic, that could work for a prolonged period of time, and that improves survival meaningfully. And this kind of approach could easily translate into post-operative management for earlier stage patients as well, where we are really dealing with a very minimal residual tumor burden, if there is any at all. Time will tell.
Posted in: Current Clinical Trials, Immune/Vaccine-based therapies, Lung Cancer, Non-Small Cell Lung Cancer (NSCLC), Second-line treatment, Stage III/Locally Advanced NSCLC, Stage IV/Advanced/Metastatic NSCLC, Treatment, Unresectable locally advanced NSCLC
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Dr. West,
Thanks for the post. I have been watching the development of this vaccine with interest and hope. I’m aware the phase II trial was small and didn’t seem to indicate too much better survival for stage IV’ers, but I was curious, assuming it’s deemed safe and actually effective, any chance it would be approved for Stage IV? And how long does it take to go from a phase III trial to an available drug for patients?
On a similar note, don’t you think that the future of cancer treatment (if possible) is in trying to get our immune system to recognize and kill cancer cells? Rather than relying on some foreign substance to enter our bodies and seek out and attack cancer cells. I know I am out of my league, but is it that far fetched to believe that we may be able to treat advanced cancers by educating (or tricking?) our immune system cells to kill tumors and “clean up” residual cancer cells?
Thanks,
Aaron
spicysashimi
Thanks for taking the time to research this - hopefully this and other similar vaccines will help many in the future.
Dawn
dtay
The phase III trial will focus on stage III patients only, so the FDA would not approve it for stage IV NSCLC even if the trial is positive. However, if it is positive, it would likely be tested in several other settings, such as after surgery for earlier stage disease, possible in SCLC, and possibly in a larger setting for stage IV (depending on whether the company feels that the negative trial truly represents what the vaccine would do in a larger experience in stage IV). I don’t have any direct knowledge of what they’d do, but I suspect they’d be unlikely to spend lots of money retesting in stage IV unless they could predict which patients are more likely to respond well to the vaccine and restrict the trial accordingly.
And there are other trials being done testing the immune system in ways along the lines of what you’re proposing. But that approach is further along in settings like prostate cancer, where a vaccine called Provenge is being considered for approval by the FDA. Provenge uses white blood cells from the patient, trains them to detect prostate cancer cells, and then has them injected back into the patient to train the rest of the immune system. It’s prostate specific at this time, but similar approaches are being evaluated in other cancers.
-Dr. West
Dr. West
Can you tell me about this trial?
http://www.targetedtherapies.org/rdt1_3.html
The Eastern Cooperative Oncology Group (ECOG) is planning a randomized phase II trial to assess the addition of the anti-vascular endothelial growth factor agent, bevacizumab (Avastin®), to L-BLP25 vaccine. It will compare the L-BLP25 vaccine plus bevacizumab to bevacizumab alone after best standard therapy for locally advanced lung cancer
klmline
I just read about it, and really all I know is what you’re saying. Right now, we’re trying to figure out how to safely integrate avastin into earlier stage patients, so that the efficacy benefit seen in advanced stage NSCLC can potentially translate into a long-term survival benefit in earlier stage disease. ECOG has been the cancer cooperative group that has done the most work with avastin and continues to develop many trials testing its potential value. At the same time, Dr. Carbone and ECOG have been evaluating the potential feasibility and clinical benefit of vaccine approaches, and this L-BLP-25, or Stimuvax, approach has been among the most encouraging strategies. This trial takes patients who have undergone chemo and radiation for unresectable locally advanced NSCLC and then randomizes them to get “maintenance” avastin or a combination of avastin with the vaccine. I don’t believe the trial is up and running yet, but rather is late in development. But I don’t participate in ECOG trials and may not be as current on the details as the oncologists who work directly with ECOG. I’ll see if I can learn any details from ECOG-based colleagues.
-Dr. West
Dr West,
Do you know which institute in Europe participate in this ECOG trails?
Thankyouverymuch
Holland
Holland,
ECOG is a US-based cancer cooperative group, so I don’t believe there are any European sites that run ECOG trials. There are several other cancer research groups that are country specific or run throughout Europe that are options not available in the US, so there may be options through a country-specific or European group, such as the EORTC (European Organization for the Research and Treatment of Cancer).
-Dr. West
Hi Dr West,
By the Vaccin Stimuvax the give “300 mg Cyclophosphamide” … We use also astragalus. I read [ http://nccam.nih.gov/health/astragalus ] that astragalus inter- /counteracts with Cyclophosphamide.
Is this dangerous?
I also read that Cyclophosphamide:
- can cause other cancers?
- that it interacts with bloodthinners and can causes bleeding.
Is the benefit of Stimuvax worth the side effects of Cyclophosphamide???
What is youre opinion?
Thankyou…
My
Holland
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