Novel Compound GPX-150 Shows Promise in Soft Tissue Sarcoma

Brian Van Tine, MD, PhD, discusses the potential of the investigational compound 5-imino-13-deoxydoxorubicin (GPX-150) in metastatic and nonresectable soft tissue sarcoma.

Brian Van Tine, MD, PhD

The investigational compound 5-imino-13-deoxydoxorubicin (GPX-150) was active and well tolerated in patients with metastatic and nonresectable soft tissue sarcoma (STS), according to data from a single-arm phase II study presented at the 2016 Connective Tissue Oncology Society Annual Meeting.

Among 21 evaluable patients with locally advanced and/or metastatic intermediate or high-grade STS, GPX-150 induced a clinical benefit rate (CBR) of 43%. The CBR included 1 partial response and 8 patients with stable disease.

GPX-150 was well tolerated, detecting no irreversible cardiotoxicity and no grade 3 or 4 toxicities besides hematological toxicity. The toxicities included 2 patients (10%) with grade 3/4 neutropenia, 1 patient (5%) with grade 3 febrile neutropenia, and 3 patients (14%) with grade 3 anemia. The toxicities that were less than grade 3 included mucositis, nausea, vomiting, alopecia, and fatigue.

Can you give an overview of the phase II trial of GPX-150 in metastatic and nonresectable soft-tissue sarcomas?

Can you discuss the design of the study?

What were the most significant findings?

What are the next steps with this research?

What impact do you expect the FDA approval of olaratumab to have on the treatment landscape?

Are there any related trials that you are excited to see the results of?

What would you like community oncologists to take away from this study?

What do you hope to see in the next 5 to 10 years for the treatment landscape?

In an interview with OncLive at CTOS, Brian Van Tine, MD, PhD, assistant professor of Medicine, Division of Oncology, Section of Medical Oncology, Washington University School of Medicine, Siteman Cancer Center, discussed the potential of GPX-150 in metastatic and nonresectable STS.The compound that we presented at CTOS—and with more preliminary data earlier this year at ASCO—was called GPX-150. This is a novel anthracycline compound that doesn’t seem to cause the cardiotoxicity of the compound doxorubicin. This was a small phase II study run by a company called Gem Pharmaceuticals, where we took patients with soft tissue sarcoma in the frontline metastatic setting. Instead of giving them doxorubicin, which was standard of care at the time, we gave them a compound called GPX-150 and instead of capping doxorubicin, patients were allowed to continue this treatment for up to a year. There were a number of patients on the trial that made the full year with no signs of cardiotoxicity. Now the standard of care is doxorubicin with olaratumab (Lartruvo) but since this study was done over a year ago the standard was just doxorubicin.The most significant finding was that we don't seem to see the cardiotoxicity that we were worried about. In addition, it looks like there's efficacy of the compound that is comparable to doxorubicin in the first place. We may be able to develop a compound that can not only can replace doxorubicin, but get rid of the biggest problem.I believe the next step is dealing with the transitional shift that we just had with the approval of olaratumab. Also, building a more formalized randomized phase II trial or even going back to a phase I trial with olaratumab and then building forward to see if we can design a study where we can show that this should be the compound to replace doxorubicin.Until we get the final results of the phase III study on a new standard of care for most metastatic patients, the patient should be receiving olaratumab upfront. I am still looking forward to seeing the final reanalysis of the aldoxorubicin compound because that also affects the landscape long-term. If in the reanalysis it becomes more of a positive trial, I will be excited because there may be a third anthracycline trying to get rid of the cardiotoxicity of doxorubicin, which will allow us to use it more. What we would like the community oncologists to take away from this study is to watch out for GPX-150. As it gets developed there is some excitement because it doesn't cause as much hair loss or as much cardiotoxicity, but it may have the same efficacy.What I would hope to see in the next 5 years is two-fold. I think that our understanding in the rare tumor space of what immunotherapies to use and who to use them with is going to develop. I also think the more exciting thing is for the tumors where immunotherapy isn't going to be the treatment. We recently published a paper in Cell Death and Disease, where we found that argininosuccinate synthetase 1 is not expressed in over 90% of any sarcomas that we have ever looked at. That is going to be the basis for metabolic therapies that are trying to get developed in the next wave after immunotherapy.

When do you think the metabolic therapies will be ready for prime-time?

The metabolic therapies are acting in conjunction with other compounds that are coming. As everybody is focused on immunotherapy, a lot of us are already moving on to the next wave of developments, so when the metabolic therapies are truly ready for prime time they won't be forgotten in the rare tumor space. We're working on opening the arginine deiminase trial of sarcoma in the next year or so. But these things take the time to report out and the right combinations still have to be found. Just like with immunotherapy where we're playing around with A versus B versus C, the same thing has to be done with these treatments. Unfortunately, all the sarcomas are deficient in ASS1 until you have a more unified metabolic approach that you can build off of as a base.

Van Tine B, Agulnik M, Olsen RD, et al. Phase II trial of 5-imino-13-deoxydoxorubicin (GPX-150) in metastatic and non-resectable soft tissue sarcomas. Presented at: Connective Tissue Oncology Society Annual Meeting; Lisbon, Portugal; November 9-12, 2016. Poster 098.