Qinprezo is a novel anti-cancer quinolone derivative being investigated as a treatment for acute myeloid leukemia (AML). AML is a rapidly progressing hematologic cancer where abnormal white blood cell progenitors accumulate in the bone marrow, displacing normal blood cells. There were an estimated 12,000 new AML patients in the US in 2015.
Qinprezo’s primary mechanism of action is the intercalation of DNA and the inhibition of topoisomerase II (topo II). Topo II inhibitors are a well understood class of compounds that derive their anticancer activity by inducing double-strand DNA breaks, which accumulate and induce apoptosis in the rapidly dividing cancer cells. However, like other chemotherapeutic agents, this activity is not limited to cancer cells and is associated with an array of toxic effects. The current standard of care for AML is the so called 7+3 regimen, which involves the alternating infusion of cytarabine and one of a number of different anthracycline topo II inhibitors (daunorubicin, mitoxantrone, etc). The 7+3 regimen has exceptionally good outcomes for the patients that can withstand the treatment: patients under 60 have a 60-85% complete response (CR) rate, and a 30% five-year disease-free survival rate. However, the efficacy of the treatment declines dramatically in older and more complicated patients, with a five-year disease-free survival rate for those over 60 of only 5-10%. Part of the reason for worsening prognoses is the lower CR rate and higher number of treatment-related adverse events associated with the therapy. In particular the anthracyclines used in 7+3 uniformly have dose limiting cardiotoxicity. Although the precise mechanism underlying cardiotoxicity topo II inhibitors is unknown, the consensus is that the toxic reactive oxygen species (ROS) generated by the anthracycline core structure underlies the effect. In contrast to anthracyclines, the quinolone core of Qinprezo does not generate significant levels of ROS, and is therefore expected to result in significantly less heart damage.
In older or more compromised patients, doctors frequently forgo the 7+3 regimen in favor of gentler treatments such as low dose cytarabine (LoDAC) or hypomethylating agents (HMA). The primary alternative to chemotherapy is hematopoietic stem cell transplant (HSCT), although there are several limitations on its use. First, HSCT is typically given after induction of a complete remission on 7+3 or other chemotherapy. However, there is a 20-25% treatment related mortality rate associated with HSCT, which increases with age, limiting its use primarily to younger patients. Because of this, improvement in overall survival is limited to patients with bad cytogenetics and highly aggressive disease. HSCT is typically available to patients with a matched donor, such as a sibling. However, with these factors considered, the complete remission rate for patients following HSCT is 45-65% (subject to selection bias).
Exhibit 2: AML incidence and stratification
Incidence (est. 2015) |
Rate |
EU |
US |
Total |
100% |
33,200 |
20,800 |
Over 60* |
75% |
25,000 |
15,700 |
|
|
|
|
Relapse (at 5 years)** |
43% |
14,400 |
9,000 |
Refractory** |
27% |
9,000 |
5,600 |
Relapsed/refractory over 60† |
53% |
17,600 |
11,000 |
|
|
|
|
Low risk*** |
34% |
11,300 |
7,100 |
Intermediate risk*** |
46% |
15,300 |
9,600 |
High risk*** |
20% |
6,600 |
4,200 |
Intermediate or high risk over 60† |
50% |
16,500 |
10,300 |
Source: *Juliuson, G (2009) Blood. 113(18), 4179-4187, **Grimwade (2001) Blood. 98(5), 1312-1320, ***Valcárcel D (2012) Cancer, 118(2) 410-417, † Extrapolated from above data.
Approval for Qinprezo is currently being sought in Europe for individuals over 60 with relapsed and refractory AML. The relapsed and refractory market is large at 70% of patients, and individuals over 60 are typically unfit for HSCT. Based on our estimates, this market consists of approximately 17,600 patients in Europe. Qinprezo also has significant market potential as a front-line induction therapy in patients who are unlikely to benefit from 7+3. Patients are stratified into classes based on predefined criteria to reflect their risk of death from induction therapy. Those identified as high-risk represent 20% of all AML patients and 32% die from induction. Likewise, 46% of AML patients are intermediate-risk, of which 19% die from induction. Although many of these patients (especially intermediate risk) currently receive 7+3, this may be due to lack of viable alternatives. The company has stated that it intends to perform additional clinical trials and seek future approval for front-line therapy. Based on this guidance, we currently model the company will initially seek approval for front-line therapy for Europe and the US in intermediate- and high-risk patients over 60, as it has fewer of the factors that limit AML trial success (discussed below), showed significant efficacy in previous trials (discussed below) and still represents 50% of the available market (14,300 combined US and EU market).
Qinprezo has been investigated in a single pivotal Phase III study for efficacy in first relapsed or refractory AML: the VALOR trial. This study built on previous Phase II data suggesting safety and efficacy inducing complete remissions (CR) when the drug is used as a front-line treatment monotherapy (25% CR rate in high-risk patents >60) and in combination with cytarabine in relapsed and refractory AML (28% CR). The VALOR trial sought to expand on this data by investigating the treatment of patients with Qinprezo in combination with intermediate-dose cytarabine in first relapse and refractory AML patients. The combination with intermediate-dose cytarabine was chosen due to a similar overall survival and higher tolerability compared to high-dose cytarabine. The three-year randomized, double-blind study initiated in December 2010 enrolled 711 patients across 101 international sites with overall survival as the primary endpoint. The adaptive trial design enabled patients to receive between one to four cycles of treatment, depending on their response.
Exhibit 3: Overall survival from VALOR trial
|
|
Source: Modified from Ravandi F, Ritchie EK (2015) Lancet. 16(9), 1025-1036. Kaplan-Meyer curves of overall survival of patient from the VALOR clinical trial. A) All patients; B) Patients censored at stem cell transplant; C) Patients over 60; D) Patients with a previous early relapse.
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The median overall survival (OS) in the Qinprezo plus cytarabine arm was 7.5 months compared to 6.1 months in the placebo plus cytarabine (HR 0.87, 95% CI 0.73-1.02, unstratified log-rank p=0.061), missing the trial’s primary endpoint. However, when the data was adjusted for the effects of the randomization criteria (age, prior treatments, etc) via a stratified log-rank analysis, the study achieved p=0.024, suggesting differential activity depending on these variables. A series of pre-specified analyses shed some light on which of these stratifications are indicative of a clinical response. Patients censored on HSCT (n=711, OS benefit=1.4 months, HR=0.81, p=0.024, 30% and 29% of patients received HSCT in active and placebo arms) and patients over 60 (n=320, OS benefit=2.1 months, HR=0.75, p=0.003) showed an increased treatment effect compared to the trial overall. Additionally, patients with an early previous relapse (90 days to one year after initiating their front-line treatment) were more responsive to Qinprezo (n=256, OS benefit=1.5, HR=0.77, p=0.039), whereas there was no difference in survival in patients with long previous remissions (p=0.96) or refractory patients (p=0.23).
Each of the subgroups that showed efficacy (advanced age, inappropriate for stem cell transplant, aggressive disease) are classes with poor initial prognoses. There are several potential explanations for why poor prognosis is correlated with an improved clinical effect. First, it is possible that younger and more fit patients were able to have more aggressive subsequent therapy following Qinprezo treatment including HSCT. The effect of subsequent therapies has consistently been a confounding factor in AML trials. The treatment effect of these therapies can begin to occlude that of the experimental drug with longer survival times and interject variability due to different treatments.
An alternative explanation is that the treatment effect in healthier populations is occluded by adverse reactions to the drug because they are alive longer to experience these reactions or their treatment effect is smaller. Serious adverse events (SAEs) were significantly higher in the Qinprezo arm of the trial (33% compared to 17% on placebo) as were deaths attributed to SAEs (14% vs 7%). However, the majority of these deaths (96% in both arms) occurred in the first 60 days, suggesting the longevity of the patients might not be in play. It should be noted, however, that organ damage, including cardiotoxicity, was not observed in the trial.
Despite the admittedly modest improvements in survival in this study, Qinprezo was demonstrably effective at inducing remissions. Approximately twice as many patients in the study achieved a CR (30% vs 16%, p<0.0001), and this was true across virtually every single subgroup that was examined.
Exhibit 4: Complete remission rates from VALOR study
|
CR |
Combined CR CR/CRp/CRi* |
Qinprezo + cytarabine |
Placebo + cytarabine |
Difference |
p value |
Qinprezo + cytarabine |
Placebo + cytarabine |
Difference |
p value |
Overall |
|
30% |
16% |
14% |
<0.0001 |
37% |
19% |
18% |
<0.0001 |
By age years |
<60 |
27% |
21% |
6% |
0.24 |
35% |
23% |
12% |
0.04 |
≥60 |
32% |
14% |
18% |
<0.0001 |
38% |
16% |
22% |
<0.0001 |
By disease status |
Early relapse |
28% |
12% |
15% |
0.0024 |
35% |
16% |
19% |
0.0004 |
Late relapse |
53% |
34% |
19% |
0.015 |
60% |
36% |
23% |
0.0037 |
Refractory |
20% |
11% |
10% |
0.021 |
28% |
12% |
16% |
0.0007 |
By region |
USA |
28% |
14% |
13% |
0.0032 |
35% |
17% |
18% |
0.0002 |
Outside USA |
32% |
18% |
14% |
0.0014 |
38% |
20% |
19% |
<0.0001 |
Source: Ravandi F, Ritchie EK, Lancet Oncol. 2015 Sep;16(9):1025-36. Note: *Includes CR with incomplete platelet recovery (CRp) and CR with incomplete marrow recovery (CRi).
Can Qinprezo get approved?
Sunesis announced in July 2015 after speaking with the FDA and presenting its analysis of the VALOR data that the agency had guided against submitting a new drug application for Qinprezo until the company had gathered additional clinical efficacy data. This is consistent with the agency’s strict stance with respect to novel AML treatments. Demonstrating efficacy to the standards of the FDA has been difficult in AML trials due to a host of issues. Because the prognosis is poor, patients may require multiple treatments beside the study drug during the course of a trial, clouding the clinical effect. Additionally, the agents that have been studied are generally significantly toxic, and improvements in disease status are often overshadowed by treatment related adverse events and low tolerability. As a result, there has only been a single approval for AML in the US in the past 20 years (Mylotarg), which was subsequently pulled from the market due to lack of treatment effect and toxicity. The company may be able to seek approval in the US following additional clinical trials. Sunesis has already stated its intention to target front-line AML and there are three ongoing investigator-sponsored trials in front-line patients that could be used to inform future pivotal trial designs (Exhibit 5). Based on this guidance we have included as part of our model that the company will perform the necessary trials to seek US approval (for front-line therapy of intermediate- and high-risk patients over 60, and relapsed and refractory patients over 60).
Exhibit 5: Investigator sponsored trials of front-line AML
Description |
Trial no. |
Stage |
Sponsor |
Target date |
Qinprezo and cytarabine in untreated AML |
NCT02658487 |
Phase II |
Vanderbilt-Ingram Cancer Center |
January 2019 |
Qinprezo and cytarabine in untreated AML over 60 years old |
NCT02485353 |
Phase I |
Indiana University School of Medicine |
May 2017 |
Qinprezo and Dacogen in AML and high risk MDS |
NCT01893320 |
Phase I/II |
MD Anderson Cancer Center |
July 2018 |
Source: Clinicaltrials.gov
The regulatory environment in the EU is substantially different from the US, however, and during similar meetings with the EMA, Sunesis was encouraged to submit a marketing application for the use of Qinprezo in relapsed and refractory patients over 60. This is indicative of a different stance at the EMA with regards to AML, as it has historically been more pragmatic when considering applications for this and other indications where few treatment options exist. Two treatments for AML have been approved in Europe: Vidaza (Celgene) and Dacogen (Otsuka, Janssen). Both of these drugs were rejected by the FDA for AML but subsequently approved in Europe for very specific indications where there were indications of efficacy (Exhibit 6).
Exhibit 6: Europe AML treatment comparison
|
OS (months) |
HR |
p value* |
Description |
Treatment |
Control |
Vidaza |
10.4 |
6.5 |
0.85 |
0.101 |
Newly diagnosed patients, >65, >30% bone marrow blasts or 20-30% blasts with multilineage dysplasia |
Dacogen |
7.7 |
5.0 |
0.82 |
0.108 |
Newly diagnosed patients, >65, intermediate or unfavorable cytogenetics |
Qinprezo** |
7.1 |
5.0 |
0.75 |
0.003 |
Relapsed/Refractory, >60, all cytologies |
Source: Celgene, Eisai, Sunesis. Note: *Stratified log-rank. **Subset of VALOR suggested for approval by MAA.
The subset of the VALOR trial (patients over 60) that the EMA asked Sunesis to submit for approval has a substantially lower p value than the clinical trials that led to the approval of Vidaza and Dacogen, and we believe this positions the drug well for approval. Moreover, Sunesis will be seeking approval for relapsed and refractory AML, which will differentiate the drug from the two other treatments.
Exhibit 7: Vidaza overall survival
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Exhibit 8: Dacogen overall survival
|
|
|
Source: Vidaza EMA public assessment report
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Source: Dacogen EMA public assessment report
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Exhibit 7: Vidaza overall survival
|
|
Source: Vidaza EMA public assessment report
|
Exhibit 8: Dacogen overall survival
|
|
Source: Dacogen EMA public assessment report
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The CHMP decision to approve Vidaza and Dacogen in both cases rested on analyses that corrected for confounding factors limiting the overall statistical significance of the studies. In both of the previous approvals, the CHMP cited analyses that took into account the subsequent therapies administered after the study drug. These studies were central to the approval of these drugs, because subsequent therapies are often the confounding factor that limits statistical significance in an AML study. Some of the VALOR data suggests that a similar analysis may be positive for Qinprezo (HSCT were an identified confounding factor, and treatment effect was weaker in healthier patients more fit for other therapies), but currently there is no direct read through whether such an analysis will be positive, or if the CHMP analysis will be made on the same basis. Despite this, we believe that the data from the VALOR trial compares favorably to that used in the previous approvals and EU approval is the most likely route to commercialization.
Because of the above factors, Sunesis has targeted EU approval of Qinprezo as its primary strategic goal. The company has submitted an MAA as of December 2015 and approval is expected as early as Q416 (although it could be delayed by up to a year if issues arise).
An alternative path to commercialization is the approval of Qinprezo for myelodysplastic syndrome (MDS). MDS is a condition that is similar in AML in terms of pathology, but there are fewer abnormal blood cells in the bone marrow. There are approximately 10,000 to 15,000 new cases diagnosed in the US every year and 60,000 people living with the disorder. Although the symptoms of MDS are milder, if it is not managed, it can progress to AML. Treatments for MDS tend to be less aggressive than AML, although some subclasses of MDS are considered high risk and are treated similarly.
There has been marginally better regulatory success with MDS and there are four approved drugs in the US, including both Vidaza and Dacogen. There are currently three ongoing clinical trials studying Qinprezo in MDS (Exhibit 10), the nearest-term readout being final data from the University of Washington Medical Center sponsored trial of Qinprezo in combination with Vidaza. The exploratory trial started in December 2013 and will enroll up to 60 patients. Data released from the dose escalation portion of the trial in December 2015 showed 10/16 patients experienced a CR or an incomplete CR (normal marrow, but levels of blood cells not completely recovered). This compares favorably to Vidaza alone, which had a 15% response rate. The trial is currently in the dose expansion phase, with topline data expected in 2017.
Exhibit 10: Investigator sponsored trials of MDS
Description |
Trial no. |
Stage |
Sponsor |
Target date |
Qinprezo and Vidaza in MDS |
NCT01913951 |
Phase I |
Washington University School of Medicine |
December 2016 |
Qinprezo in Intermediate to High Risk MDS after HMA failure |
NCT01980056 |
Phase I/II |
Weill-Cornell Medical College |
October 2018 |
Qinprezo and Dacogen in AML and High risk MDS* |
NCT01893320 |
Phase I/II |
MD Anderson Cancer Center |
July 2018 |
Source: Clinicaltrials.gov, Note: *Additionally listed in Exhibit 5, front-line AML trials.