- Wyndham H. Wilson1⇓,
- Sin-Ho Jung2,
- Pierluigi Porcu3,
- David Hurd4,
- Jeffrey Johnson2,
- S. Eric Martin5,
- Myron Czuczman6,
- Raymond Lai7,
- Jonathan Said8,
- Amy Chadburn9,
- Dan Jones10,
- Kieron Dunleavy1,
- George Canellos11,
- Andrew D. Zelenetz12,
- Bruce D. Cheson13 and
- Eric D. Hsi14
- for the Cancer Leukemia Group B
- 1National Cancer Institute, Bethesda, MD, USA
- 2CALGB Statistical Center, Duke University Medical Center, Durham, NC, USA
- 3The Ohio State University Medical Center, Columbus, OH, USA
- 4Wake Forest University School of Medicine, Winston-Salem, NC, USA
- 5Helen F. Graham Cancer Center, Newark, DE, USA
- 6Roswell Park Cancer Institute, Buffalo, NY, USA
- 7University of Alberta, Edmonton, Alberta, Canada
- 8University of California, Los Angeles, CA, USA
- 9Northwestern University, Chicago, IL, USA
- 10Quest Diagnostics Nichols Institute, Chantilly, VA, USA
- 11Dana Farber Cancer Institute, Boston, MA, USA
- 12Memorial Sloan Kettering Cancer Institute, New York, NY, USA
- 13Georgetown University Medical Center, Washington, DC, USA
- 14Cleveland Clinic, Cleveland, OH, USA
- Correspondence: Wyndham H. Wilson, M.D., Ph.D., Metabolism Branch, National Cancer Institute, Building 10, Room 4N/115, 9000 Rockville Pike, Bethesda, MD 20892 USA. E-mail:
Background A phase II trial of dose-adjusted etoposide, prednisone, vincristine, cyclophosphamide, doxorubicin and rituximab (DA-EPOCH-R) from the National Cancer Institute showed promising activity in untreated diffuse large B-cell lymphoma. The Cancer and Leukemia Group B conducted a study to determine if these results could be reproduced in a multi-institutional setting.
Design and Methods The study included 69 patients with untreated diffuse large B-cell lymphoma at least 18 years of age and at least stage II. Radiaton therapy was not permitted on study. Median age was 58 years (range 23–83) and 40% had high-intermediate or high International Prognostic Index risk. Immunohistochemical biomarkers for cell of origin and proliferation were performed.
Results With a median follow up of 62 months, time to progression and overall survival were 81% and 84%, respectively, and time to progression was 87%, 92% and 54% for low/low-intermediate, high-intermediate and high International Prognostic Index risk groups, respectively, at 5-years and beyond. The time to progression and event-free survival of germinal center B-cell lymphoma were 100% and 94%, respectively, and non-germinal center B-cell GCB diffuse large B-cell lymphoma were 67% and 58%, respectively, at 62 months (germinal center vs. non-germinal center B cell P=0.008). DA-EPOCH-R was tolerated without significant grade 4 non-hematologic toxicities.
Conclusions These results provide the first confirmation by a multi-institutional group that DA-EPOCH-R provides high durable remissions in diffuse large B-cell lymphoma and is effective in both germinal center and non-germinal center B-cell subtypes. The trial was registered at ClinicalTrials.Gov (NCT00032019).
Over the past 30 years, efforts to improve chemotherapy strategies for diffuse large B-cell lymphoma (DLBCL) have met with limited success.1–3 While modifications of CHOP chemotherapy led to modest improvements in outcome, these were generally overcome by the addition of rituximab.4,5 Alternative regimens based on aggressive treatment platforms such as ACVBP have improved outcomes in select patient groups, even in the rituximab era, but their applicability is restricted to younger patients due to high acute and long-term toxicities.6–9 The bases for these strategies have generally come from the hypothesis that 'non-cross resistant' drugs and dose intensity will overcome drug resistance, but this has not generally been borne out.10, 11 It is now recognized that treatment failure depends on a complex interplay of factors including tumor biology, tumor volume, pharmacokinetics, and pharmacogenomics.10
Investigators at the National Cancer Institute (NCI) pursued a therapeutic strategy that drew on concepts of drug resistance and pharmacokinetics. Based on studies that showed high tumor proliferation is an adverse prognostic factor in DLBCL, they modeled the effect of drug schedule on tumor cell kill and showed that continuous low-dose drug exposure enhances cell kill of rapidly proliferating tumor cells in vitro.12–14 Furthermore, they hypothesized that variations in drug clearance among patients would significantly impact the drug concentration-response curve in the setting of low steady state concentrations (Css) that are achieved during prolonged continuous infusion schedules. These concepts formed the basis for the dose adjusted (DA)-EPOCH regimen in which doxorubicin, vincristine and etoposide are infused over 96 h, cyclophosphamide and prednisone are administered on a bolus schedule, and doxorubicin, etoposide and cyclophosphamide are pharmacodynamically dose-adjusted based on the neutrophil nadir.15–18 The NCI initially performed a phase II study of DA-EPOCH followed by a study of DA-EPOCH with rituximab in untreated DLBCL, both of which performed well compared to reported outcomes with CHOP and R-CHOP, respectively, in similar patient groups.2–5,17,19 To determine whether the results of the NCI DA-EPOCH-R study were robust and could be translated into the community setting, the Cancer and Leukemia Group B study group (CALGB) performed an independent multi-institutional study of DA-EPOCH-R with analysis of molecular subtype.
Design and Methods
This multi-center phase II study of DA-EPOCH-R in untreated de novo CD20+ DLBCL enrolled patients at 18 institutions between 15 February 2002 and 28 May 2004. To assure an independent assessment of DA-EPOCH-R, the NCI did not enroll patients on this multicenter study. The minimum follow up required for each patient was three years or until death, whichever occurred first. Data collection was stopped on 15 April 2009 once this time point had been reached. Clinical objectives included response rate, time to progression free and overall survival and toxicity, and experimental end points included tumor immunohistochemical (IHC) biomarker analysis. Seventy-eight patients were enrolled, of which 9 were ineligible; 2 did not start protocol treatment, one patient was taken off study on day one due to rituximab intolerance, one patient refused treatment after one cycle, and 5 patients had ineligible histologies. Central pathology review was conducted by EH in 62 patients.
Eligibility criteria included stages II–IV, human immunodeficiency virus (HIV) negative, negative pregnancy test, adequate major organ function, no central nervous system (CNS) lymphoma, and no evidence of low-grade lymphoma.15,17 Initial evaluation included standard blood tests, whole body computed tomography (CT), and bone marrow biopsy. Standard staging and response criteria were used.20,21 Disease sites were restaged after cycles 4, 6 and 8 (if administered). The study was approved by the Institutional Review Boards of all participating institutions and complied with the Declaration of Helsinki. All patients gave written informed consent. All authors had access to the primary data and approved the manuscript.
Chemotherapy and dose adjustments
DA-EPOCH-R was administered as previously described.15, 17 Patients received 2 cycles beyond CR or stable changes for a minimum of 6 and a maximum of 8 cycles. Pharmacodynamic dose adjustment was based on twice weekly complete blood counts to achieve limited absolute neutropenia count (ANC) below 500/μL with the administration of filgrastim 300 mg from Day 5 until the ANC reached over 5000/μL past the nadir counts.15,17 Strict adherence to the dose adjustment paradigm is mandatory to achieve the results reported herein. Patients with more than one extranodal site and elevated LDH and/or bone marrow involvement by DLBCL received CNS prophylaxis consisting of intrathecal methotrexate 12 mg given on Day 1 (or Day 2) of cycles 3, 4, 5, and 6. Radiation therapy was not permitted on study. Bactrim® DS was administered twice daily for three days per week.
Immunostaining on whole tissue sections with appropriate primary antibodies was performed at the Pathology Coordinating Office of the CALGB (CD10, clone 56C6; BCL6, PG-B6p; MUM1, clone MUM1p; BCL2, clone 124; Ki67, clone MIB1) using automated immunostainers (Dako, Carpenteria, CA, USA). High pH (9.0) antigen retrieval (Dako) was used for BCL6 and MUM1 while low pH (6.1) was used for CD10, BCL2, and Ki67. LMO2 (clone 1A9-1) was performed at the Cleveland Clinic (Benchmark XT, Ventana Medical Systems, Tucson, AZ, USA). Slides were scored independently in 10% increments by 2 pathologists, with a third review in case of over 20% disagreement for all immunostains (mean score used as final value) except Ki67, for which image analysis (IA, Aperio, Scanscope) and a visual estimate (0=<10%, 1+=10–24%, 2+=25–49%, 3+=50–74%, 4+=75–100%) was used. A 30% cut off for positive staining was used for CD10, BCL6, MUM1 and BCL2 and 60% for Ki67. Classification of tumor biopsies into GCB or non-GCB (i.e. ABC surrogate) subtypes was determined using CD10, BCL6, and MUM1 IHC markers by the validated method of Hans et al.22
Overall (OS), time to progression (TTP) and event-free (EFS) survivals were calculated using the Kaplan-Meier method and the significance between Kaplan-Meier curves was calculated using log rank procedure.23,24 Survival end points were calculated from on-study date until death, relapse, progression or last follow up as appropriate. For TTP, deaths among patients without progression or relapse were censored. International Prognostic Index score (IPI) could not be determined in 2 patients due to missing data. Follow up was calculated from study entry until death or close of study analysis for each patient. The analysis of biomarkers was not adjusted for multiple comparisons as these were pre-specified.15 The SAS v9.2 (Cary, NC, USA) statistical package was used for analyses. Patient registration and data collection were managed by the CALGB Statistical Center. Data quality was ensured by careful review of data by CALGB Statistical Center staff and by the study chairperson. CALGB statisticians performed all statistical analyses.
Clinical characteristics and outcome
Sixty-nine eligible patients with untreated DLBCL were enrolled (Table 1). Median age was 58 years (range 23–83); 59% were in advanced stage, 72% had an elevated serum lactate dehydrogenase (LDH) level, and 40% had high-intermediate/high risk IPI scores.25 Overall, 58 (84%) patients achieved a complete response (CR), which includes those with CR unconfirmed, and 10 (15%) achieved a partial response (PR). Ten (17%) of those achieving CR and 3 (30%) of those achieving PR have relapsed, half of these relapsed patients had high IPI scores. All episodes of disease progression except one occurred within the first 1.6 years.
The median (range) follow up of living patients is 5.2 (3.4–6.8) years. At 5-years and beyond, the TTP, EFS and OS are 81%, 75% and 84%, respectively (Figure 1A–C). Three patients died without progression, one on treatment and 2 during follow up from respiratory and cardiac failure. Only high IPI patients were at major risk of progression. At 5 years, the TTP was 54% in high IPI risk patients, whereas those with low/low-intermediate and high-intermediate IPI had low rates of progression with TTP of 87% and 92%, respectively (Figure 1D). Estimates of EFS and OS revealed similar findings (Figure 1E and F).
Clinical and biological prognostic factors
The IPI was significantly associated with TTP (P=0.0085), EFS (P<0.0013) and OS (P<0.0001), which was all driven by the poorer outcome of high-risk patients. Biomarkers were also analyzed in tumor tissue from 52 (76%) patients. To accurately determine the prognostic influence of the cell of origin as defined by the GCB versus non-GCB (ABC surrogate) subgroups, the 10 patients with PMBL were excluded; 9 from the IHC group and one from the group without IHC (Table 1).26 Patients' characteristics were similar in the groups with and without tissue for IHC (Table 1). Tissue was analyzed with biomarkers of cellular differentiation (CD10, LMO2, BCL6, and MUM1), proliferation (Ki67) and apoptosis inhibition (BCL2), and categorized as GCB or non-GCB DLBCL by the Hans method (Table 2).10,14,22 All survival end points were significantly worse in non-GCB compared to GCB DLBCL, though both groups performed well (Table 2; Figure 2A and B). Remarkably, no patients with GCB DLBCL progressed. To control for error in cell categorization by the Hans method, we also assessed outcome using individual markers of cellular differentiation. From 95 to 100% of patients with tumors that expressed LMO2 or CD10, specific markers of germinal center differentiation, are free of progression (Table 2). The less differentiation-specific markers for GCB and non-GCB DLBCL, BCL6 and MUM1, respectively, showed similar results (Table 2). Interestingly, while we observed a significant association between high tumor proliferation (Ki67 ≥ 60%) and survival outcomes, this was only seen in patients with non-GCB DLBCL (Table 2; Figure 2D–F). BCL2 expression was not associated with any survival outcome measure in the combined GCB and non-GCB DLBCL groups (Table 2) or in the non-GCB DLBCL group (data not shown). There were too few events to construct a meaningful multivariate analysis that included IPI score and biomarkers.
Treatment and toxicity
Toxicity was assessed in all 69 patients on study. Sixty-three (91%) patients completed all treatment cycles. Fifty (72%) patients underwent at least one dose escalation to achieve a nadir ANC below 500/μL, and 65 (94%) patients achieved the desired pharmacodynamic end point. Overall, 25 (36%) patients had fever with neutropenia, 5 (7%) of which were grade 4. Platelet and red cell transfusions were administered to 9 (13%) and 21 (30%) patients, respectively. Gastrointestinal toxicity, such as mucositis or nausea/vomiting, was infrequent and occurred in no more than 5 patients. Similarly, there were infrequent cardiac events, and these only included grade 3 arrhythmia in 4 patients. There was a relatively modest incidence of neuropathy given that vincristine was not capped. Overall, grade 3 motor or sensory neuropathies occurred in 10 (14%) and 7 (10%) patients, respectively, and one patient developed grade 4 motor neuropathy. Most patients experienced significant improvement following treatment. Grade 3 fatigue was observed in 11 (16%) patients. One patient died from a brain hemorrhage during the first cycle.
An important goal of this study was to determine whether the outcome of the NCI trial of DA-EPOCH-R could be achieved in a multi-institutional setting.17 Indeed, the positive outcomes of other single institution studies using novel chemotherapy in aggressive lymphomas, including DLBCL, Burkitt's lymphoma and mantle cell lymphoma, could not be confirmed by multi-institutional studies.1,27,28 In the present study, the 5-year TTP and OS were 81% and 84%, respectively, with no late events. Notably, the outcome of DA-EPOCH-R was similar in the low/low-intermediate and high-intermediate IPI groups with 87% and 92% of patients, respectively, progression free at 5-years. Patents with high IPI score had the least favorable outcome with a 5-year TTP of 54%. In the NCI trial of 72 patients, the 5-year TTP and OS were 79% and 80%, respectively, with a median follow up of 54 months. The outcome by IPI was also similar in the NCI trial. Among patients with low/low-intermediate and high IPI, the 5-year TTP was 90% and 47%, respectively. Patients with high-intermediate IPI faired less well in the NCI trial with a 5-year TTP of 67%, but the results are within the confidence intervals of the present study. Notably, in another study of DA-EPOCH-R in high-intermediate and high IPI risk DLBCL, the 2-year EFS and OS were of 68% and 75%, respectively.29 The toxicity profile of DA-EPOCH-R was similar in the CALGB and NCI trials.17 Overall, 91% and 100% of patients in the CALGB and NCI trials, respectively, achieved ANC nadirs below 500 cells/μL, which is the pharmacodynamic end point. The incidence of fever and neutropenia was also similar and occurred in 36% and 47% of patients, respectively. The incidence of gastrointestinal side effects, neuropathy and fatigue were also similar between the two trials.
This CALGB trial provides further evidence that DA-EPOCH-R provides favorable outcomes in DLBCL. Although there are no comparable therapeutic trials with R-CHOP, two retrospective studies and four randomized studies provide outcome results with R-CHOP-based treatment in untreated DLBCL.4,5,30–33 Among these is a retrospective study from the British Columbia Cancer Agency of R-CHOP in 152 patients with a median age of 63 years and high-intermediate/high IPI in 49%.33 In this study, the 3-year progression free survival (defined as TTP) was 65%. In a follow-up paper, this group reported the outcome of R-CHOP at a median follow up of 33 months using the standard and a revised IPI score.34 Using the standard IPI, they reported a 4-year PFS (TTP) of 57% and 51% for high-intermediate and high-risk patients, respectively. Among the high-risk patients, DA-EPOCH-R had a similar TTP of 54%, although with a significantly longer follow up. In contrast, high-intermediate risk patients had an excellent TTP of 92% with DA-EPOCH-R. It should be noted that this study is limited by its short 2-year median follow up and retrospective study design. The randomized MabThera International Trial (MInT) of R-CHOP versus CHOP-like treatments, which included radiotherapy in approximately half the patients, provides outcome results for patients aged 60 years and under with low (0–1) age-adjusted IPI.5 With a median follow up of 34 months, the 4-year EFS was 75% with R-CHOP. Patients on the DA-EPOCH-R study, however, had a significantly poorer prognosis with 40% high-intermediate/high IPI and 43% over the age of 60 years.
Analysis of biomarkers confirm previous findings that DA-EPOCH-R performs better in GCB compared to non-GCB DLBCL.17,35 The robustness of these results is supported by the association of individual markers of cell of origin and outcome in the present study. Our findings are also consistent with the study by Lenz et al. that showed a significant association between outcome and GCB and ABC (i.e. non-GCB by IHC) DLBCL determined by GEP.36 Interestingly, unlike previous results with DA-EPOCH-R, we observed a significant association between high tumor proliferation and poorer outcome in the present study.16,17,35 However, the adverse effect of high tumor proliferation was only present in the non-GCB DLBCL group, which may explain the discordant results with our earlier trials. We did not find any association between BCL2 expression and outcome, which is similar to our previous results.17 It is now recognized that several mechanisms lead to BCL2 overexpression and confer different prognoses, making it an unreliable biomarker of outcome.15,37,38
The favorable outcome of GCB DLBCL as identified by the Hans algorithm in the present study is consistent with prior findings with DA-EPOCH-R.22 In the NCI phase II study of DA-EPOCH-R, GCB DLBCL had a 79% PFS at five years.17 Additionally, a NCI study of DA-EPOCH-R in HIV-associated DLBCL reported a 5-year PFS of 95% in patients with GCB DLBCL.35 Other studies employing the Hans algorithm suggest that GCB DLBCL does not have as favorable an outcome with R-CHOP.39,40 In a recent study from the University of Barcelona, 149 patients with newly diagnosed DLBCL categorized by the Hans algorithm showed no difference in outcome between GCB and non-GCB DLBCL with a 5-year PFS of 54% and 52%, respectively.39 Analysis of the RICOVER-60 trial from the German High-Grade Lymphoma Study Group found a 5-year survival of approximately 50% and 58%, respectively, for GCB and non-GCB DLBCL.40 Furthermore, a trial including 131 patients from the University of Nebraska reported a 3-year EFS of 67% and 52% in GCB and non-GCB DLBCL, respectively.41
It is worthy of note that most clinical studies that have used IHC algorithms to categorize DLBCL as GCB or non-GCB DLBCL have not found any difference in outcome with R-CHOP based treatments.39–42 However, two clinical studies that used gene expression profiling (GEP), the gold standard for molecular classification, have shown differences in outcome of GCB and ABC DLBCL with R-CHOP.36,39 The reason for this discordance may be due to technical variability that might lower accuracy of IHC classification for GCB and ABC (i.e. non-GCB) DLBCL.43 Nonetheless, studies using IHC algorithms with DA-EPOCH-R have shown significantly better disease outcome in GCB compared to non-GCB DLBCL similar to the results with GEP.17, 35
We hypothesize that the efficacy of DA-EPOCH-R in GCB-DLBCL may be related to its effect on BCL6.44,45 BCL6 is a key germinal center B-cell transcription factor that suppresses genes involved in lymphocyte activation, differentiation, cell cycle arrest (p21 and p27Kip1) and DNA damage response genes (p53 and ATR).44 In GCB DLBCL, chromosomal translocations and/or somatic mutations affecting BCL6 enhance its inhibitory effect on the apoptotic stress response and promote proliferation, which are associated with treatment failure.14,44,46–48 Interestingly, inhibition of topoisomerase II leads to downregulation of BCL6 expression by ubiquitin-mediated protein degradation and possibly through transcriptional inhibition.49 This may partially account for the in vitro finding that sustained exposure of tumor cells to the topoisomerase inhibitors, etoposide and doxorubicin, promotes the p53-p21 pathway and activates the check-point kinase (Chk2), effects that are inhibited in cells engineered to over-express BCL6.50,51 The association between topoisomerase II inhibition and BCL6 expression raises the hypothesis that regimens directed against topoisomerase II may be more effective in GCB DLBCL. In this regard, DA-EPOCH-R was designed to inhibit topoisomerase II through several strategies: incorporating two topoisomerase II inhibitors, etoposide and doxorubicin; optimizing topoisomerase II inhibition through a prolonged 96-h infusion; and maximizing steady state concentrations through pharmacodynamic dose adjustment.16
The present study provides the first multi-institutional evidence that DA-EPOCH-R has a favorable outcome in newly diagnosed DLBCL, and confirms the biomarker results from the NCI study. DA-EPOCH-R compares favorably with historical data with R-CHOP, particularly for the treatment of GCB DLBCL. An ongoing phase III trial comparing the outcome of DA-EPOCH-R and R-CHOP in DLBCL within the GCB and ABC DLBCL molecular subtypes will provide a definitive comparison of these regimens (CALGB 50303).
Authorship and Disclosures
The information provided by the authors about contributions from persons listed as authors and in acknowledgments is available with the full text of this paper at www.haematologica.org.
- Received October 4, 2011.
- Revision received November 14, 2011.
- Accepted November 28, 2011.
- Copyright© Ferrata Storti Foundation