Although rituximab plus cyclophosphamide, doxorubicin, vincristine, and prednisone (R-CHOP) is the standard treatment for patients with diffuse large B-cell lymphoma (DLBCL), ∼30% to 50% of patients are not cured by this treatment, depending on disease stage or prognostic index. Among patients for whom R-CHOP therapy fails, 20% suffer from primary refractory disease (progress during or right after treatment) whereas 30% relapse after achieving complete remission (CR). Currently, there is no good definition enabling us to identify these 2 groups upon diagnosis. Most of the refractory patients exhibit double-hit lymphoma (MYC-BCL2 rearrangement) or double-protein-expression lymphoma (MYC-BCL2 hyperexpression) which have a more aggressive clinical picture. New strategies are currently being explored to obtain better CR rates and fewer relapses. Although young relapsing patients are treated with high-dose therapy followed by autologous transplant, there is an unmet need for better salvage regimens in this setting. To prevent relapse, maintenance therapy with immunomodulatory agents such as lenalidomide is currently undergoing investigation. New drugs will most likely be introduced over the next few years and will probably be different for relapsing and refractory patients.

Learning Objectives
  • To be able to determine at diagnosis which DLBCL patients will likely experience treatment failure with R-CHOP

  • To understand the mechanisms that underlie resistance to standard treatments

  • To be able to assess the new proposed drugs, along with their efficacy for specific lymphoma populations such as those with double-hit lymphoma or double-protein-expression lymphoma

  • To learn more about potential solutions for refractory or relapsing patients

Diffuse large B-cell lymphoma (DLBCL) is the most common lymphoma, representing 25% of all lymphoproliferative disorders.1  Despite its aggressive disease course, ∼50% to 70% of patients may be cured by current standard of care consisting of rituximab plus cyclophosphamide, doxorubicin, vincristine, and prednisone (R-CHOP) chemotherapy.2  Nevertheless, R-CHOP is found to be inadequate in 30% to 40% of patients. For these patients, different processes may account for their lack of response to R-CHOP. Death related to R-CHOP toxicities, although it is a rare event in young patients, may be observed in 5% of patients older than age 70 years. This treatment-related mortality is usually associated with an absence of response. R-CHOP failures are principally due to either primary refractoriness or relapse after reaching a complete response (CR) (Figure 1). A few more patients (<5%) do not achieve CR but only partial response (PR) with either persisting lymphoma cells on biopsy or persisting active tumor volume on positron emission tomography (PET) scan. These different settings are related to different mechanisms of resistance to chemotherapy, requiring appropriate solutions to increase the cure rates.

Figure 1.

Outcome of patients with DLBCL after R-CHOP chemotherapy.

Figure 1.

Outcome of patients with DLBCL after R-CHOP chemotherapy.

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In this review, HIV-related lymphomas, posttransplant lymphomas, central nervous system lymphomas, and transformed lymphomas will not be covered, although comments pertaining to refractory and relapsing lymphomas may be applied to these particular entities.

Although several mechanisms of resistance may account for refractoriness to R-CHOP, the majority of DLBCL patients present a double rearrangement of MYC and BCL2 genes called double-hit lymphoma (DHL). Indeed, DHLs are defined as a chromosomal breakpoint, affecting the MYC/8q24 locus in combination with another recurrent breakpoint, usually BCL2 (t(14;18)(q32;q21)), although BCL6/MYC-positive DHLs or BCL2/BCL6/MYC-positive triple-hit lymphomas (THLs) may also be observed. All studies that focused on DHLs or THLs concluded that the patients’ outcomes were poor, with R-CHOP probably not being the best therapeutic option. These rearrangements can be observed with fluorescence in situ hybridization (FISH) analysis.3,4 

Recently, immunohistochemistry has allowed patients with high expression of MYC and BCL2 proteins to be identified, but no gene rearrangements show up in FISH analyses. In addition, patients who have double-protein expression lymphoma (DPL) exhibit a poorer outcome compared with patients who do not have DHL or DPL, although they have a slightly better outcome than DHL patients.3,5  Because of the risk of poor outcome, screening for DHL by FISH analysis (rearrangement) or DPL by immunohistochemistry (overexpression) should be mandatory for every DLBCL patient.

In several studies, MYC rearrangement, hyperexpression without BCL2 rearrangement, or BCL2 hyperexpression have been associated with poor outcome, whereas in other studies, the authors reported that no difference was seen compared with patients without MYC abnormality.6,7  Patients with MYC mutations may experience either a better or poorer outcome, depending on the type of mutation.8  This may explain the contradictory reports found in the literature. Patients with MYC overexpression, particularly the Myc-N11S variant, have a better outcome than patients with other MYC mutations.8 BCL2 rearrangement alone is not associated with a poorer outcome. However, BCL2 hyperexpression alone does predict a shorter progression-free survival (PFS) and overall survival (OS) in DLBCL patients, this difference being more relevant in germinal center B-cell lymphoma than activated B-cell lymphoma subtypes.9 

Several other exploratory studies have retrospectively investigated multiple parameters that may be associated with low CR rates, shorter event-free survival (EFS), shorter PFS, or shorter OS. Table 1 lists clinical, radiologic, genetic, and antigenic parameters that have been associated with outcome over the last 5 years. Most of the studies included only a small number of patients, and although several studies correlated their findings with prognostic indices or cell of origin, none of them sought correlations between outcome and DHL, THL, or DPL subtypes. Therefore, their clinical usefulness and impact on the physician’s decision-making process regarding new treatment strategies in DLBCL patients seems to be low. Neither the International Prognostic Index nor its modified forms (eg, the Revised International Prognostic Index) allow these refractory patients to be recognized. Given that cell of origin has not been associated with either DHL or DPL, it does not seem to be a useful parameter for recognizing these patients either.

Early relapse is usually defined as relapse in the year after diagnosis or the 6 months after the end of treatment. Although these patients achieved CR with the planned treatment, they then experienced quick progression, with lymphoma cells not responding to subsequent treatment. In addition, these patients frequently present with a central nervous system relapse, which is always associated with poor outcome.10  There is typically a clonal evolution among lymphoma cells, with some heterogeneity of genes involved in lymphoma growth that might explain the chemorefractoriness and difficulties of salvage.11  Furthermore, it has also been shown that DLBCL pathogenesis is strongly related to epigenetic perturbations and that high epigenomic heterogeneity correlated with a higher relapse rate and poor outcome.12  These observations open the pathway to specific DNA methyltransferase and histone methyltransferase inhibitors designed to erase aberrant epigenetic programming.13  Several studies have investigated the genetic landscape of relapsing DLBCL patients and identified TP53, FOXO1, MLL3, CCND3, NFKBIZ, and STAT6 as top candidate genes for therapeutic resistance.14 

Late-relapsing patients are characterized by a better response to salvage chemotherapy along with longer PFS and OS than those with refractory disease or early relapse.15  However, there is not a single parameter at diagnosis or at the time of CR that would allow us to recognize patients likely to relapse, nor are there any parameters to help discriminate early from late relapses. Conversely, not all the parameters described in Table 1 have been prospectively or retrospectively tested in relation to these different end points.

At present, we are not able to identify patients who will ultimately prove to be refractory before we initiate chemotherapy. Those patients typically receive standard chemotherapy with R-CHOP. However, given their poor prognosis, it may be better to focus on patients presenting with DHL, THL, or DPL and attempt to improve their first-line treatment regimen. Before initiating a randomized study, however, we must identify the drugs that would likely lead to a good response in refractory or relapsed patients. What is currently done for these patients is shown in Figure 2.

Figure 2.

Suggested algorithm for therapy in patients for whom R-CHOP therapy failed.

Figure 2.

Suggested algorithm for therapy in patients for whom R-CHOP therapy failed.

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New drugs and their association in refractory and relapsed patients

Table 2 provides a listing of new drugs that have been tested in refractory or relapsing patients. Most of these drugs display low activity and were mainly tested in relapsing but not in refractory patients; none of the drugs were specifically evaluated in patients with DHL or DPL. Table 3 provides an overview of the different regimens that are associated with a novel agent. Most regimens have been used for years and have been shown to result in an approximately 50% response, including a 30% CR rate, which is not much better than the responses obtained with standard rituximab plus ifosfamide, carboplatin and etoposide (R-ICE), rituximab plus dexamethasone, cytarabine, and cisplatin (R-DHAP), rituximab plus etoposide, methylprednisolone, cytarabine, and cisplatin (R-ESHAP), or rituximab plus gemcitabine, cisplatin, and methylprednisolone (R-GEM-P). Of all these studies, one conducted by the Lymphoma Study Association investigated the efficacy of 2 different regimens (R-DHAP and R-ICE) followed by autologous transplant in responders, depending on their MYC rearranged status.16  In that study, complex hits (DHL, THL, and others) were observed in 75% of the patients representing 17% of the entire patient population. The 4-year PFS and OS were significantly lower in DLBCL patients with MYC rearrangement than in those without, with rates of 18% vs 42% (P = .0322) and 29% vs 62% (P = .0113), respectively. The chemotherapy regimen (R-DHAP or R-ICE) had no impact on survival in either group.

A better regimen than R-CHOP for high-risk patients

Intensified R-CHOP.

In general, refractory patients and relapsing patients receive the same salvage treatment (R-DHAP, R-ICE, or R-ESHAP followed by autologous transplant in responders), even when they are refractory to standard therapy. Another strategy would be to fine-tune the R-CHOP regimen. In a retrospective analysis, the MD Anderson group examined a total of 129 DHL patients treated with R-CHOP, dose-adjusted rituximab plus etoposide, prednisone, vincristine, cyclophosphamide, and doxorubicin (DA-R-EPOCH), or rituximab plus hyperfractionated cyclophosphamide, vincristine, doxorubicin, and dexamethasone alternating with high-dose methotrexate-cytarabine (R-hyperCVAD/MA) and found that patients receiving either DA-R-EPOCH or R-hyperCVAD/MA experienced a better outcome.17  R-hyperCVAD/MA was significantly associated with higher CR rates compared with R-CHOP, whereas DA-R-EPOCH resulted in longer EFS than R-CHOP.17  The efficacy of these intensified or dose-escalated regimens was corroborated in another study.18  The results of that study are waiting to be confirmed in a randomized, currently ongoing study (R-CHOP vs DA-R-EPOCH; NCT00118209). The studies assessing the benefit of high-dose therapy plus autologous transplant in first CR, however, showed no improvement over chemotherapy alone.19 

The only possibility for increasing cure rates is either to increase the number of true CR patients or to implement maintenance treatment in these CR patients. At least 1 randomized study has compared R-CHOP to a more intensive regimen (rituximab plus doxorubicin, cyclophosphamide, vindesine, bleomycin, and prednisone [R-ACVBP]) in young patients with adverse prognostic parameters (age-adjusted International Prognostic Index score of 1), showing that, in spite of similar CR rates between the 2 arms, a significant statistical difference in favor of the R-ACVBP regimen was found in terms of EFS, disease-free progression, PFS, and OS.20  Another study confirmed that first-line dose-escalated immunochemotherapy resulted in a significant PFS advantage in DHL patients.18 

Associations with new agents at diagnosis.

Given that intensified regimens may not be appropriate for all patients and may be associated with higher toxicity, a better strategy for treating high-risk patients would be to use a regimen other than R-CHOP. Although such a regimen has not yet been identified, some of the new drugs may prove efficacious in this setting and may thus be incorporated into new therapeutic regimens.

Because a large proportion of refractory patients have been shown to have DHL or DPL, targeting MYC or BCL2 might be a solution. Although there are very few studies conducted in DHL or DPL patients, some responses may be drawn from studies targeting the broader group of relapsed or refractory patients. The first-in-class BCL2 inhibitor, navitoclax, which is an inhibitor of BCL2, BCLx, and BCLw, was tested.21  However, the development of navitoclax was postponed because of associated severe thrombocytopenia. In contrast, venetoclax (ABT-199), another selective inhibitor of BCL2, was not associated with thrombocytopenia.22  Several studies have already demonstrated the clinical benefit of venetoclax in relapsing chronic lymphocytic leukemia patients, whereas studies in patients with DLBCL are still ongoing.23 

Several agents aimed at modulating MYC expression or activity are presently undergoing clinical development. Mainly negative results have been reported so far,24  but agents targeting epigenetic regions could be a good option for reducing MYC expression. BET bromodomain inhibitors mitigate the effect of MYC overexpression by preventing signal transduction.25  JQ1 inhibits the bromodomain BRD4, but the compound has been tested only in preclinical models so far.26  Other inhibitors are currently undergoing phase 1 evaluation in refractory lymphoma patients (GSK525762 [NCT01943851], CUDC-907 [NCT01742988], and CPI-0610 [NCT01949883]).

Other therapies targeting MYC-dependent cancer metabolism could be used in DHL and DPL. Agents targeting glucose metabolism, shown to be upregulated in cells overexpressing MYC, are being developed. An example of this is AZD3965, a specific inhibitor of the monocarboxylate transporter 1 (MCT1), which was shown in mice to lead to lactate accumulation and lower cellular pH, and it inhibits glycolysis and growth of lymphoma. AZD3965 is being tested in a phase 1 trial (NCT01791595) involving patients with DLBCL or other solid cancers.

Early relapses (in the year following treatment initiation) are associated with the same dismal outcome as refractoriness, and thus these patients should be treated by using the same strategy.15 

At present, no standard regimen has been defined for relapsing DLBCL patients.27  A good salvage regimen would be associated with high CR rates (above 60%), which would allow a transplant to have a higher success rate.28  To prolong PFS after salvage therapy, maintenance therapy (described below) should be considered. When using that strategy, ∼60% of late-relapse patients survive longer than 5 years.

Patients relapse because they develop drug resistance by means of different mechanisms, such as intrinsic genetic resistance associated with recurrent translocations and specific gene abnormalities, treatment-acquired resistance secondary to genetic and epigenetic instability, emergence of drug-resistant subclones, and tumor microenvironment-mediated drug resistance.29 

Patients who responded to R-CHOP without achieving CR because of persisting lymphoma cells as shown on biopsy (bone marrow or lymph nodes) or persisting positivity on PET scan at the end of treatment may respond to a different drug regimen. Patients with PR will likely progress and must be treated before the progression occurs. Typically, patients are given one of the standard salvage regimens (R-DHAP, R-ICE, or R-ESHAP) followed by autologous transplant, if possible.

When patients are not eligible for either intensified R-CHOP or autologous stem cell transplantation, there are no good salvage options for this very difficult situation. One solution consists of using a maintenance strategy after R-CHOP that is aimed to delay or eliminate relapse. When new regimens are defined for younger patients, they should also be tested for elderly patients.

In DLBCL patients, 6 drugs have been or are being tested in phase 3 trials for maintenance in CR or PR patients in an effort to prolong remission—rituximab, enzastaurin, lenalidomide, everolimus, radioimmunotherapy (90Y-ibritumomab tiuxetan or 131I-tositumomab), and anti-PD-1 antibodies. Enzastaurin and everolimus after R-CHOP failed to show any benefits.30,31  Rituximab has been investigated in 3 studies, 2 after autologous transplant and 1 as first-line treatment. The differences in PFS or OS were not significant, but there was a trend in favor of maintenance therapy.32 

90Y-ibritumomab tiuxetan has been used as consolidation alone after R-CHOP or in combination with carmustine, etoposide, cytarabine, and melphalan (Z-BEAM) before autologous transplant. One randomized study has been published that compares carmustine, etoposide, cytarabine, and melphalan (BEAM) and Z-BEAM and reports a possible benefit in favor of Z-BEAM.33  Another study using 131I-tositumomab-BEAM in comparison with rituximab-BEAM did not reveal any differences between the 2 arms.34  In a phase 2 study with 131I-tositumomab given as consolidation after R-CHOP, the CR rate and PFS were not better than with R-CHOP alone in this patient subset.35  In another phase 2 study with 90Y-ibritumomab tiuxetan consolidation after R-CHOP, a longer PFS was observed than is usually described (5-year PFS, 78%).36  In all of these studies, the sample size was small, and none of the studies reported results for especially aggressive lymphomas such as DHL.

Lenalidomide maintenance has been tested in a phase 2 study in relapsing patients with DLBCL who achieved either CR or PR. In that study, there was some conversion of PR to CR on PET scans, and PFS proved to be longer than expected (1-year PFS, 79%).37  A large randomized study (REMARC) compared lenalidomide with placebo in 650 elderly DLBCL patients in PR or CR. The final study will be presented at an American Society of Hematology Annual Meeting and Exposition, with the primary end point (increased median PFS) achieved in the arm treated with lenalidomide compared with placebo.

Immune checkpoint inhibitors have proved to be efficacious in solid tumors and relapsing Hodgkin lymphomas. These agents are currently being tested in relapsing DLBCLs and other lymphomas.38  If they appear to be efficacious in these settings, they should be tested as maintenance consolidation in high-risk patients or relapsing patients.

At present, we have a definition for refractory patients but not for relapsing patients. R-CHOP does not seem to be a good therapeutic regimen for either DHL or DPL, but we do not have a better solution at this time. Although new drugs that target MYC and BCL2 are eagerly awaited, it will probably take several months or years before a good regimen is identified. For relapsing patients, immunomodulatory agents that are currently being used to maintain CR are a strategy that may be applicable to both elderly and young patients.

Bertrand Coiffier, Hematology Department, Centre Hospitalier Lyon-Sud, 69310 Pierre-Bénite, France; e-mail: bertrand.coiffier@chu-lyon.fr.

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Competing Interests

Conflict-of-interest disclosure: B.C. is on the board of directors or an advisory committee for Celgene, Celltrion, MorphoSys, and Pfizer and has consulted for Gilead and Novartis. C.S. declares no competing financial interests.

Author notes

Off-label drug use: None disclosed.