Despite advancements in treatment strategies for mantle cell lymphoma, patients experience diminishing responses from sequential lines of therapy as their disease progresses, sharpening the focus on developing new agents and combinations.
Simon Rule, MD, PhD
Despite advancements in treatment strategies for mantle cell lymphoma (MCL), patients experience diminishing responses from sequential lines of therapy as their disease progresses, sharpening the focus on developing new agents and combinations.1
In the realm of targeted therapies, researchers are continuing to explore novel agents that inhibit activity of Bruton tyrosine kinase (BTK), BCL-2, and phosphoinositide 3-kinase (PI3K).2 Emerging therapies also include immunotherapeutic regimens using immune checkpoint inhibitors and T-cell— based adoptive immunotherapy.3
According to David Tucker, MD, and Simon Rule, MD, “In addition to improvements in immunochemotherapy, a succession of new molecular targets and corresponding drugs has revolutionized MCL therapy. The best way to sequence and combine these agents with existing regimens and how to overcome the problem of drug resistance represent new challenges in this rapidly developing field.”4
The potential synergy of these new agents with other treatment strategies, including immunotherapeutic and targeted approaches, is currently being investigated in various clinical trials, with the hope of identifying combinations that will lead to longer responses and improvements in duration of response (DOR) for patients with MCL.Ibrutinib (Imbruvica) is a potent orally bioavailable inhibitor of BTK that binds irreversibly to the cysteine residue (C481) at the phosphorylation site of BTK, leading to irreversible inactivation and disruption of the signaling pathway from the B-cell receptor (BCR) to the nucleus.4 The BCR signaling pathway plays a crucial role in cell division, differentiation, homing, and survival.5
In 2013, the FDA approved ibrutinib as monotherapy for patients with MCL who have received at least 1 prior therapy. The efficacy and safety of single-agent ibrutinib demonstrated in the relapsed or refractory (R/R) setting has led to considerable interest in sequencing and combination regimens with other agents.4
The combination of ibrutinib and rituximab (Rituxan) was evaluated in a phase II singlecenter open-label trial of 50 patients with R/R MCL.6 Preliminary trial results show this combination to be well tolerated and highly effective in patients with Ki-67 ˂50% who achieved an objective response rate (ORR) of 100% and a complete remission (CR) rate of 54%. However, response was substantially reduced in patients with Ki-67 ˃50% who had an ORR of 50% and a CR rate of 8%. Atrial fibrillation (AF) was noted in 6 patients (12%) and was the only grade 3 adverse event (AE) occurring in more than 10%. Two grade 4 AEs were also reported (1 each of diarrhea and neutropenia).
Previous studies have demonstrated that ibrutinib monotherapy and combination therapy with lenalidomide (Revlimid) plus rituximab have high activity in MCL.7,8 Based on these results, the combination of ibrutinib, lenalidomide, and rituximab was explored in the phase II open-label PHILEMON trial of patients with R/R MCL.9 A total of 50 patients were enrolled and received induction therapy with rituximab, ibrutinib, and lenalidomide for up to 12 cycles. Patients who had a CR, partial response (PR), or stable disease entered a maintenance phase, with treatment consisting of ibrutinib and rituximab only. After a median follow-up of 17.8 months, the ORR was 76% and the CR rate was 56%. The most common grade ≥3 AEs included neutropenia (38%), infection (22%), and cutaneous toxicity (14%).
Palbociclib (Ibrance) is an oral, specific CDK4/6 inhibitor that has demonstrated cytotoxicity against the mutated BTKC481S protein.10 Prolonged early G1 cell-cycle arrest induced by palbociclib can overcome ibrutinib resistance in primary human samples and MCL cell lines with wild-type BTK.11 Adding palbociclib to ibrutinib could help deepen the response seen with ibrutinib through dual CDK 4/6 and BTK inhibition in MCL.
Martin and colleagues12 conducted a phase I dose-escalation study to evaluate the safety and preliminary activity of palbociclib plus ibrutinib in patients with previously treated MCL. Phase I data suggest that this is an active combination in patients with MCL. Twelve of 18 patients (67%) responded to treatment and 8 (44%) achieved CR. After a median follow-up of 14 months, the rate of progression-free survival (PFS) at 1 year was 61%; only 1 patient had disease progression. Grade 3 cutaneous toxicity was observed at the highest dosage (ibrutinib 560 mg/palbociclib 125 mg); otherwise, grade 1/2 myelosuppression was the most common AE.
Ibrutinib and the BCL-2 inhibitor venetoclax (Venclexta) have demonstrated synergy in cell lines and primary cells, and study findings have indicated the potential for combining these agents in the treatment of MCL.13,14 The phase II open-label AIM study15 evaluated ibrutinib plus venetoclax in patients with R/R MCL. At 16 weeks, the ORR was 71% and the CR rate was 63%. After a median follow-up of 8.3 months, the PFS rate was 74% and the overall survival (OS) rate was 81%. The most common AEs were fatigue (71%), diarrhea (67%), nausea (50%), upper respiratory tract infection (38%), gastroesophageal reflux (33%), neutropenia (33%), cough (25%), and bruising (21%).Acalabrutinib (Calquence) is an oral second-generation BTK inhibitor that binds covalently to C481 and has improved selectivity compared with ibrutinib.4 In October 2017, the FDA approved acalabrutinib for treating adult patients with MCL who have received at least 1 prior therapy. Due to potential bystander effects on targets other than BTK, ibrutinib is associated with several AEs, including bleeding, rash, and AF.1 The more selective targeting of acalabrutinib has been suggested to confer an improved safety profile over ibrutinib.4
The phase III ACE-LY-309 study16 of acalabrutinib in combination with rituximab versus ibrutinib versus acalabrutinib for the treatment of R/R MCL was halted prior to enrollment. The ongoing phase Ib ACE-LY-016 trial17 is investigating the combination of acalabrutinib plus bendamustine (Treanda) and rituximab in patients with treatment-naïve and R/R MCL. The primary outcome measure is safety as determined by the number of participants with treatment-emergent AEs.Ongoing studies are exploring anti-CD19 chimeric antigen receptor (CAR) T-cell therapy in patients with chemorefractory MCL.18 CAR T-cell therapy involves the modification of T cells via lentiviral transduction to express specific CARs; in B-cell lymphomas, CD19 is a common target for T cells.3 A phase I/II study is currently underway to investigate the safety and efficacy of anti-CD19 CAR T-cell therapy in older patients with R/R MCL.19 The phase II ZUMA-2 study20 is evaluating axicabtagene ciloleucel (KTE-C19; Yescarta) in patients with ibrutinib-refractory MCL (FIGURE). The estimated study completion date is July 2018.
According to Raphael Steiner, MD, and colleagues, “In order for CAR T-cell therapies to be more widely adopted in chemorefractory relapsed or refractory MCL, they will have to demonstrate an ability to safely induce responses in patients who would not be eligible for allogeneic stem cell transplant. The toxicities associated with CAR T cells at present may limit applicability to patients [with MCL] who are commonly older and have comorbid conditions.”1Antibodies targeting PD-1 have been investigated in lymphoid malignancies with varying levels of activity and a favorable toxicity profile.21 The first checkpoint inhibitor approved for lymphomas was nivolumab (Opdivo), a PD-1 inhibitor, which was approved in May 2016 for patients with R/R Hodgkin lymphoma. Currently, data on response to immune checkpoint inhibition and combinations with checkpoint blockade in MCL are limited. However, an ongoing phase I/Ib trial is investigating the safety and maximum-tolerated dose (MTD) of the PD-1 inhibitor pembrolizumab (Keytruda) combined with ibrutinib in patients with non-Hodgkin lymphoma (NHL), including those with MCL.22Venetoclax is an oral small-molecule BCL-2 inhibitor that has been appoved for chronic lymphocytic leukemia and is being investigated for the treatment of NHL. BCL-2 is an antiapoptotic factor involved in the regulation of cyclin D1; targeting BCL-2 may also induce apoptosis.2
A phase I study investigated the safety, pharmacokinetics, and efficacy of venetoclax in patients with NHL.23 A total of 106 patients with R/R NHL, including 26 with diagnosed MCL, were enrolled in the study, which consisted of a dose-escalation stage and a safety expansion stage. Preliminary results show impressive single-agent activity in R/R MCL, with negligible toxicity, apart from risk of tumor lysis syndrome (TLS). An ORR of 75% (21/28) was observed among the patients with a diagnosis of MCL. The median DOR was 5.3 months (range, 0.2-46.0 months) for the total study population but was not reported specifically for patients with MCL. The most common any-grade AEs were nausea (48%), diarrhea (45%), and fatigue (42%). The most common grade ≥3 AEs were anemia (15%), neutropenia (11%), and thrombocytopenia (9%). Laboratory TLS was reported in 3 patients, with no cases of clinical TLS observed.
In addition to the ibrutinib/venetoclax combination, the combination of venetoclax with bendamustine, rituximab, and ibrutinib is being explored in an ongoing phase I trial of patients with R/R MCL.24 The primary outcome measures are MTD and safety.Idelalisib (Zydelig) is an oral selective inhibitor of the PI3Kδ isoform. PI3Kδ plays a pivotal role in the BCR signaling pathway and is hyperactivated in B-cell malignancies, including MCL.4
Combination regimens are being explored with idelalisib in early-phase studies, as well. The A051201 study25,26 investigated lenalidomide with or without idelalisib in patients with R/R MCL. A051201, which included a phase I dose-escalation study followed by a phase II study, was originally designed to capitalize on the clinical synergy of lenalidomide and rituximab observed in previous trials by adding idelalisib. Due to excessive toxicity, the trial was amended to remove the rituximab treatment arm. The study was closed in May 2017.
An ongoing phase Ib open-label study is examining the safety and efficacy of the BCL-2 inhibitor S55746 in combination with idelalisib in patients with R/R follicular lymphoma and those with MCL. This dose-escalation and dose-expansion study is the first to study a clinical combination of S55746 with another targeted agent.27Maintenance treatment with rituximab following autologous stem cell transplantation (ASCT) has been shown to prolong eventfree survival (EFS), PFS, and OS in patients with MCL who are ˃66 years. In the phase III LyMa trial,28 299 patients with MCL received 4 courses of R-DHAP (rituximab, dexamethasone, cytarabine, cisplatin) followed by R-BEAM (rituximab, carmustine, etoposide, cytarabine, melphalan)/ASCT; patients who did not achieve at least a PR after R-DHAP could receive 4 additional courses of R-CHOP (rituximab, cyclophosphamide, hydroxydaunomycin [doxorubicin], vincristine, and prednisone) to facilitate ASCT. The intent-totreat population consisted of 240 responders who were randomly assigned to receive 3 years of rituximab maintenance or observation. After a median follow-up of 50.2 months, the rate of EFS at 4 years was 79% in the rituximab group versus 61% in the observation group (P =.001). The rate of PFS at 4 years was 83% in the rituximab group versus 64% in the observation group (P <.001), and OS was 89% versus 80%, respectively (P =.04).The use of ASCT consolidation in conjunction with maintenance rituximab is also being evaluated by the ECOG-ACRIN Cancer Research Group in an phase III openlabel trial of patients with MCL experiencing their first CR.29 The study will compare OS in patients with MCL who are minimal residual disease—negative following induction chemotherapy (investigator’s choice) to either ASCT followed by maintenance rituximab or to maintenance rituximab alone. The findings of the study will help to elucidate the relative value of each component of this treatment paradigm.30
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