Immunomodulatory Therapy for Myelodysplastic Syndromes

Thalidomide and lenalidomide belong to the proprietary group of immunomodulatory drugs (IMiDs) that display broad biologic and pharmacologic properties. Encouraging results of clinical studies that evaluated the efficacy of thalidomide in patients with myelodysplastic syndromes (MDSs) led to the investigation of its structural analogue, lenalidomide, in patients with lower-risk MDS. The cumulative results of studies that tested lenalidomide in patients with interstitial deletion of chromosome 5q, ie, del(5q), showed a high frequency of both erythroid and cytogenetic responses (approximately 75% of patients), which led to US Food and Drug Administration approval of this agent for this cytogenetically defined MDS subset. A multicenter phase III study (MDS-002) that investigated the frequency of transfusion response in lower-risk non-del(5q) MDS patients showed that lenalidomide had significant erythropoietic activity, albeit less robust in lower-risk MDS without del(5q). These studies established lenalidomide as an active erythropoietic-remitting agent with novel cytogenetic-remitting activity in lower-risk MDS patients who would not otherwise benefit from therapy with erythropoietic growth factors. The National Comprehensive Cancer Network Clinical Practice Guidelines recently added lenalidomide to the therapeutic algorithm for MDS as front-line therapy for lower-risk MDS patients with del(5q) and transfusion-dependent anemia.     

Efficacy and safety of lenalidomide in intermediate-2 or high-risk myelodysplastic syndromes with 5q deletion: results of a phase 2 study

Higher-risk MDS with del5q carry a poor prognosis. In this phase 2 trial, 47 patients with higher-risk MDS received lenalidomide 10 mg/day. International Prognostic Scoring System was high in 60%, intermediate-2 risk in 40%. del 5q was isolated, with one additional and more than one additional abnormality in 19%, 23%, and 58% patients, respectively. Thirteen (27%) patients achieved hematologic response, including 7 hematologic complete remission (CR) (with complete [4] or partial [3] cytogenetic response), 2 marrow CR and 4 hematologic improvement erythroid, and 12 became red blood cell (RBC) transfusion independent, for a median duration of 6.5 months. Median CR duration was 11.5 months. Six of 9 (67%) patients with isolated del 5q achieved CR, versus 1 of 11 and none of 27 patients with one or more than one additional abnormality, respectively (P < .001). Seven of 20 (35%) with initial platelets more than 100,000/mm(3) obtained CR, compared with none of the 27 with lower platelet counts less than 100,000/mm(3) (P = .001). Our data support a potential role of lenalidomide in higher-risk MDS with isolated del 5q.     

Prognosis of patients with del(5q) MDS and complex karyotype and the possible role of lenalidomide in this patient subgroup

The survival of patients with myelodysplastic syndromes is strongly affected by chromosomal abnormalities. Patients with an isolated del(5q31) have a favourable prognosis that worsens with the addition of another chromosomal abnormality. It has been reported that both patients with isolated del(5q31) and those with one single additional chromosomal abnormality achieve hematological and cytogenetic remissions with lenalidomide therapy. Whether this translates into improved overall survival of the patient population is unclear. We analysed data of 25 patients with myelodysplastic syndrome and complex chromosomal abnormalities including del(5q31) and show that their median survival is between 7 and 8 months, irrespective of the medullary blast count. Furthermore, we present data of a patient with complex karyotypic anomalies inclusive of del(5q31) treated with lenalidomide who achieved complete cytogenetic remission. This cytogenetic remission was diagnosed after 6 months, and the hematological response is ongoing at 9 months of therapy at a dose of 5 mg p.o. daily. We conclude that lenalidomide has the potential to induce sustained hematological and cytogenetic remissions in the poor prognosis MDS subgroup of del(5q31) patients with complex chromosomal anomalies and that this is likely to improve overall survival.     

Practical recommendations on the use of lenalidomide in the management of myelodysplastic syndromes

Lenalidomide, an oral immunomodulatory agent, has received approval in the USA from the Food and Drug Administration (FDA) for the management of myelodysplastic syndromes (MDS) classified by the International Prognostic Scoring System (IPSS) as low risk or intermediate-1 risk and with a deletion 5q (del(5q)) cytogenetic abnormality. Although some patients with del(5q) have a relatively good prognosis, all del(5q) patients will become transfusion-dependent at some point during the course of their disease. The results of two clinical trials in more than 160 patients with MDS have demonstrated clear therapeutic benefits of lenalidomide, with >60% of patients achieving independence from transfusion during therapy, irrespective of age, prior therapy, sex, or disease-risk assessment. The recommendations presented in this review will aid the safe administration of lenalidomide for the treatment of patients with low-risk or intermediate-1-risk MDS and a del(5q) cytogenetic abnormality, and they will help physicians avoid unnecessary dose reduction or interruption, thus assuring the best efficacy for patients.     

Lenalidomide is active in Japanese patients with symptomatic anemia in low- or intermediate-1 risk myelodysplastic syndromes with a deletion 5q abnormality

Lenalidomide is an immunomodulatory agent recently reported to be effective in the treatment of transfusion-dependent anemia due to low- or intermediate-1 risk myelodysplastic syndromes (MDS) associated with a deletion 5q (del 5q) cytogenetic abnormality. We conducted a multicenter, single-arm clinical trial to evaluate the safety and efficacy of lenalidomide in Japanese patients with anemia in low- or intermediate-1 risk MDS associated with the del 5q cytogenetic abnormality. Eleven patients (5 with transfusion-dependent anemia; 6 with transfusion-independent symptomatic anemia) received once daily oral administrations of 10 mg of lenalidomide for 21 consecutive days in a 28-day treatment cycle. The efficacy was assessed by the IWG criteria. At an interim analysis after ≥24 weeks of therapy, hemoglobin increase was noted in all 11 patients, with a median increase of 6.0 g/dL (range, 0.9–10.9) from the baseline. All transfusion-dependent patients achieved transfusion independence. Histopathologic and cytogenetic improvement was also noted. Neutropenia and thrombocytopenia were the most common adverse events related to lenalidomide. The adverse events were manageable, and no patients experienced serious adverse events or adverse events requiring treatment discontinuation. The results indicate that lenalidomide can be a useful agent for treating Japanese patients with anemia associated with low- or intermediate-1 risk MDS with the del 5q cytogenetic abnormality.     

Impact of lenalidomide use among non‐transfusion dependent patients with myelodysplastic syndromes

Chemotherapies approved for defined subgroups promise personalized oncologic care, but their off‐label impact is unclear. Lenalidomide is approved for lower‐risk, transfusion‐dependent (TD) myelodysplastic syndromes (MDS) with del(5q), but frequently used in MDS outside this indication. We characterized lenalidomide use and outcomes among non‐TD patients with MDS. Patients 65 or older diagnosed with MDS between 2007 and 2013 were identified using SEER; linked Medicare claims were evaluated for transfusions, lenalidomide use, and incident toxicities. TD was ≥2 transfusion episodes within an 8‐week period; responses were transfusion independence (TI) and ≥50% transfusion reduction (minor response). We compared overall survival for non‐TD patients receiving lenalidomide versus those not receiving lenalidomide, matched on disease and patient characteristics. We identified 676 patients who had received lenalidomide, including 275 (40.7%) TD and 401 (59.3%) non‐TD; 18.5% (125/676) had zero claims for RBC transfusion prior to receiving lenalidomide. Incident toxicities among patients prescribed lenalidomide were similar in TD and non‐TD groups, except incident thromboembolic events were higher among non‐TD patients (10.8% vs. 6.0%, P = .04). Comparing 191 non‐TD patients receiving lenalidomide within 6 months of MDS diagnosis to risk‐matched MDS controls, lenalidomide was not associated with improved OS (P = .78). Among TD patients (n = 275), 31% achieved TI, and 30% achieved minor hematologic response, with a median time to TI of 4.1 weeks. In conclusion, we confirmed the benefit of lenalidomide among TD patients with MDS; however, many non‐TD patients also received lenalidomide. These patients experienced accompanying toxicity without evidence of benefit in terms of transfusion needs or overall survival.     

Lenalidomide inhibits the malignant clone and up-regulates the SPARC gene mapping to the commonly deleted region in 5q- syndrome patients

Myelodysplastic syndromes (MDSs) are a group of hematopoietic stem cell disorders characterized by ineffective hematopoiesis and peripheral blood cytopenias. Lenalidomide has dramatic therapeutic effects in patients with low-risk MDS and a chromosome 5q31 deletion, resulting in complete cytogenetic remission in >60% of patients. The molecular basis of this remarkable drug response is unknown. To gain insight into the molecular targets of lenalidomide we investigated its in vitro effects on growth, maturation, and global gene expression in isolated erythroblast cultures from MDS patients with del(5)(q31). Lenalidomide inhibited growth of differentiating del(5q) erythroblasts but did not affect cytogenetically normal cells. Moreover, lenalidomide significantly influenced the pattern of gene expression in del(5q) intermediate erythroblasts, with the VSIG4, PPIC, TPBG, activin A, and SPARC genes up-regulated by >2-fold in all samples and many genes involved in erythropoiesis, including HBA2, GYPA, and KLF1, down-regulated in most samples. Activin A, one of the most significant differentially expressed genes between lenalidomide-treated cells from MDS patients and healthy controls, has pleiotropic functions, including apoptosis of hematopoietic cells. Up-regulation and increased protein expression of the tumor suppressor gene SPARC is of particular interest because it is antiproliferative, antiadhesive, and antiangiogenic and is located at 5q31-q32, within the commonly deleted region in MDS 5q- syndrome. We conclude that lenalidomide inhibits growth of del(5q) erythroid progenitors and that the up-regulation of SPARC and activin A may underlie the potent effects of lenalidomide in MDS with del(5)(q31). SPARC may play a role in the pathogenesis of the 5q- syndrome.     

The role of lenalidomide in the management of myelodysplasia with del 5q

Defined by isolated del 5q and no excess of marrow blasts, the '5q- syndrome' is a specific type of myelodysplastic syndrome (MDS) with particular characteristics, including severe anaemia, frequent thrombocytosis, typical dysmegakaryopoiesis and favourable outcome. Its pathogenesis remains uncertain, particularly regarding the role of the inactivation of gene(s) situated in 5q. Until the advent of lenalidomide, repeated red blood cell (RBC) transfusions were generally the only treatment for 5q- syndrome, which was resistant to other therapeutic approaches. Lenalidomide can lead to RBC transfusion independence in at least two-thirds of cases of 5q- syndrome, and about one half of those responses are maintained after 2 years of treatment. Importantly, frequent complete pathological and cytogenetic responses are also obtained. Grade 3 or 4 neutropenia and thrombocytopenia, especially during the first 6-8 weeks of treatment, are the major side effects of lenalidomide, justifying close clinical and blood counts monitoring. Preliminary results suggest that lenalidomide is also active in MDS with del 5q other than the 5q- syndrome. The mechanisms of action of lenalidomide, although uncertain, appear to include targeting of the del 5q clone. Therefore, lenalidomide may have an effect on disease course and survival, which is currently being assessed in clinical trials.     

Lenalidomide as a disease-modifying agent in patients with del(5q) myelodysplastic syndromes: linking mechanism of action to clinical outcomes

Deletion of the long arm of chromosome 5, del(5q), is the most prevalent cytogenetic abnormality in patients with myelodysplastic syndromes (MDS). In isolation, it is traditionally associated with favorable prognosis compared with other subtypes of MDS. However, owing to the inherent heterogeneity of the disease, prognosis for patients with del(5q) MDS is highly variable depending on the presence of factors such as additional chromosomal abnormalities, >5 % blasts in the bone marrow (BM), or transfusion dependence. Over recent years, the immunomodulatory drug lenalidomide has demonstrated remarkable efficacy in patients with del(5q) MDS. Advances in the understanding of the pathogenesis of the disease have suggested that lenalidomide targets aberrant signaling pathways caused by haplosufficiency of specific genes in a commonly deleted region on chromosome 5 (e.g., SPARC, RPS14, Cdc25C, and PP2A). As a result, the agent specifically targets del(5q) clones while also promoting erythropoiesis and repopulation of the bone marrow in normal cells. This review discusses recent developments in the understanding of the mechanism of action of lenalidomide, and how this underlies favorable outcomes in patients with del(5q) MDS. In addition, we discuss how improved understanding of the mechanism of disease will facilitate clinicians’ ability to predict/monitor response and identify patients at risk of relapse.     

Patients with del(5q) MDS who fail to achieve sustained erythroid or cytogenetic remission after treatment with lenalidomide have an increased risk for clonal evolution and AML progression

Lenalidomide consistently induces transfusion independence and complete cytogenetic response in patients with myelodysplastic syndromes with 5q deletion. Only limited information on long-term outcome is currently available. We performed a long-term follow-up analysis of 42 patients with low or intermediate risk myelodysplastic syndromes and 5q deletion treated with lenalidomide. At a median follow-up of 40 months, 58% of the patients achieved an erythroid response and 48% a cytogenetic response. Thirty-six percent of patients progressed into acute myeloid leukaemia. Most of them (87%) acquired chromosome aberrations in addition to the 5q deletion, i.e. underwent clonal evolution during leukaemogenesis. There were no clinical, cytological or cytogenetic markers at study entry that allowed prediction of increased risk of leukaemic transformation. However, erythroid and cytogenetic responders had a significantly decreased risk of progression to acute myeloid leukaemia (p = 0.001 and p = 0.009, respectively) compared to non-responders. Three and 5 years after study entry, the cumulative incidence of acute myeloid leukaemia for patients with a cytogenetic response was 10% and 21%, respectively, and for patients without cytogenetic response, it was 46% and 60%. Patients with del(5q) myelodysplastic syndromes without erythroid or cytogenetic remission after treatment with lenalidomide have a high risk for clonal evolution and acute myeloid leukaemia progression. In refractory, or relapsing, patients, genetic instability and clonal evolution seem to be the driving forces of leukaemic transformation. Regular follow-up investigations of del(5q) myelodysplastic syndrome patients treated with lenalidomide may help to identify patients requiring alternative treatment strategies.     

Cytogenetic follow-up by karyotyping and fluorescence in situ hybridization: implications for monitoring patients with myelodysplastic syndrome and deletion 5q treated with lenalidomide

In patients with low and intermediate risk myelodysplastic syndrome and deletion 5q (del(5q)) treated with lenalidomide, monitoring of cytogenetic response is mandatory, since patients without cytogenetic response have a significantly increased risk of progression. Therefore, we have reviewed cytogenetic data of 302 patients. Patients were analyzed by karyotyping and fluorescence in situ hybridization. In 85 patients, del(5q) was only detected by karyotyping. In 8 patients undergoing karyotypic evolution, the del(5q) and additional chromosomal aberrations were only detected by karyotyping. In 3 patients, del(5q) was only detected by fluorescence in situ hybridization, but not by karyotyping due to a low number of metaphases. Karyotyping was significantly more sensitive than fluorescence in situ hybridization in detecting the del(5q) clone. In conclusion, to optimize therapy control of myelodysplastic syndrome patients with del(5q) treated with lenalidomide and to identify cytogenetic non-response or progression as early as possible, fluorescence in situ hybridization alone is inadequate for evaluation. Karyotyping must be performed to optimally evaluate response.     

Demonstration of additional benefit in adding lenalidomide to azacitidine in patients with higher-risk myelodysplastic syndromes

Lenalidomide and azacitidine are active in MDS patients, and may complement each other by targeting the bone marrow microenvironment and the malignant clone. A recent Phase I trial testing the lenalidomide and azacitidine combination yielded encouraging results; however, lenalidomide’s contribution was unclear. In this study, 18 higher-risk MDS patients were treated with the combination for seven cycles, after which lenalidomide was discontinued in eight patients who achieved a complete response, with azacitidine monotherapy continuing until disease progression. We report on three patients who relapsed on monotherapy with excess blasts at 12, 19, and 24 months, in whom lenalidomide was then resumed in combination with azacitidine. Each patient, one with normal cytogenetics at relapse; one with a 18 abnormality; and one with del(4q25), recaptured a complete response that was sustained for 5, 7, and 7+ months. We conclude that the addition of lenalidomide to azacitidine provides additional clinical benefit over azacitidine monotherapy.     

A critical role for phosphatase haplodeficiency in the selective suppression of deletion 5q MDS by lenalidomide

Lenalidomide is the first karyotype-selective therapeutic approved for the treatment of myelodysplastic syndromes (MDS) owing to high rates of erythroid and cytogenetic response in patients with chromosome 5q deletion [del(5q)]. Although haploinsufficiency for the RPS14 gene and others encoded within the common deleted region (CDR) have been implicated in the pathogenesis of the del(5q) phenotype, the molecular basis of the karyotype specificity of lenalidomide remains unexplained. We focused our analysis on possible haplodeficient enzymatic targets encoded within the CDR that play key roles in cell-cycle regulation. We show that the dual specificity phosphatases, Cdc25C and PP2Acα, which are coregulators of the G₂-M checkpoint, are inhibited by lenalidomide. Gene expression was lower in MDS and acute myeloid leukemia (AML) specimens with del(5q) compared with those with alternate karyotypes. Lenalidomide inhibited phosphatase activity either directly (Cdc25C) or indirectly (PP2A) with corresponding retention of inhibitory phospho-tyrosine residues. Treatment of del(5q) AML cells with lenalidomide induced G₂ arrest and apoptosis, whereas there was no effect in nondel(5q) AML cells. Small interfering RNA (shRNA) suppression of Cdc25C and PP2Acα gene expression recapitulated del(5q) susceptibility to lenalidomide with induction of G₂ arrest and apoptosis in both U937 and primary nondel(5q) MDS cells. These data establish a role for allelic haplodeficiency of the lenalidomide inhibitable Cdc25C and PP2Acα phosphatases in the selective drug sensitivity of del(5q) MDS.     

Lenalidomide in lower-risk myelodysplastic syndromes with karyotypes other than deletion 5q and refractory to erythropoiesis-stimulating agents

Lenalidomide (LEN) has been shown to yield red blood cell (RBC) transfusion independence in about 25% of lower risk myelodysplastic syndromes (MDS) without del(5q), but its efficacy in patients clearly refractory to erythropoiesis-stimulating agents (ESA) is not known. We report on 31 consecutive lower-risk non-del(5q) MDS patients with anaemia refractory to ESA and treated with LEN in a compassionate programme, 20 of whom also received an ESA. An erythroid response was obtained in 15 patients (48%), including 10 of the 27 (37%) previously transfusion-dependent (RBC-TD) patients, who became transfusion-independent (RBC-TI). Nine of the responders relapsed, whereas 6 (40%) were still responding and transfusion-free after 11(+)-31(+) months. Median response duration was 24 months. The erythroid response rate was lower in refractory cytopenia with multilineage dysplasia (27% vs. 60%) and tended to be higher in patients treated with LEN + ESA (55% vs. 36%). Response duration was significantly longer in responders who obtained RBC-TI and in patients treated with LEN after primary resistance to ESA. The main toxicity of LEN was cytopenias. We confirm that, in a patient population of lower risk MDS without del 5q clearly resistant to ESA, LEN is an interesting second line therapeutic option. Its combination with ESAs in this context warrants prospective studies.     

Biological activity of lenalidomide in myelodysplastic syndromes with del5q: results of gene expression profiling from a multicenter phase II study

In vitro studies suggest that haploinsufficiency is involved in the pathogenesis of myelodysplastic syndromes (MDS). In patients with del5q cytogenetic abnormality, RPS-14 and microRNAs (miRNAs) play a major role. In a multicenter phase II single-arm trial with lenalidomide in anemic primary del5q MDS patients with low- or int-1 risk IPSS, biological changes from baseline were investigated. Gene expression profiling of selected genes was performed (TaqMan® Low Density Array Fluidic card, Applied Biosystems PRISM® 7900HT) and normalized against the expression of the 18S housekeeping gene from a pool of healthy subjects. Thirty-two patients were evaluated at baseline and after 3 and 6 months of treatment. RPS-14, miR-145, and miR-146 were downregulated at baseline and significantly increased during treatment. Nuclear factor kappa B, IL-6, interferon regulatory factor-1, IFNγ-R2, IL-2, and many genes in the apoptotic pathways (TNF, IL-1B, and IL-10) were upregulated at baseline and significantly downregulated during lenalidomide treatment, while forkhead box P3, FAS, IFNγ, IL-12A, and IL-12B were downregulated at baseline and progressively upregulated during treatment. The crucial role of aberrant immunological pathways and haploinsufficiency in the pathogenesis of del5q MDS is confirmed in the present patient setting. Our results indicate that lenalidomide may act through defined immunological pathways in this condition.     

Megakaryocytes harbour the del(5q) abnormality despite complete clinical and cytogenetic remission induced by lenalidomide treatment

The mechanisms underlying lenalidomide‐resistance of del(5q) MDS stem cells remain to be elucidated and may include cell‐intrinsic as well as microenvironmental causes. Abnormal hypolobated megakaryocytes constitute one of the hallmarks of del(5q) MDS. We hypothesized that these cells have potential implications for the regulation of haematopoietic stem cells (HSC) similarly to what has recently been described for megakaryocytes in the murine system. Therefore, we conducted a study to determine the response of abnormal hypolobated megakaryocytes to lenalidomide therapy. We studied lenalidomide‐treated patients in the MDS‐004 trial as well as a cohort seen at our institution. Morphological evaluation at time of complete cytogenetic remission (CCyR) demonstrated the persistence of hypolobated megakaryocytes in all evaluable patients (n = 9). Furthermore, we provide evidence that the abnormal hypolobated morphology is restricted to del(5q) megakaryocytes, both at diagnosis and during CCyR. Using fluorescence in situ hybridisation analysis on flow‐sorted stem‐ and progenitor populations, we observed a similar degree of clonal involvement in megakaryocyte‐erythroid‐progenitors as in HSC. Taken together, our findings suggest that megakaryocyte morphology might aid in the evaluation of patients where discontinuation of lenalidomide is considered and offers interesting hypotheses for further investigation of lenalidomide resistance.     

Clonal heterogeneity in the 5q- syndrome: p53 expressing progenitors prevail during lenalidomide treatment and expand at disease progression

Clonal heterogeneity has not been described in patients with myelodysplastic syndrome with isolated del(5q), for which lenalidomide has emerged as a highly potent treatment. However, transformation to acute myeloid leukemia is occasionally observed, particularly in patients without a cytogenetic response to lenalidomide. We performed molecular studies in a patient with classical 5q- syndrome with complete erythroid and partial cytogenetic response to lenalidomide, who evolved to high-risk myelodysplastic syndrome with complex karyotype. Immunohistochemistry of pre-treatment marrow biopsies revealed a small fraction of progenitors with overexpression of p53 and sequencing confirmed a TP53 mutation. TP53 mutated subclones have not previously been described in myelodysplastic syndrome with isolated del(5q) and indicates a previously unknown heterogeneity of this disease. The aberrant subclone remained stable during the treatment with lenalidomide and expanded at transformation, suggesting that this pre-existing cell population had molecular features which made it insensitive to lenalidomide and prone to disease progression.     

Correlation of clinical response and response duration with miR-145 induction by lenalidomide in CD34+ cells from patients with del(5q) myelodysplastic syndrome

We examined whether lenalidomide exposure up-regulates miRNAs and mRNAs, previously shown to play a role in the disease phenotype of del(5q) myelodysplastic syndrome, in pre-treatment CD34⁺ marrow cells. We hypothesized that increased expression would predict for clinical response. Changes in miR-143, miR-145, miR-146a, miR-146b, miR-378, miR-584, SPARC and RPS14 were examined in del(5q) (n=10) and non-del(5q) (n=18) myelodysplastic syndrome patient samples. Significantly increased expression of miR-143 (1.8-fold and 1.5-fold in del(5q) and non-del(5q), respectively), and miR-145 (1.9-fold and 1.6-fold in del(5q) and non-del(5q), respectively) was observed. In the del(5q) myelodysplastic syndrome cohort, transfusion independence correlated with a 1.3-fold or more increase in miR-145 expression and response over 12 months correlated with a 1.5-fold or more increase. Knockdown of miR-143 and miR-145 in cord blood CD34⁺ cells resulted in increased erythroid progenitor activity. Lenalidomide selectively abrogated progenitor activity in cells depleted of miR-143 and miR-145 supporting a key role for miR-143/145 in the sensitivity to lenalidomide of del(5q) myelodysplastic syndrome patients.