The clonal composition of human CD4+CD25+Foxp3+ cells determined by a comprehensive DNA-based multiplex PCR for TCRB gene rearrangements

The characterization of the T-cell receptor (TCR) repertoire of CD4+ regulatory T cells (TR) have been limited due to the RNA degradation that results following permeabilization and fixation as routinely used for intracellular staining of Foxp3. In the present study the clonal composition of human umbilical cord blood (UCB) and adult peripheral blood mononuclear cells (PBMC) CD4+ TR and non-TR was characterized by a DNA-based multiplex PCR which allowed for the consistent clonotypic characterization of cells that have undergone fixation and permeabilization. To validate this method, CD8+ T cells from two HLA A*0201 individuals were sorted and compared clonotypically based upon their ability either to secrete interferon-γ in response to a CMV pp65 epitope or to bind to the corresponding pMHC I tetramer. In the UCB and PBMCs clonotypes shared between the CD4+CD25+Foxp3+ and CD4+CD25+Foxp3− was observed in all 3 UCB and in one adult PBMCs, suggesting that naïve and memory CD4+ TR can share the same clonotypes as CD4+ non-TR in humans

In vivo effects of horse and rabbit antithymocyte globulin in patients with severe aplastic anemia

We recently reported that rabbit antithymocyte globulin was markedly inferior to horse antithymocyte globulin as a primary treatment for severe aplastic anemia. Here we expand on our findings in this unique cohort of patients. Rabbit antithymocyte globulin was detectable in plasma for longer periods than horse antithymocyte globulin; rabbit antithymocyte globulin in plasma retained functional capacity to bind to lymphocytes for up to 1 month, horse antithymocyte globulin for only about 2 weeks. In the first week after treatment there were much lower numbers of neutrophils in patients treated with rabbit antithymocyte globulin than in patients receiving horse antithymocyte globulin. Both antithymocyte globulins induced a “cytokine storm” in the first 2 days after administration. Compared with horse antithymocyte globulin, rabbit antithymocyte globulin was associated with higher levels of chemokine (C-C motif) ligand 4 during the first 3 weeks. Besides a much lower absolute number and a lower relative frequency of CD4(+) T cells, rabbit antithymocyte globulin induced higher frequencies of CD4(+)CD38(+), CD3(+)CD4(−)CD8(−) T cells, and B cells than did horse antithymocyte globulin. Serum sickness occurred around 2 weeks after infusion of both types of antithymocyte globulin. Human anti-antithymocyte globulin antibodies, especially of the IgM subtype, correlated with serum sickness, which appeared concurrently with clearance of antithymocyte globulin in blood and with the production of cytokines. In conclusion, rabbit and horse antithymocyte globulins have very different pharmacokinetics and effects on neutrophils, lymphocyte subsets, and cytokine release. These differences may be related to their efficacy in suppressing the immune system and restoring hematopoiesis in bone marrow failure. Clinicaltrials.gov identifier: NCT00260689

AUGMENT : a phase III study of lenalidomide plus rituximab versus placebo plus rituximab in relapsed or refractory indolent lymphoma

PURPOSE Patients with indolent non-Hodgkin lymphoma typically respond well to first-line immunochemotherapy. At relapse, single-agent rituximab is commonly administered. Data suggest the immunomodulatory agent lenalidomide could increase the activity of rituximab. METHODS A phase III, multicenter, randomized trial of lenalidomide plus rituximab versus placebo plus rituximab was conducted in patients with relapsed and/or refractory follicular or marginal zone lymphoma. Patients received lenalidomide or placebo for 12 cycles plus rituximab once per week for 4 weeks in cycle 1 and day 1 of cycles 2 through 5. The primary end point was progression-free survival per independent radiology review. RESULTS A total of 358 patients were randomly assigned to lenalidomide plus rituximab (n = 178) or placebo plus rituximab (n = 180). Infections (63% v 49%), neutropenia (58% v 23%), and cutaneous reactions (32% v 12%) were more common with lenalidomide plus rituximab. Grade 3 or 4 neutropenia (50% v 13%) and leukopenia (7% v 2%) were higher with lenalidomide plus rituximab; no other grade 3 or 4 adverse event differed by 5% or more between groups. Progression-free survival was significantly improved for lenalidomide plus rituximab versus placebo plus rituximab, with a hazard ratio of 0.46 (95% CI, 0.34 to 0.62; P < .001) and median duration of 39.4 months (95% CI, 22.9 months to not reached) versus 14.1 months (95% CI, 11.4 to 16.7 months), respectively. CONCLUSION Lenalidomide improved efficacy of rituximab in patients with recurrent indolent lymphoma, with an acceptable safety profile

Targeted Therapy with Nanatinostat and Valganciclovir in Recurrent EBV-Positive Lymphoid Malignancies: A Phase 1b/2 Study

Lymphomas are not infrequently associated with the Epstein-Barr virus (EBV), and EBV positivity is linked to worse outcomes in several subtypes. Nanatinostat is a class-I selective oral histone deacetylase inhibitor that induces the expression of lytic EBV BGLF4 protein kinase in EBV+ tumor cells, activating ganciclovir via phosphorylation, resulting in tumor cell apoptosis. This phase 1b/2 study investigated the combination of nanatinostat with valganciclovir in patients aged ≥18 years with EBV+ lymphomas relapsed/refractory to ≥1 prior systemic therapy with no viable curative treatment options. In the phase 1b part, 25 patients were enrolled into 5 dose escalation cohorts to determine the recommended phase 2 dose (RP2D) for phase 2 expansion. Phase 2 patients (n = 30) received RP2D (nanatinostat 20 mg daily, 4 days per week with valganciclovir 900 mg orally daily) for 28-day cycles. The primary end points were safety, RP2D determination (phase 1b), and overall response rate (ORR; phase 2). Overall, 55 patients were enrolled (B-non-Hodgkin lymphoma [B-NHL], [n = 10]; angioimmunoblastic T-cell lymphoma-NHL, [n = 21]; classical Hodgkin lymphoma, [n = 11]; and immunodeficiency-associated lymphoproliferative disorders, [n = 13]). The ORR was 40% in 43 evaluable patients (complete response rate [CRR], 19% [n = 8]) with a median duration of response of 10.4 months. For angioimmunoblastic T-cell lymphoma-NHL (n = 15; all refractory to the last prior therapy), the ORR/CRR ratio was 60%/27%. The most common adverse events were nausea (38% any grade) and cytopenia (grade 3/4 neutropenia [29%], thrombocytopenia [20%], and anemia [20%]). This novel oral regimen provided encouraging efficacy across several EBV+ lymphoma subtypes and warrants further evaluation; a confirmatory phase 2 study (NCT05011058) is underway. This phase 1b/2 study is registered at www.clinicaltrials.gov as #NCT03397706

Current management of severe acquired aplastic anemia

Overall survival in severe aplastic anemia has markedly improved in the past four decades due to advances in stem cell transplantation, immunosuppressive therapies and supportive care. Horse anti-thymocyte globulin plus cyclosporine is the standard immunosuppressive regimen in severe aplastic anemia, and often employed as initial therapy as most are not candidates for a matched related stem cell transplantation. With this regimen, hematologic response can be achieved in 60 to 70% of cases, but relapse is observed in 30 to 40% of responders and clonal evolution in 10 to 15% of patients. Efforts to improve outcomes beyond horse anti-thymocyte globulin plus cyclosporine have been disappointing, with no significant improvement in the critical parameter of hematologic response, which strongly correlates with long-term survival in severe aplastic anemia. Furthermore, rates of relapse and clonal evolution have also not improved with the development of three drug regimens or with more lymphocytotoxic therapies. Therefore, horse anti-thymocyte globulin plus cyclosporine remains the standard immunosuppression of choice as first therapy in severe aplastic anemia. Interestingly, survival has markedly improved over the years in large part due to better anti-infective therapy and more successful salvage therapies with immunosuppression and stem cell transplantation. In this review general aspects of diagnosis and management are discussed

Predictive parameters for hematologic response, relapse, clonal evolution and survival in severe aplastic anemia patients treated with immunosuppressive therapy

A anemia aplástica severa (AAS) pode ser tratada com sucesso na maioria dos casos com terapia imunossupressora (IS) ou transplante alogenêico de medula óssea (TMO). Os principais fatores que determinam a escolha da modalidade terapêutica são a idade e a disponibilidade de um doador HLA-histocompatível. Em pacientes mais jovens, o TMO de um doador aparentado é preferível, enquanto que em pacientes acima de 40-50 anos, a terapia IS é a modalidade terapêutica de escolha. Resposta hematológica é obtida em 60-75% dos casos com terapia IS na AAS, o que correlaciona com melhor sobrevida. Recidivas ocorrem em aproximadamente um terço dos respondentes e evolução clonal para mielodisplasia em 10-15% ao longo termo. A doença do enxerto-versus-hospedeiro (GVHD) agudo ocorre em 30-40% dos casos sendo a forma crônica presente em 40-50%. Infecções são frequentes e podem complicar o transplante. Portanto, a refratariedade à terapia IS, recidivas e evolução clonal limitam o sucesso da terapia IS na AAS, enquanto rejeição do enxerto, GVHD, e infecções limitam o sucesso do TMO na clínica. Fatores preditivos dessas complicações seriam de grande valor na clínica, uma vez que poder-se-iam realizar decisões terapêuticas com base mais racional, onde pacientes fossem alocados a diferentes tratamentos com base no seu perfil de risco. Ou seja, pacientes com alta probabilidade de resposta e baixo risco de recidiva e evolução clonal se beneficiariam de terapia IS, enquanto àqueles com baixa probabilidade de resposta e alto risco de recidiva e/ou evolução clonal teriam mais benefícios do TMO, por exemplo. Com base nessa premissa, desenvolvemos estudos para investigar fatores que pudessem estar associados ao sucesso da terapia IS na AAS. Os principais achados de 3 análises distintas sobre o tema evidenciou: 1) crianças (< 18 anos) apresentam alta taxa de resposta à terapia IS (em torno de 75%) com uma excelente sobrevida geral em pacientes respondentes; 2) o número absoluto de reticulócitos e de linfócitos pré-tratamento correlaciona com resposta hematológica aos seis meses após terapia IS; e 3) o comprimento telomérico não está associado à resposta hematológica, porém, está associado a probabilidade de recidiva, evolução clonal, e sobrevida geral após terapia IS. Esses parâmetros identificados nesses estudos podem servir de base em algoritmos futuros onde faz-se estratificação de risco de cada paciente, a fim de alocar a modalidade terapêutica mais apropriada com base no perfil individual de risco. No que diz respeito ao comprimento telomérico, é provável que esse marcador biológico não só esteja associado ao processo de evolução clonal na AAS, mas que também participe na biologia da instabilidade genômica de células na medula óssea levando a aberrações cromossômicas e o desenvolvimento de mielodisplasia e leucemias.Severe aplastic anemia (SAA) can be treated successfully in the majority of cases with immunosuppressive therapy (IST) or allogeneic bone marrow transplantation (BMT). The principal factors that determine the choice of treatment modalities are age and availability of an HLA-histocompatible donor. In younger patients, BMT from a related donor is preferred, while in patients over 40-50 years of age, IST is often employed. Hematologic response is achieved in 60-75% of cases with IST, which correlates with better survival. Relapses occur in approximately one third of responders and clonal evolution to myelodysplasia occurs in 10-15% of cases long-term. Acute graft-versus-host disease (GVHD) occurs in 30-40% of cases and chronic GVHD in 40-50%. Infections are common and complicate transplant outcomes. Therefore, refractoriness, relapses and clonal evolution limit the success of IST in SAA, while graft rejection, GVHD, and infections limited the success of BMT in the clinic. Predictors for these complications would be of great value in the clinic since one could make more rational treatment decisions where patients were allocated to different treatment modalities based on their risk profile. For example, patients with high probability of response and low risk of relapse and clonal evolution would benefit more from IST, while those with low probability of hematologic response and high risk of recurrence and/or clonal evolution most likely to benefit from BMT. Based on this premise, we developed studies to investigate factors that could be associated with the success of IST in SAA. The main findings of three separate analysis on the subject showed: 1) children ( < 18 years) have a high response rate to IST (around 75%) with an excellent long-term survival rate among responders; 2) the absolute number of reticulocytes and lymphocytes pre-treatment correlates with hematologic response at 6 months after IST, and 3) telomere length is not associated with hematologic response, but, associated with the likelihood of relapse, clonal evolution, and overall survival after IST. These parameters may serve as a basis for future algorithms allowing for risk stratification for each individual patient allowing for better treatment allocation. With respect to the telomere length, it is likely that it not only represents a biological marker but that it is involved in the process of clonal evolution contributing to genomic instability in bone marrow cells leading to the development of myelodysplasia and leukemi

Current concepts in the pathophysiology and treatment of aplastic anemia

Aplastic anemia, an unusual hematologic disease, is the paradigm of the human bone marrow failure syndromes. Almost universally fatal just a few decades ago, aplastic anemia can now be cured or ameliorated by stem-cell transplantation or immunosuppressive drug therapy. The pathophysiology is immune mediated in most cases, with activated type 1 cytotoxic T cells implicated. The molecular basis of the aberrant immune response and deficiencies in hematopoietic cells is now being defined genetically; examples are telomere repair gene mutations in the target cells and dysregulated T-cell activation pathways. Immunosuppression with antithymocyte globulins and cyclosporine is effective at restoring blood-cell production in the majority of patients, but relapse and especially evolution of clonal hematologic diseases remain problematic. Allogeneic stem-cell transplant from histocompatible sibling donors is curative in the great majority of young patients with severe aplastic anemia; the major challenges are extending the benefits of transplantation to patients who are older or who lack family donors. Recent results with alternative sources of stem cells and a variety of conditioning regimens to achieve their engraftment have been promising, with survival in small pediatric case series rivaling conventional transplantation results