The interaction of Menin (MEN1) and MLL (MLL1, KMT2A) is a dependency and potential therapeutic opportunity against NPM1-mutant (NPM1mut) and MLL-rearranged (MLL-r) leukemias. Concomitant activating driver mutations in the gene encoding the tyrosine kinase FLT3 occur in both leukemias and are particularly common in the NPM1mut subtype. Transcriptional profiling upon pharmacological inhibition of the Menin-MLL complex revealed specific changes in gene expression with downregulation of the MEIS1 transcription-factor and its transcriptional target gene FLT3 being most pronounced. Combining Menin-MLL-inhibition with specific small-molecule kinase inhibitors of FLT3-phosphorylation resulted in a significantly superior reduction of phosphorylated FLT3 and transcriptional suppression of genes downstream to FLT3 signaling. The drug combination induced synergistic inhibition of proliferation as well as enhanced apoptosis and differentiation compared to single-drug treatment in models of human and murine NPM1mut and MLL-r leukemias harboring an FLT3 mutation. Primary AML cells harvested from patients with NPM1mutFLT3mut AML showed significantly better responses to combined Menin and FLT3-inhibition than to single-drug or vehicle control treatment, while AML cells with wildtype NPM1, MLL, and FLT3 were not affected by any of the two drugs. In vivo treatment of leukemic animals with MLL-r FLT3mut leukemia reduced leukemia burden significantly and prolonged survival compared to the single-drug and vehicle control groups. Our data suggest that combined Menin-MLL and FLT3-inhibition represents a novel and promising therapeutic strategy for patients with NPM1mut or MLL-r leukemia and concurrent FLT3 mutation.
Transcutaneous immunization (TCI) is a novel vaccination strategy that utilizes skinassociated lymphatic tissue to induce immune responses.Employing T-cell epitopes and the TLR7 agonist imiquimod onto intact skin mounts strong primary, but limited memory CTL responses. To overcome this limitation, we developed a novel imiquimodcontaining vaccination platform (IMI-Sol) rendering superior primary CD8 + and CD4 + T-cell responses. However, it has been unclear whether IMI-Sol per se is restricted in terms of memory formation and tumor protection. In our present work, we demonstrate that the combined administration of IMI-Sol and CD40 ligation unleashes fullblown specific T-cell responses in the priming and memory phase, strongly enhancing antitumor protection in mice. Interestingly, these effects were entirely CD4 + T cell independent, bypassing the necessity of helper T cells. Moreover, blockade of CD70 in vivo abrogated the boosting effect of CD40 ligation, indicating that the adjuvant effect of CD40 in TCI is mediated via CD70 on professional APCs. Furthermore, this work highlights the so far underappreciated importance of the CD70/CD27 interaction as a promising adjuvant target in TCI. Summing up, we demonstrate that the novel formulation IMI-Sol represents a powerful vaccination platform when applied in combination with sufficient adjuvant thereby overcoming current limitations of TCI.Keywords: imiquimod r T cells r TLR7 r transcutaneous immunization r vaccination Additional supporting information may be found online in the Supporting Information section at the end of the article.
We demonstrate that the combination of TCI with IMI-Sol and anti-CTLA-4 can confer potent immune responses and tumor-protection. These results might contribute to the development of advanced vaccination approaches targeting tumors or persistent infectious diseases.
Immune thrombotic thrombocytopenic purpura (iTTP) is a rare autoimmune disorder characterized by severely reduced activity of the von Willebrand factor (VWF)-cleaving protease ADAMTS13 (a disintegrin and metalloproteinase with a thrombospondin type 1 motif, member 13) due to autoantibodies. This leads to the development of pathogenic multimers of VWF, causing a thrombotic microangiopathy with decreased number of platelets, hemolysis, and life-threatening tissue ischemia of mostly brain, heart, and kidneys. Standard treatment of iTTP involves daily plasma exchange to remove ultra large multimers of VWF, inhibitors, substituting ADAMTS13, and the accompaniment of an immunosuppressive treatment with steroids. Recently, caplacizumab was approved for iTTP. Caplacizumab is a nanobody binding the A1 domain of VWF, blocking its interaction with glycoprotein Ib–IX–V platelet receptor and therefore preventing platelet aggregation. VWF activities may serve as therapeutic drug monitoring of caplacizumab, whereas ADAMTS13 activities may be used for biomarkers to guide caplacizumab treatment modalities and overall treatment duration. Additional immunosuppressive treatment by inhibiting autoantibody formation (e.g., the use of Rituximab, a chimeric monoclonal antibody directed against the B-cell antigen CD20) is a further treatment option. Infections are well-known causes for an acute episode for patients with iTTP. The novel SARS-CoV-2 virus is mainly associated with acute respiratory distress as well as diffuse endothelial inflammation and increased coagulopathy. However, little is known about an infection with SARS-CoV-2 virus triggering iTTP relapses. We herein report the case of an acute iTTP episode accompanying a SARS-CoV-2 infection.
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