Detection of cytosolic DNA constitutes a central event in the context of numerous infectious and sterile inflammatory conditions. Recent studies have uncovered a bipartite mode of cytosolic DNA ...recognition, in which the cGAS-STING axis triggers antiviral immunity, whereas AIM2 triggers inflammasome activation. Here, we show that AIM2 is dispensable for DNA-mediated inflammasome activation in human myeloid cells. Instead, detection of cytosolic DNA by the cGAS-STING axis induces a cell death program initiating potassium efflux upstream of NLRP3. Forward genetics identified regulators of lysosomal trafficking to modulate this cell death program, and subsequent studies revealed that activated STING traffics to the lysosome, where it triggers membrane permeabilization and thus lysosomal cell death (LCD). Importantly, the cGAS-STING-NLRP3 pathway constitutes the default inflammasome response during viral and bacterial infections in human myeloid cells. We conclude that targeting the cGAS-STING-LCD-NLRP3 pathway will ameliorate pathology in inflammatory conditions that are associated with cytosolic DNA sensing.
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•DNA inflammasome activation in human monocytes depends on NLRP3, but not AIM2•cGAS-STING signals independently of its type I IFN response upstream of NLRP3•STING activation orchestrates a lysosomal cell death program that engages NLRP3•The cGAS-STING-NLRP3 axis is the default DNA inflammasome in human myeloid cells
In humans, a cGAS-STING-lysosomal cell death-NLRP3 pathway is responsible for the inflammasome response to bacterial and viral DNA with AIM2 being dispensable.
Hyperleukocytosis in AML with leukostasis is a serious life-threatening condition leading to a high early mortality which requires immediate cytoreductive therapy. Therapeutic leukapheresis is ...currently recommended by the American Society of Apheresis in patients with a WBC>100 G/l with signs of leukostasis, but the role of prophylactic leukapheresis before clinical signs of leukostasis occur is unclear.
We retrospectively analyzed the role of leukapheresis in 52 patients (median age 60 years) with hyperleukocytotic AML with and without clinical signs of leukostasis. Since leukapheresis was performed more frequently in patients with signs of leukostasis due to the therapeutic policy in our hospital, we developed a risk score for early death within seven days after start of therapy (EDd7) to account for this selection bias and to independently measure the effect of leukapheresis on EDd7.
20 patients received leukapheresis in combination to chemotherapy compared to 32 patients who received chemotherapy only. In a multivariate logistic regression model for the estimation of the probability of EDd7 thromboplastin time and creatinine remained as independent significant parameters and were combined to create an EDd7 risk score. The effect of leukapheresis on EDd7 was evaluated in a bivariate logistic regression together with the risk score. Leukapheresis did not significantly change early mortality in all patients with a WBC≥100 G/l.
Prophylactic leukapheresis in hyperleukocytotic patients with and without leukostasis did not improve early mortality in our retrospective study. Larger and prospective clinical trials are needed to validate the risk score and to further explore the role of leukapheresis in AML with hyperleukocytosis.
Classical antiviral restriction factors promote cellular immunity by their ability to interfere with virus replication and induction of their expression by proinflammatory cytokines such as ...interferons. The serine incorporator proteins SERINC3 and SERINC5 potently reduce the infectivity of HIV-1 particles when overexpressed, and RNA interference or knockout approaches in T cells have indicated antiviral activity also of the endogenous proteins. Due to lack of reagents for detection of endogenous SERINC proteins, it is still unclear whether SERINC3/5 are expressed to functionally relevant levels in different primary target cells of HIV infection and how the expression levels of these innate immunity factors are regulated. In the current study, analysis of SERINC3/5 mRNA steady-state levels in primary lymphoid and monocyte-derived cells revealed selective induction of their expression upon differentiation of myeloid cells. Contrary to classical antiviral restriction factors, various antiviral α-interferon subtypes and proinflammatory interleukins had no effect on SERINC levels, which were also not dysregulated in CD4+ T cells and monocytes isolated from patients with chronic HIV-1 infection. Notably, HIV-1 particles produced by terminally differentiated monocyte-derived macrophages with high SERINC5 expression, but not by low-expressing monocytes, showed a Nef-dependent infectivity defect. Overall, these findings suggest endogenous expression of SERINC5 to antivirally active levels in macrophages. Our results classify SERINC5 as an unconventional HIV-1 restriction factor whose expression is specifically induced upon differentiation of cells towards the myeloid lineage.
Objectives
Innovative post‐remission therapies are needed to eliminate residual AML cells. DC vaccination is a promising strategy to induce anti‐leukaemic immune responses.
Methods
We conducted a ...first‐in‐human phase I study using TLR7/8‐matured DCs transfected with RNA encoding the two AML‐associated antigens WT1 and PRAME as well as CMVpp65. AML patients in CR at high risk of relapse were vaccinated 10× over 26 weeks.
Results
Despite heavy pretreatment, DCs of sufficient number and quality were generated from a single leukapheresis in 11/12 cases, and 10 patients were vaccinated. Administration was safe and resulted in local inflammatory responses with dense T‐cell infiltration. In peripheral blood, increased antigen‐specific CD8+ T cells were seen for WT1 (2/10), PRAME (4/10) and CMVpp65 (9/10). For CMVpp65, increased CD4+ T cells were detected in 4/7 patients, and an antibody response was induced in 3/7 initially seronegative patients. Median OS was not reached after 1057 days; median RFS was 1084 days. A positive correlation was observed between clinical benefit and younger age as well as mounting of antigen‐specific immune responses.
Conclusions
Administration of TLR7/8‐matured DCs to AML patients in CR at high risk of relapse was feasible and safe and resulted in induction of antigen‐specific immune responses. Clinical benefit appeared to occur more likely in patients <65 and in patients mounting an immune response. Our observations need to be validated in a larger patient cohort. We hypothesise that TLR7/8 DC vaccination strategies should be combined with hypomethylating agents or checkpoint inhibition to augment immune responses.
Trial registration
The study was registered at https://clinicaltrials.gov on 17 October 2012 (NCT01734304) and at https://www.clinicaltrialsregister.eu (EudraCT‐Number 2010‐022446‐24) on 10 October 2013.
Dendritic cell (DC) vaccination is a promising strategy to induce anti‐leukaemic immune responses. In this first‐in‐human phase I trial, TLR7/8‐matured DCs transfected with RNA encoding two leukaemia‐associated antigens (WT1 and PRAME) and CMVpp65 were used as post‐remission therapy for AML patients at high risk of relapse. DC generation was feasible, and administration was safe and resulted in local inflammatory responses and expanded antigen‐specific CD8+ and CD4+ T cells in peripheral blood; clinical benefit correlated with younger age and immune responders.
Autologous blood doping refers to the illegal re‐transfusion of any quantities of blood or blood components with blood donor and recipient being the same person. The re‐transfusion of stored ...erythrocyte concentrates is particularly attractive to high‐performance athletes as this practice improves their oxygen capacity excessively. However, there is still no reliable detection method available. Analyzing circulating microRNA profiles of human subjects that underwent monitored autologous blood transfusions seems to be a highly promising approach to develop novel biomarkers for autologous blood doping. In this exploratory study, we randomly divided 30 healthy males into two different treatment groups and one control group and sampled whole blood at several time points at baseline, after whole blood donation and after transfusion of erythrocyte concentrates. Hematological variables were recorded and analyzed following the adaptive model of the Athlete Biological Passport. microRNA profiles were examined by small RNA sequencing and comprehensive multivariate data analyses, revealing microRNA fingerprints that reflect the sampling time point and transfusion volume. Neither individual microRNAs nor a signature of transfusion‐dependent microRNAs reached superior sensitivity at 100% specificity compared to the Athlete Biological Passport (≤11% 6 h after transfusion versus ≤44% 2 days after transfusion). However, the window of autologous blood doping detection was different. Due to the heterogenous nature of doping, with athletes frequently combining multiple medications in order to both gain a competitive advantage and interfere with known testing methods, the true applicability of the molecular signature remains to be validated in real anti‐doping testings.
Small extracellular vesicles (EVs) are 50–200 nm sized mediators in intercellular communication that reflect both physiological and pathophysiological changes of their parental cells. Thus, EVs hold ...great potential for biomarker detection. However, reliable purification methods for the downstream screening of the microRNA (miRNA) cargo carried within urinary EVs by small RNA sequencing have yet to be established. To address this knowledge gap, RNA extracted from human urinary EVs obtained by five different urinary EV purification methods (spin column chromatography, immunoaffinity, membrane affinity, precipitation and ultracentrifugation combined with density gradient) was analyzed by small RNA sequencing. Urinary EVs were further characterized by nanoparticle tracking analysis, Western blot analysis and transmission electron microscopy. Comprehensive EV characterization established significant method-dependent differences in size and concentration as well as variances in protein composition of isolated vesicles. Even though all purification methods captured enough total RNA to allow small RNA sequencing, method-dependent differences were also observed with respect to library sizes, mapping distributions, number of miRNA reads and diversity of transcripts. Whereas EVs obtained by immunoaffinity yielded the purest subset of small EVs, highly comparable with results attained by ultracentrifugation combined with density gradient, precipitation and membrane affinity, sample purification by spin column chromatography indicated a tendency to isolate different subtypes of small EVs, which might also carry a distinct subset of miRNAs. Based on our results, different EV purification methods seem to preferentially isolate different subtypes of EVs with varying efficiencies. As a consequence, sequencing experiments and resulting miRNA profiles were also affected. Hence, the selection of a specific EV isolation method has to satisfy the respective research question and should be well considered. In strict adherence with the MISEV (minimal information for studies of extracellular vesicles) guidelines, the importance of a combined evaluation of biophysical and proteomic EV characteristics alongside transcriptomic results was clearly demonstrated in this present study.
Activation of the platelet Fc-receptor CD32a (FcγRIIA) is an early and crucial step in the pathogenesis of heparin-induced thrombocytopenia type II (HIT) that has not been therapeutically targeted. ...Downstream FcγRIIA Bruton tyrosine kinase (BTK) is activated; however, its role in Fc receptor–induced platelet activation is unknown. We explored the potential to prevent FcγRIIA-induced platelet activation by BTK inhibitors (BTKi's) approved (ibrutinib, acalabrutinib) or in clinical trials (zanubrutinib BGB-3111 and tirabrutinib ONO/GS-4059) for B-cell malignancies, or in trials for autoimmune diseases (evobrutinib, fenebrutinib GDC-0853). We found that all BTKi's blocked platelet activation in blood after FcγRIIA stimulation by antibody-mediated cross-linking (inducing platelet aggregation and secretion) or anti-CD9 antibody (inducing platelet aggregation only). The concentrations that inhibit 50% (IC50) of FcγRIIA cross-linking–induced platelet aggregation were for the irreversible BTKi's ibrutinib 0.08 µM, zanubrutinib 0.11 µM, acalabrutinib 0.38 µM, tirabrutinib 0.42 µM, evobrutinib 1.13 µM, and for the reversible BTKi fenebrutinib 0.011 µM. IC50 values for ibrutinib and acalabrutinib were four- to fivefold lower than the drug plasma concentrations in patients treated for B-cell malignancies. The BTKi's also suppressed adenosine triphosphate secretion, P-selectin expression, and platelet-neutrophil complex formation after FcγRIIA cross-linking. Moreover, platelet aggregation in donor blood stimulated by sera from HIT patients was blocked by BTKi's. A single oral intake of ibrutinib (280 mg) was sufficient for a rapid and sustained suppression of platelet FcγRIIA activation. Platelet aggregation by adenosine 5′-diphosphate, arachidonic acid, or thrombin receptor-activating peptide was not inhibited. Thus, irreversible and reversible BTKi's potently inhibit platelet activation by FcγRIIA in blood. This new rationale deserves testing in patients with HIT.
•Six different BTKi's blocked platelet activation in blood after FcγRIIA stimulation by cross-linking, anti-CD9 antibodies, or HIT serum.•Established oral irreversible and novel reversible BTKi's may offer a new option to treat HIT.
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Background: Despite considerable advances in the development of novel strategies for the treatment of acute myeloid leukemia (AML) the relapse rate is still high with only limited treatment options. ...Relapse occurs due to the persistence of chemotherapy-resistant leukemic stem cells (LSCs), which re-initiate outgrowth of the disease, highlighting the need of targeting LSCs to improve overall survival. Immunotherapies represent a promising strategy to target chemotherapy-resistant LSCs in AML. LSCs are characterized by the expression of the interleukin-3 receptor α, also known as CD123. CD123 is expressed on AML blasts and LSCs, and shows only a moderate expression on normal hematopoietic stem cells, claiming CD123 as a suitable target antigen (Haubner et al, Leukemia 2019). CD47, known as a marker of self, is also highly expressed on LSCs as immune escape mechanism. CD47 transmits a “don't eat me” signal upon its interaction with the myeloid-specific signal regulatory protein alpha (SIRPα) receptor on macrophages, thus inhibiting phagocytosis. In order to efficiently eliminate LSCs and provide AML patients a possibility for prolonged relapse-free survival, we have designed a bifunctional antibody that specifically targets CD123 and simultaneously blocks CD47. Importantly, our strategy restricts the benefits of the CD47 blockade to CD123 positive AML cells. Thus, we hypothesize a lower risk for on-target off-leukemia toxicity.
Methods: The bifunctional SIRPα-CD123 antibody was generated by fusing the endogenous extracellular domain of SIRPα, which functions as the CD47 blocking domain, to an CD123 antibody CD123. We assessed the selective binding of the bifunctional antibody to CD123+CD47+ AML-derived cells and the ability to block CD47 on CD123+ cells in vitro. Furthermore, the biological activity of the SIRPα-CD123 antibody was examined using the AML-derived cell line MOLM-13, patient-derived xenografted (PDX) AML cells as well as primary cells from patients with newly diagnosed or relapsed AML.
Results: We engrafted the endogenous SIRPα V-like domain to an antibody targeting CD123, which improved the binding of the bifunctional SIRPα-CD123 antibody to AML cells compared to a conventional CD123 antibody (MFI ratioCD123 = 2.46 0.25 vs MFI ratioSIRPα-CD123 = 4.44 0.60). The SIRPα-CD123 antibody enhanced the elimination of the AML-derived MOLM-13 cells by antibody-dependent cellular cytotoxicity (EC50CD123 = 38.5 pM vs EC50SIRPα-CD123 = 10.1 pM, n = 9). Additionally, the cytotoxicity was confirmed using primary patient-derived AML cells ex vivo. Further, an improved ex vivo cytotoxicity towards AML PDX cells was observed with the SIRPα-CD123 antibody (% lysis at 100 nM: 14.27 5.40 vs 42.94 10.21 for CD123 and SIRPα-CD123 antibodies respectively, n = 3). With regards to the inhibition of CD47 signaling, we were able to show a blockade of CD47 on CD123+CD47+ positive cells by the SIRPα-CD123 antibody. Correspondingly, a significant increase in phagocytosis of primary patient-derived AML cells mediated by monocyte-derived macrophages was observed in allogenic as well as autologous settings (% phagocytosis, normalized to isotype control and maximum phagocytosis in an autologous setting: 20.11 4.59 vs 90.37 6.22, n = 5 for CD123 and SIRPα-CD123 antibodies, respectively). We were further able to show a preferential binding to MOLM-13 in the presence of a 20-fold excess of red blood cells indicating a potential low on-target off-leukemia toxicity. Taken together, our in vitro data supports the elimination of the CD123+CD47+ positive AML LSC compartment by a synergistic effect of avidity-dependent binding to CD123 and CD47 and the simultaneous inhibition of the innate immune CD47-SIRPα signaling pathway.
Conclusions: The SIRPα-CD123 is a bifunctional antibody with the potential to deplete CD123+CD47+ AML LSCs by a dual mode of action mechanism resulting in NK cell dependent cytotoxicity and macrophage-mediated phagocytosis. By combining a high affinity binding to CD123+ cells and a low affinity CD47 blockade that is restricted to CD123+ cancer cells we effectively minimize the risk for CD47-related on-target off-leukemia toxicity. The results of our in vitro assays using AML cell lines are consistent with the data from PDX and primary AML samples and support further preclinical testing of the SIRPα-CD123 antibody in vivo.
Subklewe:Miltenyi: Research Funding; Pfizer: Consultancy, Honoraria; Gilead: Consultancy, Honoraria, Research Funding; AMGEN: Consultancy, Honoraria, Research Funding; Oxford Biotherapeutics: Research Funding; Roche: Consultancy, Research Funding; Celgene: Consultancy, Honoraria; Morphosys: Research Funding; Janssen: Consultancy.
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