Bärbel Spies-Weisshart scite author profile

Infectious complications continue to be one of the major causes of morbidity and mortality in patients with acute myeloid leukemia (AML). Several single-nucleotide polymorphisms (SNPs) of Toll-like receptors (TLRs) can affect the genetic susceptibility to infections or even sepsis. We sought to investigate the impact of different SNPs on the incidence of developing sepsis and pneumonia in patients with newly diagnosed AML following induction chemotherapy. We analyzed three SNPs in the TLR2 (Arg753Gln) and TLR4 (Asp299Gly and Thr399Ile) gene in a cohort of 155 patients with AML who received induction chemotherapy. The risk of developing sepsis and pneumonia was assessed by multiple logistic regression analyses. The presence of the TLR2 Arg753Gln polymorphism was significantly associated with pneumonia in AML patients (odds ratio (OR): 10.78; 95% confidence interval (CI): 2.0-58.23; P=0.006). Furthermore, the cosegregating TLR4 polymorphisms Asp299Gly and Thr399Ile were independent risk factors for the development of both sepsis and pneumonia (OR: 3.55; 95% CI: 1.21-10.4, P=0.021 and OR: 3.57, 95% CI: 1.3-9.86, P=0.014, respectively). To our best knowledge, this study represents the first analysis demonstrating that polymorphisms of TLR2 and TLR4 influence the risk of infectious complications in patients with AML undergoing induction chemotherapy.

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Isoform localization of Dectin‐1 regulates the signaling quality of anti‐fungal immunity

Fischer

Müller

Spies-Weisshart

et al. 2017

Eur J Immunol

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Dectin-1 is recognized as a major receptor for fungal ß-glucans and contributes to anti-fungal immunity. Human monocyte populations express Dectin-1 isoforms A and B, which differ by the presence of a stalk region and its N-linked glycosylation site. Here, we analyzed the expression of both isoforms in human monocyte-derived cells. The cellular localization on cell lines stably expressing either Dectin-1 isoform A or B was studied by flow cytometry and confocal laser scanning microscopy. Intracellular protein signaling and cytokine production were analyzed by immunoblotting and cytometric bead array, respectively. Monocyte-derived cells showed cell type-specific expression of the two isoforms. Glycosylated Dectin-1 isoform A was predominantly localized at the cell surface, non-glycosylated isoform B was retained intracellularly. Inhibition of glycosylation resulted in efficient abrogation of cell surface expression of isoform A. Signaling quality following Dectin-1 stimulation was reduced in isoform B cells. Differential isoform specific cytokine secretion was observed by cytometric bead array. We show here that n-glycosylation of Dectin-1 is crucial for its cell surface expression and consequently signal transduction. Taken together, unique cytokine secretion and varying expression levels of human Dectin-1 isoforms on monocyte-derived cells may indicate distinct isoform usage as a cell type-specific mechanism of regulating anti-fungal immunity.

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Ponatinib may overcome resistance of FLT3‐ITD harbouring additional point mutations, notably the previously refractory F691I mutation

et al. 2012

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SummaryFms‐like tyrosine kinase (FLT3) mutations are the most frequent mutations in patients with acute myeloid leukaemia (AML) that confer a poor prognosis. Constitutively active FLT3‐ITD (internal tandem duplications) mutations define a promising target for therapeutic approaches using small molecule inhibitors. However, several point mutations of the FLT3 tyrosine kinase domain (FLT3‐TKD) have been identified to mediate resistance towards FLT3 tyrosine kinase inhibitors (FLT3‐TKI), including secondary mutations of FLT3. We investigated the cellular effects of the recently characterised FLT3‐TKI ponatinib (AP24534) on murine myeloid cells transfected with FLT3‐ITD with or without additional point mutations of the FLT3‐TKD including the (so far) multi‐resistant F691I mutation. Ponatinib effectively induced apoptosis not only in the parental FLT3‐ITD cell line but also in all stably transfected subclones harbouring additional FLT3‐TKD point mutations (N676D, F691I or G697R). These observations correlated with a strong inhibition of FLT3‐ITD and its downstream targets STAT5, AKT and ERK1/2 upon ponatinib incubation, as determined by Western blotting. We conclude that ponatinib represents a promising FLT3‐TKI that should be further investigated in clinical trials. The targeted therapy of FLT3‐ITD‐positive AML with ponatinib might be associated with a lower frequency of secondary resistance caused by acquired FLT3‐TKD mutations.

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