Stéphanie Lagarde scite author profile

Pediatric acute myeloid leukemia (AML) is a rare disease whose prognosis is highly variable according to factors such as chromosomal abnormalities. Recurrent genomic rearrangements are detected in half of pediatric AML by karyotype. NUcleoPorin 98 (NUP98) gene is rearranged with 31 different fusion partner genes. These rearrangements are frequently undetected by conventional cytogenetics, as the NUP98 gene is located at the end of the chromosome 11 short arm (11p15). By screening a series of 574 pediatric AML, we detected a NUP98 rearrangement in 22 cases (3.8%), a frequency similar to CBFB-MYH11 fusion gene (4.0%). The most frequent NUP98 fusion gene partner is NSD1. These cases are homogeneous regarding their biological and clinical characteristics, and associated with bad prognosis only improved by bone marrow transplantation. We detailed the biological characteristics of these AML by exome sequencing which demonstrated few recurrent mutations (FLT3 ITD, WT1, CEBPA, NBPF14, BCR and ODF1). The analysis of the clonal structure in these cases suggests that the mutation order in the NUP98-rearranged pediatric AML begins with the NUP98 rearrangement leading to epigenetic dysregulations then followed by mutations of critical hematopoietic transcription factors and finally, activation of the FLT3 signaling pathway.

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PAX5-ELN oncoprotein promotes multistep B-cell acute lymphoblastic leukemia in mice

Jamrog

Chemin

Fregona

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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PAX5 is a well-known haploinsufficient tumor suppressor gene in human B-cell precursor acute lymphoblastic leukemia (B-ALL) and is involved in various chromosomal translocations that fuse a part of PAX5 with other partners. However, the role of PAX5 fusion proteins in B-ALL initiation and transformation is ill-known. We previously reported a new recurrent t(7;9)(q11;p13) chromosomal translocation in human B-ALL that juxtaposed PAX5 to the coding sequence of elastin (ELN). To study the function of the resulting PAX5-ELN fusion protein in B-ALL development, we generated a knockin mouse model in which the PAX5-ELN transgene is expressed specifically in B cells. PAX5-ELN–expressing mice efficiently developed B-ALL with an incidence of 80%. Leukemic transformation was associated with recurrent secondary mutations on Ptpn11, Kras, Pax5, and Jak3 genes affecting key signaling pathways required for cell proliferation. Our functional studies demonstrate that PAX5-ELN affected B-cell development in vitro and in vivo featuring an aberrant expansion of the pro-B cell compartment at the preleukemic stage. Finally, our molecular and computational approaches identified PAX5-ELN–regulated gene candidates that establish the molecular bases of the preleukemic state to drive B-ALL initiation. Hence, our study provides a new in vivo model of human B-ALL and strongly implicates PAX5 fusion proteins as potent oncoproteins in leukemia development.

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Management of blunt tracheobronchial trauma in the pediatric age group

Ballouhey¹,

Fesseau²,

Benouaich

et al. 2013

Eur J Trauma Emerg Surg

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Oncostatin M decreases interleukin‐1 β secretion by human synovial fibroblasts and attenuates an acute inflammatory reaction in vivo

Dumas

Lagarde

Laflamme

et al. 2012

J Cellular Molecular Medi

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Oncostatin M (OSM) is a pleiotropic cytokine of the IL-6 family and displays both pro-inflammatory and anti-inflammatory activities. We studied the impact of OSM on the gene activation profile of human synovial cells, which play a central role in the progression of inflammatory responses in joints. In synovial cells stimulated with lipopolysaccharide and recombinant human granulocyte-macrophage colony-stimulating factor, recombinant human OSM and native OSM secreted by human granulocytes both reduced the gene expression and secretion of IL-1β and CXCL8, but increased that of IL-6 and CCL2. This impact on synovial cell activation was not obtained using IL-6 or leukaemia inhibitory factor. Signal transducer and activator of transcription-1 appeared to mediate the effects of OSM on stimulated human synovial fibroblasts. In the murine dorsal air pouch model of inflammation, OSM reduced the expression of the pro-inflammatory cytokines IL-1β and TNF-α in lining tissues, and their presence in the cavity. These results as a whole suggest an anti-inflammatory role for OSM, guiding inflammatory processes towards resolution.

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Impact of TP53 mutations in acute myeloid leukemia patients treated with azacitidine

et al. 2020

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Hypomethylating agents are a classical frontline low-intensity therapy for older patients with acute myeloid leukemia. Recently, TP53 gene mutations have been described as a potential predictive biomarker of better outcome in patients treated with a ten-day decitabine regimen., However, functional characteristics of TP53 mutant are heterogeneous, as reflected in multiple functional TP53 classifications and their impact in patients treated with azacitidine is less clear. We analyzed the therapeutic course and outcome of 279 patients treated with azacitidine between 2007 and 2016, prospectively enrolled in our regional healthcare network. By screening 224 of them, we detected TP53 mutations in 55 patients (24.6%), including 53 patients (96.4%) harboring high-risk cytogenetics. The identification of any TP53 mutation was associated with worse overall survival but not with response to azacitidine in the whole cohort and in the subgroup of patients with adverse karyotype. Stratification of patients according to three recent validated functional classifications did not allow the identification of TP53 mutated patients who could benefit from azacitidine. Systematic TP53 mutant classification will deserve further exploration in the setting of patients treated with conventional therapy and in the emerging field of therapies targeting TP53 pathway.

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Constitutive Activation of RAS/MAPK Pathway Cooperates with Trisomy 21 and Is Therapeutically Exploitable in Down Syndrome B-cell Leukemia

Laurent

Siret

Ignacimouttou

et al. 2020

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The pronociceptive effect of proteinase-activated receptor-4 stimulation in rat knee joints is dependent on mast cell activation

Russell

Zhan

Dumas

et al. 2011

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Proteinase-activated receptor-4 (PAR(4)) is a G-protein-coupled receptor activated by serine proteinases released during tissue repair and inflammation. We have previously shown that PAR(4) activation sensitises articular primary afferents leading to joint pain. This study examined whether mast cells contribute to this PAR(4)-induced sensitisation and consequent heightened pain behaviour. The expression of PAR(4) on synovial mast cells was confirmed with immunofluorescent staining of rat knee joint sections. Electrophysiological recordings were made from joint primary afferents in male Wistar rats during both nonnoxious and noxious rotations of the knee. Afferent firing rate was recorded for 15 minutes after close intra-arterial injection of 10(-9) to 10(-5)mol of the PAR(4) activating peptide, AYPGKF-NH(2), or the inactive peptide, YAPGKF-NH(2) (100-μl bolus). Rats were either naive or pretreated with the mast cell stabilise, cromolyn (20mg/kg). Mechanical withdrawal thresholds were determined using a dynamic planter aesthesiometer and weight bearing determined using an incapacitance tester. These behavioural measurements were taken before and after intra-articular AYPGKF-NH(2), or the inactive peptide, YAPGKF-NH(2) (100μg). Local administration of AYPGKF-NH(2) caused a significant increase in joint primary afferent firing rate and pain behaviour compared with the control peptide YAPGKF-NH(2). These effects were blocked by pretreatment with cromolyn. These data reveal that PAR(4) is expressed on synovial mast cells and the activation of PAR(4) has a pronociceptive effect that is dependent on mast cell activation. Proteinase-activated receptor-4 is expressed on synovial mast cells, and the activation of Proteinase-activated receptor-4 has a pronociceptive effect that is dependent on mast cell activation.

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Overproduction of BCR‐ABL induces apoptosis in imatinib mesylate‐resistant cell lines

Desplat¹,

Belloc²,

Lagarde³

et al. 2004

Cancer

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BACKGROUNDImatinib mesylate, a BCR‐ABL tyrosine kinase inhibitor, induces apoptosis in chronic myeloid leukemia cells. Resistance to imatinib is currently the most important concern of this treatment. One of the main mechanisms of this resistance is overexpression of BCR‐ABL.METHODSIn the current study, the authors investigated the correlation between BCR‐ABL overexpression and apoptosis in BaF/BCR‐ABL and LAMA84 cell lines resistant to imatinib suddenly deprived of the inhibitor, and compared with their sensitive counterpart.RESULTSRemoval of imatinib from culture medium led to a decrease in Bcr‐Abl protein expression by Day 5, which was sustained for ≥ 3 weeks of imatinib deprivation. Apoptosis was observed after 3 days of imatinib deprivation in resistant lines accompanied by caspase activation, loss of membrane asymmetry (annexin V staining), and alteration of mitochondrial potential (dihexyloxacarbocyanine iodide [DiOC6]). Transient activation of the STAT5/Bcl‐xL pathway and Akt kinase activity preceded these responses.CONCLUSIONSThus, imatinib removal led to apoptosis of BCR‐ABL–overexpressing leukemic cells, a phenomenon that could be exploited to sensitize imatinib‐resistant cells to the cytotoxic effect of other drugs. Cancer 2005. © 2004 American Cancer Society.

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