Project description:Gene expression profile of in vitro differentiated control and CD33 KO CD34+ cells (with 70-85% CD33 KO) were analyzed by RNA-seq to exclude any major impact of CD33 loss on downstream gene expression
Project description:To reveal which pathways linked to CD33 and CD123 overexpression could be involved in leukemic proliferation, we performed unbiased bulk RNA sequencing comparison between OCI-AML3 wt and CD123 and or CD33 KO clones
Project description:Severe congenital neutropenia (CN) is a pre-leukemia syndrome that, in the majority of patients, is caused by heterogeneous ELANE mutations encoding neutrophil elastase (NE). To study leukemogenesis associated with CN we generated CN and CN/AML patient-specific induced pluripotent stem cells (iPSCs). Additional mutations in leukemia-relevant genes, CSF3R and RUNX1, were introduced using CRISPR/Cas9 gene-editing. Consequently, we performed in vitro embryoid body (EB)-based hematopoietic and myeloid differentiation of generated iPSC lines. On day 14-17 of EB-based differentiation, iPSC-derived CD45+CD34+ cells were harvested and mRNA was isolated using RNeasy Mini- or Micro Kit (Qiagen). Sequencing libraries were prepared using the TruSeq RNA Sample Prep Kit (Illumina). Poly (A) selected single-read and pair-read sequencing libraries were sequenced on the Illumina platform in order to compare the transcriptomes of CN and CN/AML iPSCs-derived HSPCs from 2 CN/AML patients. Next, we identified that BAALC knockout resulted in a dramatic induction of granulocytic differentiation and a significant reduction in proliferation of CN/AML iPSC-derived HSPCs. To identify BAALC-dependent leukemia-associated gene expression, we compared the transcriptomes of CN/AML iPSCs before and after BAALC KO using a similar approach described above for CN and CN/AML iPSCs-derived HSPCs.
Project description:To study the effect of expression of CD13/CD33 on the pathogenesis of B-cell acute lymphoblastic (B-ALL), we collected samples from 4 CD13/CD33-positive and 4 CD13/CD33-negative B-ALL patients and performed RNA-seq.
Project description:To study the effect of expression of CD13/CD33 on the pathogenesis of B-cell acute lymphoblastic (B-ALL), we collected samples from 4 CD13/CD33-positive and 4 CD13/CD33-negative B-ALL patients and performed RNA-seq.
Project description:To gain insights into which pathways might be dysregulated in JMML, we compared the transcriptome profiles among hiPSC and sorted CD33+ myeloid cells from control and patient samples. NS/JMML-derived CD33+ myeloid cells showed dysregulation in major biological processes. Moreover, a consistent expression pattern among sets of genes related to pluripotency and myeloid regulation was observed in the control, NS and NS/JMML CD33+ myeloid cells further supporting generally successful myelopoiesis. Total RNA obtained from hiPSC and sorted CD33+ myeloid cells (at day 14 of differentiation) from control and patient samples
Project description:HOXA7 regulates FL-HSPC self-renewal in vitro and in vivo. We profiled EB-HSPCs after HOXA7 overexpression (EB-HOXA7), or with a control vector (EB-CTR), to assess the gene expression programs regulated by HOXA7. CD34+CD38-CD43+CD90+ HSPCs were infected with lentiviral FUGW vector either empty (FUGW-GFP) or encoding HOXA7(FUGW-GFP-HOXA7) protein. Cells were expanded on op9 for 15 days and than sorted for GFP HSPC immunophenotype.
Project description:To gain insights into which pathways might be dysregulated in JMML, we compared the transcriptome profiles among hiPSC and sorted CD33+ myeloid cells from control and patient samples. NS/JMML-derived CD33+ myeloid cells showed dysregulation in major biological processes. Moreover, a consistent expression pattern among sets of genes related to pluripotency and myeloid regulation was observed in the control, NS and NS/JMML CD33+ myeloid cells further supporting generally successful myelopoiesis.
