M. Al-Asadi scite author profile

M. Al-Asadi

4Publications

11Citation Statements Received

71Citation Statements Given

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University of Nottingham, University of Basrah

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A molecular signature of dormancy in CD34+CD38- acute myeloid leukaemia cells

et al. 2017

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Dormant leukaemia initiating cells in the bone marrow niche are a crucial therapeutic target for total eradication of acute myeloid leukaemia. To study this cellular subset we created and validated an in vitro model employing the cell line TF-1a, treated with Transforming Growth Factor β1 (TGFβ1) and a mammalian target of rapamycin inhibitor. The treated cells showed decreases in total RNA, Ki-67 and CD71, increased aldehyde dehydrogenase activity, forkhead box 03A (FOX03A) nuclear translocation and growth inhibition, with no evidence of apoptosis or differentiation. Using human genome gene expression profiling we identified a signature enriched for genes involved in adhesion, stemness/inhibition of differentiation and tumour suppression as well as canonical cell cycle regulation. The most upregulated gene was the osteopontin-coding gene SPP1. Dormant cells also demonstrated significantly upregulated beta 3 integrin (ITGB3) and CD44, as well as increased adhesion to their ligands vitronectin and hyaluronic acid as well as to bone marrow stromal cells. Immunocytochemistry of bone marrow biopsies of AML patients confirmed the positive expression of osteopontin in blasts near the para-trabecular bone marrow, whereas osteopontin was rarely detected in mononuclear cell isolates. Unsupervised hierarchical clustering of the dormancy gene signature in primary acute myeloid leukaemia samples from the Cancer Genome Atlas identified a cluster enriched for dormancy genes associated with poor overall survival.

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A Method for Incorporating Charged Particle Motion Within a 2-D TLM Field Code

Al-Asadi

Benson

Christopoulos

1996

Int. J. Numer. Model.

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Charged particle motion is incorporated within a transmission line modelling (TLM) field code to establish a new model which allows the investigation of field‐particle interactions. The model is validated by using it to predict the trajectory of moving particles and the field and potential distributions inside a planar diode for which analytical solutions are available. The effect of space charge on the operation of the diode is also investigated. The model is then applied to study in detail a practical electron gun design.

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Interfacing field problems modelled by TLM to lumpedcircuits

1994

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Molecular Signature of Dormancy in CD34+CD38- Acute Myeloid Leukaemia Cells

Al-Asadi

Castellanos

May

et al. 2016

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Chemotherapy drugs tend to spare cells in a state of dormancy (G0 phase of the cell cycle). Relapse of acute myeloid leukaemia (AML) is likely in part due to dormant cells evading remission-induction chemotherapy. Dormant AML cells have been identified in the bone marrow endosteal region which is characterised by an excess of TGFβ1 and a shortage of nutrients. We developed and characterized an in-vitro model of AML cell dormancy by exploiting these features. Following preliminary investigation of several cell lines, the CD34+CD38- line TF1a was selected for in depth investigation. TF1a cells showed 72% inhibition of proliferation (p<0.001), with features of dormancy, in response to 72 hours TGFβ1+mTOR inhibitor treatment (mTOR pathway inhibition mimics major effects of nutrient scarcity).This treatment caused loss of Ki-67, as well as upregulating ALDH and CD34 and causing nuclear translocation of FOXO3a. In contrast to conventional serum-withdrawal assays for dormancy, the treatment had no impact on cell viability, assessed by Annexin V assay. Nor did the treatment lead to cell differentiation, assessed by CD11b staining and morphology. Using whole human genome expression microarray and by intersecting differentially regulated genes in dormancy-induced TF1a cells in comparison to their proliferating (untreated) counterparts, we identified 240 genes which are significantly up-regulated >2 fold including genes involved in stemness, chemoresistance and tumour suppressor genes in addition to genes involved in canonical cell cycle regulation. There was striking upregulation of genes involved in adhesion and migration: raised expression levels of SPP1 (the gene coding for osteopontin), ITGB3, ITGB4, ITGA3 and CD44 in dormant cells were confirmed by real-time PCR. The most upregulated gene was SPP1/osteopontin (16 fold). Immunocytochemistry of biopsy material from AML patients confirmed high levels of osteopontin in the cytoplasm of blasts near the paratrabecular bone marrow. Osteopontin and other genes identified in this model, including well-characterised genes (e.g. CD44, CD47, CD123, ABBC3 and CDKN2B) as well as little-known ones (e.g. PTPRU, ITGB3 and BTG2), are potential therapeutic targets in dormant AML cells. Disclosures No relevant conflicts of interest to declare.

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M. Al-Asadi

A molecular signature of dormancy in CD34+CD38- acute myeloid leukaemia cells

A Method for Incorporating Charged Particle Motion Within a 2-D TLM Field Code

Interfacing field problems modelled by TLM to lumpedcircuits

Molecular Signature of Dormancy in CD34+CD38- Acute Myeloid Leukaemia Cells

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