Your search keyword '"Anoop K Enjeti"' showing total 2 results

1. Blockade of redox second messengers inhibits JAK/STAT and MEK/ERK signaling sensitizing FLT3-mutant acute myeloid leukemia to targeted therapies

Author

Zacary P. Germon, Jonathan R. Sillar, Abdul Mannan, Ryan J. Duchatel, Dilana Staudt, Heather C. Murray, Izac J. Findlay, Evangeline R. Jackson, Holly P. McEwen, Alicia M. Douglas, Tabitha McLachlan, John E. Schjenken, David A. Skerrett-Bryne, Honggang Huang, Marcella N. Melo-Braga, Maximilian W. Plank, Frank Alvaro, Janis Chamberlain, Geoff De Iuliis, R. John Aitken, Brett Nixon, Andrew H. Wei, Anoop K. Enjeti, Richard B. Lock, Martin R. Larsen, Heather Lee, Charles E. de Bock, Nicole M. Verrills, and Matthew D. Dun

Subjects

hemic and lymphatic diseases, embryonic structures

Abstract

FLT3-mutations are diagnosed in 25-30% of patients with acute myeloid leukemia (AML) and are associated with a poor prognosis. AML is associated with the overproduction of reactive oxygen species (ROS), which drives genomic instability through the oxidation of DNA bases, promoting clonal evolution, treatment resistance and poor outcomes. ROS are also important second messengers, triggering cysteine oxidation in redox sensitive signaling proteins, however, the specific pathways influenced by ROS in AML remain enigmatic. Here we have surveyed the posttranslational architecture of primary AML patient samples and assessed oncogenic second messenger signaling. Signaling proteins responsible for growth and proliferation were differentially oxidized and phosphorylated between patient subtypes either harboring recuring mutation in FLT3 compared to patients expressing the wildtype-FLT3 receptor, particularly those mapping to the Src family kinases (SFKs). Patients harboring FLT3-mutations also showed increased oxidative posttranslational modifications in the GTPase Rac activated-NADPH oxidase-2 (NOX2) complex to drive autocratic ROS production. Pharmacological and molecular inhibition of NOX2 was cytotoxic specifically to FLT3-mutant AMLs, and reduced phosphorylation of the critical hematopoietic transcription factor STAT5 and MAPK/ERK to synergistically increase sensitivity to FLT3-inhibitors. NOX2 inhibition also reduced phosphorylation and cysteine oxidation of FLT3 in patient derived xenograft mouse models in vivo, highlighting an important link between oxidative stress and oncogenic signaling. Together, these data raise the promising possibility of targeting NOX2 in combination with FLT3-inhibitors to improve treatment of FLT3-mutant AML.One Sentence SummaryFLT3-precision therapies have entered the clinic for AML however, their durability is limited. Here we identify the Rac-NOX2 complex as the major driver of redox second messenger signaling in FLT3-mutant AML. Molecular and pharmacological inhibition of NOX2 decreased FLT3, STAT5 and MEK/ERK signaling to delay leukemia progression, and synergistically combined with FLT3 inhibitors.

Published

2022

2. SINEultaneous profiling of epigenetic heterogeneity and transcriptome in single cells

Author

Nicole M. Verrills, Matthew D. Dun, Sean Burnard, Ellise A Roper, Heather J. Lee, Anoop K Enjeti, Kooper V Hunt, and Danielle R. Bond

Subjects

Transcriptome, Transposable element, Bisulfite sequencing, DNA methylation, Alu element, Epigenetics, Computational biology, Methylation, Biology, Amplicon

Abstract

Global changes in DNA methylation are observed in developmental and disease contexts, and singlecell analyses are highlighting the heterogeneous regulation of these processes. However, technical challenges associated with single-cell analysis of DNA methylation limit these studies. We present single-cell transposable element methylation sequencing (scTEM-seq) for cost-effective estimation of global DNA methylation levels. By targeting high-copy LINE-1 and SINE Alu elements, we achieve amplicon bisulphite sequencing with thousands of loci covered in each library. Parallel transcriptome analysis is also performed to link global DNA methylation heterogeneity with gene expression. We apply scTEM-seq to KG1a acute myeloid leukaemia (AML) cells, and primary AML cells. Decitabine treatment of KG1a cells induces global DNA methylation heterogeneity associated with altered expression of immune process genes. We also compare global levels of DNA methylation to expression of transposable elements and find a predominance of negative correlations in both the KG1a and patient cells. Finally, we observe co-ordinated upregulation of many transposable elements in a sub-set of decitabine treated cells. By linking global DNA methylation heterogeneity with transcription, scTEM-seq will refine our understanding of epigenetic regulation in cancer and beyond.

Published

2021