Monideepa Roy - Academia.edu (original) (raw)
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Papers by Monideepa Roy
Molecular and Cellular Biology, 2005
IQGAP1 modulates many cellular functions such as cell-cell adhesion, transcription, cytoskeletal ... more IQGAP1 modulates many cellular functions such as cell-cell adhesion, transcription, cytoskeletal architecture, and selected signaling pathways. We previously documented that IQGAP1 binds extracellular signalregulated kinase (ERK) 2 and regulates growth factor-stimulated ERK activity. Here we show that MEK, the molecule immediately upstream of ERK in the Ras/mitogen-activated protein (MAP) kinase signaling cascade, also interacts directly with IQGAP1. Both MEK1 and MEK2 bound IQGAP1 in vitro and coimmunoprecipitated with IQGAP1. The addition of ERK2 enhanced by fourfold the in vitro interaction of MEK2 with IQGAP1 without altering binding of MEK1. Similarly, ERK1 promoted MEK binding to IQGAP1, but neither MEK protein altered the association between IQGAP1 and ERK. Epidermal growth factor (EGF) differentially regulated binding, enhancing MEK1 interaction while reducing MEK2 binding to IQGAP1. In addition, both knockdown and overexpression of IQGAP1 reduced EGF-stimulated activation of MEK and ERK. Analyses with selective IQGAP1 mutant constructs indicated that MEK binding is crucial for IQGAP1 to modulate EGF activation of ERK. Our data strongly suggest that IQGAP1 functions as a molecular scaffold in the Ras/MAP kinase pathway.
Molecular and Cellular Biology, 2006
NOTCH1 is a large type I transmembrane receptor that regulates normal T-cell development via a si... more NOTCH1 is a large type I transmembrane receptor that regulates normal T-cell development via a signaling pathway that relies on regulated proteolysis. Ligand binding induces proteolytic cleavages in NOTCH1 that release its intracellular domain (ICN1), which translocates to the nucleus and activates target genes by forming a short-lived nuclear complex with two other proteins, the DNA-binding factor CSL and a Mastermind-like (MAML) coactivator. Recent work has shown that human T-ALL is frequently associated with C-terminal NOTCH1 truncations, which uniformly remove sequences lying between residues 2524 and 2556. This region includes the highly conserved sequence WSSSSP (S4), which based on its amino acid content appeared to be a likely site for regulatory serine phosphorylation events. We show here that the mutation of the S4 sequence leads to hypophosphorylation of ICN1; increased NOTCH1 signaling; and the stabilization of complexes containing ICN1, CSL, and MAML1. Consistent with these in vitro studies, mutation of the WSSSSP sequence converts nonleukemogenic weak gain-of-function NOTCH1 alleles into alleles that cause aggressive T-ALLs in a murine bone marrow transplant model. These studies indicate that S4 is an important negative regulatory sequence and that the deletion of S4 likely contributes to the development of human T-ALL.
Current Opinion in Genetics & Development, 2007
Molecular and Cellular Biology, 2005
IQGAP1 modulates many cellular functions such as cell-cell adhesion, transcription, cytoskeletal ... more IQGAP1 modulates many cellular functions such as cell-cell adhesion, transcription, cytoskeletal architecture, and selected signaling pathways. We previously documented that IQGAP1 binds extracellular signalregulated kinase (ERK) 2 and regulates growth factor-stimulated ERK activity. Here we show that MEK, the molecule immediately upstream of ERK in the Ras/mitogen-activated protein (MAP) kinase signaling cascade, also interacts directly with IQGAP1. Both MEK1 and MEK2 bound IQGAP1 in vitro and coimmunoprecipitated with IQGAP1. The addition of ERK2 enhanced by fourfold the in vitro interaction of MEK2 with IQGAP1 without altering binding of MEK1. Similarly, ERK1 promoted MEK binding to IQGAP1, but neither MEK protein altered the association between IQGAP1 and ERK. Epidermal growth factor (EGF) differentially regulated binding, enhancing MEK1 interaction while reducing MEK2 binding to IQGAP1. In addition, both knockdown and overexpression of IQGAP1 reduced EGF-stimulated activation of MEK and ERK. Analyses with selective IQGAP1 mutant constructs indicated that MEK binding is crucial for IQGAP1 to modulate EGF activation of ERK. Our data strongly suggest that IQGAP1 functions as a molecular scaffold in the Ras/MAP kinase pathway.
Molecular and Cellular Biology, 2006
NOTCH1 is a large type I transmembrane receptor that regulates normal T-cell development via a si... more NOTCH1 is a large type I transmembrane receptor that regulates normal T-cell development via a signaling pathway that relies on regulated proteolysis. Ligand binding induces proteolytic cleavages in NOTCH1 that release its intracellular domain (ICN1), which translocates to the nucleus and activates target genes by forming a short-lived nuclear complex with two other proteins, the DNA-binding factor CSL and a Mastermind-like (MAML) coactivator. Recent work has shown that human T-ALL is frequently associated with C-terminal NOTCH1 truncations, which uniformly remove sequences lying between residues 2524 and 2556. This region includes the highly conserved sequence WSSSSP (S4), which based on its amino acid content appeared to be a likely site for regulatory serine phosphorylation events. We show here that the mutation of the S4 sequence leads to hypophosphorylation of ICN1; increased NOTCH1 signaling; and the stabilization of complexes containing ICN1, CSL, and MAML1. Consistent with these in vitro studies, mutation of the WSSSSP sequence converts nonleukemogenic weak gain-of-function NOTCH1 alleles into alleles that cause aggressive T-ALLs in a murine bone marrow transplant model. These studies indicate that S4 is an important negative regulatory sequence and that the deletion of S4 likely contributes to the development of human T-ALL.
Current Opinion in Genetics & Development, 2007