OTS167 blocks FLT3 translation and synergizes with FLT3 inhibitors in FLT3 mutant acute myeloid leukemia.

Internal tandem duplication (-ITD) mutations of Fms-like tyrosine kinase 3 (FLT3) provide growth and pro-survival signals in the context of established driver mutations in FLT3 mutant acute myeloid leukemia (AML). Maternal embryonic leucine zipper kinase (MELK) is an aberrantly expressed gene identified as a target in AML. The MELK inhibitor OTS167 induces cell death in AML including cells with FLT3 mutations, yet the role of MELK and mechanisms of OTS167 function are not understood.

Trauma in Pregnancy.

Although trauma in pregnancy is rare, it is one of the most common causes of morbidity and mortality to pregnant women and fetus. Pathophysiology of trauma is generally time sensitive, and this is still true in pregnant patients, with the additional challenge of rare presentation and balancing the management of two patients concurrently. Successful resuscitation requires understanding the physiologic changes to the woman throughout the course of pregnancy.

LFA-1 co-stimulation inhibits T(h)2 differentiation by down-modulating IL-4 responsiveness.

Initial T cell activation in the context of different co-stimulatory receptors can influence subsequent lineage commitment into T(h) effector cell subtypes. Specifically, CD28 co-stimulation promotes T(h)2 differentiation, whereas leukocyte function-associated antigen-1 (LFA-1) co-stimulation promotes T(h)1 differentiation and inhibits T(h)2 differentiation. In this report, we have addressed the mechanism of LFA-1-mediated inhibition of T(h)2 responses.

The mitochondrion--an organelle commonly involved in programmed cell death in Arabidopsis thaliana.

Plant cells undergoing programmed cell death (PCD) at late stages typically show chromatin condensation and endonucleolytic cleavage prior to obvious membrane or organelle ultrastructural changes. To investigate possible early PCD-associated events, we used microscopic observations and flow cytometry to quantitate mitochondrial membrane potential (DeltaPsim) changes during PCD at the single cell and population levels using Arabidopsis protoplasts. A DeltaPsim loss was commonly induced early during plant PCD and was important for PCD execution, as evidenced by the concomitant reduction of the change in DeltaPsim and PCD by cyclosporin A, which inhibits mitochondrial permeability transition pores in animal cells.

Ig alpha and Ig beta are required for efficient trafficking to late endosomes and to enhance antigen presentation.

The B cell Ag receptor (BCR) is a multimeric complex, containing Ig alpha and Ig beta, capable of internalizing and delivering specific Ags to specialized late endosomes, where they are processed into peptides for loading onto MHC class II molecules. By this mechanism, the presentation of receptor-selected epitopes to T cells is enhanced by several orders of magnitude. Previously, it has been reported that, under some circumstances, either Ig alpha or Ig beta can facilitate the presentation of Ags.

Cutting edge: signals from the B lymphocyte antigen receptor regulate MHC class II containing late endosomes.

The B lymphocyte response to protein Ag is dependent upon the successful presentation to T cells of Ag-derived, MHC class II-restricted peptides. The B cell Ag receptor (BCR) facilitates this process by internalizing ligand and delivering it to specialized compartment(s) (MHC class II peptide-loading compartments (MIIC)) where it is processed into peptides and loaded onto MHC class II. In addition to efficiently targeting Ag, the BCR can provide tyrosine kinase-dependent signals that augment the presentation of Ag, possibly by enhancing the generation of immunogenic peptides.

High-dose intravenous insulin infusion versus intensive insulin treatment in newly diagnosed IDDM.

High-dose intravenous insulin infusion at the onset of IDDM has been suggested to improve beta-cell function during the 1st year of insulin treatment. To test this hypothesis, we randomly assigned newly diagnosed IDDM patients to receive either an experimental 2-week high-dose intravenous insulin infusion (n = 9; age, 25 +/- 7 years; HbA1e, 10.5 +/- 2.

B-cell antigen receptor-induced apoptosis requires both Ig alpha and Ig beta.

The response of a B cell to antigen is dependent on the surface expression of a clonotypic B-cell receptor complex (BCR) consisting of membrane-bound Ig and disulfide-linked heterodimers of Ig alpha/beta. Studies of Ig alpha or Ig beta have shown that the immunoreceptor tyrosine-based activation motif (ITAM) found in each cytoplasmic tail is capable of inducing most receptor signaling events. However, Ig alpha, Ig beta, and most of the other receptor chains that contain ITAMs, including CD3 epsilon, CD3 gamma, TCR zeta, and Fc epsilon Rl gamma, are found as components of multimeric and heterogeneous complexes.

Regulation of surface and intracellular expression of CTLA4 on mouse T cells.

CTLA4 is a cell surface molecule that shares 30% homology with CD28 and binds B7 family members with high affinity. Analysis of surface expression on murine T cells revealed up-regulation after stimulation with anti-CD3 mAb in vitro and further augmentation after the addition of exogenous IL-2 or anti-CD28 mAb. The effects of IL-2 and anti-CD28 mAb were additive and in part independent, as anti-CD28 mAb increased anti-CD3 mAb-induced T cell CTLA4 expression in IL-2-deficient mice.

Constitutive activation of a phosphoinositidase C-linked G protein in murine fibroblasts decreases agonist-stimulated Ca2+ mobilization.

We compared Ca2+ signaling and inositol polyphosphate metabolism in NIH-3T3 cells stably transfected with cDNA encoding either the wild-type G protein G16 alpha subunit or a GTPase-deficient alpha 16 subunit (Q212L-alpha 16). Constitutive activation of phosphoinositidase C (PIC) in cells expressing Q212L-alpha 16 was demonstrated by 1) an increased basal level of [3H]inositol polyphosphates, 2) an enhanced rate of [3H]inositol polyphosphate accumulation in cells treated with 10 mM LiCl, and 3) an increased rate of incorporation of [3H]inositol into cell lipids. Q212L-alpha 16 cells had a diminished cell growth rate.

Cooperativity and segregation of function within the Ig-alpha/beta heterodimer of the B cell antigen receptor complex.

The B cell antigen receptor complex contains heterodimers of Ig-alpha and Ig-beta. The cytoplasmic tails of each of these chains contain two conserved tyrosines, phosphorylation of which initiates the signal transduction cascades activated by the receptor complex. Although the cytoplasmic domains of Ig-alpha and Ig-beta have been expressed individually and demonstrated to be competent signal transduction units, we postulated that within the context of a heterodimer, Ig-alpha and Ig-beta could have new, complementary or even synergistic functions.

The B cell antigen receptor complex: mechanisms and implications of tyrosine kinase activation.

The B cell receptor is a multimeric receptor complex whose constituent chains appear to mediate distinct and possibly interrelated functions. In this review we have focused on how one chain, immunoglobulin (Ig)-alpha, may function to activate tyrosine kinases and the consequences of that activation. The cytoplasmic domain of Ig-alpha contains a consensus sequence, the antigen recognition homology 1 (ARH 1) motif, which is found in Ig-beta and other antigen recognition receptor associated chains.

Selective coupling of the human anaphylatoxin C5a receptor and alpha 16 in human kidney 293 cells.

The peptide C5a which is generated during the complement cascade is an important chemotactic factor involved in the inflammatory response. The C5a receptor (C5aR) primary sequence suggests that it has a serpentine structure of seven transmembrane domains which is typical of classical G-protein-coupled receptors. To investigate the signal transduction mechanism of C5a we transiently expressed the C5aR in combination with different G-protein alpha subunits in human kidney 293 cells and measured the PLC activity induced upon C5a stimulation.

Myristoylation of the G alpha i2 polypeptide, a G protein alpha subunit, is required for its signaling and transformation functions.

GTPase-inhibiting mutations of the alpha subunit (alpha i2) of the G protein, Gi2, result in constitutive activation of alpha i2 signal transduction functions. GTPase-inhibited alpha i2 mutant polypeptides, referred to as gip2 oncoproteins, have glutamine-205 mutated to leucine (alpha i2Q205L). Expression of the alpha i2Q205L polypeptide inhibits adenylyl cyclase stimulation, constitutively activates p42 mitogen-activated protein kinase, and transforms Rat 1a fibroblasts.

NH2-terminal modification of the phosphatase 2A catalytic subunit allows functional expression in mammalian cells.

Functional expression of recombinant wild-type phosphatase 2A catalytic subunit has been unsuccessful in the past. A nine-amino-acid peptide sequence (YP-YDVPDYA) derived from the influenza hemagglutinin protein was used to modify the NH2 and/or COOH terminus of the phosphatase 2A catalytic subunit. Addition of the nine-amino-acid sequence at the NH2 terminus allowed recombinant phosphatase 2A expression as a predominantly cytosolic phosphatase 2A enzyme.

Analysis of the fibroblast transformation potential of GTPase-deficient gip2 oncogenes.

Expression of GTPase-deficient Gi2 alpha subunit (alpha i2) mutant polypeptides and overexpression of the wild-type alpha i2 polypeptide in Rat 1a, Swiss 3T3, and NIH 3T3 fibroblasts altered normal growth regulation and induced a loss of contact inhibition. In Rat 1a cells (but not in NIH 3T3 or Swiss 3T3 cells), expression of the GTPase-deficient alpha i2 mutant polypeptides allowed colony formation in soft agar, which correlated with a loss in anchorage dependence and a decreased serum requirement. The altered growth regulatory properties of Rat 1a cells induced by expression of alpha i2 mutant polypeptides was not significantly inhibited by cotransfection with a dominant negative Ha-ras mutant polypeptide (Asn-17rasH), indicating that the activated Gi2 membrane signal transduction protein is uniquely capable of altering the regulation of Rat 1a cell growth by a predominantly c-ras-independent mechanism.