Search results for "Protein kinase"
showing 10 items of 1188 documents
FLT3 as a therapeutic target in AML: still challenging after all these years
2010
Abstract Mutations within the FMS-like tyrosine kinase 3 (FLT3) gene on chromosome 13q12 have been detected in up to 35% of acute myeloid leukemia (AML) patients and represent one of the most frequently identified genetic alterations in AML. Over the last years, FLT3 has emerged as a promising molecular target in therapy of AML. Here, we review results of clinical trials and of correlative laboratory studies using small molecule FLT3 tyrosine kinase inhibitors (TKIs) in AML patients. We also review mechanisms of primary and secondary drug resistance to FLT3-TKI, and from the data currently available we summarize lessons learned from FLT3-TKI monotherapy. Finally, for using FLT3 as a molecul…
POLYPHENOLS FROM RED WINE MODULATE IMMUNE RESPONSIVENESS: BIOLOGICAL AND CLINICAL SIGNIFICANCE.
2008
Many studies have been conducted on the effects of red wine polyphenols on certain diseases, primarily, coronary heart disease (CHD) and, in this respect, evidence has been demonstrated that intake of red wine is associated with a reduction of CHD symptomatology. In this framework, the purpose of this review is to illustrate the effects of polyphenols on immune cells from human healthy peripheral blood. Data will show that polyphenols are able to stimulate both innate and adaptive immune responses. In particular, the release of cytokines such as interleukin (IL)-12, interferon (IFN)-gamma, and IL-10 as well as immunoglobulins may be important for host protection in different immune related …
A MiR-142-3p/EGR2 Feedback Circuitry In Human CSF-1 Driven Differentiation of Monocytes Into Macrophages
2011
Abstract Abstract 2366 Colony-stimulating factor-1 (CSF-1 or M-CSF) triggers the differentiation of human peripheral blood monocytes into macrophages through and integrated cytokine/transcription factors circuitry. Using microarray profiling to explore the role of microRNAs (miRNAs) in this molecular circuitry, we identified the down-regulation of miR-142-3p in human macrophages obtained from CSF-1-treated monocytes. We show that miR-142-3p is a repressor of the transcription factor EGR2 (Early Growth Response 2) through direct 3'UTR interactions. Interestingly, EGR2 binds the promoter of the pre-miR-142-3p gene to negatively regulate its expression, identifying a self-regulatory feedback l…
Myeloperoxidase mediates neutrophil activation by association with CD11b/CD18 integrins.
2004
Recruitment and activation of polymorphonuclear neutrophils (PMNs) reflects a primary immunological response to invading pathogens and has also emerged as a hallmark of vascular inflammation. One of the principal enzymes released upon PMN activation is myeloperoxidase (MPO), a heme protein that not only generates cytotoxic oxidants but also impacts deleteriously on nitric oxide-dependent signaling cascades within the vasculature. Because MPO also associates with the membrane of PMN, we evaluated whether MPO could also function as an autocrine modulator of PMN activation. The extent of PMN membrane-associated MPO was elevated in patients with acute inflammatory vascular disease compared with…
Role of intracellular calcium on ethanol-induced activation of protein kinase A: molecular model and behavioral consequences
2014
Ethanol can be considered a weak drug when compared to most other drugs of abuse. The molecule of ethanol has no asymmetric carbon. Being so, it does not interact with the biological substrates in a stereoselective way as most of the receptor ligand drugs do. Moreover, ethanol has a very simple chemical structure. Thus, the hydroxyl group provides a dipole that allows the formation of hydrogen bonds. It is the formation of hydrogen bonds that makes ethanol soluble in water. In contrast, ethanol presents an aliphatic moiety that provides a lipophilic group that can interact with non-polar cellular elements. However, contrary to what it is generally believed, ethanol has low lipid solubility.…
ShRNA-mediated knock-down of CXCL8 inhibits tumor growth in colorectal liver metastasis.
2018
CXCL8 belongs to proinflammatory chemokines that are predominantly involved in neutrophil chemotaxis and degranulation. Several studies have suggested that secretion of CXCL8 from cancer cells have a profound effect on tumor microenvironment. In this study, in continuation to our previous work of understanding the global picture of invasion related genes in colorectal liver metastases, we clearly show an up-regulation of CXCL8 expression in the tumor cells at the invasion front as compared to the tumor cells in the inner parts of the tumor. Furthermore, ShRNA mediated down-regulation of CXCL8 resulted in inhibition of cell proliferation, viability and invasion in vitro and a near complete g…
RNA-mediated therapies in myotonic dystrophy
2018
Myotonic dystrophy 1 (DM1) is a multisystemic neuromuscular disease caused by a dominantly inherited 'CTG' repeat expansion in the gene encoding DM Protein Kinase (DMPK). The repeats are transcribed into mRNA, which forms hairpins and binds with high affinity to the Muscleblind-like (MBNL) family of proteins, sequestering them from their normal function. The loss of function of MBNL proteins causes numerous downstream effects, primarily the appearance of nuclear foci, mis-splicing, and ultimately myotonia and other clinical symptoms. Antisense and other RNA-mediated technologies have been applied to target toxic-repeat mRNA transcripts to restore MBNL protein function in DM1 models, such as…
Myotonic dystrophy: candidate small molecule therapeutics
2017
Myotonic dystrophy type 1 (DM1) is a rare multisystemic neuromuscular disorder caused by expansion of CTG trinucleotide repeats in the noncoding region of the DMPK gene. Mutant DMPK transcripts are toxic and alter gene expression at several levels. Chiefly, the secondary structure formed by CUGs has a strong propensity to capture and retain proteins, like those of the muscleblind-like (MBNL) family. Sequestered MBNL proteins cannot then fulfill their normal functions. Many therapeutic approaches have been explored to reverse these pathological consequences. Here, we review the myriad of small molecules that have been proposed for DM1, including examples obtained from computational rational …
Expanded CCUG repeat RNA expression in Drosophila heart and muscle trigger Myotonic Dystrophy type 1-like phenotypes and activate autophagocytosis ge…
2016
AbstractMyotonic dystrophies (DM1–2) are neuromuscular genetic disorders caused by the pathological expansion of untranslated microsatellites. DM1 and DM2, are caused by expanded CTG repeats in the 3′UTR of the DMPK gene and CCTG repeats in the first intron of the CNBP gene, respectively. Mutant RNAs containing expanded repeats are retained in the cell nucleus, where they sequester nuclear factors and cause alterations in RNA metabolism. However, for unknown reasons, DM1 is more severe than DM2. To study the differences and similarities in the pathogenesis of DM1 and DM2, we generated model flies by expressing pure expanded CUG ([250]×) or CCUG ([1100]×) repeats, respectively, and compared …
Sense and Antisense DMPK RNA Foci Accumulate in DM1 Tissues during Development.
2015
International audience; Myotonic dystrophy type 1 (DM1) is caused by an unstable expanded CTG repeat located within the DMPK gene 3'UTR. The nature, severity and age at onset of DM1 symptoms are very variable in patients. Different forms of the disease are described, among which the congenital form (CDM) is the most severe. Molecular mechanisms of DM1 are well characterized for the adult form and involve accumulation of mutant DMPK RNA forming foci in the nucleus. These RNA foci sequester proteins from the MBNL family and deregulate CELF proteins. These proteins are involved in many cellular mechanisms such as alternative splicing, transcriptional, translational and post-translational regul…