1,721,170 research outputs found
Src family kinases as potential therapeutic targets for malignancies and immunological disorders
No full textThe Src family consists of eight non-receptor protein tyrosine kinases characterised by a common structure. Based on their amino acid sequence, Src family kinases are grouped into two subfamilies, which are also characterised by different tissue specificity. Src kinases are involved in signal transduction pathways triggered by a wide variety of surface receptors, including receptor tyrosine kinases, integrins, G-protein-coupled receptors and antigen receptors. Several pieces of evidence implicate Src family kinases in cancer development, as a consequence of changes in protein expression and/or kinase activity, and have prompted the design of potent specific inhibitors, the most common of which are adenine mimetics, as tools of relevant clinical interest for the treatment of both solid tumours and leukaemias. In addition, the finding that some Src kinases expressed in haematopoietic cells play pivotal roles in lymphocyte maturation and activation has fostered the development of safe and effective inhibitors selective for specific Src family members, which are currently being tested in clinical trials as immunosuppressants for the treatment of immunological disorders. Here we shall review the recent literature on the involvement of Src family kinases in human neoplasias and immunological disorders and the goals reached in the search for selective pharmacological inhibitors
S1PR2 deficiency in DLBCL: A FOXy connection
No full textInactivating mutations in the sphingosine-1-phosphate (S1P) receptor 2 (S1PR2) promoter have been associated with the germinal center (GC) B-cell diffuse large B-cell lymphoma (GCB-DLBCL) subtype. In this issue of Blood, Flori et al have now identified S1PR2 as a tumor suppressor that is transcriptionally silenced by forkhead box protein 1 (FOXP1) in the aggressive, activated B-cell (ABC-DLBCL) subtype.1
B cell development: COX-1 joins the game
No full textComment on
COX-1-derived thromboxane A2 plays an essential role in early B-cell development via regulation of JAK/STAT5 signaling in mouse. [Blood. 2014
The potential of peroxisome proliferator-activated receptor gamma (PPARgamma) ligands in the treatment of hematological malignancies
No full textPPAR␣ has emerged as a key regulator of cell growth and survival, whose activity is modulated by a number of synthetic and natural ligands. Here we shall review the activities of PPAR␣ ligands in the control of immune cell prolifera- tion, differentiation and apoptosis and their potential therapeutic applications to hematological malignancies
Boosting chemokine receptor recycling: An elixir of life for chronic lymphocytic leukemia
Full text linkThe Rab GTPase Rab8 as a shared regulator of ciliogenesis and immune synapse assembly: from a conserved pathway to diverse cellular structures
No full textRab GTPases, which form the largest branch of the Ras GTPase superfamily, regulate almost every step of vesicle-mediated trafficking. Among them, Rab8 is an essential participant in primary cilium formation. In a report recently published in the Journal of Cell Science, Finetti and colleagues identify Rab8 as a novel player in vesicular traffic in the non-ciliated T lymphocytes, which contributes to the assembly of the specialized signaling platform known as the immune synapse. By interacting with the v-SNARE VAMP-3, Rab8 is indeed responsible for the final docking/fusion step in T cell receptor (TCR) recycling to the immune synapse. A second important take-home message which comes to light from this work is that VAMP-3 also interacts with Rab8 at the base of the cilium in NIH-3T3 cells, where it regulates ciliary growth and targeting of Smoothened at the plasma membrane. Hence the data presented in this report, in addition to identifying Rab8 as a novel player in vesicular traffic to the immune synapse, reveal how both ciliated and non-ciliated cells take advantage of a conserved pathway to build highly specific cellular structures
Apoptosis and oxidative stress-related diseases: the p66Shc connection
No full textp66Shc is the only known proapoptotic member of the Shc protein family of molecular adaptors. Through its redox activity, p66Shc oxidates cytochrome-c, leading to increased ROS production and, eventually, to apoptosis. p66Shc has been implicated in the control of oxidative stress and life span in mammals. In this review the multifaceted role of p66Shc in redox regulation will be discussed, with a focus on the mechanisms underlying p66Shc-dependent apoptosis and its role in oxidative stress-related diseases
The BCR signalosome: where cell fate is decided
No full textB cell antigen receptor (BCR) engagement results in the assembly of a multimolecular complex at the cytosolic side of the plasma membrane, known as signalosome. Here we briefly review the current knowledge on the molecules which participate in the BCR signalosome and on the response modulators which control the final signal output by enhancing or dampening BCR signaling
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