Dasatinib in First- and Second-Line Therapy of Chronic Myeloid Leukemia: Efficacy, Safety and Quality of Life

Background & Aims. The article presents results of two observational, prospective, multicenter studies “Quality of Life, Symptom Profile, and Adherence to Treatment in Adult Patients with Newly Diagnosed Chronic Phase Chronic Myeloid Leukemia Receiving Dasatinib” (2012–2015) and “Quality of Life and Symptom Profile in Imatinib-Resistant or Intolerant Patients with Chronic Myeloid Leukemia” (2011–2014). Methods. Data of 107 patients with chronic myeloid leukemia in chronic phase were involved in the real-world analysis — 32 newly diagnosed patients on first-line treatment with dasatinib or after yearly switch to dasatinib after imatinib treatment failure and 75 imatinib-resistant or intolerant patients on second-line treatment with dasatinib. Treatment effectiveness and safety of dasatinib were assessed during first and second-line dasatinib treatment using clinical outcomes as well as quality of life and symptom profile assessment. Results. The real-world data obtained during observational study in limited population of CML patients conform the results of clinical trials devoted to evaluation of treatment efficacy and safety of dasatinib treatment in first and second-line treatment and demonstrate the importance of patient-reported outcomes. Patient’s quality of life improved within 12 months of the first-line dasatinib therapy according to the following scales: role physical functioning, pain, vitality, social functioning and role emotional functioning. The most pronounced and clinically significant improvement was observed for the role emotional functioning (51.1 vs. 68.9). During the second-line dasatinib treatment, stabilization of quality of life parameters was registered for the following scales: vitality, social functioning, mental health, and pain. Significant improvement of the Integral Quality of Life Index was observed (p < 0.05). Positive dynamics of relevant symptoms was registered. The symptom severity decreased during both the first and second-line therapy. Conclusion. Quality of life and symptom assessment in CML patients contribute to a better disease control in accordance with the principles of risk-adaptive therapy

Integrin β3 Crosstalk with VEGFR Accommodating Tyrosine Phosphorylation as a Regulatory Switch

Integrins mediate cell adhesion, migration, and survival by connecting intracellular machinery with the surrounding extracellular matrix. Previous studies demonstrated the importance of the interaction between β3 integrin and VEGF type 2 receptor (VEGFR2) in VEGF-induced angiogenesis. Here we present in vitro evidence of the direct association between the cytoplasmic tails (CTs) of β3 and VEGFR2. Specifically, the membrane-proximal motif around 801YLSI in VEGFR2 mediates its binding to non-phosphorylated β3CT, accommodating an α-helical turn in integrin bound conformation. We also show that Y747 phosphorylation of β3 enhances the above interaction. To demonstrate the importance of β3 phosphorylation in endothelial cell functions, we synthesized β3CT-mimicking Y747 phosphorylated and unphosphorylated membrane permeable peptides. We show that a peptide containing phospho-Y747 but not F747 significantly inhibits VEGF-induced signaling and angiogenesis. Moreover, phospho-Y747 peptide exhibits inhibitory effect only in WT but not in β3 integrin knock-out or β3 integrin knock-in cells expressing β3 with two tyrosines substituted for phenylalanines, demonstrating its specificity. Importantly, these peptides have no effect on fibroblast growth factor receptor signaling. Collectively these data provide novel mechanistic insights into phosphorylation dependent cross-talk between integrin and VEGFR2

A Constitutional Translocation t(1;17)(p36.2;q11.2) in a Neuroblastoma Patient Disrupts the Human NBPF1 and ACCN1 Genes

The human 1p36 region is deleted in many different types of tumors, and so it probably harbors one or more tumor suppressor genes. In a Belgian neuroblastoma patient, a constitutional balanced translocation t(1;17)(p36.2;q11.2) may have led to the development of the tumor by disrupting or activating a gene. Here, we report the cloning of both translocation breakpoints and the identification of a novel gene that is disrupted by this translocation. This gene, named NBPF1 for Neuroblastoma BreakPoint Family member 1, belongs to a recently described gene family encoding highly similar proteins, the functions of which are unknown. The translocation truncates NBPF1 and gives rise to two chimeric transcripts of NBPF1 sequences fused to sequences derived from chromosome 17. On chromosome 17, the translocation disrupts one of the isoforms of ACCN1, a potential glioma tumor suppressor gene. Expression of the NBPF family in neuroblastoma cell lines is highly variable, but it is decreased in cell lines that have a deletion of chromosome 1p. More importantly, expression profiling of the NBPF1 gene showed that its expression is significantly lower in cell lines with heterozygous NBPF1 loss than in cell lines with a normal 1p chromosome. Meta-analysis of the expression of NBPF and ACCN1 in neuroblastoma tumors indicates a role for the NBPF genes and for ACCN1 in tumor aggressiveness. Additionally, DLD1 cells with inducible NBPF1 expression showed a marked decrease of clonal growth in a soft agar assay. The disruption of both NBPF1 and ACCN1 genes in this neuroblastoma patient indicates that these genes might suppress development of neuroblastoma and possibly other tumor types

Aspirin and non-steroidal anti-inflammatory drug use and the risk of upper aerodigestive tract cancer

Background:Aspirin and other non-steroidal anti-inflammatory drugs (NSAIDs) are widely used as analgesics and preventative agents for vascular events. It is unclear whether their long-term use affects cancer risk. Data on the chemopreventative role of these drugs on the risk of the upper aerodigestive tract cancer (UADT) are insufficient and mostly refer to oesophageal cancer. The aim of this study was to investigate the effect of aspirin and other NSAIDs on the risk of UADT cancers.Methods:A nested case-control study using the Primary Care Clinical Informatics Unit (PCCIU) database. Conditional logistics regression was used for data analysis.Results:There were 2392 cases of UADT cancer diagnosed between 1996 and 2010 and 7165 age-, gender- and medical practice-matched controls from 131 general medical practices. Mean age of cases was 66 years (s.d. 12) and most were male (63%). Aspirin was prescribed in a quarter of cases and controls, COX-2 inhibitors in 4% of cases and 5% of controls and other NSAIDs in 33% of cases and 36% of controls. Aspirin prescription was associated with a nonsignificant risk reduction of cancer of UADT (adjusted OR=0.9, 95% CI=0.8, 1.0), head and neck (HN; adjusted OR=0.9, 95% CI=0.7, 1.1) or the oesophagus (adjusted OR=0.8, 95% CI=0.7, 1.0). Similar results were found for COX-2 inhibitors prescription. Prescription of other NSAIDs was associated with significantly reduced risk of cancer of UADT (adjusted OR=0.8, 95% CI=0.7, 0.9), HN (adjusted OR=0.8, 95% CI=0.7, 0.9) and the oesophagus (adjusted OR=0.8, 95% CI=0.7, 0.9). An increased volume of aspirin prescriptions was associated with a significant risk reduction (test for trend

Synaptic plasticity in cephalopods; more than just learning and memory?

The outstanding behavioural capacity of cephalopods is underpinned by a highly sophisticated nervous system anatomy and neural mechanisms that often differ significantly from similarly complex systems in vertebrates and insects. Cephalopods exhibit considerable behavioural flexibility and adaptability, and it might be expected that this should be supported by evident cellular and synaptic plasticity. Here, we review what little is known of the cellular mechanisms that underlie plasticity in cephalopods, particularly from the point of view of synaptic function. We conclude that cephalopods utilise short-, medium-, and long-term plasticity mechanisms that are superficially similar to those so far described in vertebrate and insect synapses. These mechanisms, however, often differ significantly from those in other animals at the biophysical level and are deployed not just in the central nervous system, but also to a limited extent in the peripheral nervous system and neuromuscular junctions.</p