Mitotic cells undergo extensive changes in shape and size through the altered regulation and function of their membrane trafficking machinery. Disabled 2 (Dab2), a multidomain cargo-specific endocytic adaptor and a mediator of signal transduction, is a potential integrator of trafficking and signaling. Dab2 binds effectors of signaling and trafficking that localize to different intracellular compartments. Thus, differential localization is a putative regulatory mechanism of Dab2 function. Furthermore, Dab2 is phosphorylated in mitosis and is thus regulated in the cell cycle. However, a detailed description of the intracellular localization of Dab2 in the different phases of mitosis and an understanding of the functional consequences of its phosphorylation are lacking. Here, we show that Dab2 is progressively displaced from the membrane in mitosis. This phenomenon is paralleled by a loss of co-localization with clathrin. Both phenomena culminate in metaphase/ anaphase and undergo partial recovery in cytokinesis. Treatment with 2-methoxyestradiol, which arrests cells at the spindle assembly checkpoint, induces the same effects observed in metaphase cells. Moreover, 2-methoxyestradiol also induced Dab2 phosphorylation and reduced Dab2/clathrin interactions, endocytic vesicle motility, clathrin exchange dynamics, and the internalization of a receptor endowed with an NPXY endocytic signal. Serine/threonine to alanine mutations, of residues localized to the central region of Dab2, attenuated its phosphorylation, reduced its membrane displacement, and maintained its endocytic abilities in mitosis. We propose that the negative regulation of Dab2 is part of an accommodation of the cell to the altered physicochemical conditions prevalent in mitosis, aimed at allowing endocytic activity throughout the cell cycle.
The mode and timing of virally induced cell death hold the potential of regulating viral yield, viral transmission, and the severity of virally induced disease. Orbiviruses such as the epizootic hemorrhagic disease virus (EHDV) are nonenveloped and cytolytic. To date, the death of cells infected with EHDV, the signal transduction pathways involved in this process, and the consequence of their inhibition have yet to be characterized. Here, we report that the Ibaraki strain of EHDV2 (EHDV2-IBA) induces apoptosis, autophagy, a decrease in cellular protein synthesis, the activation of c-Jun N-terminal kinase (JNK), and the phosphorylation of the JNK substrate c-Jun. The production of infectious virions decreased upon inhibition of apoptosis with the pan-caspase inhibitor Q-VD-OPH (quinolyl-valyl-O-methylaspartyl-[-2,6-difluorophenoxy]-methyl ketone), upon inhibition of autophagy with 3-methyladenine or via the knockout of the autophagy regulator Atg5, or upon treatment of infected cells with the JNK inhibitor SP600125 or the cyclin-dependent kinase (CDK) inhibitor roscovitine, which also inhibited c-Jun phosphorylation. Moreover, Q-VD-OPH, SP600125, and roscovitine partially reduced EHDV2-IBA-induced cell death, and roscovitine diminished the induction of autophagy by EHDV2-IBA. Taken together, our results imply that EHDV induces and benefits from the activation of signaling pathways involved in cell stress and death.T he epizootic hemorrhagic disease virus (EHDV) is an arbovirus (genus orbiviruses) of the Reoviridae family that is transmitted by biting midges and infects ruminants. In recent years, outbreaks of epizootic hemorrhagic disease in cattle have been reported in Israel and Turkey (1, 2), suggesting that EHDV is an emerging threat to the cattle industry in Europe (3). EHDV presents structural and sequence similarities to the better-studied bluetongue virus (BTV), sharing its repertoire of infection targets and symptoms of disease (3, 4). However, in spite of structural similarities between these viruses, a recent study suggests that preexisting immunity to BTV does not protect against EHDV infection (5). The EHDV genome is organized in 10 double-stranded RNA (dsRNA) segments encoding seven structural proteins (VP1 to VP7) and the nonstructural (NS) proteins NS1 to NS3. Recently, an additional nonstructural protein, NS4, has been identified in BTV (6, 7), raising the possibility that the same protein occurs in EHDV. The present study mainly employs the Ibaraki strain of EHDV2 (EHDV2-IBA), originally isolated from infected cattle in 1959, in Ibaraki, Japan (8). Selected experiments were also carried out with EHDV7-Israel (EHDV7-ISR), isolated from infected cattle in 2006 in Israel (1).For different types of reoviruses, including BTV, apoptosis is integral to the cellular pathogenesis they induce (9)(10)(11)(12)(13)(14)(15)(16)(17)(18)(19)(20). Yet the molecular mechanisms that govern reovirus-mediated induction of apoptosis are a contentious matter (10,17,19,20). For orbiviruses in general and EHDV in partic...
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