Our results are based on a

Our results are based on a Cabozantinib order series of gene knockdown and knockout experiments, showing that BAD and BAX are required to activate caspase-3 in NMDA receptor-dependent LTD, and on the infusion of active BAD and caspase-3, showing that the BAD-BAX-caspase-3 cascade is sufficient for induction of synaptic depression in hippocampal neurons. We further demonstrate that activation of the BAD-BAX-caspase-3 cascade is initiated

by PP2B/calcineurin, PP1, and PP2A. Although in both LTD and apoptosis, the same group of phosphatases is responsible for BAD activation, it is likely that phosphatases respond differently to different Docetaxel manufacturer stimulations. LTD-inducing stimulations are brief and mild, while stimulations used to induce apoptosis (e.g., high concentrations of actinomycin D or NMDA) are prolonged

and strong. In fact, one would expect that mild, LTD-inducing NMDA stimulations would cause a lower level of calcium influx than strong, death-inducing NMDA stimulations. In turn, lower levels of calcium could lead to lower levels of PP2B/calcineurin activation and therefore only weak and brief activation of BAD. The level and duration of BAD activation determine the characteristics of BAX activation during LTD, because our results suggest that the primary mechanism for BAX activation in LTD is activation by BAD. In apoptosis, however, translocation of BAX from the cytosol to mitochondria plays a major Cytidine deaminase role in enhancing mitochondrial permeabilization and cytochrome c release, because under physiological conditions, BAX predominantly resides in the cytosol, with only a minor fraction being present on mitochondrial membranes (Hsu et al., 1997). Why the level of BAX

in mitochondria is not elevated in LTD remains unclear. In fact, even during apoptosis, the mechanism leading to BAX translocation to mitochondria is elusive. It has been suggested that some apoptotic stimulations induce sequential phosphorylations of BAX, for instance, by AKT and GSK3β (Arokium et al., 2007). Phosphorylation could then trigger a conformational change in BAX, thereby allowing it to interact with BAX-binding proteins, such as the p53 upregulated modulator of apoptosis (PUMA), which promotes BAX translocation (Zhang et al., 2009). Among the known proteins that regulate BAX translocation, only GSK-3β is known to be activated in NMDA receptor-dependent LTD (Peineau et al., 2007). It is conceivable that additional BAX-interacting proteins necessary to enable BAX translocation are not sufficiently activated by stimulations that induce LTD, leading to a lack of BAX accumulation in mitochondria.

Comments are closed.