What are the roles of microRNAs at the mammalian synapse?

The modification of neuronal connections in response to stimuli is believed to be the basis of long-term memory formation. It is currently accepted that local protein synthesis critically contributes to site-restricted modulation of individual synapses. Here, we summarize recent evidence implicating miRNAs in this process, leading to altered dendrite morphogenesis and synaptic plasticity. Second, we discuss findings in non-neuronal systems about how RNA-binding proteins can modulate miRNA-mRNA interactions, and how these mechanisms might apply to neurons. Finally, we review recent findings that P-bodies may be important sites for miRNA action at the synapse.

Cell death provoked by loss of interleukin-3 signaling is independent of Bad, Bim, and PI3 kinase, but depends in part on Puma.

Growth and survival of hematopoietic cells is regulated by growth factors and cytokines, such as interleukin 3 (IL-3). When cytokine is removed, cells dependent on IL-3 kill themselves by a mechanism that is inhibited by overexpression of Bcl-2 and is likely to be mediated by proapoptotic Bcl-2 family members. Bad and Bim are 2 such BH3-only Bcl-2 family members that have been implicated as key initiators in apoptosis following growth factor withdrawal, particularly in IL-3-dependent cells. To test the role of Bad, Bim, and other proapoptotic Bcl-2 family members in IL-3 withdrawal-induced apoptosis, we generated IL-3-dependent cell lines from mice lacking the genes for Bad, Bim, Puma, both Bad and Bim, and both Bax and Bak. Surprisingly, Bad was not required for cell death following IL-3 withdrawal, suggesting changes to phosphorylation of Bad play only a minor role in apoptosis in this system. Deletion of Bim also had no effect, but cells lacking Puma survived and formed colonies when IL-3 was restored. Inhibition of the PI3 kinase pathway promoted apoptosis in the presence or absence of IL-3 and did not require Bad, Bim, or Puma, suggesting IL-3 receptor survival signals and PI3 kinase survival signals are independent.