Thank you for visiting nature.com. You are using a browser version with limited support for CSS. To obtain
the best experience, we recommend you use a more up to date browser (or turn off compatibility mode in
Internet Explorer). In the meantime, to ensure continued support, we are displaying the site without styles
and JavaScript.
Inhibiting CaMKII impairs short-term memory (STM) in mice during an avoidance task but does not affect long-term memory (LTM). This suggests that STM and LTM are processed differently, with CaMKII critical for STM but not LTM.
In Alzheimer’s disease, neurons are considered the sole source of amyloid-β (Aβ) peptides that form plaques. Here the authors show that oligodendrocytes, the myelinating glial cells of the brain, also contribute to Aβ plaque burden alongside neurons.
The authors test the model that microglia are crucial for the developmental refinement of neural circuitry by depleting them with PLX5622. Microglia prove dispensable for the experience-dependent maturation of visual circuitry during development.
Snyder et al. report that hippocampal neurons in Egyptian fruit bats modulate their activity depending on the position and identity of human experimenters when bats are flying and encode experimenter position and identity when bats are stationary.
The involvement of age-related myelin damage in Alzheimer’s disease is unclear. Kedia et al. show that T cell-mediated microglia activation triggers a response against myelinating oligodendrocytes contributing to neurodegenerative diseases with amyloidosis.
It has been widely believed that a key function of sleep is to actively clear metabolites and toxins from the brain. Miao, Luo et al. show in mice that brain clearance is markedly reduced—not increased—during sleep and anesthesia.
Physiologically relevant stimulation of dopamine neurons does not function as a reward and does not endow cues with a reward representation. However, high-frequency stimulation is represented as a sensory-specific goal that motivates behavior.
Muller et al. show that some neurons in the cortex learn faster from better-than-expected outcomes compared to worse-than-expected ones; others do the converse, resulting in simultaneous optimism and pessimism, as predicted by distributional reinforcement learning.
In this study the authors show that in the mouse anterior thalamus, the activity of head-direction cells is selectively modulated by sensory stimuli and by the animal’s behavioral state.
