Oligodendrocyte lineage cells driven by neuronal activity in selected brain regions are required for episodic memory formation

Abstract: The formation of long-term episodic memories requires the activation of molecular mechanisms in several regions of the medial temporal lobe, including the hippocampus and anterior cingulate cortex (ACC). The extent to which these regions engage distinct mechanisms and cell types to support memory formation is not well understood. Recent studies reported that oligodendrogenesis is essential for learning and long-term memory; however, whether these mechanisms are required only in selected brain regions is still … Show more

“…Similarly, oligodendrocytes can regulate neurons' axonal properties (e.g., conduction velocity) in an activity-and behavior-dependent manner. Astrocytes bidirectionally communicate with and regulate both microglia and oligodendrocytes (e.g., through diffusible messengers and physical interactions), allowing them to influence neural circuits indirectly and in a spatially and temporally distinct manner than their direct routes is also critical for spike-timing-dependent plasticity in neural circuits (Monje, 2018;Suminaite et al, 2019), and activity-dependent, brain region-specific oligodendrogenesis may be essential for episodic memory formation (Barboza et al, 2021).…”

“…Conversely, nutritional signals regulate OL proliferation, myelin regulatory factor-dependent perineuronal net remodeling, and tuning of the circuit that controls food intake and weight gain in the mediobasal hypothalamus ( Kohnke et al, 2021 ). Adaptive myelination is also critical for spike-timing-dependent plasticity in neural circuits ( Monje, 2018 ; Suminaite et al, 2019 ), and activity-dependent, brain region-specific oligodendrogenesis may be essential for episodic memory formation ( Barboza et al, 2021 ).…”

A perspective on astrocyte regulation of neural circuit function and animal behavior

“…Similarly, oligodendrocytes can regulate neurons' axonal properties (e.g., conduction velocity) in an activity-and behavior-dependent manner. Astrocytes bidirectionally communicate with and regulate both microglia and oligodendrocytes (e.g., through diffusible messengers and physical interactions), allowing them to influence neural circuits indirectly and in a spatially and temporally distinct manner than their direct routes is also critical for spike-timing-dependent plasticity in neural circuits (Monje, 2018;Suminaite et al, 2019), and activity-dependent, brain region-specific oligodendrogenesis may be essential for episodic memory formation (Barboza et al, 2021).…”

“…Conversely, nutritional signals regulate OL proliferation, myelin regulatory factor-dependent perineuronal net remodeling, and tuning of the circuit that controls food intake and weight gain in the mediobasal hypothalamus ( Kohnke et al, 2021 ). Adaptive myelination is also critical for spike-timing-dependent plasticity in neural circuits ( Monje, 2018 ; Suminaite et al, 2019 ), and activity-dependent, brain region-specific oligodendrogenesis may be essential for episodic memory formation ( Barboza et al, 2021 ).…”

A perspective on astrocyte regulation of neural circuit function and animal behavior