Overlap between events can lead to interference because of a trade-off between encoding the present event and retrieving the past event. Temporal context information, “when” something occurred, a defining feature of episodic memory, can cue retrieval of a past event. However, the influence of temporal overlap, or proximity in time, on the mechanisms of interference is unclear. Here, by identifying brain states using scalp EEG from male and female human subjects, we show the extent to which temporal overlap promotes interference and induces retrieval. In this experiment, subjects were explicitly directed to either encode the present event or retrieve a past, overlapping event while perceptual input was held constant. We find that the degree of temporal overlap between events leads to selective interference. Specifically, greater temporal overlap between two events leads to impaired memory for the past event selectively when the top-down goal is to encode the present event. Using pattern classification analy...

Anxiety disorders are a series of mental disorders characterized by anxiety and fear, but the molecular basis of these disorders remains unclear. In the present study, we find that the global Slack KO male mice exhibit anxious behaviors, whereas the Slack Y777H male mice manifest anxiolytic behaviors. The expression of Slack channels is rich in basolateral amygdala (BLA) glutamatergic neurons and downregulated in chronic corticosterone-treated mice. In addition, electrophysiological data show enhanced excitability of BLA glutamatergic neurons in the Slack KO mice and decreased excitability of these neurons in the Slack Y777H mice. Furthermore, the Slack channel deletion in BLA glutamatergic neurons is sufficient to result in enhanced avoidance behaviors, whereas Kcnt1 gene expression in the BLA or BLA–ventral hippocampus (vHPC) glutamatergic projections reverses anxious behaviors of the Slack KO mice. Our study identifies the role of the Slack channel in controlling anxious behaviors by decreasing the exci...

PEGPH20, a human recombinant hyaluronidase, has been proposed as a coadjutant to pancreatic cancer chemotherapy. In early trials, patients reported increased widespread muscle pain as the main adverse reaction to PEGPH20. To understand how PEGPH20 caused musculoskeletal pain, we systemically administered PEGPH20 to male mice and measured voluntary wheel activity and pain-related behaviors. These were paired with ex-vivo electrophysiology of primary sensory neurons, whole DRG realtime PCR, and immunohistochemistry of hindpaw muscle. PEGPH20 induced significantly lower wheel running, compared to vehicle treated animals, and decreased mechanical withdrawal thresholds 5 days after PEGPH20 injections. Chemo-sensory muscle afferents showed increased responses to noxious chemical stimulation of their receptive fields in the PEGPH20 treated group. This was correlated with upregulation of the NGF receptor TrkA, the transient receptor potential vanilloid type 1 (TRPV1) channel and ATP-sensitive channel P2X3 in the D...

Calcium is an important second messenger regulating a bioenergetic response to the workloads triggered by neuronal activation. In embryonic mouse cortical neurons using glucose as only fuel, activation by NMDA elicits a strong workload (ATP demand) dependent on Na+ and Ca2+ entry, and stimulates glucose uptake, glycolysis, pyruvate and lactate production and OXPHOS in a Ca2+-dependent way. We find that Ca2+-upregulation of glycolysis, pyruvate levels and respiration, but not glucose uptake, all depend on Aralar/AGC1/Slc25a12, the mitochondrial aspartate-glutamate carrier, component of the malate-aspartate shuttle (MAS). MAS activation increases glycolysis, pyruvate production and respiration, a process inhibited in the presence of BAPTA-AM suggesting that the Ca2+ binding motifs in Aralar may be involved in the activation. MCU silencing had no effect indicating that none of these processes required MCU-dependent mitochondrial Ca2+ uptake. The neuronal respiratory response to carbachol was also dependent on...

Oxytocin receptors (OTR) have been found in the paraventricular thalamus (PVT) for the regulation of feeding and maternal behaviors. However, the functional projections of OTR-expressing PVT neurons remain largely unknown. Here, we used chemogenetic and optogenetic tools to test the role of OTR-expressing PVT neurons and their projections in the regulation of food intake in both male and female OTR-Cre mice. We found chemogenetic activation of OTR-expressing PVT neurons promoted food-seeking under trials with a progressive ratio (PR) schedule of reinforcement. Using Feeding Experimentation Devices (FED) for real-time meal measurements, we found chemogenetic activation of OTR-expressing PVT neurons increased meal frequency but not cumulative food intake due to a compensatory decrease in meal sizes. In combination with anterograde neural tracing and slice patch-clamp recordings, we found optogenetic stimulation of PVT OTR terminals excited neurons in the posterior basolateral amygdala (pBLA) and nucleus accu...

Anticipatory covert spatial attention improves performance on tests of visual detection and discrimination, and shifts are accompanied by decreases and increases of alpha-band power at EEG electrodes corresponding to the attended and unattended location, respectively. Although the increase at the unattended location is often interpreted as an active mechanism (e.g., inhibiting processing at the unattended location), most experiments can’t rule out the alternative possibility that it is a secondary consequence of selection elsewhere. To adjudicate between these accounts, we designed a Posner-style visual cueing task in which male and female human participants made orientation judgments of targets appearing at one of four locations: up , down , right , or left . Critically, trials were blocked such that within a block the locations along one meridian alternated in status between attended and unattended , and targets never appeared at the other two, making them irrelevant . Analyses of the concurrently measur...

The noradrenergic locus coeruleus (LC) mediates key aspects of arousal, memory, and cognition in structured tasks, but its contribution to naturalistic behavior remains unclear. LC activity is thought to multiplex distinct signals by superimposing sustained (“tonic”) firing patterns reflecting global brain states, such as arousal and anxiety, and rapidly fluctuating (“phasic”) bursts signaling discrete behaviorally significant events. Manipulations of the LC noradrenergic system broadly impair social behavior, but the temporal structure of LC firing and its relationship to social interaction is unknown. One possibility is that tonic firing may increase in the presence of social partners; it is also possible that phasic bursts may accompany specific social events. We used chronic in vivo electrophysiology and fiber photometry to measure single-unit and population neural activity in LC of freely behaving mice during their interactions with pups. We find that pup retrieval elicits remarkably precise phasic ac...

Synaptotagmin-1 (SYT1) is a synaptic vesicle resident protein that interacts via its C2 domain with anionic lipids from the plasma membrane in a calcium-dependent manner to efficiently trigger rapid neurotransmitter (NT) release. In addition, SYT1 acts as a negative regulator of spontaneous NT release and regulates synaptic vesicle (SV) priming. How these functions relate to each other mechanistically and what role other synaptotagmin (SYT) isoforms play in supporting and complementing the role of SYT1 is still under intensive investigation. In this work, we analyzed three putative functions of SYT1 in exocytosis by systematically varying its expression in autaptic hippocampal glutamatergic neurons from mice of either sex. We find that regulation of release probability is most sensitive to variation of expression levels, whereas its impact on vesicle priming is least sensitive. Also, loss of SYT1 phenotypes on spontaneous release and vesicle priming is compensated in less mature synaptic cultures by redund...

Why do adolescents have a high propensity to engage in maladaptive behaviors? One explanation is that the adolescent nervous system is still undergoing maturation, and incomplete development of key brain regions results in poor behavioral regulation. Notably, the prefrontal cortex (PFC), a region

Paternal environmental perturbations can influence the physiology and behavior of offspring. For example, our previous work showed reduced cocaine reinforcement in male, but not female, progeny of rat sires that self-administered cocaine. The information transfer from sire to progeny may occur through epigenetic marks in sperm, encompassing alterations in small noncoding RNAs, including microRNAs (miRNAs) and/or DNA methylation. Here, no reliable changes in miRNAs in the sperm of cocaine- relative to saline-experienced sires were identified. In contrast, 272 differentially methylated regions were observed in sperm between these groups. Two hypomethylated promoter regions in the sperm of cocaine-experienced rats were upstream of cyclin-dependent kinase inhibitor 1a ( Cdkn1a ). Cdkn1a mRNA also was selectively increased in the NAc of cocaine-sired male (but not female) offspring. Cocaine self-administration also enhanced Cdkn1a expression in the accumbens of cocaine-sired rats. These results suggest that cha...