Functional hemispheric lateralization is a basic principle of brain organization. In the auditory domain, the right auditory cortex (AC) determines the pitch direction of continuous auditory stimuli whereas the left AC discriminates gaps in these stimuli. The involved functional interactions between the two sides, mediated by commissural connections, are poorly understood. Here, we selectively disrupted the interhemispheric cross talk from the left to the right primary AC and vice versa using chromophore-targeted laser-induced apoptosis of the respective projection neurons, which make up 6–17% of all AC neurons in Layers III, V, and VI. Following photolysis, male gerbils were trained in a first experimental set to discriminate between rising and falling frequency-modulated (FM) tone sweeps. The acquisition of the task was significantly delayed in lesioned animals of either lesion direction. However, the final discrimination performance and hit rate was lowest for animals with left-side lesioned commissural...

Hippocampal theta oscillations (HTOs) during rapid eye movement (REM) sleep play an important role in mnemonic processes by coordinating hippocampal and cortical activities. However, it is not fully understood how HTOs are modulated by subcortical regions, including the median raphe nucleus (MnR). The MnR is thought to suppress HTO through its serotonergic outputs. Here, our study on male mice revealed a more complex framework indicating roles of nonserotonergic MnR outputs in regulating HTO. We found that nonselective optogenetic activation of MnR neurons at theta frequency increased HTO amplitude. Granger causality analysis indicated that MnR theta oscillations during REM sleep influence HTO. By using three transgenic mouse lines, we found that MnR serotonergic neurons exhibited little or no theta-correlated activity during HTO. Instead, most MnR GABAergic neurons and Vglut3 neurons respectively increased and decreased activities during HTO and exhibited hippocampal theta phase-locked activities. Althoug...

The multiple demand system is a network of fronto-parietal brain regions active during the organisation and control of diverse cognitive operations. It has been argued that this activation may be a non-specific signal of task difficulty. However, here we provide convergent evidence for a causal role for the multiple demand network in the ‘simple task’ of automatic auditory change detection, through the impairment of top-down control mechanisms. We employ independent structure-function mapping, dynamic causal modelling, and frequency-resolved functional connectivity analyses of MRI and MEG from 75 mixed-sex human patients across four neurodegenerative syndromes (bvFTD, nfvPPA, PCA and AD-MCI) and 48 age-matched controls. We show that atrophy of any multiple demand node is sufficient to impair auditory neurophysiological response to change in frequency, location, intensity, continuity or duration. There was no similar association with atrophy of the cingulo-opercular, salience or language networks, or with g...

Synaptic inputs that target distal regions of neuronal dendrites can often generate local dendritic spikes that can amplify synaptic depolarization, induce synaptic plasticity, and enhance neuronal output. However, distal dendritic spikes are subject to significant attenuation by dendritic cable properties, and often produce only a weak subthreshold depolarization of the soma. Nonetheless, such spikes have been implicated in memory storage, sensory perception and place field formation. How can such a weak somatic response produce such powerful behavioral effects? Here we use dual dendritic and somatic recordings in acute hippocampal slices of male mice to reveal that dendritic spike propagation, but not spike initiation, is strongly enhanced when the somatic resting potential is depolarized, likely as a result of increased inactivation of A-type K+ channels. Somatic depolarization also facilitates the induction of a form of dendritic spike driven heterosynaptic plasticity that enhances memory specificity. ...

Aging is associated with a bias in attention and memories towards positive and away from negative emotional content. In addition, emotion regulation appears to improve with age, despite concomitant widespread cognitive decline coupled with gray matter volume loss in cortical and subcortical regions thought to sub-serve emotion regulation. Here, we address this emotion-aging paradox using the behavioural data of an emotion regulation task from a population derived, male and female, human sample (CamCAN) and utilise Structural Equation Modelling together with multivariate analysis of structural MRI images of the same sample to investigate brain-behaviour relationships. In a series of measurement models, we show the relationship between age and emotionality is best explained by a four-factor model, compared to single and hierarchical factor models. These four latent factors are interpreted as Basal Negative Affect, Positive Reactivity, Negative Reactivity and Positive Regulation (upregulating positive emotion...

Cisplatin-induced ototoxicity can be partially attributed to excessive reactive oxygen species (ROS) production, and agmatine is well-known for the activation of the phosphatidylinositol 3-kinase (PI3K)/protein kinase B (AKT) pathway to inhibit ROS production. Whether agmatine could be utilized to alleviate cisplatin-induced ototoxicity is investigated. Cisplatin exposed House Ear Institute-Organ of Corti 1 (HEI-OC1) cells and cochlear explants showed increased ROS production detected by 2’-7’dichlorofluorescin diacetate (DCFH-DA) staining and decreased cell viability detected by Cell Counting Kit-8 (CCK-8) or Myosin 7a staining, which could be reversed by the agmatine pre-treatment. Cisplatin intraperitoneally injected C57BL/6 mice demonstrated damaged auditory function as indicated by distortion products otoacoustic emissions (DPOAE) and auditory brainstem response (ABR) assays, and trans-tympanically administrated agmatine in the left ears could partly prevent the auditory function loss. Mechanistically...

The presynaptic action potential (AP) is required to drive calcium influx into nerve terminals, resulting in neurotransmitter release. Accordingly, the AP waveform is crucial in determining the timing and strength of synaptic transmission. The calyx of Held nerve terminals of rat of either sex showed minimum changes in AP waveform during high-frequency AP firing. We found that the stability of the calyceal AP waveform requires KCNQ (KV7) K+ channel activation during high-frequency spiking activity. High-frequency presynaptic spikes gradually led to accumulation of KCNQ channels in open states which kept interspike membrane potential sufficiently negative to maintain Na+ channel availability. Blocking KCNQ channels during stimulus trains led to inactivation of presynaptic Na+, and to a lesser extent KV1 channels, thereby reducing the AP height and broadening AP duration. Moreover, blocking KCNQ channels disrupted the stable calcium influx and glutamate release required for reliable synaptic transmission at ...

Neuropathic pain (NP) is one of the most common and debilitating comorbidities of spinal cord injury (SCI). Current therapies are often ineffective due in part to an incomplete understanding of underlying pathogenic mechanisms. In particular, it remains unclear how SCI leads to dysfunction in the excitability of nociceptive circuitry. The immediate early gene c-Fos has long been used in pain processing locations as a marker of neuronal activation. We employed a mouse reporter line with fos-promoter driven Cre-recombinase to define neuronal activity changes in relevant pain circuitry locations following C5/6 contusion (using both females and males), a SCI model that results in multiple forms of persistent NP-related behavior. SCI significantly increased activation of cervical dorsal horn (DH) projection neurons, as well as induced a selective reduction in the activation of a specific DH projection neuron subpopulation that innervates the periaqueductal gray (PAG), an important brain region involved in desce...

Opioid tolerance (OT) leads to dose escalation and serious side effects, including opioid-induced hyperalgesia (OIH). We sought to better understand the mechanisms underlying this event in the gastrointestinal tract. Chronic in vivo administration of morphine by intraperitoneal (i.p.) injection in male C57BL/6 mice evoked tolerance and evidence of OIH in an assay of colonic afferent nerve mechanosensitivity; this was inhibited by the δ-opioid receptor (DOPr) antagonist naltrindole when i.p. injected previous morphine administration. Patch clamp studies of dorsal root ganglia (DRG) neurons following overnight incubation with high concentrations of morphine, the µ-opioid receptors (MOPr) agonist DAMGO or the DOPr agonist DADLE evoked hyperexcitability. The pronociceptive actions of these opioids were blocked by the DOPr antagonist SDM25N but not the MOPr antagonist CTOP. The hyperexcitability induced by DAMGO was reversed after a 1 hr washout but reapplication of low concentrations of DAMGO or DADLE restored...

Traumatic spinal cord injury (SCI) is a leading cause of permanent neurological disabilities in young adults. Functional impairments after SCI are substantially attributed to the progressive neurodegeneration. However, regeneration of spinal specific neurons and circuit re-assembly remain challenging in the dysregulated milieu of SCI due to impaired neurogenesis and neuronal maturation by neural precursor cells (NPCs) spontaneously or in cell-based strategies. The extrinsic mechanisms that regulate neuronal differentiation and synaptogenesis in SCI are poorly understood. Here, we perform extensive in vitro and in vivo studies to unravel that SCI-induced upregulation of matrix chondroitin sulfate proteoglycans (CSPGs) impedes neurogenesis of NPCs through co-activation of two receptor protein tyrosine phosphatases, LAR and PTPσ. In adult female rats with SCI, systemic co-inhibition of LAR and PTPσ promotes regeneration of motoneurons and spinal interneurons by engrafted human directly reprogrammed caudalized...