Pre-synaptic and post-synaptic pathways from the hippocampus to medial prefrontal cortex in Rhesus monkeys

Onochie, Ifeanyirochukwu

07 November 2017

The hippocampal to medial prefrontal cortex (HPC-mPFC) pathway has a role in mnemonic processing. A key function of the hippocampus (HPC) is to organize contextual memories by how they were experienced, and the prefrontal cortex (PFC) retrieves contextual memories by sorting and suppressing irrelevant memories for the task at hand. Studies have highlighted the HPC-mPFC connection in rodents, however, there is a relative paucity of primate studies. The present study addressed this issue by investigating the connection from the HPC to anterior cingulate cortex (ACC; areas 24a, 25 and 32) of the mPFC in rhesus monkeys (Macaca mulatta). The distribution of hippocampal axons and terminals (boutons) was largest in area 25. Bouton diameter was largest in the deep layers of area 25, suggesting an efficient transmission system from the HPC. The robust projections from the HPC terminated most densely in the superficial layers of area 25. The HPC pathway also innervated some inhibitory neurons, labeled for the calcium binding proteins calbindin or calretinin in the superficial layers of the ACC, whereas axons innervated parvalbumin inhibitory neurons in the deep layers of the ACC. The findings suggest that area 25 may be a fundamental pathway from the HPC for memory processing and can be a focal point in therapeutic interventions in neurological and psychiatric diseases.

Neurosciences

Hippocampus

Medial prefrontal cortex

Monkeys

Rhesus

Dopamine D1 receptor subtype mediates acute stress-induced dendritic growth in excitatory neurons of the medial prefrontal cortex and contributes to suppression of stress susceptibility in mice / ドパミンD1受容体サブタイプは、急性ストレスにより誘導される内側前頭前皮質の興奮性神経細胞における樹状突起造成を介して誘導し、ストレス脆弱性の抑制に寄与する

Taniguchi, Masayuki

26 March 2018

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第20998号 / 医博第4344号 / 新制||医||1027(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 伊佐 正, 教授 渡邊 直樹, 教授 髙橋 良輔 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Stress

Dopamine

Medial prefrontal cortex

490

NICOTINIC RECEPTOR MODULATION OF DOPAMINE TRANSPORTERS

Middleton, Lisa Sue

01 January 2006

The current project examined the ability of nicotine to modulate dopamine transporter (DAT) function. Initial experiments determined the dose-response for nicotine to modulate dopamine (DA) clearance in rat striatum and medial prefrontal cortex (MPFC) using in vivo voltammetry and determined if this effect was mediated by nicotinic receptors (nAChRs). In both striatum and MPFC, nicotine increased DA clearance in a mecamylamine-sensitive manner, indicating nAChR-mediation. The effect of acute nornicotine on DAT function was also determined. In contrast to nicotine, nornicotine in a dose-related manner decreased striatal DA clearance in a mecamylamine-sensitive manner, indicating nAChR mediation. To determine if tolerance developed to the nicotine effect nicotine, separate groups of rats were injected once daily for 5 days with nicotine or saline. DA clearance in striatum and MPFC was determined 24 hrs after the last injection. Nicotine increased DA clearance only 10-15% in the group repeatedly administered nicotine, demonstrating that tolerance developed. To determine if nicotine altered striatal DAT efficiency, following nicotine injection, DAT density and maximal velocity of [3H]DA uptake was determined using [3H]GBR12935 binding and saturation analysis of [3H]DA uptake in rat striatum, respectively. Nicotine did not alter the Bmax or Kd of maximal binding of [3H]GBR12935 binding. However, an increase in Vmax was observed at 10 and 40 min following nicotine injection, suggesting that nicotine increases DAT efficiency. To determine if systemic nicotine enhanced DAT function via an action at nAChRs on striatal DA terminals, [3H]DA uptake was determined in striatum in vitro in the absence or presence of nicotine in the buffer. Nicotine did not alter the Vmax for [3H]DA uptake in vitro, suggesting that the nicotine-induced increase in DAT function observed in vivo is mediated by nAChRs on DA cell bodies or another site which indirectly alters DAT function. To determine if the increase in DAT efficiency was due to increased surface expression of striatal DAT, biotinylation and Western blot analyses were performed. Nicotine did not alter striatal DAT, suggesting that the nicotine-induced increase in DA clearance in vivo and DAT efficiency in vitro is not the result of increased trafficking of this protein to the cell surface.

Effects of Perspective Taking on Memory for Self and Other

Cox, Christine

January 2009

Recent functional neuroimaging evidence suggests that recalling autobiographical memories, imagining fictitious autobiographical episodes, and taking the perspective of another person activate a similar network of brain regions. Results from the two studies presented here provide further evidence of this common neural network. Previous evidence also suggests that recalling autobiographical memories from a first person or from a third person perspective can influence the way in which those memories are experienced as well as the brain regions that are engaged; however, the effect of perspective on imagining autobiographical events remains unclear. Results from Study 1 indicated that brain regions implicated in both remembering and imagining were differentially engaged during these tasks depending on whether a first person or a third person perspective was taken. In addition, while recalling autobiographical memories from a third person perspective can result in the feeling that a past self is more like another person, imagining oneself in the position of another person can result in the feeling that that person is more similar to oneself; this suggests a possible link between perspective in memory and social perspective taking. In Study 2, we identified several brain regions exhibiting a pattern of increasing or decreasing activation as a function of whether socially interactive events were recalled from a first person perspective, by imagining oneself as one's partner, or from a third person perspective (i.e., as a function of distance from one's own perspective). Together, our findings suggest that perspective plays an important role in the way in which brain regions that are part of this common neural network are engaged during memory, imagination, and socially interactive tasks.

fMRI

Imagination

Medial Prefrontal Cortex

Point of View

Precuneus

Theory of Mind

Regulating the anterior medial prefrontal cortex : exploratory investigation of real-time fMRI training

Smith, Rachelle Marie

11 1900

The feasibility of using real-time functional magnetic resonance imaging (fMRI) feedback regarding the level of activation in rostromedial prefrontal cortex (rMPFC) to learn improved regulation of this brain area was examined in a group of 5 young adults. Subjects received real-time feedback from the target brain region while engaging in a blocked-design task involving alternating blocks of attempted up-regulation and down-regulation of the target brain region. A transient negative emotional state was induced prior to each scanning session. Subjects completed 6 scanning sessions (a pre-training session, 4 feedback sessions and a post-training session - no feedback was provided for pre and post-training sessions). The guideline strategy provided to subjects of engaging in emotional awareness during up-regulation and bodily awareness during down-regulation was found to consistently regulate the region in the pre-training session prior to the fMRI feedback sessions. This finding is in line with the previously proposed role of the rMPFC in emotional awareness. In contrast to previous real-time fMRI findings, greater recruitment of the region was observed in the pre-training session compared to the post-training session, with a non-significant negative trend observed across feedback sessions. These results suggest that there may be limitations to which the feedback techniques successfully employed for other brain regions extend to yet unexplored brain regions.

fMRI

Emotion regulation

Medial prefrontal cortex

Real-time feedback

Regulating the anterior medial prefrontal cortex : exploratory investigation of real-time fMRI training

Smith, Rachelle Marie

11 1900

The feasibility of using real-time functional magnetic resonance imaging (fMRI) feedback regarding the level of activation in rostromedial prefrontal cortex (rMPFC) to learn improved regulation of this brain area was examined in a group of 5 young adults. Subjects received real-time feedback from the target brain region while engaging in a blocked-design task involving alternating blocks of attempted up-regulation and down-regulation of the target brain region. A transient negative emotional state was induced prior to each scanning session. Subjects completed 6 scanning sessions (a pre-training session, 4 feedback sessions and a post-training session - no feedback was provided for pre and post-training sessions). The guideline strategy provided to subjects of engaging in emotional awareness during up-regulation and bodily awareness during down-regulation was found to consistently regulate the region in the pre-training session prior to the fMRI feedback sessions. This finding is in line with the previously proposed role of the rMPFC in emotional awareness. In contrast to previous real-time fMRI findings, greater recruitment of the region was observed in the pre-training session compared to the post-training session, with a non-significant negative trend observed across feedback sessions. These results suggest that there may be limitations to which the feedback techniques successfully employed for other brain regions extend to yet unexplored brain regions.

fMRI

Emotion regulation

Medial prefrontal cortex

Real-time feedback

Regulating the anterior medial prefrontal cortex : exploratory investigation of real-time fMRI training

Smith, Rachelle Marie

11 1900

The feasibility of using real-time functional magnetic resonance imaging (fMRI) feedback regarding the level of activation in rostromedial prefrontal cortex (rMPFC) to learn improved regulation of this brain area was examined in a group of 5 young adults. Subjects received real-time feedback from the target brain region while engaging in a blocked-design task involving alternating blocks of attempted up-regulation and down-regulation of the target brain region. A transient negative emotional state was induced prior to each scanning session. Subjects completed 6 scanning sessions (a pre-training session, 4 feedback sessions and a post-training session - no feedback was provided for pre and post-training sessions). The guideline strategy provided to subjects of engaging in emotional awareness during up-regulation and bodily awareness during down-regulation was found to consistently regulate the region in the pre-training session prior to the fMRI feedback sessions. This finding is in line with the previously proposed role of the rMPFC in emotional awareness. In contrast to previous real-time fMRI findings, greater recruitment of the region was observed in the pre-training session compared to the post-training session, with a non-significant negative trend observed across feedback sessions. These results suggest that there may be limitations to which the feedback techniques successfully employed for other brain regions extend to yet unexplored brain regions. / Arts, Faculty of / Psychology, Department of / Graduate

fMRI

Emotion regulation

Medial prefrontal cortex

Real-time feedback

Envolvimento da neurotransmissão opioidérgica do córtex pré-frontal medial na mediação das respostas cardiovasculares causadas pelo estresse de restrição em ratos / Involvement of opioid neurotransmission of the medial prefrontal cortex in the mediation of cardiovascular responses caused by restraint stress in rats

Fassini, Aline

25 March 2013

O córtex pré-frontal medial ventral (CPFMv) é uma estrutura límbica que está envolvida em respostas autonômicas associadas a reações aversivas. O CPFMv é dividido em córtex pré- límbico (PL), córtex infralímbico (IL) e córtex dorsopeduncular (DP). A estimulação elétrica ou química destas regiões causa respostas defensivas e alterações autonômicas tais como respostas cardiovasculares, dependendo da sub-região estimulada. O estresse de restrição (ER) causa alterações hormonais e respostas autonômicas, tais como aumento de pressão arterial (PA) e frequência cardíaca (FC). A ativação de neurônios presentes no CPFMv durante essa situação aversiva, assim como os resultados da inibição farmacológica das sinapses presentes no PL e IL sugerem o envolvimento destas estruturas na modulação das respostas cardiovasculares causadas pelo ER. Entretanto, os possíveis neurotransmissores presentes no vCPFM, envolvidos nesta modulação, ainda não foram elucidados. O sistema opioidérgico central modula o sistema cardiovascular inclusive durante situações aversivas, sendo que tanto receptores quanto peptídeos opióides estão presentes no CPFMv. Considerando o exposto acima, a hipótese a ser testada no presente trabalho foi que a neurotransmissão opioidérgica do PL e IL está envolvida na modulação das respostas cardiovasculares de aumento da PA e FC desencadeadas pelo ER. Assim, a administração de naloxona (antagonista não-seletivo de receptores opióides) no PL ou IL reduziu a resposta pressora e taquicardíaca induzida pelo ER, sendo o perfil da curva dose-inibição em forma de U-invertido. A administração de CTAP (antagonista dos receptores opióides µ) ou nor-BNI (antagonista dos receptores opióides ?) no PL também reduziu a resposta pressora e taquicardíaca induzida pelo ER, de forma semelhante à naloxona, sugerindo o envolvimento desses receptores na modulação das respostas cardiovasculares desencadeadas pelo ER, enquanto que no IL, apenas a administração de nor-BNI reduziu a resposta cardiovascular induzida pelo ER. O tratamento com naltrindole (antagonista ?-seletivo) em ambas as estruturas não alterou a resposta pressora e taquicardíaca gerada pelo ER. A administração de UPF-101 (antagonista ORL-1) no PL potencializou a resposta taquicardíaca, sem alterar a resposta pressora enquanto a administração no IL não gerou efeito. Em resumo, os resultados indicam que o sistema opioidérgico, presente no PL e IL, desempenha papel facilitatório sobre as respostas cardiovasculares induzidas pelo ER, enquanto o sistema nociceptina/orfanina FQ apresentaria papel inibitório. / The ventral medial prefrontal cortex (vMPFC) is a limbic structure involved in the mediation of autonomic responses associated to aversive situations. The vMPFC is divided into prelimbic cortex (PL), infralimbic cortex (IL) and dorsal peduncular cortex (DP). The electrical or chemical stimulation of these regions cause defensive responses and autonomic changes, such as cardiovascular responses, depending on the subregion stimulated. The restraint stress (RS) evokes hormonal and autonomic responses, as well as arterial pressure and heart rate increases. Neuronal activation in the vMPFM was reported during this aversive situation, and the pharmacological inhibition of synapses in the PL and IL has suggested the involvement of these structures in the modulation of cardiovascular responses caused by RS. However, the possible neurotransmitters present in vCPFM that are involved in this modulation have not yet been identified. Opioid peptides and their receptors are present in the CPFMv. Furthermore, the central opioid system is known to modulate the cardiovascular system, even during aversive situations. Therefore, the hypothesis of this study was that PL and IL opioid neurotransmission is involved in the modulation of cardiovascular responses caused by RS. Naloxone (opioid nonselective antagonist) administration in PL or IL reduced the pressure and tachycardiac response evoked by RS, with the dose-inhibition curve having an U-inverset shape. Similar to naloxone, the selective µ-opioid antagonist CTAP and the selective ?-opioid antagonist nor-BNI when administered into the PL also reduced the pressor and tachycardiac response induced by RS, thus suggesting an involvement of these receptors in the modulation of cardiovascular responses evoked by RS, while in the IL, only administration of nor- BNI reduced the cardiovascular response induced by RS. In both structures, the treatment with the selective ?-opioid antagonist naltrindole did not affect the pressor and tachycardic response caused by RS. The pretreatment of the PL with the selective ORL-1 antagonist UPF-101 increased the tachycardic response, without affecting the RSevoked pressor, while the administration of UPF-101 into the IL did not affect the RS-evoked cardiovascular response. In summary, the opioid system in PL and IL appear to play a facilitatory role on the cardiovascular responses induced by RS, while the system nociceptin / orphanin FQ would have an inhibitory role on these responses.

Cardiovascular

Cardiovascular

Córtex pré-frontal medial

Estresse por restrição

Medial prefrontal cortex

Opioid

Opióide

Restraint stress

Dehumanization in the brain

Thyberg, Joel

January 2019

Dehumanization is a process whereby people fail to view others as human beings. Instead, the others are perceived as nonhuman animals or objects, unworthy of the same moral treatment. Dehumanization has previously been studied in a variety of different scholarly domains without adhering to a uniform theoretical framework. This literature review contrasts research on fully humanized perception, with research on dehumanized perception, and proposes neural areas which are likely to be involved. Not every aspect of dehumanization can be understood at the neurological level. To understand what factors lead up to, and modulates dehumanization, other perspectives might also be necessary. Dehumanized perception is coupled with reduced activity in the social cognitive brain network, a wide network which encompasses several cortical and subcortical areas. This disengages prosocial abilities and allows for other people to be treated like objects and means to an end. One area of special interest is the medial prefrontal cortex (MPFC). It functions as an integration center in the person perception network and is also active when we make moral judgments, empathize, or take the perspective of someone else. For this reason, the MPFC is sometimes used as an index of dehumanized perception.

Dehumanization

Social cognition

Medial prefrontal cortex

Blatant dehumanization

Direct Connections between the Lateral Entorhinal Cortex and Hippocampus or Medial Prefrontal cortex: Their Role in the Retrieval of Associative Memories

Tanninen, Stephanie

27 November 2012

Consolidation of associative memories may depend on communication between the lateral entorhinal cortex (LEC) and hippocampus (HPC) for recently learned memories and the LEC and medial prefrontal cortex (mPFC) for remote memories. To determine whether direct connections between these regions are necessary for the retrieval of a recently or remotely learned memory, rats acquired an associative memory through trace eyeblink conditioning and were tested for memory retention after inactivating the regions of interest with the GABAA agonist, muscimol. Inactivating the LEC-HPC connection did not impair memory retrieval. However, inactivating the LEC-mPFC connection impaired remote, but not recent, memory retrieval. Thus, the LEC and mPFC connection is necessary for the retrieval of a remotely, but not recently learned associative memory. Increased reliance on the entorhinal-prefrontal connection indicates the strengthening of functional connectivity between the two regions, which may be a biological correlate for the proposed reorganization during systems consolidation.

lateral entorhinal cortex

medial prefrontal cortex

hippocampus

memory

consolidation

trace eyeblink conditioning

muscimol

0384