2022
DOI: 10.3389/fncir.2022.933201
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Anatomical and Functional Connectivity at the Dendrodendritic Reciprocal Mitral Cell–Granule Cell Synapse: Impact on Recurrent and Lateral Inhibition

Abstract: In the vertebrate olfactory bulb, reciprocal dendrodendritic interactions between its principal neurons, the mitral and tufted cells, and inhibitory interneurons in the external plexiform layer mediate both recurrent and lateral inhibition, with the most numerous of these interneurons being granule cells. Here, we used recently established anatomical parameters and functional data on unitary synaptic transmission to simulate the strength of recurrent inhibition of mitral cells specifically from the reciprocal … Show more

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Cited by 8 publications
(7 citation statements)
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“…By avoiding profuse basket innervation of individual MTC somata, FSI dendrites can likely reciprocally communicate with a larger ensemble of MTCs. While lacking canonical basket-like structure, perisomatic inhibition of MTCs by FSIs nevertheless proved surprisingly strong, hyperpolarizing MTCs by 0.46±0.45 mV from resting potentials of -53.0±3.3 mV (n=8), comparable to unitary basket cell hyperpolarization of hippocampal and neocortical pyramidal cells by 0.45 and 1.2 mV, respectively, from resting potentials of -55 to -60 mV in adult rats (Buhl et al, 1995;Thomson et al, 1996) and far exceeding the predicted unitary GC-to-MTC IPSP amplitude of 0.01-0.03 mV (Aghvami et al, 2022). FSIs in the OB may thus achieve comparable function as cortical basket cells through strikingly distinct synaptic architecture.…”
Section: Perisomatic Innervation and Implications Of Noncanonical Arc...mentioning
confidence: 64%
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“…By avoiding profuse basket innervation of individual MTC somata, FSI dendrites can likely reciprocally communicate with a larger ensemble of MTCs. While lacking canonical basket-like structure, perisomatic inhibition of MTCs by FSIs nevertheless proved surprisingly strong, hyperpolarizing MTCs by 0.46±0.45 mV from resting potentials of -53.0±3.3 mV (n=8), comparable to unitary basket cell hyperpolarization of hippocampal and neocortical pyramidal cells by 0.45 and 1.2 mV, respectively, from resting potentials of -55 to -60 mV in adult rats (Buhl et al, 1995;Thomson et al, 1996) and far exceeding the predicted unitary GC-to-MTC IPSP amplitude of 0.01-0.03 mV (Aghvami et al, 2022). FSIs in the OB may thus achieve comparable function as cortical basket cells through strikingly distinct synaptic architecture.…”
Section: Perisomatic Innervation and Implications Of Noncanonical Arc...mentioning
confidence: 64%
“…To investigate this, we hyperpolarized FSIs in reciprocally-connected MTC–FSI pairs through negative current injection on interleaved trials, blocking detonation and revealing massive underlying uEPSPs (Figure 3D), and then examined the difference in mean MTC currents across detonation vs. uEPSP trials. Of note, each MTC can reciprocally interact with up to an estimated 10 4 GCs (Egger and Urban, 2006; Aghvami et al, 2022), suggesting that resolving the recurrent feedback mediated by any one interneuron through somatic recording may prove exceedingly difficult unless such inhibition is particularly strong and reliable. Strikingly, our subtraction procedure indeed isolated clear recurrent IPSCs strongly timelocked to FSI detonation latencies (Figure 3E).…”
Section: Resultsmentioning
confidence: 99%
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“…This is a result of the dendrodendritic connections MCs form with granules cells. These connections also result in a greater amount of surround inhibition for MCs (Geramita et al, 2016), exerted upon their millimeter-long lateral dendrites (Aghvami et al, 2022). This could possibly provide individual MCs with informative lateral inhibition from other MCs across the bulb.…”
Section: Introductionmentioning
confidence: 99%
“…The basic blueprint of the synapse typically includes the neurotransmitter release machinery of the presynaptic axon and the associated receptor complex on the postsynaptic dendrite. However, this simplified scheme is easily extended to a spectrum of synapse types, including (i) axo-axonic synapses ( Somogyi, 1977 ; Gonchar et al, 2002 ; Schneider-Mizell et al, 2021 ), (ii) axo-somatic synapses ( Borst and Soria van Hoeve, 2012 ; Kubota et al, 2016 ), (iii) dendro-dendritic synapses [( Woolf et al, 1991 ; Aghvami et al, 2022 )], or (iii) the tripartite synapse with juxta-posed astrocytes [( Araque et al, 1999 ; Liu et al, 2023 )]. Furthermore, a single postsynaptic spine can be occupied by multiple presynaptic terminals and contact points are found between axonal bouton and postsynaptic spine neck or dendritic shaft ( Cano-Astorga et al, 2021 ).…”
mentioning
confidence: 99%