The vulnerability of calretinin-containing hippocampal interneurons to temporal lobe epilepsy

Tóth, Kinga; Maglóczky, Zsófia

doi:10.3389/fnana.2014.00100

Cited by 35 publications

(21 citation statements)

References 132 publications

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“…CaR that specifically marks selective neuron populations in various areas of the central nervous sytem (Eyles et al, 2002; Ulfig, 2002; Grateron et al, 2003; Džaja et al, 2014; Hladnik et al, 2014; Tóth and Maglóczky, 2014) including the vertebrate retina (Völgyi et al, 1997; Gábriel and Witkovsky, 1998; Gábriel et al, 1999; Araki and Hamassaki-Britto, 2000). CaR has also been shown to be expressed by AII cells in a number of examined mammalian species.…”

Section: Resultsmentioning

confidence: 99%

Connexin36 Expression in the Mammalian Retina: A Multiple-Species Comparison

Kovács-Öller

Debertin

Balogh

et al. 2017

Front. Cell. Neurosci.

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Much knowledge about interconnection of human retinal neurons is inferred from results on animal models. Likewise, there is a lack of information on human retinal electrical synapses/gap junctions (GJ). Connexin36 (Cx36) forms GJs in both the inner and outer plexiform layers (IPL and OPL) in most species including humans. However, a comparison of Cx36 GJ distribution in retinas of humans and popular animal models has not been presented. To this end a multiple-species comparison was performed in retinas of 12 mammals including humans to survey the Cx36 distribution. Areas of retinal specializations were avoided (e.g., fovea, visual streak, area centralis), thus observed Cx36 distribution differences were not attributed to these species-specific architecture of central retinal areas. Cx36 was expressed in both synaptic layers in all examined retinas. Cx36 plaques displayed an inhomogenous IPL distribution favoring the ON sublamina, however, this feature was more pronounced in the human, swine and guinea pig while it was less obvious in the rabbit, squirrel monkey, and ferret retinas. In contrast to the relative conservative Cx36 distribution in the IPL, the labels in the OPL varied considerably among mammals. In general, OPL plaques were rare and rather small in rod dominant carnivores and rodents, whereas the human and the cone rich guinea pig retinas displayed robust Cx36 labels. This survey presented that the human retina displayed two characteristic features, a pronounced ON dominance of Cx36 plaques in the IPL and prevalent Cx36 plaque conglomerates in the OPL. While many species showed either of these features, only the guinea pig retina shared both. The observed similarities and subtle differences in Cx36 plaque distribution across mammals do not correspond to evolutionary distances but may reflect accomodation to lifestyles of examined species.

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Section: Resultsmentioning

confidence: 99%

Connexin36 Expression in the Mammalian Retina: A Multiple-Species Comparison

Kovács-Öller

Debertin

Balogh

et al. 2017

Front. Cell. Neurosci.

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“…Of particular interest, the selective vulnerability of multiple subsets of CR+ cells in the hippocampus may occur in a temporal-lobe epilepsy model, a good predictor of neuronal vulnerability to excitotoxicity. Those cells that remain exhibit pathologic dendritic varicosities and a loss of dendritic complexity and synapses, as a result of excitotoxic injury (Tóth et al 2010; Tóth and Maglóczky 2014). Patients with epilepsy can have fewer nNOS+ interneurons within CA1 (Leite et al 2002).…”

Section: Discussionmentioning

confidence: 99%

“…Hippocampal interneurons interact as part of a functional network and it is clear that the removal of even one cell type from the network can have drastic effects on information processing, pyramidal cell excitation, and consequent behavioral outcomes (Moga et al 2002; Dugladze et al 2007; Goldin et al 2007; Tóth et al 2010; Peng et al 2013; Long et al 2014; Lovett-Barron et al 2014; Lovett-Barron and Losonczy 2014; Tóth and Maglóczky 2014; Orbán-Kris et al 2015). Importantly, the susceptible nNOS+/NPY− interneurons of the stratum pyramidale and the stratum radiatum, PV+ cells of the stratum pyramidale, and SST+ interneurons of the stratum oriens form a microcircuit known to be involved in a complex feedback loop/input gating mechanism that regulates network synchronization within CA1 (Fig.…”

Section: Discussionmentioning

confidence: 99%

HIV-1 Tat causes cognitive deficits and selective loss of parvalbumin, somatostatin, and neuronal nitric oxide synthase expressing hippocampal CA1 interneuron subpopulations

et al. 2016

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Memory deficits are characteristic of HIV-associated neurocognitive disorders (HAND) and co-occur with hippocampal pathology. The HIV-1 transactivator of transcription (Tat), a regulatory protein, plays a significant role in these events, but the cellular mechanisms involved are poorly understood. Within the hippocampus, diverse populations of interneurons form complex networks; even subtle disruptions can drastically alter synaptic output, resulting in behavioral dysfunction. We hypothesized that HIV-1 Tat would impair cognitive behavior and injure specific hippocampal interneuron subtypes. Male transgenic mice that inducibly expressed HIV-1 Tat (or non-expressing controls) were assessed for cognitive behavior or had hippocampal CA1 subregions evaluated via interneuron subpopulation markers. Tat exposure decreased spatial memory in a Barnes maze and mnemonic performance in a novel object recognition test. Tat reduced the percentage of neurons expressing neuronal nitric oxide synthase (nNOS) without neuropeptide Y immunoreactivity in the stratum pyramidale and the stratum radiatum, parvalbumin in the stratum pyramidale, and somatostatin in the stratum oriens, which are consistent with reductions in interneuron-specific interneuron type 3 (IS3), bistratified, and oriens-lacunosum-moleculare interneurons, respectively. The findings reveal that an interconnected ensemble of CA1 nNOS-expressing interneurons, the IS3 cells, as well as subpopulations of parvalbumin- and somatostatin-expressing interneurons are preferentially vulnerable to HIV-1 Tat. Importantly, the susceptible interneurons form a microcircuit thought to be involved in feedback inhibition of CA1 pyramidal cells and gating of CA1 pyramidal cell inputs. The identification of vulnerable CA1 hippocampal interneurons may provide novel insight into the basic mechanisms underlying key functional and neurobehavioral deficits associated with HAND.

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“…LTP of the perforant path–granule cell synapse was reduced in mice lacking calretinin compared with wild-type mice 69 . Although intriguing, the study was limited by the constitutive nature of the knockout and the expression of calretinin in cells other than mossy cells (including a subtype of interneuron in the dentate gyrus 70 ). However, other methods have also shown that mossy cells may facilitate or even be required for LTP of the perforant path input to granule cells.…”

Section: Mossy Cell Function In the Dentate Gyrusmentioning

confidence: 99%

“…It has also been proposed that mossy cell-mediated excitation of granule cells is increased after insults that lead to TLE, causing hyperexcitability 1,104–106,111,112 . However, hyperexcitability could also be caused by a loss of HIPP cells 97 or calretinin-expressing interneurons 70 . Diverse changes in other aspects of the inhibitory control of granule cells 113 , including changes in the subunit composition of type A GABA receptors 114–116 , have led to the current consensus that a loss of mossy cells may contribute to TLE but is unlikely to be fully responsible for it.…”

Section: Mossy Cell Vulnerabilitymentioning

confidence: 99%

The enigmatic mossy cell of the dentate gyrus

2016

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Mossy cells comprise a large fraction of the cells in the hippocampal dentate gyrus, suggesting that their function in this region is important. They are vulnerable to ischaemia, traumatic brain injury and seizures, and their loss could contribute to dentate gyrus dysfunction in such conditions. Mossy cell function has been unclear because these cells innervate both glutamatergic and GABAergic neurons within the dentate gyrus, contributing to a complex circuitry. It has also been difficult to directly and selectively manipulate mossy cells to study their function. In light of the new data generated using methods to preferentially eliminate or activate mossy cells in mice, it is timely to ask whether mossy cells have become any less enigmatic than they were in the past.

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The vulnerability of calretinin-containing hippocampal interneurons to temporal lobe epilepsy

Cited by 35 publications

References 132 publications

Connexin36 Expression in the Mammalian Retina: A Multiple-Species Comparison

Connexin36 Expression in the Mammalian Retina: A Multiple-Species Comparison

HIV-1 Tat causes cognitive deficits and selective loss of parvalbumin, somatostatin, and neuronal nitric oxide synthase expressing hippocampal CA1 interneuron subpopulations

The enigmatic mossy cell of the dentate gyrus

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