Altered adult neurogenesis and gliogenesis in patients with mesial temporal lobe epilepsy

Ammothumkandy, Aswathy; Rāviņa, Kristīne; Wolseley, Victoria; Tartt, Alexandria; Yu, Pen-Ning; Corona, Luis; Zhang, Naibo; Nune, George; Kalayjian, Laura A.; Mann, J. John; Rosoklija, Gorazd; Arango, Victoria; Dwork, Andrew J.; Lee, Brian; Smith, Jason A.D.; Song, Dong; Berger, Theodore W.; Heck, Christianne; Chow, Robert H.; Boldrini, Maura; Liu, Charles Y.; Russin, Jonathan J.; Bonaguidi, Michael A.

doi:10.1038/s41593-022-01044-2

Cited by 40 publications

(29 citation statements)

References 54 publications

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“…An intriguing possibility is that symmetric division was also increased and thus the pool of NSCs could be maintained and neurogenesis kept at higher levels for longer periods. The scenario confirmed so far is the chronic impairment of neurogenesis due to accelerated depletion of NSCs (Sierra et al, 2015) and could explain recent findings that suggest that neurogenesis decreases faster over time in the hippocampus of epilepsy patients (Ammothumkandy et al, 2022).…”

Section: Overactivation Of Neural Stem Cellssupporting

confidence: 60%

“…Finally, the key question that triggered the writing of this Perspective is whether we should consider neurogenesis as another readout to better discriminate pathology and how useful it could be as a diagnosis tool. Mounting evidence suggest not only that there is continuous neurogenesis in the human dentate gyrus, but also that as found in mouse models, neurogenesis responds differently in diverse pathologies, acting as biosensor of the undergoing pathological process ( Klein et al, 2021 ; Terreros-Roncal et al, 2021 ; Ammothumkandy et al, 2022 ). The main challenge is of course, how to monitor neurogenesis, in vivo .…”

Section: Questions and Future Directionsmentioning

confidence: 99%

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Does the plasticity of neural stem cells and neurogenesis make them biosensors of disease and damage?

Rodríguez-Bodero

Encinas-Pérez

2022

Front. Neurosci.

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Postnatal and adult neurogenesis takes place in the dentate gyrus of the hippocampus in the vast majority of mammals due to the persistence of a population of neural stem cells (NSCs) that also generate astrocytes and more NSCs. These are highly plastic and dynamic phenomena that undergo continuous modifications in response to the changes brain homeostasis. The properties of NSCs as well as the process of neurogenesis and gliogenesis, are reshaped divergently by changes in neuronal activity and by different types of disease and damage. This richness of plastic responses identifies NSCs and newborn neurons as biosensors of the health state of the hippocampus, detecting and providing useful information about processes such as neuronal and network hyperexcitation, excitotoxicity, neurodegeneration, and neuroinflammation. Learning to gather and use this information is a challenge worth of our attention.

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Section: Overactivation Of Neural Stem Cellssupporting

confidence: 60%

Section: Questions and Future Directionsmentioning

confidence: 99%

Does the plasticity of neural stem cells and neurogenesis make them biosensors of disease and damage?

Rodríguez-Bodero

Encinas-Pérez

2022

Front. Neurosci.

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“…The critical period (Fig 2) coincides with the time when neurogenesis becomes undetectable in human MTLE 11 . We next determined the relationship between the loss of neurogenesis and cognitive performance in intelligence, verbal learning, and memory tests.…”

Section: Neurogenesis Levels Particularly Benefit Verbal Learning And...mentioning

confidence: 68%

“…Therefore, the current neurogenesis findings provide a new understanding of the cellular dynamics that drive DG volume change during MTLE disease progression. Altered neurogenesis in MTLE patients may reflect many cellular mechanisms, including a decrease in neural stem cell number, proliferation, neuronal fate commitment, or neuronal survival 11,19 . Remarkably, a previous study in healthy individuals has also implied a selective role for exercise-induced neurogenesis on verbal learning using indirect measures of dentate gyrus cerebral blood volume 20 .…”

Section: Discussionmentioning

confidence: 99%

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Human Adult Neurogenesis Loss Underlies Cognitive Decline During Epilepsy Progression

Ammothumkandy

Corona

Rāviņa

et al. 2022

Preprint

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Mesial temporal lobe epilepsy is a syndromic disorder presenting with seizures and cognitive comorbidities. The cellular mechanisms contributing to epilepsy progression are not well understood. Here we show that intelligence, verbal learning, and memory decline at a critical period when hippocampal neurogenesis becomes undetectable. Individual patient analysis revealed that the number of immature neurons, rather than total granule neurons, particularly benefit verbal learning. These results illustrate a functional role for adult human neurogenesis and reveal a therapeutic target accompanying cognitive decline.

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Methods to study adult hippocampal neurogenesis in humans and across the phylogeny

et al. 2022

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The hippocampus hosts the continuous addition of new neurons throughout life—a phenomenon named adult hippocampal neurogenesis (AHN). Here we revisit the occurrence of AHN in more than 110 mammalian species, including humans, and discuss the further validation of these data by single‐cell RNAseq and other alternative techniques. In this regard, our recent studies have addressed the long‐standing controversy in the field, namely whether cells positive for AHN markers are present in the adult human dentate gyrus (DG). Here we review how we developed a tightly controlled methodology, based on the use of high‐quality brain samples (characterized by short postmortem delays and ≤24 h of fixation in freshly prepared 4% paraformaldehyde), to address human AHN. We review that the detection of AHN markers in samples fixed for 24 h required mild antigen retrieval and chemical elimination of autofluorescence. However, these steps were not necessary for samples subjected to shorter fixation periods. Moreover, the detection of labile epitopes (such as Nestin) in the human hippocampus required the use of mild detergents. The application of this strictly controlled methodology allowed reconstruction of the entire AHN process, thus revealing the presence of neural stem cells, proliferative progenitors, neuroblasts, and immature neurons at distinct stages of differentiation in the human DG. The data reviewed here demonstrate that methodology is of utmost importance when studying AHN by means of distinct techniques across the phylogenetic scale. In this regard, we summarize the major findings made by our group that emphasize that overlooking fundamental technical principles might have consequences for any given research field.

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Altered adult neurogenesis and gliogenesis in patients with mesial temporal lobe epilepsy

Cited by 40 publications

References 54 publications

Does the plasticity of neural stem cells and neurogenesis make them biosensors of disease and damage?

Does the plasticity of neural stem cells and neurogenesis make them biosensors of disease and damage?

Human Adult Neurogenesis Loss Underlies Cognitive Decline During Epilepsy Progression

Methods to study adult hippocampal neurogenesis in humans and across the phylogeny

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