Pablo Vergara scite author profile

In anticipation of the massive burden of neurodegenerative disease within super-aged societies, great efforts have been made to utilize neural stem and progenitor cells for regenerative medicine. The capacity of intrinsic neural stem and progenitor cells to regenerate damaged brain tissue remains unclear, due in part to the lack of knowledge about how these newly born neurons integrate into functional circuitry. As sizable integration of adult-born neurons naturally occurs in the dentate gyrus region of the hippocampus, clarifying the mechanisms of this process could provide insights for applying neural stem and progenitor cells in clinical settings. There is convincing evidence of functional correlations between adult-born neurons and memory consolidation and sleep; therefore, we describe some new advances that were left untouched in our recent review.

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Miniaturized microscope with flexible light source input for neuronal imaging and manipulation in freely behaving animals

Srinivasan

Hosokawa

Vergara

et al. 2019

Biochemical and Biophysical Research Communications

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Calcium imaging of adult-born neurons in freely moving mice

et al. 2021

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Open-Source Software for Real-time Calcium Imaging and Synchronized Neuron Firing Detection

Takeuchi

Tezuka

Vergara

et al. 2021

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We developed Carignan, a real-time calcium imaging software that can automatically detect activity patterns of neurons. Carignan can activate an external device when synchronized neural activity is detected in calcium imaging obtained by a one-photon (1p) miniscope. Combined with optogenetics, our software enables closed-loop experiments for investigating functions of specific types of neurons in the brain. In addition to making existing pattern detection algorithms run in real-time seamlessly, we developed a new classification module that distinguishes neurons from false-positives using deep learning. We used a combination of convolutional and recurrent neural networks to incorporate both spatial and temporal features in activity patterns. Our method performed better than existing neuron detection methods for false-positive neuron detection in terms of the F1 score. Using Carignan, experimenters can activate or suppress a group of neurons when specific neural activity is observed. Because the system uses a 1p miniscope, it can be used on the brain of a freely-moving animal, making it applicable to a wide range of experimental paradigms.

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Mechanisms Underlying Memory Consolidation by Adult-Born Neurons During Sleep

Vergara

Sakaguchi

2020

Front. Cell. Neurosci.

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The mammalian hippocampus generates new neurons that incorporate into existing neuronal networks throughout the lifespan, which bestows a unique form of cellular plasticity to the memory system. Recently, we found that hippocampal adult-born neurons (ABNs) that were active during learning reactivate during subsequent rapid eye movement (REM) sleep and provided causal evidence that ABN activity during REM sleep is necessary for memory consolidation. Here, we describe the potential underlying mechanisms by highlighting distinct characteristics of ABNs including decoupled firing from local oscillations and ability to undergo profound synaptic remodeling in response to experience. We further discuss whether ABNs constitute the conventional definition of engram cells by focusing on their active and passive roles in the memory system. This synthesis of evidence helps advance our thinking on the unique mechanisms by which ABNs contribute to memory consolidation.

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Remapping of Adult-Born Neuron Activity during Fear Memory Consolidation in Mice

Vergara

Kumar

Srinivasan

et al. 2021

IJMS

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The mammalian hippocampal dentate gyrus is a unique memory circuit in which a subset of neurons is continuously generated throughout the lifespan. Previous studies have shown that the dentate gyrus neuronal population can hold fear memory traces (i.e., engrams) and that adult-born neurons (ABNs) support this process. However, it is unclear whether ABNs themselves hold fear memory traces. Therefore, we analyzed ABN activity at a population level across a fear conditioning paradigm. We found that fear learning did not recruit a distinct ABN population. In sharp contrast, a completely different ABN population was recruited during fear memory retrieval. We further provide evidence that ABN population activity remaps over time during the consolidation period. These results suggest that ABNs support the establishment of a fear memory trace in a different manner to directly holding the memory. Moreover, this activity remapping process in ABNs may support the segregation of memories formed at different times. These results provide new insight into the role of adult neurogenesis in the mammalian memory system.

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Pablo Vergara

Ultrasound as predictor of histologic subtypes linked to recurrence in basal cell carcinoma of the skin

Sparse Activity of Hippocampal Adult-Born Neurons during REM Sleep Is Necessary for Memory Consolidation

Memory consolidation during sleep and adult hippocampal neurogenesis

Miniaturized microscope with flexible light source input for neuronal imaging and manipulation in freely behaving animals

Calcium imaging of adult-born neurons in freely moving mice

Open-Source Software for Real-time Calcium Imaging and Synchronized Neuron Firing Detection

Mechanisms Underlying Memory Consolidation by Adult-Born Neurons During Sleep

Remapping of Adult-Born Neuron Activity during Fear Memory Consolidation in Mice

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