Jian Lu scite author profile

Jian Lu

5Publications

210Citation Statements Received

292Citation Statements Given

How they've been cited

194

How they cite others

306

278

Affiliations

Tsinghua–Berkeley Shenzhen Institute, Tsinghua University, Army Medical University

Publications

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Primary Auditory Cortex is Required for Anticipatory Motor Response

Liao

Zhang

et al. 2017

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The ability of the brain to predict future events based on the pattern of recent sensory experience is critical for guiding animal's behavior. Neocortical circuits for ongoing processing of sensory stimuli are extensively studied, but their contributions to the anticipation of upcoming sensory stimuli remain less understood. We, therefore, used in vivo cellular imaging and fiber photometry to record mouse primary auditory cortex to elucidate its role in processing anticipated stimulation. We found neuronal ensembles in layers 2/3, 4, and 5 which were activated in relationship to anticipated sound events following rhythmic stimulation. These neuronal activities correlated with the occurrence of anticipatory motor responses in an auditory learning task. Optogenetic manipulation experiments revealed an essential role of such neuronal activities in producing the anticipatory behavior. These results strongly suggest that the neural circuits of primary sensory cortex are critical for coding predictive information and transforming it into anticipatory motor behavior.

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A Visual-Cue-Dependent Memory Circuit for Place Navigation

Qin

et al. 2018

Neuron

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SummaryThe ability to remember and to navigate to safe places is necessary for survival. Place navigation is known to involve medial entorhinal cortex (MEC)-hippocampal connections. However, learning-dependent changes in neuronal activity in the distinct circuits remain unknown. Here, by using optic fiber photometry in freely behaving mice, we discovered the experience-dependent induction of a persistent-task-associated (PTA) activity. This PTA activity critically depends on learned visual cues and builds up selectively in the MEC layer II-dentate gyrus, but not in the MEC layer III-CA1 pathway, and its optogenetic suppression disrupts navigation to the target location. The findings suggest that the visual system, the MEC layer II, and the dentate gyrus are essential hubs of a memory circuit for visually guided navigation.

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Sensory Response of Transplanted Astrocytes in Adult Mammalian Cortex In Vivo

Chen

Yang

et al. 2016

Cereb. Cortex

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Glial precursor transplantation provides a potential therapy for brain disorders. Before its clinical application, experimental evidence needs to indicate that engrafted glial cells are functionally incorporated into the existing circuits and become essential partners of neurons for executing fundamental brain functions. While previous experiments supporting for their functional integration have been obtained under in vitro conditions using slice preparations, in vivo evidence for such integration is still lacking. Here, we utilized in vivo two-photon Ca2+ imaging along with immunohistochemistry, fluorescent indicator labeling-based axon tracing and correlated light/electron microscopy to analyze the profiles and the functional status of glial precursor cell-derived astrocytes in adult mouse neocortex. We show that after being transplanted into somatosensory cortex, precursor-derived astrocytes are able to survive for more than a year and respond with Ca2+ signals to sensory stimulation. These sensory-evoked responses are mediated by functionally-expressed nicotinic receptors and newly-established synaptic contacts with the host cholinergic afferents. Our results provide in vivo evidence for a functional integration of transplanted astrocytes into adult mammalian neocortex, representing a proof-of-principle for sensory cortex remodeling through addition of essential neural elements. Moreover, we provide strong support for the use of glial precursor transplantation to understand glia-related neural development in vivo.

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Multichannel fiber photometry for mapping axonal terminal activity in a restricted brain region in freely moving mice

Qin

Jin

et al. 2019

Neurophoton.

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Fiber photometry has been increasingly popular in neuroscience research in freely behaving animals. In combination with genetically encoded calcium indicators, it allows for real-time monitoring of neural activity in neuronal somata, dendrites, and axonal terminals. We developed a multichannel fiber photometry device to map the activity of axonal terminals in a restricted, 100-μm-wide brain region in freely moving mice. This device consists of four bundled multimode fibers, each with a 50-μm core diameter and a scientific complementary metal-oxide semiconductor camera to simultaneously acquire fluorescence. We achieved a sampling rate of 100 frames∕s and sufficient sensitivity to acquire data from axonal terminals. To avoid interference with neighboring channels, the recording depth of each channel was restricted to <250 μm. Furthermore, the small-corediameter fibers did not restrict mouse locomotion. Using the Ca 2þ indicator GCaMP5G, we validated the system by recording Ca 2þ signals in axonal terminals from the medial entorhinal cortex layer II to the hippocampal dentate gyrus (DG) in freely moving mice. We detected spatially separated Ca 2þ signals at four different sites in the DG. Therefore, our multichannel fiber photometry device provides a simple but powerful method to functionally map axonal terminals in spatially confined brain areas of freely moving animals.

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An entorhinal-visual cortical circuit regulates depression-like behaviors

Zhang

Yin

et al. 2022

Mol Psychiatry

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Jian Lu

Primary Auditory Cortex is Required for Anticipatory Motor Response

A Visual-Cue-Dependent Memory Circuit for Place Navigation

Sensory Response of Transplanted Astrocytes in Adult Mammalian Cortex In Vivo

Multichannel fiber photometry for mapping axonal terminal activity in a restricted brain region in freely moving mice

An entorhinal-visual cortical circuit regulates depression-like behaviors

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