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24 results on '"Jang, Min Jee"'

1. Ultrafast neuronal imaging of dopamine dynamics with designed genetically encoded sensors

Author

Patriarchi, Tommaso, Cho, Jounhong Ryan, Merten, Katharina, Howe, Mark W, Marley, Aaron, Xiong, Wei-Hong, Folk, Robert W, Broussard, Gerard Joey, Liang, Ruqiang, Jang, Min Jee, Zhong, Haining, Dombeck, Daniel, von Zastrow, Mark, Nimmerjahn, Axel, Gradinaru, Viviana, Williams, John T, and Tian, Lin

Subjects
Biomedical and Clinical Sciences, Biological Psychology, Neurosciences, Psychology, Pharmacology and Pharmaceutical Sciences, Basic Behavioral and Social Science, Behavioral and Social Science, Mental Health, Brain Disorders, Bioengineering, Underpinning research, 1.1 Normal biological development and functioning, Neurological, Animals, Biosensing Techniques, Calcium, Cerebral Cortex, Corpus Striatum, Dopamine, Genetic Engineering, Green Fluorescent Proteins, Humans, Learning, Mice, Neuroimaging, Neurons, Neurotransmitter Agents, Optogenetics, Receptors, Dopamine D1, Serotonin, General Science & Technology
Abstract

Neuromodulatory systems exert profound influences on brain function. Understanding how these systems modify the operating mode of target circuits requires spatiotemporally precise measurement of neuromodulator release. We developed dLight1, an intensity-based genetically encoded dopamine indicator, to enable optical recording of dopamine dynamics with high spatiotemporal resolution in behaving mice. We demonstrated the utility of dLight1 by imaging dopamine dynamics simultaneously with pharmacological manipulation, electrophysiological or optogenetic stimulation, and calcium imaging of local neuronal activity. dLight1 enabled chronic tracking of learning-induced changes in millisecond dopamine transients in mouse striatum. Further, we used dLight1 to image spatially distinct, functionally heterogeneous dopamine transients relevant to learning and motor control in mouse cortex. We also validated our sensor design platform for developing norepinephrine, serotonin, melatonin, and opioid neuropeptide indicators.

Published
2018

2. Low- and high-thermogenic brown adipocyte subpopulations coexist in murine adipose tissue

Author

Song, Anying, Dai, Wenting, Jang, Min Jee, Medrano, Leonard, Li, Zhuo, Zhao, Hu, Shao, Mengle, Tan, Jiayi, Li, Aimin, Ning, Tinglu, Miller, Marcia M., Armstrong, Brian, Huss, Janice M., Zhu, Yi, Liu, Yong, Gradinaru, Viviana, Wu, Xiwei, Jiang, Lei, Scherer, Philipp E., and Wang, Qiong A.

Subjects
Obesity, Fatty acids, Insulin resistance, RNA sequencing, Adipose tissue, Criminal investigation, Insulin, RNA, Health care industry
Abstract

Brown adipose tissue (BAT), as the main site of adaptive thermogenesis, exerts beneficial metabolic effects on obesity and insulin resistance. BAT has been previously assumed to contain a homogeneous population of brown adipocytes. Utilizing multiple mouse models capable of genetically labeling different cellular populations, as well as single-cell RNA sequencing and 3D tissue profiling, we discovered a brown adipocyte subpopulation with low thermogenic activity coexisting with the classical high-thermogenic brown adipocytes within the BAT. Compared with the high-thermogenic brown adipocytes, these low-thermogenic brown adipocytes had substantially lower Ucp1 and Adipoq expression, larger lipid droplets, and lower mitochondrial content. Functional analyses showed that, unlike the high-thermogenic brown adipocytes, the lowthermogenic brown adipocytes have markedly lower basal mitochondrial respiration, and they are specialized in fatty acid uptake. Upon changes in environmental temperature, the 2 brown adipocyte subpopulations underwent dynamic interconversions. Cold exposure converted low-thermogenic brown adipocytes into high-thermogenic cells. A thermoneutral environment had the opposite effect. The recruitment of high-thermogenic brown adipocytes by cold stimulation is not affected by high-fat diet feeding, but it does substantially decline with age. Our results revealed a high degree of functional heterogeneity of brown adipocytes., Introduction Brown adipose tissue (BAT) is a thermogenic organ that is thought to play an important role in human energy homeostasis (1-3). Upon activation, brown adipocytes within the BAT can [...]

Published
2020
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3. Spatial tropism profiling of AAV vectors by ultrasensitive sequential FISH in tissue

Author

Jang, Min Jee, Gradinaru, Viviana, Jang, Min Jee, and Gradinaru, Viviana

Abstract

Ultrasensitive sequential fluorescence in situ hybridization (USeqFISH) enables multiplexed detection of the expression of endogenous and exogenous genes delivered by adeno-associated virus (AAV) vectors in intact tissue. USeqFISH provides a spatial map of AAV tropism with high throughput and resolution.

Published
2023

7. Deep Tropism Profiling of Barcoded AAV Capsid and Cargo Pools in Intact Tissue Using High-Throughput Ultrasensitive Sequential FISH

Author

Jang, Min Jee, Coughlin, Gerard M., Zhang, Yameng, Koulena, Noushin, Schindler, Simone, Cai, Long, and Gradinaru, Viviana

Abstract

Genetic access to specific cell types through minimally invasive routes is of particular interest in basic research and clinical applications. Extensive efforts have been made in engineering gene delivery vectors, such as recombinant adeno-associated viruses (rAAVs), and gene regulatory elements to achieve this goal. Despite many interesting candidates, revealed for example from directed evolution via M-CREATE (Sripriya Ravindra Kumar et al., Nature Methods, 2020), histology-based characterization presents a bottleneck due to the limited number of variants and/or cell types that can be investigated at once. To address this, we have developed ultrasensitive sequential FISH (useqFISH) for multiplexed detection of both endogenous and barcoded transgene transcripts in intact tissue with single-molecule resolution. By combining two amplification strategies (rolling circle amplification, RCA, and hybridization chain reaction, HCR), we achieved a 2.7- or 6.7-fold increased signal-to-background ratio of useqFISH in comparison to one with RCA or HCR only amplification, respectively. UseqFISH allowed us to detect endogenous genes with a single probe pair (20-nucleotide (nt) for each) and, in transfected cell cultures, to distinguish capsid variants with genomes differing by only 7-mer peptide modification. We further improved useqFISH by establishing an automated single-molecule imaging and microfluidic solution exchange system and an analytical pipeline for 3D imaging data. To demonstrate the applicability of useqFISH for in vivo AAV profiling, we employed this method to further characterize a pool of 6 AAV capsid variants that we found to be highly efficient for brainwide and/or cell-type biased transduction in the mouse brain following systemic delivery. We designed unique nucleic acid barcodes (160-nt) in the 3’UTR of each viral genome and retro-orbitally injected the pooled AAVs into 2 C57BL6/J mice at a dose of 5e10 viral genomes (vg) per variant (total 3e11 vg/mouse). For transcript detection, 11 canonical cell-type markers (e.g., Slc17a7, Gad1, Pvalb, SST, VIP, etc) were used together with probes against the viral genome barcodes, to characterize the cell-type tropisms of each variant. Next, we designed a pool of 103 barcoded AAV genomes carrying 4 tandem repeats of a unique miRNA target site. We packaged these genomes into AAV-PHP. eB and delivered to 3 C57BL6/J mice at a dose of 1e10 vg/variant (total ~1e12 vg/mouse). Using useqFISH, we were able to assess the ability of each miRNA target site to dampen transgene expression in different cell types, thereby revealing useful intersectional strategies to refine celltype- specific transgene expression with capsid/cargo combinations. These results demonstrate that useqFISH allows for high-throughput characterization of pooled genetic variants of viral capsids and gene regulatory elements in intact tissue and thus enables comprehensive profiling of genetic toolkits for precise access to targets of interest.

Published
2021

9. Low- and high-thermogenic brown adipocyte subpopulations coexist in murine adipose tissue

Author

Song, Anying, primary, Dai, Wenting, additional, Jang, Min Jee, additional, Medrano, Leonard, additional, Li, Zhuo, additional, Zhao, Hu, additional, Shao, Mengle, additional, Tan, Jiayi, additional, Li, Aimin, additional, Ning, Tinglu, additional, Miller, Marcia M., additional, Armstrong, Brian, additional, Huss, Janice M., additional, Zhu, Yi, additional, Liu, Yong, additional, Gradinaru, Viviana, additional, Wu, Xiwei, additional, Jiang, Lei, additional, Scherer, Philipp E., additional, and Wang, Qiong A., additional

Published
2019
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12. Axon-First Neuritogenesis on Vertical Nanowires

Author

Kang, Kyungtae, primary, Park, Yi-Seul, additional, Park, Matthew, additional, Jang, Min Jee, additional, Kim, Seong-Min, additional, Lee, Juno, additional, Choi, Ji Yu, additional, Jung, Da Hee, additional, Chang, Young-Tae, additional, Yoon, Myung-Han, additional, Lee, Jin Seok, additional, Nam, Yoonkey, additional, and Choi, Insung S., additional

Published
2015
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24. Axon-First Neuritogenesis on Vertical Nanowires.

Author

Kang K, Park YS, Park M, Jang MJ, Kim SM, Lee J, Choi JY, Jung DH, Chang YT, Yoon MH, Lee JS, Nam Y, and Choi IS

Subjects
Actins chemistry, Animals, Axons chemistry, Axons physiology, Cell Culture Techniques, Cell Tracking methods, Hippocampus cytology, Rats, Silicon chemistry, Hippocampus chemistry, Nanowires chemistry, Neurites chemistry, Neurogenesis
Abstract

In this work, we report that high-density, vertically grown silicon nanowires (vg-SiNWs) direct a new in vitro developmental pathway of primary hippocampal neurons. Neurons on vg-SiNWs formed a single, extremely elongated major neurite earlier than minor neurites, which led to accelerated polarization. Additionally, the development of lamellipodia, which generally occurs on 2D culture coverslips, was absent on vg-SiNWs. The results indicate that surface topography is an important factor that influences neuronal development and also provide implications for the role of topography in neuronal development in vivo.

Published
2016
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