High-throughput mapping of a whole rhesus monkey brain at micrometer resolution

Xu, Fang; Shen, Yongming; Ding, Lufeng; Yang, Chih‐Yung; Hui‐min, Tan; Wang, Hao; Zhu, Qingyuan; Xu, Rui; Wu, Fengyi; Xiao, Yanyang; Xu, Chengpei; Li, Qianwei; Su, Peng; Zhang, Li I.; Dong, Hong‐Wei; Desimone, Robert; Xu, Fuqiang; Hu, Xintian; Lau, Pak-Ming; Bi, Guoqiang

doi:10.1038/s41587-021-00986-5

Cited by 84 publications

(88 citation statements)

References 63 publications

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“…These are both key cell types implicated in neurodegenerative disorders 52,53,73,74 , and the experiments shown here open the door for comparing these cell types in diseased and healthy macaques. Moving forward, the work here will enable major efforts under the NIH BRAIN Initiative 75 , as CAP-Mac-mediated labeling can be readily combined with tissue clearing and imaging techniques to map long-range projections within the Old World primate connectome [76][77][78] . Such studies present a novel opportunity to study the macaque brain, and more generally, an opportunity to understand the inner workings of the primate CNS.…”

Section: Discussionmentioning

confidence: 99%

Intravenous gene transfer throughout the brain of infant Old World primates using AAV

Chuapoco¹,

Flytzanis²,

Goeden³

et al. 2022

Preprint

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Adeno-associated viruses (AAVs) can enable robust and safe gene delivery to the mammalian central nervous system (CNS). While the scientific community has developed numerous neurotropic AAV variants for systemic gene-transfer to the rodent brain, there are few AAVs that efficiently access the CNS of higher order primates. We describe here AAV.CAP-Mac, an engineered AAV variant that enables systemic, brain-wide gene delivery in infants of two Old World primate species--the rhesus macaque (Macaca mulatta) and the green monkey (Chlorocebus sabaeus). We identified CAP-Mac using a multi-species selection strategy, initially screening our library in the adult common marmoset (Callithrix jacchus) and narrowing our pool of test-variants for another round of selection in infant macaques. In individual characterization, CAP-Mac robustly transduces human neurons in vitro and Old World primate neurons in vivo, where it targets all lobes of cortex, the cerebellum, and multiple subcortical regions of disease relevance. We use CAP-Mac for Brainbow-like multicolor labeling of macaque neurons throughout the brain, enabling morphological reconstruction of both medium spiny neurons and cortical pyramidal cells. Because of its broad distribution throughout the brain and high neuronal efficiency in infant Old World primates compared to AAV9, CAP-Mac shows promise for researchers and clinicians alike to unlock novel, noninvasive access to the brain for efficient gene transfer.

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Section: Discussionmentioning

confidence: 99%

Intravenous gene transfer throughout the brain of infant Old World primates using AAV

Chuapoco¹,

Flytzanis²,

Goeden³

et al. 2022

Preprint

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“…Another limitation of this study is that our resolution (2 mm) was not fine enough to capture the finer scaled regularities of connectivity, including columnar (Cavada and Goldman-Rakic, 1989;Schwartz and Goldman-Rakic, 1984;Selemon and Goldman-Rakic, 1988;Seltzer et al, 1996), laminar (Barbas, 2015), and layer-specific, stripe-like (Levitt et al, 1993;Lund et al, 1993) patterns observed in tracing studies. High-resolution fMRI (Huber et al, 2017;Yacoub et al, 2020) and ultrafast whole-brain fluorescence imaging (Xu et al, 2021) in primates will help better link connectivity patterns mapped by EM-fMRI and tracing in the future.…”

Section: Strengths and Limitations Of Dense Connectivity Mapping Using Em-fmrimentioning

confidence: 99%

The cortical connectome of primate lateral prefrontal cortex

Bichot

Takahashi

et al. 2022

Neuron

Self Cite

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“…All tissue-clearing protocols should be understood as modular toolboxes in which specific steps can be added or removed in order to adapt them to specific applications; for example, modules taken from the CUBIC and CLARITY pipelines have recently been combined to clear slices of a rhesus monkey brain (Xu et al, 2021). Most clearing protocols can be broken down to into six modules: fixation, lipid removal or delipidation, decalcification (optional), bleaching or depigmentation/decolorization (optional), labeling (optional) and optical clearing (Fig.…”

Section: Common Modulesmentioning

confidence: 99%

Tissue clearing and 3D imaging in developmental biology

Vieites‐Prado

Renier

2021

Development

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Tissue clearing increases the transparency of late developmental stages and enables deep imaging in fixed organisms. Successful implementation of these methodologies requires a good grasp of sample processing, imaging and the possibilities offered by image analysis. In this Primer, we highlight how tissue clearing can revolutionize the histological analysis of developmental processes and we advise on how to implement effective clearing protocols, imaging strategies and analysis methods for developmental biology.

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High-throughput mapping of a whole rhesus monkey brain at micrometer resolution

Cited by 84 publications

References 63 publications

Intravenous gene transfer throughout the brain of infant Old World primates using AAV

Intravenous gene transfer throughout the brain of infant Old World primates using AAV

The cortical connectome of primate lateral prefrontal cortex

Tissue clearing and 3D imaging in developmental biology

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