eLife (Feb 2019)

A high-throughput neurohistological pipeline for brain-wide mesoscale connectivity mapping of the common marmoset

  • Meng Kuan Lin,
  • Yeonsook Shin Takahashi,
  • Bing-Xing Huo,
  • Mitsutoshi Hanada,
  • Jaimi Nagashima,
  • Junichi Hata,
  • Alexander S Tolpygo,
  • Keerthi Ram,
  • Brian C Lee,
  • Michael I Miller,
  • Marcello GP Rosa,
  • Erika Sasaki,
  • Atsushi Iriki,
  • Hideyuki Okano,
  • Partha Mitra

DOI
https://doi.org/10.7554/eLife.40042
Journal volume & issue
Vol. 8

Abstract

Read online

Understanding the connectivity architecture of entire vertebrate brains is a fundamental but difficult task. Here we present an integrated neuro-histological pipeline as well as a grid-based tracer injection strategy for systematic mesoscale connectivity mapping in the common marmoset (Callithrix jacchus). Individual brains are sectioned into ~1700 20 µm sections using the tape transfer technique, permitting high quality 3D reconstruction of a series of histochemical stains (Nissl, myelin) interleaved with tracer labeled sections. Systematic in-vivo MRI of the individual animals facilitates injection placement into reference-atlas defined anatomical compartments. Further, by combining the resulting 3D volumes, containing informative cytoarchitectonic markers, with in-vivo and ex-vivo MRI, and using an integrated computational pipeline, we are able to accurately map individual brains into a common reference atlas despite the significant individual variation. This approach will facilitate the systematic assembly of a mesoscale connectivity matrix together with unprecedented 3D reconstructions of brain-wide projection patterns in a primate brain.

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