posted on 2022-02-25, 21:44authored byRevanth Reddy, Liwei Yang, Jesse Liu, Zhuojie Liu, Jun Wang
Highly multiplexed analysis of biospecimens
significantly advances
the understanding of biological basics of diseases, but these techniques
are limited by the number of multiplexity and the speed of processing.
Here, we present a rapid multiplex method for quantitative detection
of protein markers on brain sections with the cellular resolution.
This spatial multiplex in situ tagging (MIST) technology is built
upon a MIST microarray that contains millions of small microbeads
carrying barcoded oligonucleotides. Using antibodies tagged with UV
cleavable oligonucleotides, the distribution of protein markers on
a tissue slice could be “printed” on the MIST microarray
with high fidelity. The performance of this technology in detection
sensitivity, resolution, and signal-to-noise level has been fully
characterized by detecting brain cell markers. We showcase the codetection
of 31 proteins simultaneously within 2 h, which is about 10 times
faster than the other immunofluorescence-based approaches of similar
multiplexity. A full set of computational toolkits was developed to
segment the small regions and identify the regional differences across
the entire mouse brain. This technique enables us to rapidly and conveniently
detect dozens of biomarkers on a tissue specimen, and it can find
broad applications in clinical pathology and disease mechanistic studies.