Author
Listed:
- Sarah A. Overall
(University of California Santa Cruz)
- Jugmohit S. Toor
(University of California Santa Cruz)
- Stephanie Hao
(New York Genome Center)
- Mark Yarmarkovich
(University of Pennsylvania)
- Sara M. O’Rourke
(University of California Santa Cruz)
- Giora I. Morozov
(University of California Santa Cruz)
- Son Nguyen
(University of Pennsylvania)
- Alberto Sada Japp
(University of Pennsylvania)
- Nicolas Gonzalez
(University of California Santa Cruz)
- Danai Moschidi
(University of California Santa Cruz)
- Michael R. Betts
(University of Pennsylvania)
- John M. Maris
(University of Pennsylvania)
- Peter Smibert
(New York Genome Center)
- Nikolaos G. Sgourakis
(University of California Santa Cruz)
Abstract
Peptide exchange technologies are essential for the generation of pMHC-multimer libraries used to probe diverse, polyclonal TCR repertoires in various settings. Here, using the molecular chaperone TAPBPR, we develop a robust method for the capture of stable, empty MHC-I molecules comprising murine H2 and human HLA alleles, which can be readily tetramerized and loaded with peptides of choice in a high-throughput manner. Alternatively, catalytic amounts of TAPBPR can be used to exchange placeholder peptides with high affinity peptides of interest. Using the same system, we describe high throughput assays to validate binding of multiple candidate peptides on empty MHC-I/TAPBPR complexes. Combined with tetramer-barcoding via a multi-modal cellular indexing technology, ECCITE-seq, our approach allows a combined analysis of TCR repertoires and other T cell transcription profiles together with their cognate antigen specificities in a single experiment. The new approach allows TCR/pMHC interactions to be interrogated easily at large scale.
Suggested Citation
Sarah A. Overall & Jugmohit S. Toor & Stephanie Hao & Mark Yarmarkovich & Sara M. O’Rourke & Giora I. Morozov & Son Nguyen & Alberto Sada Japp & Nicolas Gonzalez & Danai Moschidi & Michael R. Betts & , 2020.
"High throughput pMHC-I tetramer library production using chaperone-mediated peptide exchange,"
Nature Communications, Nature, vol. 11(1), pages 1-13, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-15710-1
DOI: 10.1038/s41467-020-15710-1
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