7MJA

HLA-A*24:02 binding "QYNPIRTTF" at 1.69Å resolution

Data provenance

Structure downloaded from PDB Europe using the Coordinate Server. Aligned to residues 1-180 of 1HHK2 using the CEALIGN3 function of PyMol4. Chain assigment using a Levenshtein distance5 method using data from the PDBe REST API6. Organism data from PDBe REST API. Data for both of these operations from the Molecules endpoint. Structure visualised with 3DMol7.

Complex type

Class i with peptide

1. Beta 2 microglobulin

['B']

2. Class I alpha
HLA-A*24:02

['A']

3. Peptide
QYNPIRTTF

['C']

Species

Homo sapiens (Human)

Locus / Allele group

HLA-A / HLA-A*24

Publication

Cross-HLA targeting of intracellular oncoproteins with peptide-centric CARs.

Yarmarkovich M, Marshall QF, Warrington JM, Premaratne R, Farrel A, Groff D, Li W, di Marco M, Runbeck E, Truong H, Toor JS, Tripathi S, Nguyen S, Shen H, Noel T, Church NL, Weiner A, Kendsersky N, Martinez D, Weisberg R, Christie M, Eisenlohr L, Bosse KR, Dimitrov DS, Stevanovic S, Sgourakis NG, Kiefel BR, Maris JM

Nature (2021) [doi:10.1038/s41586-021-04061-6] [pubmed:34732890]

The majority of oncogenic drivers are intracellular proteins, thus constraining their immunotherapeutic targeting to mutated peptides (neoantigens) presented by individual human leukocyte antigen (HLA) allotypes¹. However, most cancers have a modest mutational burden that is insufficient to generate responses using neoantigen-based therapies^2,3. Neuroblastoma is a paediatric cancer that harbours few mutations and is instead driven by epigenetically deregulated transcriptional networks⁴. Here we show that the neuroblastoma immunopeptidome is enriched with peptides derived from proteins that are essential for tumourigenesis and focus on targeting the unmutated peptide QYNPIRTTF, discovered on HLA-A*24:02, which is derived from the neuroblastoma dependency gene and master transcriptional regulator PHOX2B. To target QYNPIRTTF, we developed peptide-centric chimeric antigen receptors (CARs) using a counter-panning strategy with predicted potentially cross-reactive peptides. We further hypothesized that peptide-centric CARs could recognize peptides on additional HLA allotypes when presented in a similar manner. Informed by computational modelling, we showed that PHOX2B peptide-centric CARs also recognize QYNPIRTTF presented by HLA-A*23:01 and the highly divergent HLA-B*14:02. Finally, we demonstrated potent and specific killing of neuroblastoma cells expressing these HLAs in vitro and complete tumour regression in mice. These data suggest that peptide-centric CARs have the potential to vastly expand the pool of immunotherapeutic targets to include non-immunogenic intracellular oncoproteins and widen the population of patients who would benefit from such therapy by breaking conventional HLA restriction.

Structure deposition and release

Deposited: 2021-04-19

Released: 2021-08-18

Revised: 2021-12-01

Data provenance

Publication data retrieved from PDBe REST API8 and PMCe REST API9

Other structures from this publication

Peptide details

Length: Nonamer (9 amino acids)

Sequence: QYNPIRTTF

Interactive view

Cutaway side view (static)

Surface top view (static - coloured by atom property)

Cutaway top view (static)

Data provenance

MHC:peptide complexes are visualised using PyMol. The peptide is superimposed on a consistent cutaway slice of the MHC binding cleft (displayed as a grey mesh) which best indicates the binding pockets for the P1/P5/PC positions (side view - pockets A, E, F) and for the P2/P3/PC-2 positions (top view - pockets B, C, D). In some cases peptides will use a different pocket for a specific peptide position (atypical anchoring). On some structures the peptide may appear to sterically clash with a pocket. This is an artefact of picking a standardised slice of the cleft and overlaying the peptide.

Peptide neighbours

P1 GLN

TYR8

THR164

CYS165

MET6

ASP167

LYS67

GLY168

ARG171

TYR172

PHE100

TYR160

TYR60

GLU64

PHE34

P2 TYR

HIS71

PHE100

TYR60

PHE23

GLU64

LYS67

ALA25

PHE9

TYR172

SER10

TYR160

VAL35

THR164

MET46

VAL68

TYR8

P3 ASN

TYR8

GLN156

GLN157

LEU161

HIS115

LYS67

HIS71

PHE100

TYR160

P4 PRO

LYS67

HIS71

ALA70

TYR160

GLN157

P5 ILE

GLN157

THR74

HIS71

MET98

ALA70

HIS115

LYS67

ASP75

PHE100

ASN78

TYR117

P6 ARG

LYS67

THR74

HIS71

ALA70

P7 THR

THR74

VAL153

TRP148

TYR117

GLN157

ASN78

P8 THR

THR144

TRP148

ILE81

GLU77

ASN78

LYS147

THR74

P9 PHE

TYR119

ILE143

TYR85

THR144

LYS147

TRP148

ILE125

ILE81

GLU77

TYR124

LEU96

ASN78

ALA82

TYR117

Colour key

Aromatic Hydrophobic Acidic Basic Neutral/polar

Data provenance

Neighbours are calculated by finding residues with atoms within 5Å of each other using BioPython Neighboursearch module. The list of neighbours is then sorted and filtered to inlcude only neighbours where between the peptide and the MHC Class I alpha chain.

Colours selected to match the YRB scheme. [https://www.frontiersin.org/articles/10.3389/fmolb.2015.00056/full]

Binding cleft pockets

Peptide sidechain binding pockets (static)

Peptide terminii and backbone binding residues (static)

A Pocket

GLN159

LEU163

CYS167

LEU171

SER5

GLY59

TRP63

GLU66

SER7

B Pocket

ARG24

THR34

SER45

TRP63

GLU66

THR67

SER7

VAL70

ARG9

GLN99

C Pocket

VAL70

HIS73

SER74

ARG9

THR97

D Pocket

ARG114

VAL155

ALA156

GLN159

ARG160

GLN99

E Pocket

ARG114

LYS147

ALA152

ALA156

THR97

F Pocket

TYR116

GLY123

ALA143

THR146

LYS147

ASP77

ASN80

LEU81

ALA84

SER95

Colour key

Binds N-terminus Binds P1 backbone Binds P2 backbone Binds PC-1 backbone Binds C-terminus

Data provenance

N-/C-terminus and peptide backbone binding residues are assigned according to previously published information and pockets are assigned according to an adaptation of a previously published set of residues. All numbering is currently that of the 'canonical' structures of human and mouse MHC Class I molecules.

Chain sequences

1. Beta 2 microglobulin Beta 2 microglobulin	10 20 30 40 50 60 MIQRTPKIQVYSRHPAENGKSNFLNCYVSGFHPSDIEVDLLKNGERIEKVEHSDLSFSKD 70 80 90 WSFYLLYYTEFTPTEKDEYACRVNHVTLSQPKIVKWDRDM

2. Class I alpha HLA-A24:02 IPD-IMGT/HLA* [ipd-imgt:HLA34790]	10 20 30 40 50 60 MASGSHSMRYFSTSVSRPGRGEPRFIAVGYVDDTQFVRFDSDAASQRMEPRAPWIEQEGP 70 80 90 100 110 120 EYWDEETGKVKAHSQTDRENLRIALRYYNQSEAGSHTLQMMFGCDVGSDGRFLRGYHQYA 130 140 150 160 170 180 YDGKDYIALKEDLRSWTAADMAAQITKRKWEAAHVAEQQRAYLEGTCVDGLRRYLENGKE 190 200 210 220 230 240 TLQRTDPPKTHMTHHPISDHEATLRCWALGFYPAEITLTWQRDGEDQTQDTELVETRPAG 250 260 270 280 DGTFQKWAAVVVPSGEEQRYTCHVQHEGLPKPLTLRWEPSSQP

3. Peptide	QYNPIRTTF

Data provenance

Sequences are retrieved via the Uniprot method of the RSCB REST API. Sequences are then compared to those derived from the PDB file and matched against sequences retrieved from the IPD-IMGT/HLA database for human sequences, or the IPD-MHC database for other species. Mouse sequences are matched against FASTA files from Uniprot. Sequences for the mature extracellular protein (signal petide and cytoplasmic tail removed) are compared to identical length sequences from the datasources mentioned before using either exact matching or Levenshtein distance based matching.

Downloadable data

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Complete structures

Aligned structures [cif]

7MJA assembly 1

Components

MHC Class I alpha chain [cif]

7MJA assembly 1

MHC Class I antigen binding domain (alpha1/alpha2) [cif]

7MJA assembly 1

Peptide only [cif]

7MJA assembly 1

Derived data

Data for this page [json]

https://api.histo.fyi/v1/structures/7mja

Data license

The data above is made available under a Creative Commons CC-BY 4.0 license. This means you can copy, remix, transform, build upon and redistribute the material, but you must give appropriate credit, provide a link to the license, and indicate if changes were made.

If you use any data downloaded from this site in a publication, please cite 'https://www.histo.fyi/'. A preprint is in preparation.

Footnotes

Protein Data Bank Europe - Coordinate Server
1HHK - HLA-A*02:01 binding LLFGYPVYV at 2.5Å resolution - PDB entry for 1HHK
Protein structure alignment by incremental combinatorial extension (CE) of the optimal path. - PyMol CEALIGN Method - Publication
PyMol - PyMol.org/pymol
Levenshtein distance - Wikipedia entry
Protein Data Bank Europe REST API - Molecules endpoint
3Dmol.js: molecular visualization with WebGL - 3DMol.js - Publication
Protein Data Bank Europe REST API - Publication endpoint
PubMed Central Europe REST API - Articles endpoint

This work is licensed under a Creative Commons Attribution 4.0 International License.