Mutated HLA-G3 localizes to the cell surface but does not inhibit cytotoxicity of natural killer cells

Longmei Zhao; Takele Teklemariam; Basil M Hantash

doi:10.1016/j.cellimm.2013.11.005

Mutated HLA-G3 localizes to the cell surface but does not inhibit cytotoxicity of natural killer cells

Cell Immunol. 2014 Jan;287(1):23-6. doi: 10.1016/j.cellimm.2013.11.005. Epub 2013 Dec 1.

Authors

Longmei Zhao¹, Takele Teklemariam¹, Basil M Hantash²

Affiliations

¹ Escape Therapeutics, Inc., San Jose, CA, United States.
² Escape Therapeutics, Inc., San Jose, CA, United States. Electronic address: basil@escapetherapeutics.com.

PMID: 24355712
DOI: 10.1016/j.cellimm.2013.11.005

Abstract

HLA-G plays an important role in the induction of immune tolerance. Various attempts to produce good manufacturing practice levels of HLA-G as a therapeutic molecule have failed to date partly due to the complicated structure of full-length HLA-G1. Truncated HLA-G3 is simpler and easier to produce than HLA-G1 and contains the expected functional epitope in its only α1 monomorphic domain. In this study, we engineered the ER retrieval and retention signal on HLA-G3's cytoplasmic tail by replacing its RKKSSD motif with RAASSD. We observed that mutated HLA-G3 was highly expressed on the cell surface of transduced K562 cells but did not inhibit cytotoxicity of natural killer cells.

Keywords: Cell surface expression; Cytotoxicity; HLA-G3; Mutation; Natural killer cell.

MeSH terms

Amino Acid Motifs / genetics
Cytotoxicity, Immunologic / genetics
Endoplasmic Reticulum / metabolism*
HLA-G Antigens / genetics
HLA-G Antigens / immunology
HLA-G Antigens / metabolism*
Humans
Immune Tolerance
Immunodominant Epitopes / genetics
K562 Cells
Killer Cells, Natural / immunology*
Protein Engineering
Protein Sorting Signals / genetics
Protein Transport
Sequence Deletion / genetics
Transgenes / genetics

Substances

HLA-G Antigens
Immunodominant Epitopes
Protein Sorting Signals