Effects of Calreticulin Mutations on HLA Class I Expression in Myeloproliferative Neoplasms

Calreticulin (CRT) is important for human leukocyte antigen (HLA) class I assembly. Somatic mutations of the CRT gene ( CALR ) in hematopoietic lineage cells cause myeloproliferative neoplasms (MPNs). Typically, MPN patient cells have one copy each of the wild-type and mutant CALR allele. We find that heterozygous knock-in of a MPN CALR mutation into human cell lines maintains or slightly induces surface expression of HLA class I allotypes. However, full deficiency of wild-type CRT variably reduces the surface expression of HLA class I allotypes, and MPN CRT mutants fail to restore expression for all tested allotypes. Consistent with the largely heterozygous nature of CALR mutations in MPN, surface HLA class I expression in platelets and monocytes from MPN patients with CALR mutations generally falls within the normal range, with higher average expression measured in monocytes from patients treated with interferon alpha compared with other treatments. Overall, the studies indicate that loss of HLA class I expression in cells deficient in wild-type CRT (the CRT dependency) is allele-dependent and correlates with known effects of the assembly factor tapasin. Furthermore, heterozygous knock-in of a MPN-linked CALR mutation has no effect on some allotypes and slightly induces HLA class I expression for CRT-dependent allotypes.