The chaperone protein GRP78 released from MPN cells increases the expression of lysyl oxidase in a human stromal cell line.

Impaired function of the endoplasmic stress (ER) response causes numerous pathological conditions, including tissue fibrosis. In the present study, we aimed to determine the pathological role of ER stress response systems in myeloproliferative neoplasms (MPNs). We found increased expression of the chaperone protein glucose-regulated protein (GRP) 78, a central regulator of ER stress, in megakaryocytes from primary myelofibrosis or postessential thrombocythemia myelofibrosis patients. GRP78 was overexpressed in JAK2V617F-harboring cell lines; however, inhibitors of ER stress did not affect the expression levels of GRP78. In contrast, ruxolitinib, a well-known inhibitor of JAK2V617F, clearly blocked GRP78 expression in these cells through downregulation of transcription factor 4 (ATF4). Interestingly, GRP78 was secreted from HEL and SET-2 cells into culture media. Coculture of these cells with HS-5 cells, a human bone marrow stroma-derived cell line, induced enhanced expression of lysyl oxidase (LOX), which mediates cross-linking of collagen fibers and induces tissue fibrosis, in HS-5 cells. An anti-GRP78 neutralizing antibody abrogated LOX elevation; in contrast, recombinant GRP78 protein induced LOX protein expression in HS-5 cells. Our observations suggest that the oncogenic protein JAK2V617F induces overexpression and release of GRP78, which may induce a fibrotic phenotype in surrounding bone marrow stromal cells. • GRP78, an endoplasmic response regulating chaperon is overexpressed in primary megakaryocytes derived from PMF or secondary MF patients. • JAK2V617F induced overexpression of GRP78 through activation of transcription factor ATF4. • JAK2V617F harboring HEL and SET-2 cells secreted GRP78 into microenvironment. • Secreted GRP78 work on bone marrow stromal cell line to activate JNK pathway leading to expression of lysyl oxidase. • Overexpression of lysyl oxidase in stromal cells were found in bone marrow biopsy specimens from PMF or secondary MF patients. [ABSTRACT FROM AUTHOR]