CCR6 activation links innate immune responses to mucosa-associated lymphoid tissue lymphoma development.

The genesis of extranodal marginal zone lymphoma of mucosa-associated lymphoid tissue (MALT) is driven by oncogenic co-operation among immunological stimulations and acquired genetic changes. We previously identified recurrent CCR6 mutations in MALT lymphoma, with majority predicted to result in truncated proteins lacking the phosphorylation motif important for receptor desensitization. Functional consequences of these mutational changes, the molecular mechanisms of CCR6 activation and how this receptor signaling contributes to MALT lymphoma development remain to be investigated. In the present study, we demonstrated that these mutations impaired CCR6 receptor internalization and were activating changes, being more potent in apoptosis resistance, malignant transformation, migration and intracellular signaling, particularly in the presence of the ligands CCL20, HBD2 (human b defensin 2) and HD5 (human a defensin 5). CCR6 was highly expressed in malignant B cells irrespective of the lymphoma sites. HBD2 and CCL20 were constitutively expressed by the duct epithelial cells of salivary glands, and also those involved in lymphoepithelial lesions (LEL) in salivary gland MALT lymphoma. While in the gastric setting, HBD2, and HD5, to a less extent CCL20, were highly expressed in epithelial cells of pyloric and intestinal metaplasia respectively including those involved in LEL, which are adaptive responses to chronic Helicobacter pylori infection. These findings suggest that CCR6 signaling is most likely active in MALT lymphoma, independent of its mutation status. The observations explain why the emergence of malignant B cells and their clonal expansion in MALT lymphoma are typically around LEL, linking the innate immune responses to lymphoma genesis.

GPR34 activation potentially bridges lymphoepithelial lesions to genesis of salivary gland MALT lymphoma.

GPR34 translocation and mutation are specifically associated with salivary gland MALT lymphoma (SG-MALT-lymphoma). The majority of GPR34 mutations are clustered in its C-terminus, resulting in truncated proteins lacking the phosphorylation motif important for receptor desensitization. It is unclear why GPR34 genetic changes associate with SG-MALT-lymphoma and how these mutations contribute to the development of lymphoma. We generated isogenic Flp-InTRex293 cell lines that stably expressed a single copy of GPR34 or its various mutants and performed a range of in vitro assays. We found that the GPR34 Q340X truncation, but not the R84H and D151A mutants, conferred a significantly increased resistance to apoptosis and greater transforming potential than the GPR34 wild type. The GPR34 truncation mutant had a significantly delayed internalization compared with the wild type after ligand (lysophosphatidylserine) stimulation. Among the 9 signaling pathways examined, the GPR34 Q340X truncation, and to a lesser extent the D151A mutant, significantly activated CRE, NF-κB, and AP1 reporter activities, particularly in the presence of ligand stimulation. We further described the enhanced activities of phospholipase-A1/2 in the culture supernatant of Flp-InTRex293 cells that expressed the GPR34 Q340X mutant, as well as their potential to catalyze the synthesis of lysophosphatidylserine from phosphatidylserine. Importantly, phospholipase-A1 was abundantly expressed in the duct epithelium of salivary glands and those involved in lymphoepithelial lesions (LELs). Our findings advocate a model of paracrine stimulation of malignant B cells via GPR34, in which phospholipase A is released by LELs and hydrolyzes the phosphatidylserine exposed on apoptotic cells, generating lysophosphatidylserine, the ligand for GPR34. Thus, GPR34 activation potentially bridges LELs to genesis of SG-MALT-lymphoma.