Natural killer (NK) cells are able to recognize and kill tumor cells, however whether they contribute to tumor immunosurveillance is still debated. Our previous studies demonstrated the presence of NK cells in human lung tumors. Their comparison with NK cells from non-tumoral lung tissues and with blood NK cells from the same individuals revealed a decreased expression of some NK receptors and impaired ex vivo cytotoxic functions occurring specifically in NK cells isolated from the tumor microenvironment. The aim of the present study was to characterize the transcriptional profile of such intratumoral NK cells, by comparative microarray analysis of sorted NK cells isolated from non-tumoral (Non-Tum-NK) and tumoral (Tum-NK) lung tissues of 12 Non-Small Cell Lung Cancer patients. Our results reveal a specific gene expression signature of Tum-NK cells particularly in activation processes and cytotoxicity, confirming that tumor environment induces modifications in NK cells biology. Indeed, intratumoral NK cells display higher expression levels of NKp44, NKG2A, Granzymes A and K, and Fas mRNA. A particular pattern of receptors involved in chemotaxis was also observed, with an overexpression of CXCR5 and CXCR6, and a lower expression of CX3CR1 and S1PR1 genes in Tum-NK as compared to Non-Tum-NK cells. The precise identification of the molecular pathways modulated in the tumor environment will help to decipher the role of NK cells in tumor immunosurveillance and will open future investigations to manipulate their antitumoral functions.
Antisynthetase syndrome (aSS) is characterized by the association of interstitial lung disease and myositis with anti–tRNA synthetase autoantibodies. Immune mechanisms leading to aSS could be initiated in the lungs, but the role of NK cells has not yet been studied. Both extensive NK cell phenotype and functions were compared between 33 patients and 26 controls. Direct and redirected polyfunctionality assays (degranulation and intracellular production of TNF-α and IFN-γ) were performed spontaneously or after IL-12 plus IL-18 stimulation in the presence of K562 or P815 target cells, respectively. NK cells from inactive patients showed normal phenotype, whereas active aSS revealed a differentiated NK cell profile, as indicated by increased CD57 and Ig-like transcript 2 and an inability to produce IFN-γ (p = 0.002) compared with controls. Importantly, active aSS was more specifically associated with a significant NKp30 decrease (p = 0.009), although levels of mRNA and intracellular protein were similar in aSS and healthy controls. This NKp30 decrease was strongly correlated with reduced NK cell polyfunctionality in both direct and redirected killing assays with anti-NKp30 Abs (p = 0.009 and p = 0.03, respectively), confirming its important impact in aSS. Histological studies revealed massive infiltrations of NK cells inside the lungs of aSS patients (148 versus 11/mm2). Taken together, these data suggest that NK cells and NKp30 could play a role in aSS pathogenesis.
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