It is interesting to note that MICA and MICB has a greater induction for proliferation of the myelomonocytic cell lines than in the cervical cancer ones, we think that this is due to the fact that the myelomonocytic Veliparib mouse cells presented a higher expression of the NKG2D receptor on their membranes. Our results not only provide evidence that tumor cells can secrete MIC stress molecules and at the same time express their cognate receptor, but demonstrate that non-leukocyte cells, such as epithelial cells, can also express a receptor that was thought to be specific for cytotoxic cells. It would be
interesting to determine if this behavior is a more general property of MICA- and MICB-producing cells
by evaluating see more whether virus-infected and tumor cells known to secrete MICA CX-5461 datasheet and MICB also express NKG2D. Conversely, it would be interesting to determine if NK and other NKG2D-expressing cells could also be induced to produce and secrete MICA and MICB. If the secretion of MICA and MICB by virus-infected or tumor cells is thought to activate the immunological system through the NKG2D receptor on NK and cytotoxic lymphocytes, then the malignant cells may also present this receptor, as hinted in this work, to help deplete the secreted stress signals in situ and thus avoid activation of the cytotoxic NKG2D-positive cells. This novel idea that tumor cells can express NKG2D could expand a new field of research to
discover new mechanisms by which malignant cells escape immunological recognition. We can further PRKD3 speculate that malignant cells not only can deplete MICA and MICB in situ to avoid immune recognition, but they can also use the stress factors as endogenous tumor growth factors. It would be interesting to determine if the simultaneous expression of MICA, MICB and the NKG2D receptor is present in different types of virus-infected and tumor cells. In this respect, the immunosuppressive state that is characteristic of tumor patients and the associated continuous tumor growth warrants further investigation. Conclusions This paper describes two novel findings; one that shows that tumor cells can simultaneously secrete MIC molecules and express their receptor, and another one that tumor epithelial cells (non-leukocytic cells) can also express the NKG2D receptor. The secretion of MIC by tumor cells is thought to activate cytotoxicity through the NKG2D receptor on NK and lymphocytes, then if the malignant cells can also present this receptor as hinted in this work, they could contribute to deplete the secreted stress signals in situ thus avoiding activation of the immunocompetent cells.