Cancer letters
-
Id1 promotes carcinogenesis and metastasis, and predicts prognosis of non-small cell lung cancer (NSCLC)-adenocarcionoma patients. We hypothesized that Id1 may play a critical role in lung cancer colonization of the liver by affecting both tumor cells and the microenvironment. Depleted levels of Id1 in LLC (Lewis lung carcinoma cells, LLC shId1) significantly reduced cell proliferation and migration in vitro. ⋯ In tissue microarrays containing 532 NSCLC patients' samples, we found that Id1 significantly correlated with vimentin and other EMT-related proteins. Id1 loss decreased the levels of vimentin, integrinβ1, TGFβ1 and snail, both in vitro and in vivo. Therefore, Id1 enables both LLC and the host microenvironment for an effective liver colonization, and may represent a novel therapeutic target to avoid NSCLC liver metastasis.
-
We present a rationale for further clinical development and assessment of metronomic chemotherapy on the basis of unexpected results obtained in translational mouse models of cancer involving treatment of advanced metastatic disease. Historically, mouse cancer therapy models have been dominated by treating established primary tumors or early stage low volume microscopic disease. Treatment of primary tumors is also almost always the case when using genetically engineered mouse models (GEMMs) of cancer or patient-derived xenografts (PDXs). ⋯ These include antiangiogenesis, stimulation of the immune system, stromal cell targeting in tumors, and possibly direct tumor cell targeting, including targeting cancer stem cells (CSCs). In addition, metronomic chemotherapy regimens minimize or even eliminate the problem of chemotherapy-induced host responses that may actually secondarily promote tumor growth and malignancy after causing an initial and beneficial anti-tumor response. We suggest that future preclinical studies of metronomic chemotherapy should be concentrated in the following areas: i) further comparative assessment of anti-tumor efficacy in primary vs metastatic treatment settings; ii) rigorous comparative assessment of conventional MTD chemotherapy vs metronomic chemotherapy using the same agent; iii) assessment of potential predictive biomarkers for metronomic chemotherapy, and methods to determine optimal biologic dose and schedule; and iv) a further detailed assessment of the potential of different chemotherapy drugs administered using MTD or metronomic regimens on stimulating or suppressing components of the innate or adaptive immune systems.