The potential clinical promise of ‘multimodality’ metronomic chemotherapy revealed by preclinical studies of metastatic disease

Publication date: 1 August 2017
Source:Cancer Letters, Volume 400
Author(s): Robert S. Kerbel, Yuval Shaked
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). Studies using such models, and others including transplanted cell lines, often yield highly encouraging results which are seldom recapitulated in the clinic, especially when assessed in randomized phase III clinical trials. While there are likely many different reasons for this discrepancy, one is likely the failure to recapitulate treatment of advanced visceral metastatic disease in mice. With this gap in mind, we have developed a number of models of metastatic human tumor xenografts (and more recently, of mouse tumors in syngeneic immunocompetent mice). A pattern of response we have observed with various targeted agents, e.g. VEGF pathway targeting antiangiogenic drugs or trastuzumab, is effective when treating primary tumors in contrast to a complete or severely reduced lack of such efficacy when treating advanced metastatic disease. Interestingly, an exception to this pattern has been observed using various continuous low-dose metronomic chemotherapy regimens, where counterintuitively, superior responses are observed in the metastatic setting, as well as superiority or equivalence of metronomic chemotherapy over standard maximum tolerated dose (MTD) chemotherapy, with lesser toxicity. The basis for these encouraging results may be related to the multiple mechanisms responsible for the anti-tumor effects and longer duration of metronomic chemotherapy regimens made possible by lesser toxicity. 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.



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