In 2 animal models of PH based on Treg deficiency, females developed more severe PH than males. The data suggest that females are especially reliant on the normal Treg function to counteract the effects of pulmonary vascular injury leading to PH.
Colorectal cancer (CRC) is a common tumor type with a high mortality rate, in part due to intrinsic drug resistance. Although bevacizumab, a VEGF-directed neutralizing antibody, is particularly active in this pathology, some patients never respond for reasons not well understood. We here wish to clarify the role of autocrine VEGF signaling in the response of CRC cells to angiogenesis inhibition. Our results show that CRC cells with intrinsic bevacizumab-resistance displayed pronounced upregulation of autocrine HIF-VEGF-VEGFR signaling in response to prolonged bevacizumab exposure whereas the same signaling pathway was downregulated in bevacizumab-sensitive xenografts. Importantly, both bevacizumab-sensitive and -resistant CRC xenografts were sensitive to nintedanib, a small molecule angiokinase inhibitor, which was associated with inhibition of mTORC1. In vitro studies revealed that bevacizumab-resistant cells displayed intrinsically higher HIF-VEGF signaling intensity and hypoxia tolerance compared to their bevacizumab-sensitive counterparts. Interestingly, although nintedanib showed comparable activity toward bevacizumab-sensitive cells under normoxia and hypoxia, the drug was three-fold more toxic to the resistant cells under hypoxia, suggesting that nintedanib attenuated the survival signaling that usually protects these cells from hypoxia-mediated cell death. In conclusion, our findings support a role for autocrine VEGF signaling in the survival of CRC cells to hypoxia and thus to angiogenesis inhibition. We further show that nintedanib, a small molecule angiokinase inhibitor, is active toward CRC models with intrinsic bevacizumab resistance supporting clinical trials of nintedanib in patients that do not respond to bevacizumab, alone or in combination with bevacizumab to increase angiogenesis inhibition.
There is extensive cross-talk between VEGF- and EGFR-pathway signaling in colorectal cancer. However, combinations of VEGF- and EGFR-targeted monoclonal antibodies (mAb) show disappointing activity, in particular for patients with mutant Previous results show that tyrosine kinase inhibitors (TKI) can be active in colorectal cancer models resistant to mAbs. This prompted us to examine whether the activity of bevacizumab can be increased by combination with erlotinib. The antitumor activity of bevacizumab, erlotinib, and their combination was determined in colorectal cancer models with different status and bevacizumab sensitivity. EGFR/VEGF pathway activation was characterized by immunohistochemistry, Western blot, and ELISA assays. The influence of cetuximab and erlotinib on EGF-mediated migration and the EGFR-EGF ligand feedback loop was established in colorectal cancer cell lines with different status. The addition of erlotinib increased bevacizumab activity in all models independent of status. Bevacizumab exposure was accompanied by marked EGFR activation in tumor cells as well as in tumor-associated endothelial cells (TECs) and resulted in strong accumulation of intracellular EGFR, which could be attenuated by erlotinib. In cellular models, erlotinib was able to attenuate EGF-mediated functions in all cell lines independent of status while cetuximab only showed activity in wild-type cells. These results should provide a molecular framework to better understand the increased activity of the bevacizumab-erlotinib combination, compared with bevacizumab alone, in the GERCOR DREAM phase III clinical trial. Differential activity of mAbs and TKIs targeting the same signaling pathway is likely applicable for other tumor types. .
711 Background: The long circulating liposomal irinotecan nal-IRI (MM-398/PEP02, Onivyde) is approved for treatment of metastatic pancreatic cancer after disease progression with gemcitabine-based therapy. Besides their direct cytotoxic activity, camptothecins are thought to inhibit tumor angiogenesis via downregulating hypoxia-inducible factor 1 leading to attenuation of VEGF expression. Due to different deposition kinetics, irinotecan HCl and nal-IRI are likely to show different activities in vivo suggesting that a combination of the two agents may optimize intratumoral exposure and improve treatment efficacy. Methods: The activities of nal-IRI, irinotecan and their combination were compared in three human CRC xenograft models with different sensitivity to SN-38, the active metabolite of irinotecan, in vitro. Nal-IRI was dosed at 5 mg/kg q7d, while irinotecan HCl was dosed at 25 mg/kg at days 1 and 2 q7d. The activity of different regimens on tumor cell viability, hypoxia markers and the microvascular density was determined by quantitative biomarker analysis. Results: The relative antitumor activity of nal-IRI was most pronounced in tumor models with natural or acquired irinotecan resistance. Combinations of nal-IRI with irinotecan HCl was significantly better than irinotecan HCl alone in all tumor models although nal-IRI only provided 10% additional irinotecan. The antitumor activity of nal-IRI and Irintecan HCl in combination was accompanied by up to two times more tumor cell death and a marked 3-7 fold reduction of the microvessel density. Despite the strong antiangiogenic effect resulting in tumor hypoxia, the increase in HIF1α and, to lesser degree, HIF2α, was relatively modest and VEGF signal intensity remained at 85-115% of control values. Conclusions: Our results suggest that both irinotecan HCl and nal-IRI can counteract the hypoxia-mediated increase of HIF1α in vivo as previously reported in vitro. Furthermore, the combination of the two formulations demonstrated significant efficacy benefits. A combination of irinotecan HCl and nal-IRI merits further clinical investigation.
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