Cutaneous melanoma is a tumor with rising incidence and a very poor prognosis at the disseminated stage. Melanomas are characterized by frequent mutations in BRAF and also by overexpression of fibroblast growth factor 2 (FGF2), offering opportunities for therapeutic intervention. We investigated inhibition of FGF signaling and its combination with dacarbazine or BRAF inhibitors as an antitumor strategy in melanoma. The majority of melanoma cell lines displayed overexpression of FGF2 but also FGF5 and FGF18 together with different isoforms of FGF receptors (FGFRs) 1-4. Blockade of FGF signals with dominant-negative receptor constructs (dnFGFR1, 3, or 4) or small-molecule inhibitors (SU5402 and PD166866) reduced melanoma cell proliferation, colony formation, as well as anchorage-independent growth, and increased apoptosis. DnFGFR constructs also significantly inhibited tumor growth in vivo. Combination of FGF inhibitors with dacarbazine showed additive or antagonistic effects, whereas synergistic drug interaction was observed when combining FGFR inhibition with the multikinase/BRAF inhibitor sorafenib or the V600E mutant-specific BRAF inhibitor RG7204. In conclusion, FGFR inhibition has antitumor effects against melanoma cells in vitro and in vivo. Combination with BRAF inhibition offers a potential for synergistic antimelanoma effects and represents a promising therapeutic strategy against advanced melanoma.
Objective: Proprotein convertase subtilisin/kexin type 9 inhibition can be an effective treatment in patients with primary hypercholesterolemia, particularly in cases with concomitant coronary heart disease, peripheral artery occlusive disease or cerebrovascular occlusive disease for secondary prevention after an acute atherosclerotic ischemic event. The primary objective of the PEARL-AT study was to assess effectiveness and safety of alirocumab in a real-world setting in Austria. Methods: Non-interventional, prospective study conducted across Austria between September 2016 and July 2018. 113 patients, for whom the decision for treatment with alirocumab according to the Austrian Summary of Product Characteristics (SmPC) was made, were enrolled and were followed-up over 24 weeks. The primary endpoint of the study was the average change of low density lipoprotein cholesterol (LDL-C) levels by week 24. Results: In total, 112 patients with at least one post-baseline visit were included. Alirocumab was initiated using 75 mg (57.1%) and 150 mg (42.9%) every two weeks. Average LDL-C levels decreased by 75.0 mg/dl at week 24 in 87 patients with available LDL-C at baseline and week 24 (in 25 patients LDL-C was missing at least at one time point). The mean relative change of LDL-C was À50.0% (median: 57.8%, SD: 28.4). Throughout the study, 46 adverse events were documented in 21 (18.6%) patients. The most frequent adverse events were gastrointestinal disorders. Conclusions: The present data indicate a good overall efficacy of alirocumab in a real-world Austrian population. Effectiveness and safety were both in line with the clinical trial program as well as previous real-world observations.
Background: PCSK9 antibodies strongly reduce LDL cholesterol. The effects of PCSK9 antibodies on triglyceride metabolism are less pronounced. The present study aimed to investigate in detail the effects of alirocumab on triglycerides, triglyceride-rich lipoproteins, and lipase regulators. Methods: A total of 24 patients with an indication for treatment with PCSK9 antibodies were recruited. There were two visits at the study site: the first before initiation of treatment with alirocumab and the second after 10 weeks of treatment. Fat-tolerance tests, nuclear magnetic resonance spectroscopy, and enzyme-linked immunosorbent assays were performed to analyze lipid metabolism. Results: A total of 21 participants underwent the first and second investigation. Among these, two participants only received alirocumab twice and 19 patients completed the trial per protocol. All of them had atherosclerotic vascular disease. There was no significant effect of alirocumab treatment on fasting triglycerides, post-prandial triglycerides, or lipoprotein-lipase regulating proteins. Total, large, and small LDL particle concentrations decreased, while the HDL particle concentration increased (all p < 0.001). Mean total circulating PCSK9 markedly increased in response to alirocumab treatment (p < 0.001). Whereas PCSK9 increased more than three-fold in all 19 compliant patients, it remained unchanged in those two patients with two injections only. Conclusion: Significant effects of alirocumab on triglyceride metabolism were not detectable in the ALIROCKS trial. The total circulating PCSK9 concentration might be a useful biomarker to differentiate non-adherence from non-response to PCSK9 antibodies.
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