Abstract
BackgroundSubstantial clinical and preclinical evidence have indicated the association between amide-linked local anesthesia and the long-term outcomes of cancer patients. However, the potential effects of local anesthesia on cancer recurrence are inconclusive and the underlying mechanisms remain poorly understood.MethodsWe systematically examined the effects of three commonly used local anesthetics in melanoma cells and analyzed the underlying mechanisms focusing on small GTPases.ResultsRopivacaine and lidocaine but not bupivacaine inhibited migration and proliferation, and induced apoptosis in melanoma cells. In addition, ropivacaine and lidocaine but not bupivacaine significantly augmented the in vitro efficacy of vemurafenib (a B-Raf inhibitor for melanoma with BRAF V600E mutation) and dacarbazine (a chemotherapeutic drug). Mechanistically, ropivacaine but not bupivacaine decreased the activities of Ras superfamily members with the dominant inhibitory effects on RhoA and Ras, independent of sodium channel blockade. Rescue studies using constitutively active Ras and Rho activator calpeptin demonstrated that ropivacaine inhibited migration mainly through RhoA whereas growth and survival were mainly inhibited through Ras in melanoma cells. We further detected a global reduction of downstream signaling of Ras and RhoA in ropivacaine-treated melanoma cells.ConclusionOur study is the first to demonstrate the anti-melanoma activity of ropivacaine and lidocaine but not bupivacaine, via targeting small GTPases. Our findings provide preclinical evidence on how amide-linked local anesthetics could affect melanoma patients.
Highlights
Substantial clinical and preclinical evidence have indicated the association between amide-linked local anesthesia and the long-term outcomes of cancer patients
We further demonstrate that the underlying mechanisms are via targeting RhoA and Ras signaling pathways, and this is in a voltage-gated sodium-channel (VGSC) blockadeindependent manner
We observed that the starting concentration (0.25 mM) required to inhibit migration is the lowest compared to the concentration (0.5 mM) needed to inhibit proliferation and induce apoptosis, suggesting that ropivacaine is more effective in inhibiting migration than growth and survival in melanoma cells
Summary
Substantial clinical and preclinical evidence have indicated the association between amide-linked local anesthesia and the long-term outcomes of cancer patients. Zheng et al BMC Anesthesiology (2020) 20:43 and subsequent depolarization suppression [8] They have been shown to exhibit anti-proliferative, antimetastatic and pro-apoptotic potential on cell culture and xenograft mouse models in a variety of cancers [9,10,11,12,13]. Local anesthetics preferentially target cancer stem cells [14]. Apart from their direct inhibitory effects on tumor cells, ropivacaine and lidocaine negatively affect tumor microenvironment, such as angiogenesis [15, 16]
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