Synthesis and anti-melanoma effect of 3-O-prenyl glycyrrhetinic acid against B16F10 cells via induction of endoplasmic reticulum stress-mediated autophagy through ERK/AKT signaling pathway

Inhibition of IKK complex by (2 methyl butyryl) Shikonin, a naturally occurring naphthoquinone, abrogates melanoma growth and progression via modulation of the IKK/NFκB /EMT signaling axis

Melanoma is an aggressive form of malignancy that originates from melanin-producing cells known as melanocytes underlying the basal layer of the epidermis with a poor prognosis, low survival rates, and limited treatment options. Although several specific and effective systematic strategies for treating melanoma have been established, the underlying molecular mechanism of melanoma progression, mortality and the promising therapeutic options remain elusive. Shikonin (SK), a natural naphthoquinone derived from a medicinal herbaceous plant, has been shown to inhibit the proliferation of several cancer cells. However, its role in the context of melanoma is poorly understood. In the present study, the anti-melanoma activity of (2-methylbutyryl) Shikonin was assessed under in vitro and in vivo models. In vitro findings revealed that (2-methylbutyryl) Shikonin significantly reduced the viability and promoted apoptosis in the B16F10 melanoma cells. Additionally (2-methylbutyryl) Shikonin significantly suppressed migration and invasion of melanoma cells by regulating IKK/NFκB/EMT signalling axis thereby attenuating nuclear translocation and subsequent transcription of NF-κB downstream target genes. Furthermore, (2-methylbutyryl) Shikonin administration significantly reduced tumor size and weight in the xenograft melanoma mice model. Our data presents novel insights that justify additional preclinical and clinical validations of (2-methylbutyryl) Shikonin for melanoma therapy.

Complex Inhibitory Activity of Pentacyclic Triterpenoids against Cutaneous Melanoma In Vitro and In Vivo: A Literature Review and Reconstruction of Their Melanoma-Related Protein Interactome

Pentacyclic triterpenoids (PTs) are a class of plant metabolites with a wide range of pharmacological activities, including strong antitumor potential against skin malignancies. By acting on multiple signaling pathways that control key cellular processes, PTs are able to exert complex effects on melanoma progression in vitro and in vivo. In this review, we have analyzed the works published in the past decade and devoted to the effects of PTs, both natural and semisynthetic, on cutaneous melanoma pathogenesis, including not only their direct action on melanoma cells but also their influence on the tumor microenvironment and abberant melanogenesis, often associated with melanoma aggressiveness. Special attention will be paid to the molecular basis of the pronounced antimelanoma potency of PTs, including a detailed consideration of the pathways sensitive to PTs in melanoma cells, as well as the reconstruction of the melanoma-related protein interactome of PTs using a network pharmacology approach based on previously published experimentally verified protein targets of PTs. The information collected on the primary targets of PTs was compiled in the Protein Interactome of PTs (PIPTs) database, freely available at http://www.pipts-db.ru/, which can be used to further optimize the mechanistic studies of PTs in the context of melanoma and other malignancies. By summarizing recent research findings, this review provides valuable information to scientists working in the fields related to the evaluation of melanoma pathogenesis and development of PTs-based drug candidates.

Effects of natural products on angiogenesis in melanoma

Melanoma is the most aggressive form of skin cancer and originates from genetic mutations in melanocytes. The disease is multifactorial, but its main cause is overexposure to UV radiation. Currently, available chemotherapy expresses little to no results, which may justify the extensive use of natural products to treat this cancer. In this study, we reviewed the inhibition of melanoma angiogenesis by natural products and its potential mechanisms using literature from PubMed, EMBASE, Web of Science, Ovid, ScienceDirect and China National Knowledge Infrastructure databases. According to summarizes 27 natural products including alkaloids, polyphenols, terpenoids, flavonoids, and steroids that effectively inhibit angiogenesis in melanoma. In addition to these there are 15 crude extracts that can be used as promising agents to inhibit angiogenesis, but their core components still deserve further investigation. There are current studies on melanoma angiogenesis involving oxidative stress, immune-inflammatory response, cell proliferation and migration and capillary formation. The above natural products can be involved in melanoma angiogenesis through core targets such as VE-cadherin, COX-2, iNOS, VEGF, bFGF, FGF2,MMP2,MMP9,IL-1β,IL-6 play a role in inhibiting melanoma angiogenesis. Effective excavation of natural products can not only clarify the mechanism of drug action and key targets, but also help to promote the preclinical research of natural products for melanoma treatment and further promote the development of new clinical drugs, which will bring the gospel to the vast number of patients who are deeply afflicted by melanoma.

Progress in Antimelanoma Research of Natural Triterpenoids and Their Derivatives: Mechanisms of Action, Bioavailability Enhancement and Structure Modifications

Melanoma is one of the most dangerous forms of skin cancer, characterized by early metastasis and rapid development. In search for effective treatment options, much attention is given to triterpenoids of plant origin, which are considered promising drug candidates due to their well described anticancer properties and relatively low toxicity. This paper comprehensively summarizes the antimelanoma potential of natural triterpenoids, that are also used as scaffolds for the development of more effective derivatives. These include betulin, betulinic acid, ursolic acid, maslinic acid, oleanolic acid, celastrol and lupeol. Some lesser-known triterpenoids that deserve attention in this context are 22β-hydroxytingenone, cucurbitacins, geoditin A and ganoderic acids. Recently described mechanisms of action are presented, together with the results of preclinical in vitro and in vivo studies, as well as the use of drug delivery systems and pharmaceutical technologies to improve the bioavailability of triterpenoids. This paper also reviews the most promising structural modifications, based on structure-activity observations. In conclusion, triterpenoids of plant origin and some of their semi-synthetic derivatives exert significant cytotoxic, antiproliferative and chemopreventive effects that can be beneficial for melanoma treatment. Recent data indicate that their poor solubility in water, and thus low bioavailability, can be overcome by complexing with cyclodextrins, or the use of nanoparticles and ethosomes, thus making these compounds promising antimelanoma drug candidates for further development.

Synthesis, molecular docking, and biological evaluation of [3,2-b]indole fused 18β-glycyrrhetinic acid derivatives against skin melanoma

Melanoma, the most serious yet uncommon type of cancer, originates in melanocytes. Risk factors include UV radiation, genetic factors, tanning lamps and beds. Here, we described the synthesis and selective anti melanoma activity of [3,2-b]indole fused 18β-glycyrrhetinic acid, a derivative of 18β-glycyrrhetinic acid in murine B16F10 and A375 human melanoma cell lines. Among the 14 molecules, GPD-12 showed significant selective cytotoxic activity against A375 and B16F10 cell lines with IC50 of 13.38 μM and 15.20 μM respectively. GPD 12 induced the formation of reactive oxygen species in A375 cells that could trigger oxidative stress mediated cell death as is evident from the increased expression of apoptosis related proteins such as caspase-9 and caspase-3 and the increased ratio of Bax to Bcl2. The results showed that GPD 12 can be used as an effective therapeutic agent against melanoma.