Selective RAF inhibitor impairs ERK1/2 phosphorylation and growth in mutant NRAS,vemurafenib‐resistant melanoma cells

The RAF inhibitor vemurafenib achieves remarkable clinical responses in mutant BRAF melanoma patients. However, vemurafenib is burdened by acquired drug resistance and by the side effects associated with its paradoxical activation of the ERK1/2 pathway in wild‐type BRAF cells. This paradoxical effect has driven the development of a new class of RAF inhibitors. Here, we tested one of these selective, non‐paradox‐inducing RAF inhibitors termed paradox‐breaker‐04 (PB04) or PLX7904. Consistent with its design, PB04 is able to efficiently inhibit activation of ERK1/2 in mutant BRAF melanoma cells but does not hyperactivate ERK1/2 in mutant RAS‐expressing cells. Importantly, PB04 inhibited ERK1/2 phosphorylation in mutant BRAF melanoma cells with acquired resistance to vemurafenib/PLX4720 that is mediated by a secondary mutation in NRAS. Consistent with ERK1/2 reactivation driving the re‐acquisition of malignant properties, PB04 promoted apoptosis and inhibited entry into S phase and anchorage‐independent growth in mutant N‐RAS‐mediated vemurafenib‐resistant cells. These data indicate that paradox‐breaker RAF inhibitors may be clinically effective as a second‐line option in a cohort of acquired vemurafenib‐resistant patients.     

Inhibition of mutant BRAF splice variant signaling by next‐generation,selective RAF inhibitors

Vemurafenib and dabrafenib block MEK‐ERK1/2 signaling and cause tumor regression in the majority of advanced‐stage BRAF^V600E melanoma patients; however, acquired resistance and paradoxical signaling have driven efforts for more potent and selective RAF inhibitors. Next‐generation RAF inhibitors, such as PLX7904 (PB04), effectively inhibit RAF signaling in BRAF^V600E melanoma cells without paradoxical effects in wild‐type cells. Furthermore, PLX7904 blocks the growth of vemurafenib‐resistant BRAF^V600E cells that express mutant NRAS. Acquired resistance to vemurafenib and dabrafenib is also frequently driven by expression of mutation BRAF splice variants; thus, we tested the effects of PLX7904 and its clinical analog, PLX8394 (PB03), in BRAF^V600E splice variant‐mediated vemurafenib‐resistant cells. We show that paradox‐breaker RAF inhibitors potently block MEK‐ERK1/2 signaling, G1/S cell cycle events, survival and growth of vemurafenib/PLX4720‐resistant cells harboring distinct BRAF^V600E splice variants. These data support the further investigation of paradox‐breaker RAF inhibitors as a second‐line treatment option for patients failing on vemurafenib or dabrafenib.     

Near‐genomewide RNAi screening for regulators of BRAFV600E‐induced senescence identifies RASEF,a gene epigenetically silenced in melanoma

The activation of oncogenes in primary cells blocks proliferation by inducing oncogene‐induced senescence (OIS), a highly potent in vivo tumor‐suppressing program. A prime example is mutant BRAF, which drives OIS in melanocytic nevi. Progression to melanoma occurs only in the context of additional alteration(s) like the suppression of PTEN, which abrogates OIS. Here, we performed a near‐genomewide short hairpin (sh)RNA screen for novel OIS regulators and identified by next generation sequencing and functional validation seven genes. While all but one were upregulated in OIS, depletion of each of them abrogated BRAF^V600E‐induced arrest. With genome‐wide DNA methylation analysis, we found one of these genes, RASEF, to be hypermethylated in primary cutaneous melanomas but not nevi. Bypass of OIS by depletion of RASEF was associated with suppression of several senescence biomarkers including senescence‐associated (SA)‐β‐galactosidase activity, interleukins, and tumor suppressor p15^INK4B. Restoration of RASEF expression inhibited proliferation. These results illustrate the power of shRNA OIS bypass screens and identify a potential novel melanoma suppressor gene.     

Inhibition of autophagy enhances the effects of the AKT inhibitor MK‐2206 when combined with paclitaxel and carboplatin in BRAF wild‐type melanoma

This study investigates the mechanism of action behind the long‐term responses (12–16 months) of two BRAF WT melanoma patients to the AKT inhibitor MK‐2206 in combination with paclitaxel and carboplatin. Although single agent MK‐2206 inhibited phospho‐AKT signaling, it did not impact in vitro melanoma growth or survival. The combination of MK‐2206 with paclitaxel and carboplatin was cytotoxic in long‐term colony formation and 3D spheroid assays, and induced autophagy. Autophagy was initially protective with autophagy inhibitors and deletion of ATG5 found to enhance cytotoxicity. Although prolonged autophagy induction (>6 days) led to caspase‐dependent apoptosis, drug resistant clones still emerged. Autophagy inhibition enhanced the cell death response through reactive oxygen species and could be reversed by anti‐oxidants. We demonstrate for the first time that AKT inhibition in combination with chemotherapy may have clinical activity in BRAF WT melanoma and show that an autophagy inhibitor may prevent resistance to these drugs.     

Cross‐resistance of chrysanthemum to western flower thrips,celery leafminer,and two‐spotted spider mite

Chrysanthemum [Chrysanthemum × morifolium Ramat. (Asteraceae)] is one of the economically most important greenhouse ornamentals worldwide. A major constraint in chrysanthemum production is adequate pest management, requiring the use of different tactics, such as improving host plant resistance, in the framework of an integrated pest management (IPM) approach. In this study, we investigated cross‐resistance of chrysanthemum to its three major pests: western flower thrips [Frankliniella occidentalis (Pergande) (Thysanoptera: Thripidae)], celery leafminer [Liriomyza trifolii (Burgess) (Diptera: Agromyzidae)], and two‐spotted spider mite [Tetranychus urticae Koch (Acari: Tetranychidae)]. We quantified resistance to each pest by performing greenhouse bioassays with a broad range of chrysanthemum types from commercial germplasm provided by Dutch breeding companies. Considerable variation was detected among the chrysanthemum cultivars in thrips silver damage and growth damage, leafminer damage, measured as number of mines and pupae, and spider mite numbers and damage. We observed significant positive correlations between thrips damage (both silver and growth damage) vs. leafminer numbers (both mines and pupae), and between leafminer numbers (both mines and pupae) vs. spider mite numbers. Our results indicate an overlap in resistance to all three herbivores. The important implications of this result for chrysanthemum breeding are discussed.     

Modification,Biological Evaluation and SAR Studies of Novel 1H‐Pyrazol Derivatives Containing N,N′‐Disubstituted Urea Moiety as Potential Anti‐melanoma Agents

Malignant melanomas are amongst the most aggressive cancers. BRAF Inhibitors have exhibited therapeutic effects against BRAF‐mutant melanoma. In continuation of our earlier studies on anti‐melanoma agents based on 1H‐pyrazole skeleton, two sets of novel compounds that include 1H‐pyrazole‐4‐amines FA 1 – FA13 and corresponding urea derivatives FN 1 – FN13 have been synthesized and evaluated for their BRAF^V600E inhibitory and antiproliferation activities. Compound FN 10 displayed the most potent biological activity against BRAF^V600E (IC₅₀ = 0.066 μm ) and the A375 human melanoma cell line (GI₅₀ = 0.81 μm ), which was comparable to the positive control vemurafenib, and more potent than our previously reported 1H‐pyrazole‐3‐amines and their urea derivatives. The results of SAR studies and molecular docking can guide further optimization and may help to improve potency of these pyrazole‐based anti‐melanoma agents.     

2‐phenylethynesulphonamide (PFT‐μ) enhances the anticancer effect of the novel hsp90 inhibitor NVP‐AUY922 in melanoma,by reducing GSH levels

Heat shock proteins (HSPs), are molecular chaperones that assist the proper folding of nascent proteins. This study aims to evaluate the antitumour effects of the hsp90 inhibitor NVP‐AUY922 in melanoma, both in vitro and in vivo. Our results show that NVP‐AUY922 inhibits melanoma cell growth in vitro, with down regulation of multiple signalling pathways involved in melanoma progression such as NF‐?B and MAPK/ERK. However, NVP‐AUY922 was unable to limit tumour growth in vivo. Cotreatment of A375M xenografts with NVP‐AUY922 and PFT‐μ, a dual inhibitor of both hsp70 and autophagy, induced a synergistic increase of cell death in vitro, and delayed tumour formation in A375M xenografts. PFT‐μ depleted cells from the reduced form of glutathione (GSH) and increased oxidative stress. The oxidative stress induced by PFT‐μ further enhanced NVP‐AUY922‐induced cytotoxic effects. These data suggest a potential therapeutic role for NVP‐AUY922 used in combination with PFT‐μ, in melanoma.     

Identification of Ochratoxigenic Aspergillus Section Nigri Isolated from Grapes by ITS‐5.8S rDNA Sequencing Analysis and In Silico RFLP

To characterize Aspergillus section Nigri strains involved in the ochratoxin A (OTA) contamination of Tunisian wine and table grapes, a total of 33 strains were analysed. A molecular characterization of the isolates was performed by the amplification of internal transcribed spacer (ITS1‐5.8S rDNA‐ITS2) region combined with amplicon sequencing. Analysis of similarity between the obtained sequences and those deposited in the GenBank database was performed. Twelve strains were confirmed to belong to the Aspergillus carbonarius species. Strains belonging to the Aspergillus niger aggregate group were classified by in silico RFLP assay into two patterns N and T, corresponding to A. niger and Aspergillus tubingensis. Among the 21 OTA producing isolates analysed, 13 showed the T‐type pattern and 8 showed the N‐type pattern. The presented method showed to be a reliable alternative to the classic RFLP method. Our findings unambiguously revealed that multiple aspergilli species isolated from wine and table grape in Tunisia are able to produce OTA.     

Synergistic antitumour activity of RAF265 and ZSTK474 on human TT medullary thyroid cancer cells

Medullary thyroid cancer (MTC) is an aggressive malignancy responsible for up to 14% of all thyroid cancer‐related deaths. It is characterized by point mutations in the rearranged during transfection (RET) proto‐oncogene. The activated RET kinase is known to signal via extracellular signal regulated kinase (ERK) and phosphoinositide 3‐kinase (PI3K), leading to enhanced proliferation and resistance to apoptosis. In the present work, we have investigated the effect of two serine/threonine‐protein kinase B‐Raf (BRAF) inhibitors (RAF265 and SB590885), and a PI3K inhibitor (ZSTK474), on RET‐mediated signalling and proliferation in a MTC cell line (TT cells) harbouring the RETC634W activating mutation. The effects of the inhibitors on VEGFR2, PI3K/Akt and mitogen‐activated protein kinases signalling pathways, cell cycle, apoptosis and calcitonin production were also investigated. Only the RAF265+ ZSTK474 combination synergistically reduced the viability of treated cells. We observed a strong decrease in phosphorylated VEGFR2 for RAF265+ ZSTK474 and a signal reduction in activated Akt for ZSTK474. The activated ERK signal also decreased after RAF265 and RAF265+ ZSTK474 treatments. Alone and in combination with ZSTK474, RAF265 induced a sustained increase in necrosis. Only RAF265, alone and combined with ZSTK474, prompted a significant drop in calcitonin production. Combination therapy using RAF265 and ZSTK47 proved effective in MTC, demonstrating a cytotoxic effect. As the two inhibitors have been successfully tested individually in clinical trials on other human cancers, our preclinical data support the feasibility of their combined use in aggressive MTC.     

A dual role for integrin‐linked kinase and β1‐integrin in modulating cardiac aging

Cardiac performance decreases with age, which is a major risk factor for cardiovascular disease and mortality in the aging human population, but the molecular mechanisms underlying cardiac aging are still poorly understood. Investigating the role of integrin‐linked kinase (ilk) and β1‐integrin (myospheroid, mys) in Drosophila, which colocalize near cardiomyocyte contacts and Z‐bands, we find that reduced ilk or mys function prevents the typical changes of cardiac aging seen in wildtype, such as arrhythmias. In particular, the characteristic increase in cardiac arrhythmias with age is prevented in ilk and mys heterozygous flies with nearly identical genetic background, and they live longer, in line with previous findings in Caenorhabditis elegans for ilk and in Drosophila for mys. Consistent with these findings, we observed elevated β1‐integrin protein levels in old compared with young wild‐type flies, and cardiac‐specific overexpression of mys in young flies causes aging‐like heart dysfunction. Moreover, moderate cardiac‐specific knockdown of integrin‐linked kinase (ILK)/integrin pathway‐associated genes also prevented the decline in cardiac performance with age. In contrast, strong cardiac knockdown of ilk or ILK‐associated genes can severely compromise cardiac integrity, including cardiomyocyte adhesion and overall heart function. These data suggest that ilk/mys function is necessary for establishing and maintaining normal heart structure and function, and appropriate fine‐tuning of this pathway can retard the age‐dependent decline in cardiac performance and extend lifespan. Thus, ILK/integrin‐associated signaling emerges as an important and conserved genetic mechanism in longevity, and as a new means to improve age‐dependent cardiac performance, in addition to its vital role in maintaining cardiac integrity.     

Angupyrones A – E, α‐Pyrone Analogues with ARE‐Activation from a Sponge‐Associated Fungus Truncatella angustata

TLC‐DPPH guided fractionation of a sponge‐associated fungus Truncatella angustata with a solid culture resulted in the isolation of five new α‐pyrone‐based analogues namely angupyrones A – E ( 1  –  5 ), and 3‐ethyl‐4‐hydroxy‐6‐methyl‐2‐pyrone. Their structures were determined on the basis of extensive spectroscopic analyses, including the modified Mosher's method, bulkiness rule, and specific rotation for the configurational assignments. Angupyrones A – E exhibited moderate antioxidant response element activation in HepG2C8 cells, while the preliminary structure‐activity relationship was discussed.     

PTEN regulates IGF‐1R‐mediated therapy resistance in melanoma

Inhibition of the mitogen‐activated protein kinase (MAPK) pathway is a major advance in the treatment of metastatic melanoma. However, its therapeutic success is limited by the rapid emergence of drug resistance. The insulin‐like growth factor‐1 receptor (IGF‐1R) is overexpressed in melanomas developing resistance toward the BRAF^V600 inhibitor vemurafenib. Here, we show that hyperactivation of BRAF enhances IGF‐1R expression. In addition, the phosphatase activity of PTEN as well as heterocellular contact to stromal cells increases IGF‐1R expression in melanoma cells and enhances resistance to vemurafenib. Interestingly, PTEN‐negative melanoma cells escape IGF‐1R blockade by decreased expression of the receptor, implicating that only in melanoma patients with PTEN‐positive tumors treatment with IGF‐1R inhibitors would be a suitable strategy to combat therapy resistance. Our data emphasize the crosstalk and therapeutic relevance of microenvironmental and tumor cell‐autonomous mechanisms in regulating IGF‐1R expression and by this sensitivity toward targeted therapies.