RESUMO

Anaplastic thyroid cancer (ATC) is an aggressive form of thyroid cancer (TC), accounting for 50% of total TC-related deaths. Although therapeutic approaches against TC have improved in recent years, the survival rate remains low, and severe adverse effects are commonly reported. However, unexplored alternatives based on natural compounds, such as lysicamine, an alkaloid found in plants with established cytotoxicity against breast and liver cancers, offer promise. Therefore, this study aimed to explore the antineoplastic effects of lysicamine in papillary TC (BCPAP) and ATC (HTH83 and KTC-2) cells. Lysicamine treatment reduced cell viability, motility, colony formation, and AKT activation while increasing the percentage of necrotic cells. The absence of caspase activity confirmed apoptosis-independent cell death. Necrostatin-1 (NEC-1)-mediated necrosome inhibition reduced lysicamine-induced necrosis in KTC-2, suggesting necroptosis induction via a reactive oxygen species (ROS)-independent mechanism. Additionally, in silico analysis predicted lysicamine target proteins, particularly those related to MAPK and TGF-ß signaling. Our study demonstrated lysicamine's potential as an antineoplastic compound in ATC cells with a proposed mechanism related to inhibiting AKT activation and inducing cell death.

RESUMO

Lysicamine, an alkaloid with tumorigenic activity, was incorporated in cell membrane models made of lipid Langmuir monolayers. Dipalmitoylphosphocholine (DPPC), dioleoylphosphocholine (DOPC), and palmitoyloleoylcholine (POPC) represented non-tumorigenic cell membranes, and dipalmitoylphosphoserine (DPPS), dioleoylphosphoserine (DOPS), and palmitoyloleoylserine (POPS), tumorigenic ones. The monolayers were characterized by tensiometry, infrared spectroscopy, and Brewster Angle Microscopy (BAM). No significant shifts of the isotherms were observed for the saturated lipids (DPPC and DPPS), while for the others (DOPC, POPS, DOPS, and POPS), more significant changes were observed not only in the compression isotherms but also in the surface pressure-time curve for pre-compressed monolayers. The molecular organization, as well as the morphology of the drug-lipid monolayers, could be inferred with infrared spectroscopy and BAM. While the first revealed that the alkyl chain ordering changed upon lysicamine incorporation, the second showed how the drug could distinctly change the state of aggregation of molecular domains at the air-water interface. In conclusion, lysicamine could interact distinctly with each lipid at the air-water interface, showing the dependence not only on the lipid polar groups but also on the level of unsaturation of the alkyl chains.

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RESUMO

Knowing how a bioactive compound interacts with cell membranes is important to understand its effect at the molecular level. In this sense, this work aimed to study the interaction of lysicamine, an alkaloid with action against lung cancer cell lines, with lipid monolayers as cell membrane models. We employed two lipid mixtures: the first composed of 35% DOPC, 30% DOPE, 20% sphingomyelin, and 15% cholesterol as healthy cell membranes models (MM1), and the second replacing DOPC with DOPS as cancer cells models (MM2). The interaction of lysicamine with the monolayers was evaluated using tensiometry, Brewster angle microscopy (BAM), and polarization-modulated infrared reflection-absorption spectroscopy (PM-IRRAS). Lysicamine had interfacial effects in both membrane models. For MM 1, it expanded the lipid monolayer and changed the interfacial rheological properties, increasing the in-plane elasticity of the films. PM-IRRAS spectra suggested a higher conformational disorder of the alkyl chains of the lipids. For MM 2, lysicamine also shifted the isotherms to higher areas, expanding the monolayers, but with no significant alteration in their interfacial rheological properties. PM-IRRAS spectra also suggested higher disorder in the orientation of the lipid alkyl chains upon lysicamine incorporation. For both models, BAM did not show alteration in interfacial aggregation upon drug incorporation. In conclusion, changes in some interfacial properties of membrane models caused by lysicamine depend on the monolayer composition, which can be associated with its bioactivity in cellular membranes.

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The herpes simplex virus type 1 (HSV-1) and type 2 (HSV-2) occur worldwide. Infections caused by these viruses have great public health importance due to the growing resistance to the first-choice drug, acyclovir, especially in immunosuppressed patients. Alkaloids derived from species of Annonaceae have been reported as antiviral agents against HSV and others viruses. Within this context, we evaluated the antiviral activity of the total alkaloid fraction (TAF) extracted from the branches of Fusaea longifolia (Aubl.) Saff. (Annonaceae), a species native to the Amazon region, against the HSV-1 and HSV-2 viruses. The antiviral activity was evaluated through the plate reduction assay and the mode of action was investigated by a set of other assays. The TAF was active against the HSV-2 strain 333 and against the HSV-1 strains KOS and 29R (acyclovir resistant), with selectivity index values (SI = 50% cytotoxic concentration/50% effective concentration) of 5, 4 and 3, respectively. In the preliminary study of the anti-HSV-2 mode of action, TAF showed viral inhibitory effects if added up to 12 h post-infection, had virucidal activity and did not present viral inhibition in pre-treatment. Our results showed that the TAF exhibited anti-HSV activity. Regarding HSV-2, TAF acted after the viral infection and had virucidal activity. A mass spectrometry analysis revealed the presence of nine alkaloids in the TAF that had previously been reported for Annonaceae, including liriodenine, lysicamine and isoboldine, which have been described as potential anti-HSV-1 agents.(AU)

Os vírus herpes simplex tipo 1 (HSV-1) e tipo 2 (HSV-2) têm ampla ocorrência global. As infecções causadas por esses vírus têm grande importância em saúde pública devido à crescente resistência ao fármaco de primeira linha, aciclovir, principalmente em pacientes imunossuprimidos. Alcaloides derivados de espécies de Annonaceae têm sido relatados como agentes antivirais contra o HSV e outros vírus. Neste contexto, nós avaliamos a atividade antiviral da fração alcaloide total (TAF) dos ramos de Fusaea longifolia (Aubl.) Saff. (Annonaceae), uma espécie nativa da região amazônica, contra os vírus HSV-1 e HSV-2. A atividade antiviral foi avaliada através do ensaio de redução em placa e o modo de ação foi investigado por um conjunto de ensaios. O TAF foi ativo contra a cepa HSV-2 333 e contra as cepas HSV-1 KOS e 29R (resistente ao aciclovir), com valores de índice de seletividade (IS = 50% concentração citotóxica/50% concentração efetiva) de 5, 4 e 3, respectivamente. No estudo preliminar do modo de ação da atividade anti-HSV-2, o TAF inibiu a replicação viral quando adicionados até 12 h pós-infecção, apresentou atividade virucida e não apresentou inibição viral no pré-tratamento. Nossos resultados mostraram que o TAF exibiu atividade anti-HSV. Em relação ao HSV-2, o TAF atuou após a infecção viral e apresentou atividade virucida. Uma análise do TAF por espectrometria de massas identificou a presença de nove alcaloides, incluindo liriodenina, lisicamina e isoboldina, que já foram descritos como potenciais agentes anti-HSV-1.(AU)

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Aporphine alkaloids are secondary metabolites that are obtained in low levels from species of the Annonaceae family. Nitrogen addition may increase the alkaloid content in plants. However, previous studies published did not consider that nitrogen could change the alkaloid content throughout the day. We conducted this short-term study to determine the effects of nitrogen applied throughout the diurnal period on the aporphine alkaloids via measurements conducted on the roots, stems and leaves of Annona diversifolia seedlings. The 60-day-old seedlings were cultured with the addition of three levels of nitrogen (0, 30 and 60 mM), and alkaloid extracts were analysed using high-performance liquid chromatography. The highest total alkaloid content was measured in the treatment with moderate nitrogen supply. Further, the levels of aporphine alkaloids changed significantly in the first few hours of the diurnal period. We conclude that aporphine alkaloid content increased with moderate nitrogen supply and exhibited diurnal variation.

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