ABSTRACT
Resumen Se describirán y verán imágenes de 3 especies vegetales tóxicas (Asclepia, Alocasia y Ricino) comunes de encontrar en paisajes urbanos (jardines, parques, terrenos baldíos, viveros). Por su apariencia atractiva y accesibilidad resultan en contactos o ingestas accidentales en niños, incluso en animales domésticos. Sus principios activos pueden causar cuadros clínicos de variable severidad. Resulta importante la identificación de estas especies para facilitar el diagnóstico y el tratamiento a la hora de la consulta.
Abstract Images of 3 toxic plant species (Asclepia, Alocasia and Castor) that are common to be found in urban landscapes (gardens, parks, vacant lots, plant shops or greenhouses) will be described and seen. Due to their attractive appearance and accessibility, they result in accidental contact or ingestion in children, even in domestic animals. Its xenobiotics can cause poisonings of variable severity. It is important to identify these species to facilitate diagnosis and treatment at the time of consultation.
ABSTRACT
Background: Several studies have shown that active compounds of Asclepias subulata (cardenolides) have antiproliferative effect on human cancer cells. Cardenolides isolated from A. subulata can be used as active chemical markers to elaborate phytopharmaceutical preparations. To evaluate the antiproliferative effect of a standardized extract of the aerial parts, based on Asclepias subulata cardenolides. Methods: Four standardized extracts were prepared by HPLC-DAD depending on the concentration of calotropin and the antiproliferative activity was measured for the MTT assay, on the A549, MCF-7, HeLa, PC3 and ARPE cell lines. The concentrations of calotropin used for the standardization of the extracts were 10, 7.6, 5 and 1 mg/dL. Results: Standardization of the A. subulata extract based on calotropin at 7.6 mg/g dry weight was achieved and the antiproliferative activity was evaluated over A549, HeLa and MCF-7 cell lines, obtaining proliferation percentages of 3.8 to 13.4% . Conclusions: The standardized extracts of A. subulata at different concentrations of calotropin showed antiproliferative activity against all the cell lines evaluated. The greatest effect was observed against the HeLa cell line.
Subject(s)
Asclepias , Humans , Asclepias/chemistry , HeLa Cells , Plant Extracts/pharmacology , Cardenolides/chemistry , Cardenolides/pharmacologyABSTRACT
In the absence of vaccines and antiviral drugs available to prevent and treat COVID-19, it becomes imperative to find or use all those products with the potential to fight this virus. This article is an attempt to propose ways to prevent, treat and control the COVID-19 virus, using a product based on plant extracts with the potential to reduce the symptoms caused by the SARS-CoV-2 virus. Nasoil® counts as one of its main components, Asclepias curassavica extracts, and in the present study it has been shown that it is an effective adjuvant in the treatment of Covid-19, increasing the respiratory capacity of the patients (SpO2> 90%) and reducing the symptoms from the first application, improving the patients around the fifth to the eighth application. At a preventive level, the individuals in this study who have applied it (400 individuals) only a 3.15% of these presented symptoms, disappearing when increasing the weekly applications.
Subject(s)
Antiviral Agents/administration & dosage , COVID-19 Drug Treatment , SARS-CoV-2/drug effects , Administration, Intranasal , Adult , Aged , Asclepias/chemistry , COVID-19/physiopathology , COVID-19/virology , Female , Humans , Male , Middle Aged , Plant Extracts/administration & dosageABSTRACT
Asclepias linaria Cav. (Apocynaceae) is a shrubby plant endemic of Mexico which has been used in traditional medicine. However, the bioactive potential of this plant remains unexplored. In this study, the phenolic composition, antioxidant, and cytotoxic activities of A. linaria leaves were determined. In order to estimate the phenolic composition of the leaves, the total phenolic, flavonoid, and condensed tannins contents were determined. Furthermore, the antioxidant activity was measured by the scavenging activity of the 2,2-diphenyl-1-picrylhydrazyl (DPPHâ¢) and 2,2'-azino-bis[3-ethylbenzothiazoline-6-sulphonic acid] (ABTSâ¢+) radicals and the total antioxidant capacity. The phenolic compounds identified in the A. linaria leaves by ultra-performance liquid chromatography coupled to mass spectrometry (UPLC-MS) include phenolic acids, such as p-coumaric and ferulic acid, as well as flavonoids, such as rutin and quercetin. The leaves' extracts of A. linaria showed a high scavenging activity of DPPH⢠and ABTSâ¢+ radicals (IC50 0.12 ± 0.001 and 0.51 ± 0.003 µg/mL, respectively), high total antioxidant capacity values (99.77 ± 4.32 mg of ascorbic acid equivalents/g of dry tissue), and had a cytotoxic effect against K562 and HL60 hematologic neoplasia cells lines, but no toxicity towards the normal mononuclear cell line was observed. These results highlight the potential of A. linaria and could be considered as a possible alternative source of anticancer compounds.
Subject(s)
Antioxidants/chemistry , Asclepias/chemistry , Cell Proliferation/drug effects , Phenols/chemistry , Antioxidants/pharmacology , Ascorbic Acid/chemistry , Benzothiazoles/chemistry , Biphenyl Compounds/chemistry , Chromatography, Liquid , Free Radical Scavengers/chemistry , Humans , K562 Cells , Methanol/chemistry , Phenols/classification , Phenols/pharmacology , Picrates/chemistry , Plant Extracts/chemistry , Plant Extracts/pharmacology , Plant Leaves/chemistry , Quercetin/chemistry , Sulfonic Acids/chemistry , Tandem Mass SpectrometryABSTRACT
PREMISE OF THE STUDY: The ability of insect visitors to learn to manipulate complex flowers has important consequences for foraging efficiency and plant fitness. We investigated learning by two butterfly species, Danaus erippus and Heliconius erato, as they foraged on the complex flowers of Asclepias curassavica, as well as the consequences for pollination. METHODS: To examine learning with respect to flower manipulation, butterflies were individually tested during four consecutive days under insectary conditions. At the end of each test, we recorded the number of pollinaria attached to the body of each butterfly and scored visited flowers for numbers of removed and inserted pollinia. We also conducted a field study to survey D. erippus and H. erato visiting flowers of A. curassavica, as well as to record numbers of pollinaria attached to the butterflies' bodies, and surveyed A. curassavica plants in the field to inspect flowers for pollinium removal and insertion. KEY RESULTS: Learning improves the ability of both butterfly species to avoid the nonrewarding flower parts and to locate nectar more efficiently. There were no experience effects, for either species, on the numbers of removed and inserted pollinia. Heliconius erato removed and inserted more pollinia than D. erippus. For both butterfly species, pollinium removal was higher than pollinium insertion. CONCLUSION: This study is the first to show that Danaus and Heliconius butterflies can learn to manipulate complex flowers, but this learning ability does not confer benefits to pollination in A. curassavica.
ABSTRACT
Addressing population declines of migratory insects requires linking populations across different portions of the annual cycle and understanding the effects of variation in weather and climate on productivity, recruitment, and patterns of long-distance movement. We used stable H and C isotopes and geospatial modeling to estimate the natal origin of monarch butterflies (Danaus plexippus) in eastern North America using over 1000 monarchs collected over almost four decades at Mexican overwintering colonies. Multinomial regression was used to ascertain which climate-related factors best-predicted temporal variation in natal origin across six breeding regions. The region producing the largest proportion of overwintering monarchs was the US Midwest (mean annual proportion = 0.38; 95% CI: 0.36-0.41) followed by the north-central (0.17; 0.14-0.18), northeast (0.15; 0.11-0.16), northwest (0.12; 0.12-0.16), southwest (0.11; 0.08-0.12), and southeast (0.08; 0.07-0.11) regions. There was no evidence of directional shifts in the relative contributions of different natal regions over time, which suggests these regions are comprising the same relative proportion of the overwintering population in recent years as in the mid-1970s. Instead, interannual variation in the proportion of monarchs from each region covaried with climate, as measured by the Southern Oscillation Index and regional-specific daily maximum temperature and precipitation, which together likely dictate larval development rates and food plant condition. Our results provide the first robust long-term analysis of predictors of the natal origins of monarchs overwintering in Mexico. Conservation efforts on the breeding grounds focused on the Midwest region will likely have the greatest benefit to eastern North American migratory monarchs, but the population will likely remain sensitive to regional and stochastic weather patterns.
Subject(s)
Animal Migration , Butterflies , Climate , Animals , Mexico , ReproductionABSTRACT
Asclepias mellodora St. Hil. is a native acute toxic species frequent in the grasslands of the Buenos Aires province, Argentina, whose toxicity had not been assessed until now. This study evaluates the minimal lethal dose of this species for sheep, and the possibility of microscopically recognizing its fragments in gastrointestinal contents as a complementary diagnostic tool in necropsies. Three Frisona sheep (average LW=55±4.5 kg) were dosed via an esophageal tube with each one of the following doses of asclepias: 8.0, 5.0, 2.0 and 0.8 g DM.kg LW-1. Sheep poisoned with the three higher doses died between 10 and 85 h after intoxication, but those receiving the lower dose did not. During necropsies we: 1) determined the dry weight of the contents of rumen+reticulum, omasum+abomasum, and large intestine, 2) estimated the percentages of asclepias fragments by microanalysis correcting for digestion effects on fragment recognition, and 3) calculated the total mass of asclepias in the digestive tract of each animal. For the three higher doses, the mass of asclepias identified in the total ingesta was 12.3±3.4 percent of the amount supplied, possibly because of the strong diarrhea its ingestion produced. The percentages of asclepias in rumen+reticulum did not differ from the average quantified for the entire tract. The results of this study indicate that the minimal lethal doses of asclepias for sheep is between 2.0 and 0.8g DMÀkg LW-1, and that the microhistological analysis of the rumen+reticulum, the easiest region to sample, can be used to confirm the ingestion of this toxic species, although the estimated percentage will be not a good estimator of the ingested percentage.
Asclepias mellodora St. Hil. é uma espécie nativa de aguda toxicidade, frequente nos campos da província de Buenos Aires, Argentina. A sua toxicidade não foi avaliada até agora. Este estudo avalia a dose mínima letal desta espécie, para os ovinos, bem como a possibilidade de reconhecer microscopicamente seus fragmentos no conteúdo gastrointestinal como uma ferramenta complementar de diagnóstico em necropsias. Três ovinos Frisona (PV média = 55±4,5 kg) foram dosados através de uma sonda esofágica em cada uma das seguintes doses de Asclepias: 8,0, 5,0, 2,0 e 0,8 g DM.kg PV-1. Ovinos intoxicados com as três maiores doses morreram entre 10-85 h após a intoxicação, mas não aqueles que receberam a dose menor. Durante as necropsias se: 1) determinou o peso seco do conteúdo do rúmen + retículo, omaso + abomaso e intestino grosso, 2) estimou as porcentagens de fragmentos de Asclepias por microanálise, fazendo a correção para efeitos de digestão no reconhecimento dos fragmentos, e 3) calculou a massa total de Asclepias no trato digestivo de cada animal. Para as três doses maiores, a massa de Asclepias identificada na ingesta total foi de 12,3±3,4 por cento da quantidade fornecida, possivelmente por causa da forte diarréia produzida pela sua ingestão. As porcentagens de Asclepias no rúmen + retículo não diferiram da média quantificada para o trato completo. Os resultados deste estudo indicam que a dose letal mínima de Asclepias em ovinos é de entre 2,0 e 0,8 g kg PV ò DM-1, e que a análise micro-histológica do rúmen + retículo, a região mais fácil de amostrar, pode ser usada para confirmar a ingestão desta espécie tóxica, embora a percentagem estimada não será um bom estimador da porcentagem ingerida.
Subject(s)
Animals , Asclepias/toxicity , Sheep , Histology , Plant PoisoningABSTRACT
Asclepias mellodora St. Hil. is a native acute toxic species frequent in the grasslands of the Buenos Aires province, Argentina, whose toxicity had not been assessed until now. This study evaluates the minimal lethal dose of this species for sheep, and the possibility of microscopically recognizing its fragments in gastrointestinal contents as a complementary diagnostic tool in necropsies. Three Frisona sheep (average LW=55±4.5 kg) were dosed via an esophageal tube with each one of the following doses of asclepias: 8.0, 5.0, 2.0 and 0.8 g DM.kg LW-1. Sheep poisoned with the three higher doses died between 10 and 85 h after intoxication, but those receiving the lower dose did not. During necropsies we: 1) determined the dry weight of the contents of rumen+reticulum, omasum+abomasum, and large intestine, 2) estimated the percentages of asclepias fragments by microanalysis correcting for digestion effects on fragment recognition, and 3) calculated the total mass of asclepias in the digestive tract of each animal. For the three higher doses, the mass of asclepias identified in the total ingesta was 12.3±3.4 percent of the amount supplied, possibly because of the strong diarrhea its ingestion produced. The percentages of asclepias in rumen+reticulum did not differ from the average quantified for the entire tract. The results of this study indicate that the minimal lethal doses of asclepias for sheep is between 2.0 and 0.8g DMÀkg LW-1, and that the microhistological analysis of the rumen+reticulum, the easiest region to sample, can be used to confirm the ingestion of this toxic species, although the estimated percentage will be not a good estimator of the ingested percentage.(AU)
Asclepias mellodora St. Hil. é uma espécie nativa de aguda toxicidade, frequente nos campos da província de Buenos Aires, Argentina. A sua toxicidade não foi avaliada até agora. Este estudo avalia a dose mínima letal desta espécie, para os ovinos, bem como a possibilidade de reconhecer microscopicamente seus fragmentos no conteúdo gastrointestinal como uma ferramenta complementar de diagnóstico em necropsias. Três ovinos Frisona (PV média = 55±4,5 kg) foram dosados através de uma sonda esofágica em cada uma das seguintes doses de Asclepias: 8,0, 5,0, 2,0 e 0,8 g DM.kg PV-1. Ovinos intoxicados com as três maiores doses morreram entre 10-85 h após a intoxicação, mas não aqueles que receberam a dose menor. Durante as necropsias se: 1) determinou o peso seco do conteúdo do rúmen + retículo, omaso + abomaso e intestino grosso, 2) estimou as porcentagens de fragmentos de Asclepias por microanálise, fazendo a correção para efeitos de digestão no reconhecimento dos fragmentos, e 3) calculou a massa total de Asclepias no trato digestivo de cada animal. Para as três doses maiores, a massa de Asclepias identificada na ingesta total foi de 12,3±3,4 por cento da quantidade fornecida, possivelmente por causa da forte diarréia produzida pela sua ingestão. As porcentagens de Asclepias no rúmen + retículo não diferiram da média quantificada para o trato completo. Os resultados deste estudo indicam que a dose letal mínima de Asclepias em ovinos é de entre 2,0 e 0,8 g kg PV ò DM-1, e que a análise micro-histológica do rúmen + retículo, a região mais fácil de amostrar, pode ser usada para confirmar a ingestão desta espécie tóxica, embora a percentagem estimada não será um bom estimador da porcentagem ingerida.(AU)