Search Results (4)

Peptic ulcers result from an imbalance between protective factors (e.g., prostaglandins, nitric oxide, and sulfhydryl groups) and aggressive risk factors (e.g., consumption of non-steroidal anti-inflammatory drugs, alcohol, or tobacco) regarding the gastric mucosa. While various existing treatments aim to relieve pain, repair the ulcer, and prevent its recurrence, they often produce undesirable side effects. The Heliotropium indicum (H. indicum) plant has been utilized as a traditional medicine due to its gastroprotective activity. In this study, we identified the compounds responsible for the gastroprotective activity of the hexanic extract of H. indicum in an ethanol-induced damage model, in addition to determination of the activities of prostaglandins, nitric oxide, and non-protein sulfhydryl groups, along with the antisecretory and antioxidant activities (i.e., concentration of malondialdehyde and activities of the enzymes superoxide dismutase, catalase, and glutathione peroxidase). We found at least two groups of compounds that are responsible for this activity, namely 1-acyl-glycerol components and retinyl β-glucuronide derivatives. In conclusion, a mixture of compounds responsible for the gastroprotective activity of H. indicum was isolated from its hexanic extract, and non-protein sulfhydryl groups were implicated in its mechanism of action. Full article

Allelopathy, a biological phenomenon where plants release chemicals that influence the growth and development of neighboring flora, offers potential natural alternatives for weed management in agriculture. This study investigated the allelopathic effects of Heliotropium indicum leaf and root extracts on the germination, growth, and biochemical parameters of eight cucurbit crops. Results demonstrated that H. indicum extracts generally inhibited seed germination across all cucurbit species, with aqueous extracts showing a stronger effect than methanol extracts in Lagenaria siceraria at 10.66 ± 0.46% (p < 0.001). The treatment also variably affected shoot and root growth, indicating both inhibitory and stimulatory actions, depending on the crop species and extract type. For instance, in methanol extract treatments, Benincasa hispida’s shoot length was significantly reduced, compared to the control, at 2.1 ± 0.14 cm (p < 0.001). Notably, aqueous leaf extracts enhanced chlorophyll content more effectively than root extracts, suggesting a potential application as a biostimulant, to improve photosynthetic efficiency in certain species, for example, Momordica charantia (p < 0.05). The study further explored the antioxidative potential of the extracts by measuring MDA levels, a biomarker for oxidative stress. MDA levels increased significantly across all species in response to both types of extracts, indicating oxidative stress (L. siceraria p < 0.05). These findings suggest the potential of H. indicum extracts as natural herbicides and biostimulants, though their effects are species-specific and dependent on concentration. This research contributes to understanding the complex interactions in plant allelopathy, and highlights the potential of plant-derived extracts in sustainable agriculture. Full article

The ethnobotanical utilization of five neglected herbaceous species, Argemone mexicana L., Heliotropium indicum L., Kedrostis foetidissima (Jacq.) Cogn., Peperomia pellucida (L.) Kunth and Schrankia leptocarpa DC. was investigated in Southern Benin to determine the ethnomedicinal and magic knowledge on them. Thirty-six herbal medicine traders were surveyed in six different markets in three districts. Four ethnobotanical indices were used. All informants traded A. mexicana and the majority traded H. indicum, K. foetidissima, and P. pellucida. Purchases in the traders’ own markets was the single most important source of H. indicum, A. mexicana and P. pellucida. A. mexicana was the most demanded by customers. Traders reported the scarcity of A. mexicana and H. indicum and the availability of S. leptocarpa, K. foetidissima and P. pellucida. H. indicum was mainly used to treat hypertension and fever. Similarly, S. leptocarpa was mostly mentioned in the treatment of hypertension and to facilitate childbirth. K. foetidissima mainly served religious and animist purposes. Similarly, P. pellucida was reported as being mainly used to implant a vodun, a traditional religion in West Africa. A. mexicana served to treat babies just after the umbilical cord fall as well as jaundice. S. leptocarpa and P. pellucida exhibited the highest Use Value (UV), and there was a very low similarity between study species in terms of uses. The majority of traders did not plant the study species, although they serve to treat various social conditions. We suggest a better management of H. indicum and S. leptocarpa through collection for trading and medicinal utilization while the planting is required for A. mexicana and P. pellucida because of their scarcity. K. foetidissima should be preserved and used as medicine wherever it occurs. Full article

In recent years, biosynthesized zinc oxide nanoparticles (ZnO NPs) have been gaining importance due to their unique properties and tremendous applications. This study aimed to fabricate ZnO NPs by using extracts from various parts of the traditional medicinal plant Heliotropium indicum (H. indicum) and evaluate their photocatalytic activity. Further, their potential in photoluminescence and fluorescence resonance energy transfer (FRET) was assessed. The Ultraviolet-Visible spectrum exhibited a hypsochromic shifted absorption band between 350–380 nm. Transmission electron microscopy (TEM) analysis revealed spherical NPs, while X-ray diffraction (XRD) data revealed wurtzite, hexagonal and crystalline nature. The TEM and XRD consistently determined an average particle size range from 19 to 53 nm. The photocatalytic degradation reaches a maximum of 95% for biogenic ZnO NPs by monitoring spectrophotometrically the degradation of methylene blue dye (λ_max = 662.8 nm) under solar irradiation. Photoluminescence analysis revealed differentiated spectra with high-intensity emission peaks for biogenic ZnO NPs compared with chemically synthesized ZnO NPs. Eventually, the highest efficiency of FRET (80%) was found in ZnO NPs synthesized from the leaves. This remains the first report highlighting the multifunctional ZnO NPs capabilities mediated by using H. indicum, which could lead to important potential environmental and biomedical applications. Full article