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Author: search.filters.author.Juan A. Puente-PinedaLanguage: search.filters.language.English

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    Phytochemical Characterization and In Vitro Biological Activities of Macleania rupestris or Ericaceae: Insights into Nutraceutical Potential
    (MDPI AG, 2025-10-31)
    Arianna Mayorga-Ramos
    ;
    Rebeca Gonzalez-Pastor
    ;
    Juan A. Puente-Pineda
    ;
    Carlos Barba-Ostria
    ;
    Eduardo Tejera
    The Ericaceae family encompasses several berries with recognized health-promoting properties; however, Macleania rupestris, a neotropical species endemic to the Andean region, remains poorly characterized. Background/Objectives: This study aimed to identify the chemical composition of M. rupestris ethanolic extracts and evaluate their biological activities, including antitumoral, hemolytic, anti-inflammatory, and leishmanicidal effects. Methods: The M. rupestris ethanolic extracts were obtained from lyophilized fruits and analyzed by HPLC-MS/MS for phytochemical profiling. Bioactivities were assessed in vitro using tumor and non-tumor cell lines (MTT assay), erythrocyte hemolysis assays, RAW 264.7 macrophage inflammation models, and Leishmania mexicana promastigotes. Results: The chemical analysis revealed anthocyanins (cyanidin-3-glucoside, malvidin-3-glucoside, petunidin-3-glucoside, delphinidin-3-arabinoside), flavonols (quercetin and myricetin derivatives), and coumaroyl iridoids. The extract showed modest antiproliferative activity (IC50 10.4–22.5 mg/mL) across tumor cell lines with low therapeutic indices, indicating limited selectivity. In contrast, hemolytic activity was negligible (<5% at all tested concentrations), suggesting high biocompatibility. Anti-inflammatory assays indicated a dose-dependent reduction in nitric oxide (NO) production, while no significant leishmanicidal activity was detected. Conclusions: This study provides the first comprehensive evaluation of the previously listed M. rupestris bioactivities. While its antitumoral effects appear limited, its strong hemocompatibility and presence of antioxidant metabolites highlight its potential for biomedical and nutraceutical applications where biocompatibility is critical. Further studies are needed to optimize bioactivity and explore potential synergistic effects.
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    Recent Advances in the Therapeutic Potential of Bioactive Molecules from Plants of Andean Origin
    (MDPI AG, 2025-05-22)
    Carlos Barba-Ostria
    ;
    Jéssica Guamán-Bautista
    ;
    Augusto A. Tosi-Vélez
    ;
    Juan A. Puente-Pineda
    ;
    Melanie A. Cedeño-Zambrano
    Background: Andean plants are rich in bioactive compounds shaped by extreme environmental conditions, contributing to their antioxidant, antimicrobial, and anti-inflammatory properties. This review explores their phytochemical composition, biological activities, and therapeutic potential in modern medicine and nutrition of three plants of Andean origin. Methods: A literature review of peer-reviewed studies was conducted, focusing on key species such as quinoa (Chenopodium quinoa), amaranth (Amaranthus spp.), and lupin (Lupinus spp.), selected for this review due to their Andean origin, long-standing role in traditional diets, and growing scientific interest in their unique phytochemical profiles and therapeutic potential. This analysis covers their phytochemistry, bioactivities, and the influence of environmental factors on compound potency. Results: These Andean-origin plants contain flavonoids, terpenoids, alkaloids, and phenolic compounds that support antioxidant, antimicrobial, anti-inflammatory, and anticancer activities. High-altitude conditions enhance the biosynthesis of these bioactives, increasing their therapeutic value. Quinoa, amaranth, and lupin show strong potential for dietary and pharmaceutical applications, particularly in metabolic health and disease prevention. Additionally, preclinical studies and clinical trials have begun exploring the efficacy of these compounds in preventing and treating metabolic and chronic diseases. Conclusions: Andean plants are a valuable source of functional bioactive molecules with diverse health benefits. Future research should optimize cultivation strategies and explore novel applications in nutrition and medicine.