Simultaneous extraction of tocochromanols and flavan-3-ols from the grape seeds: Analytical and industrial aspects.

Grape processing generates large amounts of by-products, including seeds rich in hydrophilic and lipophilic antioxidants. This study demonstrates, for the first time, that subjecting grape seeds to a single ultrasound-assisted extraction (UAE) with aqueous ethanolic solutions yields both flavan-3-ols and tocochromanols in the final extract. Notably, the water content in ethanol significantly influences the extractability of tocochromanols more than flavan-3-ols. Solid-to-solvent ratios of 1:50 to 1:2 were tested for both analytical and industrial applications. A sustainable analytical approach for recovering flavan-3-ols and tocochromanols using 60% and 96.4% ethanol extractions was validated and employed to profile nineteen genotypes of lesser-studied interspecific grape crosses (Vitis spp.). Different genotypes showed a wide range of concentrations of tocopherols (1.6-6.3 mg/100 g), tocotrienols (1.0-17.4 mg/100 g), and flavan-3-ols (861-9994 mg/100 g). This indicated that the genetic background and maturity of the plant material are crucial factors from an industrial perspective due to the initial concentration of bioactive compounds. Finally, the study also discussed the fundamental aspects of hydrophobic antioxidant extractability from the lipid matrix with aqueous ethanol solutions and the limitations of the workflow, such as the non-extractable tocochromanols and their esters and the losses of these lipophilic antioxidants during extraction.

Exploring natural herbs: their role in treating male infertility, enhancing sexual desire and addressing urological disorders.

Infertility affects 8-12% of couples globally, with male factors contributing to around 40% of cases. Common male infertility issues include erectile dysfunction (ED) and low sperm count or quality, which account for over 90% of cases. These problems often result from anatomical, hormonal, or genetic abnormalities. This review focuses on natural aphrodisiac herbs commonly used to address ED, providing detailed information on their botanical characteristics, metabolic pathways, recommended dosages, phytochemical properties, side effects, origins, and traditional uses. It also reviews recent studies on medicinal herbs that boost sexual desire and treat urological conditions. By compiling reliable findings from the past decade, the study aims to serve as a comprehensive resource for individuals dealing with sexual health issues. Through careful evaluation of each herb, it offers insights into their effectiveness and limitations, emphasizing the potential of natural treatments as complementary alternatives to conventional therapies for male infertility and related conditions.

Anatomy, hormone abnormalities and genetic flaws may contribute to male infertility.The most popular natural aphrodisiac herbs used in the treatment of infertility were revised.Unique and reliable references to sexual desire and urological problems were provided.Safe aphrodisiac herbs including phytochemical products were emphasized.Plants were investigated for their potential as aphrodisiacs and fertility enhancers.

A review on pharmacological activities and phytochemical constituents of Zanthoxylum armatum DC.

Zanthoxylum armatum, a versatile plant known for its extensive pharmacological and phytochemical properties, has been traditionally utilised in various cultures for medicinal purposes. It is a widely recognised medicinal plant of the Rutaceae family, indigenous to Korea, China, Japan, and Pakistan, and thrives particularly in subtropical and temperate regions globally. Various parts of the plant hold medicinal significance: the seeds serve as a spice, condiment, and tonic; the wood finds application in dental care, crafting walking sticks, and timber; the fruit is utilised for oil extraction, water purification, and as an odontalgic, stomachic, and stimulant; the bark is valued as a tonic; while branches and thorns are utilised for their stimulant, stomachic, and odontalgic properties. The plant contains various bioactive compounds, including lignans, alkaloids, sterols, coumarins, phenolics, terpenoids, flavonoids, benzenoids, glycosides, alkenic acids, amino acids, fatty acids, armamide, L-sesamin, L-asarin, L-planinin, limonene, methyl cinnamate, linalool, linayl acetate, geraniol methyl cinnamate, citral, linalool and sabines. This review aims to comprehensively cover the pharmacological and phytochemical properties of Z. armatum, serving as a foundation for future research and potential applications.

A recent update on the connection between dietary phytochemicals and skin cancer: emerging understanding of the molecular mechanism.

Constant exposure to harmful substances from both inside and outside the body can mess up the body's natural ways of keeping itself in balance. This can cause severe skin damage, including basal cell carcinoma (BCC), squamous cell carcinoma (SCC), and melanoma. However, plant-derived compounds found in fruits and vegetables have been shown to protect against skin cancer-causing free radicals and other harmful substances. It has been determined that these dietary phytochemicals are effective in preventing skin cancer and are widely available, inexpensive, and well-tolerated. Studies have shown that these phytochemicals possess anti-inflammatory, antioxidant, and antiangiogenic properties that can aid in the prevention of skin cancers. In addition, they influence crucial cellular processes such as angiogenesis and cell cycle control, which can halt the progression of skin cancer. The present paper discusses the benefits of specific dietary phytochemicals found in fruits and vegetables, as well as the signaling pathways they regulate, the molecular mechanisms involved in the prevention of skin cancer, and their drawbacks.

Applications of nanomaterials with enzyme-like activity for the detection of phytochemicals and hazardous substances in plant samples.

Plants such as herbs, vegetables, fruits, and cereals are closely related to human life. Developing effective testing methods to ensure their safety and quantify their active components are of significant importance. Recently, nanomaterials with enzyme-like activity (known as nanozymes) have been widely developed in various assays, including colorimetric, fluorescence, chemiluminescence, and electrochemical analysis. This review presents the latest advances in analyzing phytochemicals and hazardous substances in plant samples based on nanozymes, including some active ingredients, organophosphorus pesticides, heavy metal ions, and mycotoxins. Additionally, the current shortcomings and challenges of the actual sample analysis were discussed.

Recent advancements in the role of phytochemicals and medicinal plants in prophylaxis and management of Alzheimer's disease.

Medicinal plants and phytochemicals are some of the major sources in the treatment of various neurodegenerative disorders including Alzheimer's disease (AD). There is no FDA-approved drug to target AD pathology directly. Full cognitive restoration and management of psychosis-like symptoms are still to be achieved. Being comparatively safer with fewer side effects, medicinal plants have been among the major areas of interest to be researched. Several mechanistic pathways are involved in AD including anticholinesterase activity, glutamate toxicity, free radicals generation, Amyloid ß (Aß) toxicity, inflammation, and mitochondrial dysfunction. Various phytochemicals such as paenol, andrographolide, isoquercitrin, flavonoids, and saponins obtained from different plant sources, various medicinal plants like Spirulina maxima, Salicornia europaea, Curcuma longa, Citrus Junos Tanaka, Cassiae semen, Centella asiatica as well as various traditional medicinal plants of China, Asia, Europe, Turkey, and Iran have been found effective against one or more of these targets. Large numbers of clinical trials are under process to evaluate the role of different phytoconstituents in AD management. Out of 143 agents under clinical trials, 119 have been categorized as disease-modifying agents. The present review extensively covers the recent advancements in the usage of phytochemicals and medicinal plants in various experimental AD models. It involves clinical trials and other research works divided into three sections, including those performed in vitro, in vivo, and in humans mainly from the last five years along with disease markers and mechanistic pathways involved. However, phytochemicals should be explored further in order to achieve neurorestoration in AD.

10-Gingerol reduces cytoplasmic lipid droplets and induces lipolysis in 3T3-L1 adipocytes.

Obesity is a globally prevalent metabolic disorder characterized by an increased number of adipose cells and excessive fat in adipocytes. Herbal medicines, such as ginger, have shown potential in treating obesity by inhibiting adipogenesis and reducing adipocyte hypertrophy. Ginger contains bioactive compounds, particularly gingerols, which have demonstrated anti-adipogenic and/or lipolytic effects. However, research on the effects of 10-gingerol on adipose tissue remains limited. This study aimed to evaluate the effect of 10-gingerol on lipid content, lipolysis markers, and the expression of genes related to lipid metabolism in 3T3-L1 adipocytes. Three groups were analyzed: a negative control (preadipocytes), a positive control (mature adipocytes), and a group treated with 10-gingerol (10-G). Results showed that 10-G reduced lipid accumulation by 42.16% in mature adipocytes compared to the control, without affecting cell viability. Additionally, 10-G increased glycerol release and downregulated lipogenic genes such as Pparγ, Acaca, Fabp4, and Mtor, while upregulating genes related to fatty acid oxidation, including Cebpα, Cpt1a, Lipe, and Prkaa1. In conclusion, 10-gingerol reduces lipid content in mature adipocytes by downregulating lipogenesis, increasing lipolysis, and enhancing fatty acid oxidation.

Understanding the intricate impacts and mechanism of actions of adaptogens on reproductive function.

Adaptogens, comprising plants and mushrooms, modulate the immune system, energy balance, and various physiological processes, including reproduction. Despite their potential benefits, the impact of adaptogens on reproductive function remains understudied. This review examines the effects of common adaptogens on male and female reproductive functions, highlighting their regulation of neuro-endocrine-immune interactions crucial for reproduction. While existing literature reveals varying impacts on reproductive function, most adaptogens exhibit beneficial effects, modulating neuroimmunology and promoting gonadal steroidogenesis, spermatogenesis, and folliculogenesis through direct mechanisms or suppression of oxidative stress and inflammation. Further experimental research is necessary to elucidate the mechanisms of action of adaptogens, which would significantly advance the management of reproductive disorders and other diseases. Validating these findings in clinical trials is also essential.

A Review on Nanotechnologically Derived Phytomedicines for the Treatment of Hepatocellular Carcinoma: Recent Advances in Molecular Mechanism and Drug Targeting.

The second largest cause of cancer-related death worldwide, Hepatocellular Carcinoma (HCC) is also the most common primary liver cancer. HCC typically arises in patients with liver cirrhosis. Existing synthetic medicines for treating chronic liver disease are ineffective and come with undesirable side effects. Although herbal remedies have widespread popularity, there is still a long road ahead before they are fully accepted by the scientific community. Secondary metabolites and phytochemicals found in plants are abundant in both the human diet and the non-human environment. Natural plant chemicals have been shown to be beneficial as therapeutic and chemopreventive treatments for a wide variety of chronic disorders. Many diseases, including HCC, can be effectively treated with the help of phytochemicals found in food. Resveratrol, curcumin, urolithin A, silibinin, quercetin, N-trans-feruloyl octopamine, emodin, lycopene, caffeine, and phloretin are all examples. Approximately, 60% of all anticancer medications are determined to be derived from natural substances, according to recent studies. Plant derivatives have played an important role in cancer due to their capacity to scavenge free radicals, limit cell proliferation, and set off apoptosis. The progression of HCC is linked to inflammatory signaling pathways, and this study sought to look at how novel approaches, such as phytomedicines, are being used to fight cancer. Recent advancements in molecular mechanisms and drug targeting for HCC have been discussed in this review.

Anticancer Activity of Phytochemicals of the Papaya Plant Assessed: A Narrative Review.

Cancer remains to be a pervasive disease as traditional treatments have plateaued in efficacy. Anticancer research continues to grow in an effort to find novel preventive and treatment measures for cancers. The papaya plant produces several biologically active phytochemicals, which exhibit anti-inflammatory, antibacterial, and anti-oxidative properties. This review explores studies examining these phytochemicals derived from the papaya plant as a potential chemopreventive agent and a cancer therapeutic. Further studies must be done to establish the papaya plant and its phytochemicals as an alternative to traditional cancer treatments.

Natural products for the treatment of allergic rhinitis: focus on cellular signaling pathways and pharmacological targets.

Background: Allergic rhinitis is an inflammatory disease dependent on immunoglobulin E and causes inflammation of the nasal mucosa, leading to decreased quality of life for affected patients. Since common treatments, including corticosteroids and antihistamines, have temporary therapeutic effects and numerous side effects, investigating natural compounds effective in improving allergic rhinitis with low complications and high efficacy can be significant and necessary. Purpose: This study aims to present a comprehensive and critical evaluation of the effect of natural compounds in improving allergic rhinitis. Methods: Studies were identified through systematic searches of ScienceDirect, PubMed, Scopus, and Web of Sciences databases. Eligibility checks were conducted based on predefined selection criteria. Forty-six articles were included in this study. Results and discussion: Phytochemicals, including flavonoids, alkaloids, terpenoids, and other compounds showed significant anti-inflammatory and antihistaminic effects. These compounds alleviate allergic rhinitis symptoms by inhibiting inflammatory mediators, oxidative stress, apoptosis, and key signaling pathways such as MAPK/NFκB and TLR4/MyD88/NF-κB. Conclusion: Phytochemicals exhibit anti-inflammatory and antioxidant properties, making them.

Beyond Pharmaceuticals: Harnessing the Potential of Plant-based Compounds for Anti-inflammatory Therapy.

A complicated biological reaction of vascular tissues to damaging stimuli like infections, harmed cells, or irritants is called inflammation. Symptoms include redness, inflamed joints, stiffness, discomfort in the joints, and loss of joint function. NSAIDs are frequently used to treat inflammation. Sadly, these drugs raise the possibility of blood clots, which can result in heart attacks and strokes. Consequently, there is ongoing research focusing on developing potent anti-inflammatory drugs using natural ingredients. Natural products, due to their diverse chemical composition, offer a rich source for the development of novel medications. The treatment of various inflammation- related disorders heavily relies on a natural substance derived from medicinal plants. The objective of the present study is to assemble information on potential parts of the plants or phytochemicals derived from medicinal plants used on inflammatory models, employing state-ofthe- art scientific methodologies. In this study, state-of-the-art scientific methodologies are utilized to investigate the effects of phytochemicals derived from medicinal plants. Relevant data is collected, focusing on the examination of these phytochemicals in experimental models of inflammation. The study aims to collect thorough data on potential plant parts or promising phytochemicals derived from medicinal plants that have been evaluated using advanced scientific techniques in the realm of inflammation models. This compilation will offer valuable insights into their potential as anti-inflammatory agents. The findings have the potential to contribute to the development of new and improved anti-inflammatory medications with fewer or no adverse effects compared to current treatments. While many of these studies hold academic interest only a few are accepted into clinical trials. Numerous phytoconstituents have been identified for exhibiting diverse pharmacological actions.

Phytochemicals Neogitogenin and Samogenin Hold Potentials for Hepatocyte Growth Factor Receptor-Targeted Cancer Treatment.

Protein kinases are key targets for cancer therapies, with the c-Met receptor tyrosine kinase (MET) and its ligand, hepatocyte growth factor, playing a role in various cancers, including non-small cell lung cancer, gastric cancer, and hepatocellular carcinoma. Although small-molecule inhibitors have been designed to target MET, the development of drug resistance remains a significant challenge to advancing therapeutic strategies. In this study, we employed virtual screening of plant-based compounds sourced from the IMPPAT 2.0 databank to identify potent inhibitors of MET. Preliminary filtering based on the physicochemical parameters following Lipinski's rule of five and pan-assay interference compounds criteria were applied to prioritize hits. Subsequent molecular docking, pharmacokinetic evaluation, prediction of activity spectra for biologically active substances, and specificity assessments facilitated the identification of two promising phytochemicals, neogitogenin and samogenin. Both phytochemicals exhibited considerable drug-like properties with notable binding affinity and selectivity toward MET. Molecular dynamics simulation studies showed the conformational stability of MET with neogitogenin and samogenin. Taken together, these findings suggest that neogitogenin and samogenin hold potential as lead molecules for the development of MET-targeted therapeutics. We call for further evaluations of these phytochemicals in preclinical and experimental studies for anticancer drug discovery and development.

Storage Effects on the Physicochemical Properties, Phytochemical Composition, and Sugars in Red-Fleshed Cultivars, 'Rubycot' Plumcot, and 'Queen Garnet' Plum.

Domestic storage conditions can have a significant impact on the composition of phytochemicals and sugars in stone fruits. This study aimed to evaluate the effect of two domestic storage temperatures (4 and 23 °C) on the physicochemical properties, phytochemical composition, and sugars of 'Rubycot' (RC) plumcot, a novel stone fruit variety, and 'Queen Garnet' (QG) plum. Initially, RC had a lower total anthocyanin concentration (TAC) than QG, but TAC in RC increased significantly (p < 0.05) during storage, peaking at +95% after 7 days at 23 °C, while QG reached +60% after 14 days. At 4 °C, TAC increased for both varieties (RC +30%, QG +27%). RC had a higher initial total phenolic content (TPC), which also increased for both fruits. QG had a significantly higher initial total quercetin concentration (TQC), increasing by 40% (p < 0.05) at 23 °C. The initial total carotenoid concentration in QG was higher than that in RC, but after 10 days at 23 °C, RC had a higher carotenoid concentration than QG. Both varieties showed similar sugar profiles, with QG starting higher but decreasing over time at both storage temperatures. Results from this study showed that ambient storage significantly increases total anthocyanins, total quercetins, and TPC in RC and QG. However, it is important to evaluate the textural and sensory properties of stored RC and QG in terms of consumer acceptability of the stored fruits.

In Vitro Study of the Differential Anti-Inflammatory Activity of Dietary Phytochemicals upon Human Macrophage-like Cells as a Previous Step for Dietary Intervention.

Chronic inflammatory diseases pose a substantial health challenge globally, significantly contributing to morbidity and mortality. Addressing this issue requires the use of effective anti-inflammatory strategies with fewer side effects than those provoked by currently used drugs. In this study, a range of phytochemicals (phenolic di-caffeoylquinic acid (Di-CQA), flavonoid cyanidin-3,5-diglucoside (Cy3,5DiG), aromatic isothiocyanate sinalbin (SNB) and aliphatic isothiocyanate sulforaphane (SFN)) sourced from vegetables and fruits underwent assessment for their potential anti-inflammatory activity. An in vitro model of human macrophage-like cells treated with a low dose of LPS to obtain a low degree of inflammation that emulates a chronic inflammation scenario revealed promising results. Cell viability and production of the key pro-inflammatory cytokines were assessed in the presence of various phytochemicals. The compounds Di-CQA and Cy-3,5-DiG, within low physiologically relevant doses, demonstrated notable anti-inflammatory effects by significantly reducing the production of key pro-inflammatory cytokines TNF-α and IL-6 without affecting cell viability. These findings underscore the potential of plant-derived bioactive compounds as valuable contributors to the prevention or treatment of chronic inflammatory diseases. These results suggest that these compounds, whether used individually or as part of natural mixtures, hold promise for their inclusion in nutritional interventions designed to mitigate inflammation in associated pathologies.

Biosynthesis of CuO nanoparticle using leaf extracts of Ocimum lamiifolium Hochst. ex Benth and Withana somnifera (L) Dunal for antibacterial activity.

Nanotechnology is becoming a promise for scientific advancement nowadays in areas like medicine, consumer products, energy, materials, and manufacturing. Copper oxide nanoparticles (CuO NPs) were synthesized using Ocimum lamiifolium Hochst. ex Benth and Withana somnifera (L) Dunal leaf extract via green synthetic pathway. The leaf of O. lamiifolium and W. somnifera were known to have strong antibiotic and antioxidant properties arising due to the presence of various secondary metabolites, including, flavonoids, alkaloids, saponins, tannins, cardiac glycosides, and phenolic compounds which serve as reducing, stabilizing, and capping agents for the CuO-Nanoparticles (NPs) synthesized. The biosynthesized CuO NPs were characterized based on Fourier transform infrared spectroscopy, X-ray diffraction spectroscopy, and scanning electron microscopy. O. lamiifolium and W. somnifera leaf extract mediated synthesis could produce CuO NPs with average crystallite size of 15 nm and 19 nm, respectively. The biosynthesized CuO-NPs were further examined for antibacterial activity with Gram-positive (S. aureus) and Gram-negative bacteria (E. coli and P. aeruginosa). The GZDK-CuO NPs synthesized using W. somnifera leaf extract inhibited the growth of E. coli. and P. aeruginosa largely in comparison to S. aureus. Whereas the DMAZ-CuO NPs synthesized with the help of O. lamiifolium leaf extract showed higher bacterial inhibition on E. coli compared to S. aureus and P. aeruginosa. The minimum inhibitory concentration (MIC) values of both types of NPs are also assessed on all three pathogens. The newly biosynthesized nanoparticles, thus, were found to be optional materials for inhibiting the growth of drug- resistant bacterial pathogens.

Biochemical Defence of Plants against Parasitic Nematodes.

Plant parasitic nematodes (PPNs), such as Meloidogyne spp., Heterodera spp. and Pratylenchus spp., are obligate parasites on a wide range of crops, causing significant agricultural production losses worldwide. These PPNs mainly feed on and within roots, impairing both the below-ground and the above-ground parts, resulting in reduced plant performance. Plants have developed a multi-component defence mechanism against diverse pathogens, including PPNs. Several natural molecules, ranging from cell wall components to secondary metabolites, have been found to protect plants from PPN attack by conferring nematode-specific resistance. Recent advances in omics analytical tools have encouraged researchers to shed light on nematode detection and the biochemical defence mechanisms of plants during nematode infection. Here, we discuss the recent progress on revealing the nematode-associated molecular patterns (NAMPs) and their receptors in plants. The biochemical defence responses of plants, comprising cell wall reinforcement; reactive oxygen species burst; receptor-like cytoplasmic kinases; mitogen-activated protein kinases; antioxidant activities; phytohormone biosynthesis and signalling; transcription factor activation; and the production of anti-PPN phytochemicals are also described. Finally, we also examine the role of epigenetics in regulating the transcriptional response to nematode attack. Understanding the plant defence mechanism against PPN attack is of paramount importance in developing new, effective and sustainable control strategies.

Overview and Toxicity Assessment of Ultrasound-Assisted Extraction of Natural Ingredients from Plants.

In different food technology unit operations, toxicity can be increased due to unwanted side reactions and is typically associated with the increased thermal energy that facilitates the latter. Authorities in food technology have not provided clear guidelines on using ultrasound (US), but they also have not prohibited its use in food processing. In this study, the source materials and ultrasound-assisted reactions reported in the literature were reviewed to investigate potential side reactions in ultrasound-assisted extraction (UAE). Industrial or pilot-scale processes published in the open literature and in industry patents were also examined. UAE is a highly effective extraction method that significantly increases extraction yields. According to the literature, there is no direct evidence of the formation of toxic compounds from natural food ingredients caused by UAE. However, experimental studies are urgently needed to assess the potential accumulation of toxic substances, especially in the case of certain plants.

An Overview of Apple Varieties and the Importance of Apple Consumption in the Prevention of Non-Communicable Diseases-A Narrative Review.

Non-communicable diseases such as cardiovascular diseases, cancers, diabetes, and asthma are increasingly common due to factors like industrialization, urbanization, fast-paced life, stress, sedentary lifestyle, and unbalanced diet in the 21st century. These chronic conditions are a global epidemic, being among the top causes of death worldwide. Preventing these diseases through a nutritious diet is crucial, and scientific studies suggest that appropriate fruit intake, particularly apples, can lower the risk of various health issues. Apples, rich in bioactive compounds, vitamins, minerals, and dietary fiber, offer numerous health benefits. Regular consumption of apples helps reduce the risk of atherosclerosis, coronary artery disease, heart attacks, and diabetes, and also provides anti-asthmatic and anti-allergic effects. Apples aid in detoxification, improve digestion, enhance skin, hair, and nail health, and offer protection against cancers, Alzheimer's, and Parkinson's disease. Apples have been a dietary staple for centuries, consumed in various forms like juices, sauces, and ciders. The reviewed article emphasizes the health benefits of apples, highlighting their role in preventing civilization diseases. It also discusses the characteristics of common apple varieties and the impact of thermal processing on their nutritional content.

Possible Combinatorial Utilization of Phytochemicals and Extracellular Vesicles for Wound Healing and Regeneration.

Organ and tissue damage can result from injury and disease. How to facilitate regeneration from damage has been a topic for centuries, and still, we are trying to find agents to use for treatments. Two groups of biological substances are known to facilitate wound healing. Phytochemicals with bioactive properties form one group. Many phytochemicals have anti-inflammatory effects and enhance wound healing. Recent studies have described their effects at the gene and protein expression levels, highlighting the receptors and signaling pathways involved. The extremely large number of phytochemicals and the multiple types of receptors they activate suggest a broad range of applicability for their clinical use. The hydrophobic nature of many phytochemicals and the difficulty with chemical stabilization have been a problem. Recent developments in biotechnology and nanotechnology methods are enabling researchers to overcome these problems. The other group of biological substances is extracellular vesicles (EVs), which are now known to have important biological functions, including the improvement of wound healing. The proteins and nanoparticles contained in mammalian EVs as well as the specificity of the targets of microRNAs included in the EVs are becoming clear. Plant-derived EVs have been found to contain phytochemicals. The overlap in the wound-healing capabilities of both phytochemicals and EVs and the differences in their nature suggest the possibility of a combinatorial use of the two groups, which may enhance their effects.