Search Results (21)

The genus Datura L. has pharmacological activities due to its source of bioactive compounds. The effects of bioactive compounds can vary depending on species, geographical location, and environmental conditions. The purpose of this review is to summarize the most recent progress and to provide a comprehensive overview of studies concerning genetic alteration and bioactive compounds in the genus Datura, based on Scopus publications between 2015 and 2025. Throughout history, the genus Datura (Solanaceae) contains nine species of medicinal plants. A key component of elucidating the diversification process of congeneric species is identifying the factors that encourage species variation. A comparative gene family analysis provides an understanding of the evolutionary history of species by identifying common genetic/genomic mechanisms that are responsible for species responses to biotic and abiotic environments. The diverse range of bioactive compounds it contains contributes to its unique bioactivity. Datura contains tropane alkaloids (such as hyoscyamine and scopolamine), datumetine, withametelin, daturaolone, and atropine. Several compounds have been isolated and refined for use in treating various conditions as a result of recent progress in therapeutic development. Daturaolone, for example, is used to treat certain neurological disorders. In addition to providing renewed opportunities for the discovery of new compounds, these advancements also provide insights into the genetic basis for their biosynthesis. Our discussion also includes pitfalls as well as relevant publications regarding natural products and their pharmacological properties. The pace of discovery of bioactive compounds is set to accelerate dramatically shortly, owing to both careful perspectives and new developments. Full article

Gossypium hirsutum is a key fiber crop that is sensitive to environmental factors, particularly drought stress, which can reduce boll size, increase flower shedding, and impair photosynthesis. The aminotransferase (AT) gene is essential for abiotic stress tolerance. A total of 3 Gossypium species were analyzed via genome-wide analysis, and the results unveiled 103 genes in G. hirsutum, 47 in G. arboreum, and 53 in G. raimondii. Phylogenetic analysis, gene structure examination, motif analysis, subcellular localization prediction, and promoter analysis revealed that the GhAT genes can be classified into five main categories and play key roles in abiotic stress tolerance. Using RNA-seq expression and KEGG enrichment analysis of GhTAT2, a coexpression network was established, followed by RT-qPCR analysis to identify hub genes. The RT-qPCR results revealed that the genes Gh_A13G1261, Gh_D13G1562, Gh_D10G1155, Gh_A10G1320, and Gh_D06G1003 were significantly upregulated in the leaf and root samples following drought stress treatment, with Gh_A13G1261 identified as the hub gene. The GhTAT2 genes were considerably enriched for tyrosine, cysteine, methionine, and phenylalanine metabolism and isoquinoline alkaloid, tyrosine, tryptophan, tropane, piperidine, and pyridine alkaloid biosynthesis. Under drought stress, KEGG enrichment analysis manifested significant upregulation of amino acids such as L-DOPA, L-alanine, L-serine, L-homoserine, L-methionine, and L-cysteine, whereas metabolites such as maleic acid, p-coumaric acid, quinic acid, vanillin, and hyoscyamine were significantly downregulated. Silencing the GhTAT2 gene significantly affected the shoot and root fresh weights of the plants compared with those of the wild-type plants under drought conditions. RT-qPCR analysis revealed that GhTAT2 expression in VIGS-treated seedlings was lower than that in both wild-type and positive control plants, indicating that silencing GhTAT2 increases sensitivity to drought stress. In summary, this thorough analysis of the gene family lays the groundwork for a detailed study of the GhTAT2 gene members, with a specific focus on their roles and contributions to drought stress tolerance. Full article

Atropa belladonna is a medicinal plant and an important source for the commercial production of tropane alkaloids (TAs), such as scopolamine and hyoscyamine, which are used clinically for their anticholinergic properties. In this study, we identified 16 metallocarboxypeptidase inhibitor (MCPI) genes from A. belladonna (AbMCPIs), which are grouped into three subgroups based on phylogenetic relationships and are distributed across 10 chromosomes. Promoter analysis showed that most cis-regulatory elements were related to defense and stress responses, such as drought, low-temperature, ABA (abscisic acid), GA (gibberellin), auxin, light and MeJA responsiveness. A gene encoding a putative metallocarboxypeptidase inhibitor (AbMCPI8) is cloned from A. belladonna and characterized. AbMCPI8 shows similar tissue expression pattern to TA biosynthesis genes such as AbPMT, AbAT4, AbTRI, etc., with exclusive expression in the roots. When AbMCPI8 is silenced by virus-induced gene silencing (VIGS), the root growth is markedly inhibited and the production of hyoscyamine and scopolamine is significantly reduced. Our findings indicate a positive role of AbMCPI8 in root development, which could positively affect TA production in A. belladonna. Full article

Honey, a widely consumed food, is susceptible to contamination by various toxic substances during production. Tropane alkaloids, with their potent neurotoxicity, are frequently found in honey. Hence, there is an acute need for rapid and effective detection methods to monitor these alkaloids. Lateral flow immunoassay (LFIA), known for its simple operation, low cost, and reliable results, holds great promise. In this study, we developed an efficient and user-friendly analytical method for the simultaneous detection of six tropane alkaloids (atropine, L-hyoscyamine, scopolamine, anisodamine, homatropine, and apoatropine) in honey based on an AuNPs lateral flow immunoassay (AuNPs-LFIA) with broad-spectrum antibodies. Under optimal conditions, the calculated detection limits were 0.22, 0.29, 0.51, 6.34, 0.30, and 0.94 ng/mL, respectively. By diluting the honey sample five times, the contaminants can be readily detected using LFIA. Semi-quantitative and quantitative analyses can be completed within 17 min. This innovative method fills the void in LFIA for detecting tropane alkaloids and serves as a valuable reference for LFIA detection of honey samples, providing a crucial strategy for the accurate detection of these important compounds. Full article

Anisodus luridus, a perennial herb belonging to the genus Anisodus of the Solanaceae family, is an important Tibetan medicinal plant that produces pharmaceutical tropane alkaloids (TAs) including hyoscyamine and scopolamine. Its high yield of hyoscyamine makes A. luridus a valuable plant source for commercially producing TAs. In this study, we conduct homologous gene research across transcriptome data of different tissues together with functionally tested sequences in Atropa belladonna as a reference and identify 13 candidate genes for TAs biosynthesis in A. luridus. The results show that these 13 TAs biosynthesis genes identified in A. luridus were highly conserved in terms of sequence similarity and gene expression patterns compared to A. belladonna, suggesting that the two species may share the same biosynthetic pathway for TAs biosynthesis. Furthermore, scopolamine was detected in Nicotiana benthamiana leaves when these 13 enzymes were co-expressed in N. benthamiana, which confirmed that these 13 TAs biosynthesis genes are involved in the biosynthesis of TAs. The results of our study not only systematically elucidate the tropane alkaloid biosynthetic pathway of A. luridus, but also realize the de novo synthesis of TAs in N. benthamiana for the first time. It is now possible to make N. benthamiana a potential source for TAs production through synthetic biology techniques. Full article

Introduction: Although opiate narcotics may worsen gastroparesis(GP), patients can take these for abdominal pain (AP) or other chronic pain syndromes. This study aims to evaluate medications patients with gastroparesis use for AP and compare patients who use opiate analgesics for AP to those using opiate analgesics for non-abdominal pain. Methods: Patients at a tertiary academic center gastroenterology clinic completed the Patient Assessment of Gastrointestinal Disorders–Symptom Severity Index (PAGI-SYM) and Quality of Life Short-Form 8 (QOL SF-8) surveys between 10/2021 and 03/2023. Patients recorded gastroparesis treatments, pain treatments and indication, and any hospitalizations/emergency department (ED) visits within 3 months of a clinic visit. Results: A total of 53 patients were enrolled: 72% reported having AP. Patients were using the following medications for AP: 25% heating pad, ice or hot showers, 20.8% acetaminophen, 14.6% hyoscyamine, 13% opiate use, 13% marijuana use, 10.4% dicyclomine, 8.3% Nonsteroidal anti-inflammatory drugs (NSAIDs), 4% benzodiazepine, and 2.1% gabapentin. The reported reasons for using opiates were 58% AP, 16.6% chronic back pain, 16.6% Reflex Sympathetic Dystrophy (RSD) and fibromyalgia, and 8.3% osteoarthritis. All opiate users reported daily scheduled use. AP severity scores (4.1 vs. 2.8; p = 0.041), morphine equivalent usage (77 ± 44 vs. 32 ± 28; p = 0.037), and the number of ER visits (1.0 vs. 0 over 3 months) were higher in patients using opiates for AP than those using opiates for non-abdominal pain. Conclusions: In this series, 72% of patients with gastroparesis had abdominal pain, and 13% of patients were taking opiates. Patients who used opiate analgesics for abdominal pain had a higher average abdominal pain severity score and used a higher amount of opiate analgesia than patients using opiates for musculoskeletal pain. Abdominal pain in patients with gastroparesis can be harder to control with opiate analgesia compared to non-abdominal pain, supporting the concept of avoiding chronic opiate usage for abdominal pain in gastroparesis. Full article

Scopolamine and atropine are two medicinal alkaloids derived from Datura stramonium L. with anticholinergic properties. This study explored how methyl jasmonate (MJ), a plant growth regulator, affects the biosynthesis and accumulation of these alkaloids in different plant tissues. The expression levels of putrescine N-methyltransferase (PMT), tropinone reductase I (TR1), and hyoscyamine 6β-hydroxylase (h6h), three critical enzymes in the biosynthetic pathway, were also analyzed. The results indicated that MJ at 150 µM increased the production of scopolamine and atropine in both leaves and roots, while MJ at 300 µM had an adverse effect. Furthermore, MJ enhanced the expression of PMT, TR1, and h6h genes in the roots, the primary site of alkaloid synthesis, but not in the leaves, the primary site of alkaloid storage. These results imply that MJ can be applied to regulate the biosynthesis and accumulation of scopolamine and atropine in D. stramonium, thereby improving their production efficiency. Full article

Members of the genus Atropa contain various tropane alkaloids, including atropine ((±)-hyoscyamine) and scopolamine, which possess medicinal properties. Preserving the diverse genetic background of wild populations via optimal plant production from seeds could be essential for avoiding the loss of potential uses. We analyzed the germination ecology of two Atropa species comprising the threatened A. baetica and widespread A. belladonna to determine the: (1) influence of temperature, light, and seed age on germination patterns; (2) effects of cold stratification and gibberellic acid (GA₃); (3) phenology of seedling emergence in outdoor conditions; (4) phenology of dormancy break and loss of viability in buried seeds; and (5) ability to form persistent soil seed banks. Freshly matured seeds exhibited conditional physiological dormancy, with germination at high temperatures (32/18 °C) but not at low and cold ones (5, 15/4, 20/7 °C). The germination ability increased with time of dry storage and with GA₃, thereby suggesting nondeep physiological dormancy. Under outdoor conditions, no seedlings emerged during the first post-sown autumn, but emergence peaks occurred in late winter–early spring. Both species could form small persistent soil seed banks with short durations (3–5 years). A plant production protocol from seeds was established for both taxa. Full article

Tropane alkaloids (TAs) are large secondary metabolite alkaloids that find extensive applications in the synthesis of antidotes, anesthetics, antiemetics, motion sickness drugs, and antispasmodics. The current production method primarily depends on extraction from medicinal plants of the Solanaceae family. Elicitation, as a highly effective biotechnological approach, offers significant advantages in augmenting the synthesis of secondary metabolites. The advantages include its simplicity of operation, low cost, and reduced risk of contamination. This review focuses on the impact of elicitation on the biosynthesis of TAs from three aspects: single-elicitor treatment, multiple-elicitor treatment, and the combination of elicitation strategy with other strategies. Some potential reasons are also proposed. Plant hormones and growth regulators, such as jasmonic acid (JA), salicylic acid (SA), and their derivatives, have been extensively employed in the separate elicitation processes. In recent years, novel elicitors represented by magnetic nanoparticles have emerged as significant factors in the investigation of yield enhancement in TAs. This approach shows promising potential for further development. The current utilization of multi-elicitor treatment is constrained, primarily relying on the combination of only two elicitors for induction. Some of these combinations have been found to exhibit synergistic amplification effects. However, the underlying molecular mechanism responsible for this phenomenon remains largely unknown. The literature concerning the integration of elicitation strategy with other strategies is limited, and several research gaps require further investigation. In conclusion, the impact of various elicitors on the accumulation of TAs is well-documented. However, further research is necessary to effectively implement elicitation strategies in commercial production. This includes the development of stable bioreactors, the elucidation of regulatory mechanisms, and the identification of more potent elicitors. Full article

Macroevolutionary patterns in the association between plant species and their herbivores result from ecological divergence promoted by, among other factors, plants’ defenses and nutritional quality, and herbivore adaptations. Here, we assessed the performance of the herbivores Lema trilineata daturaphila, a trophic specialist on Datura, and Spodoptera frugiperda, a polyphagous pest herbivore, when fed with species of Datura. We used comparative phylogenetics and multivariate methods to examine the effects of Datura species’ tropane alkaloids, leaf trichomes, and plant macronutrients on the two herbivores´ performances (amount of food consumed, number of damaged leaves, larval biomass increment, and larval growth efficiency). The results indicate that species of Datura do vary in their general suitability as food host for the two herbivores. Overall, the specialist performs better than the generalist herbivore across Datura species, and performance of both herbivores is associated with suites of plant defenses and nutrient characteristics. Leaf trichomes and major alkaloids of the Datura species are strongly related to herbivores’ food consumption and biomass increase. Although hyoscyamine better predicts the key components of the performance of the specialist herbivore, scopolamine better predicts the performance of the generalist; however, only leaf trichomes are implicated in most performance components of the two herbivores. Nutrient quality more widely predicts the performance of the generalist herbivore. The contrasting effects of plant traits and the performances of herbivores could be related to adaptive differences to cope with plant toxins and achieve nutrient balance and evolutionary trade-offs and synergisms between plant traits to deal with a diverse community of herbivores. Full article

Despite its increasing application in pursing potential ligands, the capacity of receptor affinity chromatography is greatly challenged as most current research studies lack a comprehensive characterization of the ligand–receptor interaction, particularly when simultaneously determining their binding thermodynamics and kinetics. This work developed an immobilized M3 muscarinic receptor (M3R) affinity column by fixing M3R on amino polystyrene microspheres via the interaction of a 6-chlorohexanoic acid linker with haloalkane dehalogenase. The efficiency of the immobilized M3R was tested by characterizing the binding thermodynamics and kinetics of three known drugs to immobilized M3R using a frontal analysis and the peak profiling method, as well as by analyzing the bioactive compounds in Daturae Flos (DF) extract. The data showed that the immobilized M3R demonstrated good specificity, stability, and competence for analyzing drug–protein interactions. The association constants of (−)-scopolamine hydrochloride, atropine sulfate, and pilocarpine to M3R were determined to be (2.39 ± 0.03) × 10⁴, (3.71 ± 0.03) × 10⁴, and (2.73 ± 0.04) × 10⁴ M⁻¹, respectively, with dissociation rate constants of 27.47 ± 0.65, 14.28 ± 0.17, and 10.70 ± 0.35 min⁻¹, respectively. Hyoscyamine and scopolamine were verified as the bioactive compounds that bind to M3R in the DF extract. Our results suggest that the immobilized M3R method was capable of determining drug–protein binding parameters and probing specific ligands in a natural plant, thus enhancing the effectiveness of receptor affinity chromatography in diverse stages of drug discovery. Full article

Datura stramonium L. produces tropane alkaloids, and the hyoscyamine is dominant among them. Hyoscyamine is produced by hairy root cultures in vitro derived from native plants or plants with the genetically modified biosynthetic pathway for hyoscyamine. A common procedure is extraction from cultivated plants. Elicitors for increased production can be used in both cases. Live viruses are not well known for use as elicitors, therefore, D. stramonium plants grown in soil were artificially infected with the tobamoviruses Pepper mild mottle virus (PMMoV), Tomato mosaic virus (ToMV), and Tobacco mosaic virus (TMV). Differences in the content of hyoscyamine were between capsules and roots of infected and non-infected plants. Elicitation increased content of hyoscyamine in capsules 1.23–2.34 times, compared to the control. The most effective viruses were PMMoV and ToMV (isolate PV143), which increased content to above 19 mg/g of fresh weight of a capsule. The effect of each virus elicitor was expressed also in hyoscyamine content in roots. Elicited plants contained 5.41–16.54 times more hyoscyamine in roots compared to non-elicited plants. The most effective elicitor was ToMV SL-1, which raised production above 20 mg/g fresh weight of roots. It has been shown that tobamoviruses can be used as biotic elicitors. Full article

Interstitial Cystitis and Painful Bladder Syndrome are chronic conditions that are associated with urinary frequency, urgency, pain, and nocturia. The etiology of IC/PBS is not clearly understood, therefore diagnosis and treatment can be challenging. IC/PBS greatly affects the quality of life in several ways. In this report, we present the case of a patient with longstanding interstitial cystitis symptoms who was successfully treated with a novel approach after failing treatment established by the current guidelines in the management of IC/PBS. This case illustrates the complex nature of this syndrome and offers a new treatment approach that can potentially change the way IC/PBS are medically managed. Full article

The present research sought to compare the content of hyoscyamine/atropine and scopolamine in Scopolia carniolica and its contested variety, S. carniolica var. hladnikiana, with the aim of investigating differences that may be of taxonomical significance. A multi-phase liquid extraction and high-performance liquid chromatography were used to extract and analyse these alkaloids in different organs from plants collected over two years at three sites. Our results showed that hyoscyamine was almost twice as prevalent as scopolamine across our 87 samples. The differences between organ types were large, but so too were intra-organ differences; differences due to organs proved to be significant for hyoscyamine, while they were only marginally significant for scopolamine. The collection site also proved to have a significant influence, but only on hyoscyamine content. The year of collection and the variety proved to not be significant. Our results support the theory that these two varieties are likely one, a view argued by many others, though more work is needed to draw concrete taxonomical conclusions. Full article

The genus Datura (Solanaceae) contains nine species of medicinal plants that have held both curative utility and cultural significance throughout history. This genus’ particular bioactivity results from the enormous diversity of alkaloids it contains, making it a valuable study organism for many disciplines. Although Datura contains mostly tropane alkaloids (such as hyoscyamine and scopolamine), indole, beta-carboline, and pyrrolidine alkaloids have also been identified. The tools available to explore specialized metabolism in plants have undergone remarkable advances over the past couple of decades and provide renewed opportunities for discoveries of new compounds and the genetic basis for their biosynthesis. This review provides a comprehensive overview of studies on the alkaloids of Datura that focuses on three questions: How do we find and identify alkaloids? Where do alkaloids come from? What factors affect their presence and abundance? We also address pitfalls and relevant questions applicable to natural products and metabolomics researchers. With both careful perspectives and new advances in instrumentation, the pace of alkaloid discovery—from not just Datura—has the potential to accelerate dramatically in the near future. Full article