Metabolite profiling of Piper longum L. fruit volatiles by two-dimensional gas chromatography and time-of-flight mass spectrometry: Insights into the chemical complexity.

Piper longum L. (long pepper) is an economically and industrially important medicinal plant. However, the characterization of its volatiles has only been analyzed by gas chromatography-mass spectrometry (GC-MS). In the present study, precise characterization of P. longum fruit volatiles has been performed for the first time through advanced two-dimensional gas chromatography-time-of-flight spectrometry (GC×GC-TOFMS). A total of 146 constituents accounting for 93.79% were identified, of which 30 were reported for the first time. All these constituents were classified into alcohols (4.5%), alkanes (8.9%), alkenes (6.71%), esters (6.15%), ketones (0.58%), monoterpene hydrocarbons (1.64%), oxygenated monoterpenes (2.24%), sesquiterpene hydrocarbons (49.61%), oxygenated sesquiterpenes (13.03%), phenylpropanoid (0.23%), and diterpenes (0.2%). Among all the classes, sesquiterpene hydrocarbons were abundant, with germacrene-D (2.87% ± 0.01%) as the major one, followed by 8-heptadecene (2.69% ± 0.03%), ß-caryophyllene (2.43% ± 0.03%), n-heptadecane (2.4% ± 0.04%), n-pentadecane (2.11% ± 0.05%), and so forth. Further, 20 constituents were observed to be coeluted and separated precisely in the two-dimensional column. The investigation provides an extensive metabolite profiling of P. longum fruit volatiles, which could be helpful to improve its therapeutic potential.

Bioengineered dual fluorescent carbon nano dots from Indian long pepper leaves for multifaceted environmental and health utilities.

In this article, we present the synthesis of Piper longum leaves-derived ethanolic carbon dots (PLECDs) using the most simplistic environmentally friendly solvothermal carbonization method. The PLECDs fluoresced pink color with maximum emission at 670 nm at 397 nm excitation. Additionally, the dried PLECDs dissolved in water showed green fluorescence with higher emission at 452 nm at 370 nm excitation. The UV spectra showed peaks in the UV region (271.25 nm and 320.79 nm) and a noticeable tail in the visible region, signifying the efficient synthesis of nano-sized carbon particles and the Mie scattering effect. Various functional groups (-OH, -N-H, -C-H, -C = C, -C-N, and -C-O) were identified using Fourier transform infrared spectroscopy (FTIR). Its nanocrystalline property was revealed by the sharp peaks in the X-ray diffraction (XRD). High-resolution transmission electron microscopy (HRTEM) photomicrograph displayed a roughly spherical structure with a mean size of 2.835 nm. The energy dispersive X-ray (EDAX) and X-ray photoelectron spectroscopy (XPS) revealed the elemental abundance of C, O, and N. The high-performance thin-layer chromatography (HPTLC) fingerprint of PLECDs showed an altered pattern than its precursor (Piper longum leaves ethanolic extract or PLLEE). The PLECDs sensed Cu2+ selectively with a limit of detection (LOD) and limit of quantification (LOQ) of 0.063 µM and 0.193 µM, respectively. It showed excellent cytotoxicity toward MDA-MB-231 (human breast cancer), SiHa (human cervical carcinoma), and B16F10 (murine melanoma) cell lines with excellent in vitro bioimaging outcomes. It also has free radical scavenging activity. The PLECDs also showed outstanding bacterial biocompatibility, pH-dependent fluorescence stability, photostability, physicochemical stability, and thermal stability.

COVID-19: an In Silico Analysis on Potential Therapeutic Uses of Trikadu as Immune System Boosters.

Corona virus pandemic outbreak also known as COVID-19 has created an imbalance in this world. Scientists have adopted the use of natural or alternative medicines which are consumed mostly as dietary supplements to boost the immune system as herbal remedies. India is famous for traditional medicinal formulations which includes 'Trikadu'-a combination of three acrids, namely Zingiber officinale, Piper nigrum and Piper longum which have antioxidant properties that boost our immune system hence acting as a strong preventive measure. In this study, AutoDock 4.0 was used to study interaction between the phytocompounds of Trikadu with RNA-dependent polymerase protein and enveloped protein of the SARS-CoV-2 virus. Analysis of the results showed that coumarin, coumaperine and bisdemethoxycurcumin showed strong bonding interactions with both the proteins. We can conclude that Trikadu has the potential molecules; hence, it can be incorporated in the diet to boost the immune system as a preventive measure against the virus.

Insecticidal activities of long pepper (Piper retrofractum Vahl) fruit extracts against seed beetles (Callosobruchus maculatus Fabricius, Callosobruchus chinensis Linnaeus, and Sitophilus zeamais Motschulsky) and their effects on seed germination.

Bruchid beetles (Callosobruchus maculatus and Callosobruchus chinensis), and maize weevil (Sitophilus zeamais) are important insect pests during the postharvest period. Botanical insecticide is an alternative solution for controlling these insects, and long pepper (Piper retrofractum) has been reported as having insecticidal potential against general insect pests. Film seed coatings with various concentrations of hexane extracts were made for mung bean (Vigna radiata) and corn (Zea mays) seeds. Insecticidal activities of these treatments were assessed at before and after storage period of six months, and seed germination was also evaluated. The hexane extract was subjected to analysis of the bioactive components by using Gas Chromatography-Mass Spectrometry (GC-MS). Results revealed that the hexane extract presented extreme toxicity to both bruchid beetles higher compared to maize weevil at 24 h with LC50 values of 5.57-6.75 and 58.04 µg⋅cm-2, respectively. Bruchid beetles presented significant response to ethanol, acetone and hexane extracts, whereas maize weevil showed relatively low responsibility. Film seed coating with hexane extract at 1% and 3% concentrations with six-month storage presented high insecticidal activity against bruchid beetles by more than 88% mortality but had low kill rates against maize weevil. The coated mung bean seeds presented non-seed germination effect, whereas high effect was observed on coated corn. Isolation of bioactive components demonstrated that there were 74 compounds, where pentadecane was the main compound. Film seed coating technology for mung bean seed preservation by using 1% hexane extract from long pepper fruit presented to be an extremely effective method to control bruchid beetles without any seed germination effect. It could serve as one of the green insecticides of the future.

[Quantitative Analysis of Piperine and the Derivatives in Long Pepper Extract by HPLC Using Relative Molar Sensitivity].

A novel method was developed for quantification of five major piperine derivatives (piperanine, piperine, chavicine, isopiperine, and isochavicine) in a hot water extract of long pepper fruit (LPE) using the relative molar sensitivity (RMS) based on the combination of HPLC/UV and 1H- quantitative NMR (1H-qNMR). The RMSs of piperanine, chavicine, isopiperine, and isochavicine to piperine of which the absolute purity was determined by 1H-qNMR were calculated to be 0.3693, 1.138, 0.9164, and 1.277, respectively. The total amount of piperine derivatives in LPE was quantified by both 1H-qNMR and HPLC/UV based on the RMS using piperine as a single-reference material (RMS method). The relative difference in quantitation values of 1H-qNMR and calibration curve method from the RMS method was 2.01% or less. The relative difference of the total cis-trans piperine isomers content between before and after photoirradiation in piperine solution was quantified to be 2.84% by the RMS method. In addition, the interlaboratory difference of the RMS method was confirmed in the range of 0.600 to 4.00 µg/g when analysis was performed on piperine derivatives in LPE containing tablets, while the total amount of piperine derivatives in the tablets was quantified at 606 µg/g. Our proposed method is a reliable tool for determining the contents of piperine and the derivatives in LPE and processed foods containing LPE.

Herb-Drug Interactions in Neurological Disorders: A Critical Appraisal.

BACKGROUND: Herbal drugs are being used worldwide in a variety of debilitating neurological and psychiatric disorders such as cerebrovascular accident, Alzheimer's disease, Parkinson's disease and schizophrenia. However, unlike drugs of modern medicine, herbal drugs are complex products containing multiple pharmacologically active constituents. The nature and relative amounts of these constituents vary due to diverse factors such as but not limited to source of the plant(s), local environmental conditions, parts of the plant used, storage, method of extract preparation, accidental contamination or intentional adulteration. Further, they are handled by the human body like modern drugs and subjected to the processes of absorption, distribution, metabolism and excretion. In each of these processes, they can potentially interact with modern drugs due to sharing of similar transport proteins, metabolizing cytochrome P450 (CYP450) enzymes and uptake / efflux pumps. Moreover, herbal drugs can also inhibit or induce CYP450 enzymes or inactivate transporters leading to Herb-Drug interactions (HDIs). METHOD: In this narrative review, we have analyzed the clinically reported as well as potential HDIs between 10 common herbal drugs viz. Ginkgo, Ginseng, St. John's Wort, Grapefruit, Black and Long Pepper, Curcumin, Brahmi, Kava, Garlic and Valerian and modern medicines used in neurological and psychiatric disorders with their proven or postulated underlying mechanism(s). RESULTS: Though a number of potential pharmacokinetic and/or pharmacodynamic HDIs have been examined, clinically significant alteration of response to modern medicines and/or serious adverse effects are apparently scarce except for Grapefruit and St. John's Wort. CONCLUSION: Physicians and patients should exercise caution when using herbal drugs and modern medicines concomitantly so that the recognized serious HDIs can be avoided.

Estudo da adaptação da espécie Piper hispidinervum C. DC. (pimenta longa) à região do Vale do Itajaí - SC, através da composição química do óleo essencial obtido por hidrodestilação por micro-ondas e convencional / Adaptation studies of Piper hispidinervum C. DC. (long pepper) species in Itajaí Valley - SC, by the chemical composition of essential oil obtained by microwave and traditional hydrodistillation

Neste trabalho, a espécie Piper hispidinervum (pimenta longa), endêmica do estado do Acre, foi cultivada na região do Vale do Itajaí - SC, e sua adaptação foi avaliada em relação à composição química do óleo essencial obtido pelos processos de hidrodestilação convencional e por micro-ondas. O safrol foi identificado como o constituinte majoritário do óleo essencial desta espécie, o qual foi empregado como parâmetro de avaliação da capacidade de adaptação desta planta à região sul do Brasil, já que a proposta abrange avaliar a utilização desta espécie como fonte alternativa de safrol, em substituição a Canela Sassafrás (Ocotea odorifera), espécie muito explorada até a década de 90 nesta região. As amostras da planta foram obtidas de diferentes regiões do Acre e foram cultivadas na estação experimental da EPAGRI - Itajaí-SC. O óleo essencial das folhas forneceu um teor médio de safrol entre 76,6% e 89,9%. A análise por CG-DIC e CG-EM do óleo com maior concentração de safrol, apresentou os seguintes constituintes: safrol (89,93%), α-terpineno (0,35%), (E)-ß-ocimeno (0,54%), terpinoleno (3,10%), valenceno (0,21%), (Z)-ß-bisaboleno (1,70%) e guaiol (0,29%).

In this work a Piper hispidinervum specie (long pepper), endemic from the Acre state, was grown in Itajaí Valley in Santa Catarina State, and its adaptation was evaluated in relation to chemical composition of essential oil obtained by traditional hydrodistillation and microwave hydrodistillation. The safrole was identified as the major constituent of the essential oil of this specie, which was used as a measure of evaluation of the adaptation capacity of this plant in the southern Brazil, as the proposal includes the evaluation of the usage of this specie as an alternative source of safrole, replacing Sassafras Cinnamon (Ocotea odorifera), widely explored specie in this region until the 90's decade. The plant samples were obtained from different regions of the Acre state and were cultivated at the experimental station of EPAGRI Itajaí - SC. The essential oil of the leaves provided an average content of safrole between 76.6% and 89.9%. The analysis by GC-FID and GC-MS of the oil with higher safrole content, presented the following relative constitution: safrole (89.93%), α-terpinene (0.35%), (E)-ß-ocimene (0.54%), terpinolene (3.10%), valencene (0.21%), (Z)-ß-bisabolene (1.70%) and guaiol (0.29%).

Study on antihyperlipidemia effect and acute toxicity test of piperlonguminine / 中华中医药杂志

Objective:To investigate the influence of piperlonguminine on blood-fat of animal and its acute toxicity. Methods:The hyperlipidemic model rats were established by feeding with the high-lipid diet for 14 days.Stomach-perfusion with piperlonguminine was accompanied at the same time.Effects of piperlonguminine on the hyperlipidemic rats were investigated by measurement of the contents of total cholesterol(TC),triglyceride(TG),low density lipoprotein cholesterol(LDL-c),high- density lipoprotein cholesterol(HDL-c).The hyperlipidemic model rabbits were established by feeding with hypercholesterol. The influences of piperlonguminine on serum lipid,liver lipid and atheroma were observed.The response of the acute toxicity of mice was also observed.Results:Piperlonguminine remarkably lowered the serum TC、TG、LDL-c,and increased the serum HDL-c of rats,lowered the serum TC、TG、LDL-c and liver TC、TG,and remarkably improved atheroma of rabbits.The acute toxicity was tested on mice.During the test there was no death.Even more it caused little pathological change.Conclusion: Piperlonguminine not only had significant antihyperlipidemia effects,but also improved atheroma effects.And the toxicity of piperlonguminine was very low.