Your search keyword '"Barbulova A"' showing total 633 results

51. Procedure for Lotus japonicus in vitro nodulation studies

Author

Barbulova A and Chiurazzi M.

Published

2005

52. Characterization of Three Functional High-Affinity Ammonium Transporters in Lotus japonicus with Differential Transcriptional Regulation and Spatial Expression1

Author

D'Apuzzo, Enrica, Rogato, Alessandra, Simon-Rosin, Ulrike, El Alaoui, Hicham, Barbulova, Ani, Betti, Marco, Dimou, Maria, Katinakis, Panagiotis, Marquez, Antonio, Marini, Anne-Marie, Udvardi, Michael K., and Chiurazzi, Maurizio

Subjects

Base Sequence, Nitrogen, Molecular Sequence Data, Gene Expression Regulation, Developmental, Carbon Dioxide, Quaternary Ammonium Compounds, Gene Expression Regulation, Plant, Sequence Homology, Nucleic Acid, Yeasts, Mutation, Lotus, Cation Transport Proteins, Research Article, Plant Proteins

Abstract

Ammonium is a primary source of nitrogen for plants. In legume plants ammonium can also be obtained by symbiotic nitrogen fixation, and \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \setlength{\oddsidemargin}{-69pt} \begin{document} \begin{equation*}{\mathrm{NH}}_{4}^{+}\end{equation*}\end{document} is also a regulator of early and late symbiotic interaction steps. Ammonium transporters are likely to play important roles in the control of nodule formation as well as in nitrogen assimilation. Two new genes, LjAMT1;2 and LjAMT1;3, were cloned from Lotus japonicus. Both were able to complement the growth defect of a yeast (Saccharomyces cerevisiae) ammonium transport mutant. Measurement of [14C]methylammonium uptake rates and competition experiments revealed that each transporter had a high affinity for \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \setlength{\oddsidemargin}{-69pt} \begin{document} \begin{equation*}{\mathrm{NH}}_{4}^{+}\end{equation*}\end{document}. The Ki for ammonium was 1.7, 3, and 15 μm for LjAMT1;1, 1;2, and 1;3, respectively. Real-time PCR revealed higher expression of LjAMT1;1, 1;2, and 1;3 genes in leaves than in roots and nodule, with expression levels decreasing in the order LjAMT1;1 > 1;2 > 1;3 except in flowers, in which LjAMT1;3 was expressed at higher level than in leaves, and LjAMT1;1 showed the lowest level of expression. Expression of LjAMT1;1 and 1;2 in roots was induced by nitrogen deprivation. Expression of LjAMT1;1 was repressed in leaves exposed to elevated CO2 concentrations, which also suppress photorespiration. Tissue and cellular localization of LjAMT1 genes expression, using promoter-β-glucuronidase and in situ RNA hybridization approaches, revealed distinct cellular spatial localization in different organs, including nodules, suggesting differential roles in the nitrogen metabolism of these organs.

Published

2004

53. A procedure for in vitro nodulation studies

Author

Barbulova, Ani, primary and Chiurazzi, Maurizio, additional

54. Plant Cell Cultures as Source of Cosmetic Active Ingredients

Author

Barbulova, Ani, primary, Apone, Fabio, additional, and Colucci, Gabriella, additional

Published

2014

55. Brassica rapa hairy root extracts promote skin depigmentation by modulating melanin production and distribution.

Author

Sena LM, Zappelli C, Apone F, Barbulova A, Tito A, Leone A, Oliviero T, Ferracane R, Fogliano V, and Colucci G

Subjects

Cell Adhesion Molecules metabolism, Cell Line, Tumor, Collagen Type IV metabolism, Extracellular Matrix drug effects, Extracellular Matrix metabolism, Humans, Keratinocytes metabolism, Laminin metabolism, Melanins metabolism, Melanocytes metabolism, Microphthalmia-Associated Transcription Factor genetics, Plant Roots, Protein Biosynthesis drug effects, Kalinin, Brassica rapa, Melanins biosynthesis, Plant Extracts pharmacology, Skin drug effects, Skin Lightening Preparations pharmacology, Skin Pigmentation drug effects

Abstract

Background: Skin whitening products, used for ages by Asian people for cultural and esthetic purposes, are very popular nowadays in Western countries as well, where the need to inhibit skin spots after sun exposure has become not only a cosmetic but also a health-related issue. Thus, the development of effective and safe depigmenting agents derived from natural products gets continuous attention by cosmetic brands and consumers., Objectives: The aim of this study was to determine the effects of two preparations, obtained from the hairy root cultures of the species Brassica rapa, on melanogenesis and the expression of the extracellular matrix proteins involved in a correct pigment distribution., Methods: The two preparations, obtained by water-ethanol extraction and by digestion of cell-wall glycoproteins of the root cells, were chemically characterized and tested on skin cell cultures and on human skin explants to investigate on their dermatological activities., Results: Both the extracts were able to decrease melanin synthesis pathway in melanocytes and modulate the expression of genes involved in melanin distribution. One of the extracts was also effective in inducing the expression of laminin-5 and collagen IV, involved into the maintenance of tissue integrity. The two extracts, when tested together on human skin explants, demonstrated a good synergic hypopigmenting activity., Conclusions: Taken together, the results indicate that the extracts from B. rapa root cultures can be employed as cosmetic active ingredients in skin whitening products and as potential therapeutic agents for treating pigmentation disorders., (© 2017 Wiley Periodicals, Inc.)

Published

2018

56. Tissue-specific down-regulation of LjAMT1;1 compromises nodule function and enhances nodulation in Lotus japonicus.

Author

Alessandra Rogato, Enrica D’Apuzzo, Ani Barbulova, Selim Omrane, Catalina Stedel, Ulrike Simon-Rosin, Panagiotis Katinakis, Manolis Flemetakis, and Maurizio Chiurazzi

Abstract

Abstract  Plant ammonium transporters of the AMT1 family are involved in N-uptake from the soil and ammonium transport, and recycling within the plant. Although AMT1 genes are known to be expressed in nitrogen-fixing nodules of legumes, their precise roles in this specialized organ remain unknown. We have taken a reverse-genetic approach to decipher the physiological role of LjAMT1;1 in Lotus japonicus nodules. LjAMT1;1 is normally expressed in both the infected zone and the vascular tissue of Lotus nodules. Inhibition of LjAMT1;1 gene expression, using an antisense gene construct driven by a leghemoglobin promoter resulted in a substantial reduction of LjAMT1;1 transcript in the infected tissue but not the vascular bundles of transgenic plants. As a result, the nitrogen-fixing activity of nodules was partially impaired and nodule number increased compared to control plants. Expression of LjAMT1;1-GFP fusion protein in plant cells indicated a plasma-membrane location for the LjAMT1;1 protein. Taken together, the results are consistent with a role of LjAMT1;1 in retaining ammonium derived from symbiotic nitrogen fixation in plant cells prior to its assimilation. [ABSTRACT FROM AUTHOR]

Published

2008

57. Protection Against UV Damage.

Author

Bimonte, Marida, Tito, Annalisa, Carola, Antonietta, Barbulova, Ani, Apone, Fabio, Colucci, Gabriella, Cucchiara, Mirna, and Hill, Jacqueline

Subjects

ULTRAVIOLET radiation, EFFECT of radiation on skin, ANTI-inflammatory agents, CELL culture, SUNSCREENS (Cosmetics)

Abstract

Dolichos biflorus cell culture extract is evaluated here for its effects on skin cells. Results indicate the extract provides strong antiinflammatory, antioxidant and protective properties for skin, and the ability to repair UV-induced damage. Further, this work reinforces that cell culture systems are efficient biofactories to produce natural and effective compounds. [ABSTRACT FROM AUTHOR]

Published

2014

58. Characterisation of three functional high affinity ammonium transporters in Lotus japonicus with differential transcriptional regulation and spatial expression

Author

D'Apuzzo, E., Rogato, A., Simon-Rosin, U., El Alaoui, H., Barbulova, A., Betti, M., Dimou, M., Katinakis, P., Marquez, A., Marini, Anna Maria, Udvardi, K.M., Chiurazzi, M., D'Apuzzo, E., Rogato, A., Simon-Rosin, U., El Alaoui, H., Barbulova, A., Betti, M., Dimou, M., Katinakis, P., Marquez, A., Marini, Anna Maria, Udvardi, K.M., and Chiurazzi, M.

Abstract

F.I. 4.4340 C.I. 30, info:eu-repo/semantics/published

Published

2004

59. Differential Effects of Combined N Sources on Early Steps of the Nod Factor–Dependent Transduction Pathway in Lotus japonicus

Author

Barbulova, Ani, primary, Rogato, Alessandra, additional, D'Apuzzo, Enrica, additional, Omrane, Selim, additional, and Chiurazzi, Maurizio, additional

Published

2007

60. Genetic Modification of Alfalfa(Medicago Sativa L.)for Quality Improvement and Production of Novel Compounds

Author

Vlahova, M., primary, Stefanova, G., additional, Petkov, P., additional, Barbulova, A., additional, Petkova, D., additional, Kalushkov, P., additional, and Atanassov, A., additional

Published

2005

61. Improved procedures for in vitro regeneration and for phenotypic analysis in the model legume Lotus japonicus

Author

Barbulova, Ani, primary, D'Apuzzo, Enrica, additional, Rogato, Alessandra, additional, and Chiurazzi, Maurizio, additional

Published

2005

62. Primary Asymmetric Division and Embryo Formation in a Single Cell Suspension of EmbryogenicMedicago Falcata

Author

Iantcheva, A., primary, Barbulova, A., additional, Vlahova, M., additional, and Atanassov, A., additional

Published

2004

63. Coffea bengalensis for Antiwrinkle and Skin Toning Applications.

Author

Bimonte, Marida, Carola, Antonietta, Tito, Annalisa, Barbulova, Ani, Carucci, Francesca, Apone, Fabio, Colucci, Gabriella, Monoli, Irene, Cucchiara, Mirna, and Hill, Jacqueline

Subjects

THERAPEUTIC use of coffee, PLANT extracts, SKIN care, AGING prevention, STEM cells, OXIDATIVE stress, IMMUNOREGULATION, KERATINOCYTES

Abstract

Coffe a species have been widely evaluated for effects including oxidative stress protection and immunomodulation. The present study therefore evaluates the cosmetic activity of an extract obtained from cultured Coffea bengalensis stem cells. Results showed the extract imparted hydration activity in the keratinocytes, stimulated collagen synthesis in the fibroblasts and enhanced adipocyte differentiation starting from mesenchymal precursor cells. [ABSTRACT FROM AUTHOR]

Published

2011

64. Raspberry Stem Cell Extract to Protect Skin from Inflammation and Oxidative Stress.

Author

Barbulova, Ani, Tito, Annalisa, Carola, Antonietta, Bimonte, Marida, De Laurentis, Francesco, D'Ambrosio, Pasquale, Apone, Fabio, Colucci, Gabriella, Monoli, Irene, Cucchiara, Mirna, and Jacqueline Hill

Subjects

RED raspberry, OXIDATIVE stress, SKIN care, SKIN disease treatment, ANTIOXIDANTS, ANTHOCYANINS, PHENOLS, THERAPEUTICS

Abstract

In the present article, the authors evaluate a wild red raspberry (Rubus idaeus) extract for its beneficial compounds and potential applications in skin care. From leaf explants, raspberry stem cells were obtained to develop an extract rich in antioxidants, anthocyanins and phenolics. This extract exhibited anti-inflammatory and antioxidant activities. [ABSTRACT FROM AUTHOR]

Published

2010

65. Establishment of Embryogenic Potential of Economically Important Bulgarian Alfalfa Cultivars (Medicago SativaL.)

Author

Barbulova, A., primary, Iantcheva, A., additional, Zhiponova, M., additional, Vlahova, M., additional, and Atanassov, A., additional

Published

2002

66. PII Overexpression in Lotus japonicus Affects Nodule Activity in Permissive Low-Nitrogen Conditions and Increases Nodule Numbers in High Nitrogen Treated Plants.

Author

D'Apuzzo E, Valkov VT, Parlati A, Omrane S, Barbulova A, Sainz MM, Lentini M, Esposito S, Rogato A, and Chiurazzi M

Subjects

Gene Expression Regulation, Plant physiology, Lotus metabolism, Lotus physiology, PII Nitrogen Regulatory Proteins metabolism, Phenotype, Photoperiod, Phylogeny, Plant Proteins metabolism, Plants, Genetically Modified genetics, Plants, Genetically Modified metabolism, Plants, Genetically Modified physiology, Lotus genetics, Nitrogen metabolism, PII Nitrogen Regulatory Proteins genetics, Plant Proteins genetics, Root Nodules, Plant metabolism

Abstract

We report here the first characterization of a GLNB1 gene coding for the PII protein in leguminous plants. The main purpose of this work was the investigation of the possible roles played by this multifunctional protein in nodulation pathways. The Lotus japonicus LjGLB1 gene shows a significant transcriptional regulation during the light-dark cycle and different nitrogen availability, conditions that strongly affect nodule formation, development, and functioning. We also report analysis of the spatial profile of expression of LjGLB1 in root and nodule tissues and of the protein's subcellular localization. Transgenic L. japonicus lines overexpressing the PII protein were obtained and tested for the analysis of the symbiotic responses in different conditions. The uncoupling of PII from its native regulation affects nitrogenase activity and nodule polyamine content. Furthermore, our results suggest the involvement of PII in the signaling of the nitrogen nutritional status affecting the legumes' predisposition for nodule formation.

Published

2015

67. Systematic characterization of extracellular vesicles from potato (Solanum tuberosum cv. Laura) roots and peels: biophysical properties and proteomic profiling.

Author

Ekanayake, Gayandi, Piibor, Johanna, Midekessa, Getnet, Godakumara, Kasun, Dissanayake, Keerthie, Andronowska, Aneta, Bhat, Rajeev, and Fazeli, Alireza

Subjects

PLANT exudates, POTATO waste, BIOPESTICIDES, WASTE recycling, POTATOES, LIQUID chromatography-mass spectrometry

Abstract

Introduction: Extracellular vesicles (EVs) facilitate inter and intra-species/kingdom communication through biomolecule transfer, including proteins and small RNAs. Plant-derived EVs, a hot topic in the field, hold immense capability both as a potential biomarker to study plant physiology and as a biomaterial that can be mass-produced to be used in various industries ranging from cosmetics and food additives to biological pesticides. However, a systematic characterization of plant EVs is required to establish a foundation for further applications and studies. Methods: In this study, EVs were enriched from hydroponically cultivated potato plants (Solanum tuberosum , cv. Laura). We isolated EVs from root exudates and the apoplastic wash of potato peels using vacuum infiltration. These EVs were then systematically characterized for their biophysical and chemical properties to compare with standard EV characteristics and to explore their roles in plant physiology. Results: Biophysical and chemical analyses revealed morphological similarities between potato root and peel-derived EVs. The average diameter of root-derived EVs (164.6 ± 7.3 nm) was significantly larger than that of peel-derived EVs (132.2 ± 2.0 nm, p < 0.004). Liquid chromatography–mass spectrometry (LC-MS) demonstrated substantial protein enrichment in purified EVs compared to crude samples, with a 42% enrichment for root EVs and 25% for peel EVs. Only 11.8% of the identified proteins were common between root and peel EVs, with just 2% of significantly enriched proteins shared. Enriched pathways in both EV proteomes were associated with responses to biotic and abiotic stress, suggesting a defensive role of EVs in plants. Discussion: With further experimentation to elucidate the specific methods of communication, these findings increase the details known about plant EVs in terms of their physical and chemical characteristics and their potential functions, aiding in sustainable agricultural waste utilization for large-scale EV production, aligning with the concept of "valorization". [ABSTRACT FROM AUTHOR]

Published

2024

68. Byproducts as a Sustainable Source of Cosmetic Ingredients.

Author

Machado, Manuela, Silva, Sara, and Costa, Eduardo M.

Subjects

SUSTAINABILITY, CIRCULAR economy, ECOLOGICAL impact, SUSTAINABLE development, COSMETICS industry

Abstract

The cosmetic industry has been driven to implement sustainable practices that can help it overcome its high carbon footprint and intensive raw material extraction needs. The adoption of circular economy and bioeconomy concepts within the industry has been regarded as a solution for this problem, and within these concepts, byproducts' incorporation in the cosmetics production chain, either as bioactive or as a structural component, is only a logical step. With this in mind, this review aims to provide an overarching view of the application of byproducts in cosmetics with emphasis not only on their potential biological properties but also on all the regulations and societal and economic impacts associated with byproducts' incorporation into cosmetics and how they can help this industry. [ABSTRACT FROM AUTHOR]

Published

2024

69. Identification of Peptides from Edible Pleurotus eryngii Mushroom Feet and the Effect of Delaying D-Galactose-Induced Senescence of PC12 Cells Through TLR4/NF-κB/MAPK Signaling Pathways.

Author

Zhao, Fen, Gao, Ji'an, Li, Haiyan, Huang, Shuaishuai, Wang, Shangmeng, and Liu, Xinqi

Subjects

ALKALINE protease, CELLULAR aging, PEPTIDES, EDIBLE mushrooms, WESTERN immunoblotting, GALACTOSE, GLUTATHIONE peroxidase, GALACTOSIDASES

Abstract

Pleurotus eryngii mushroom has been proven to have anti-aging bioactivities. However, few studies have focused on edible Pleurotus eryngii mushroom feet peptides (PEMFPeps). In this paper, the effects of delaying the senescence of D-Galactose-induced PC12 cells were evaluated, and the mechanisms were also investigated. PEMFPeps were prepared by alkaline protease enzymolysis of edible Pleurotus eryngii mushroom feet protein (PEMFP), which mainly consisted of a molecular weight of less than 1000 Da peptides, primarily occupying 89.15% of the total. Simulated digestion in vitro of Pleurotus eryngii mushroom feet peptides (SID-PEMFPeps) was obtained in order to further evaluate the bioactivity after digestion. The peptide sequences of PEMFPeps and SID-PEMFPeps were detected by LC-MS/MS subsequently. Five new peptides of PEMFPeps and one new peptide of SID-PEMFPeps were identified. The effects of PEMFP, PEMFPeps, and SID-PEMFPeps on D-Galactose-induced senescence of PC12 cells were evaluated. PEMFP, PEMFPeps, and SID-PEMFPeps could all enhance antioxidant enzyme activities significantly, such as superoxide dismutase (SOD), glutathione peroxidase (GSH-Px), and catalase (CAT); decrease the intracellular levels of malondialdehyde (MDA) and reactive oxygen species (ROS); and inhibit the senescence-associated β-galactosidase (SA-β-gal) activity, among which SID-PEMFPeps showed the best effects. Western blotting analysis confirmed that SID-PEMFPeps significantly regulated the expressions of key proteins such as TLR4, IKKα, IκBα, p65, ERK, and JNK1/2/3, which indicated that SID-PEMFPeps could delay D-Gal-induced senescence of PC12 cells through TLR4/NF-κB/MAPK signaling pathways. This is the first time to investigate PEMFPeps and SID-PEMFPeps protective effects and mechanisms. Our study could lay a solid foundation for PEMFPeps to be used as nutritional supplementation to reduce aging-related damage. And the application of PEMFPeps could also provide optional solutions in exploring more edible protein resources for human beings. [ABSTRACT FROM AUTHOR]

Published

2024

70. Nutritional Composition and Functional Properties of A. platensis -Derived Peptides: A Green and Sustainable Protein-Rich Supplement.

Author

Begum, Nabila, Qi, Fei, Yang, Fang, Khan, Qudrat Ullah, Faizan, Fu, Qiang, Li, Jie, Wang, Xiu, Wang, Xiaoxiao, Wang, Jun, Li, Riwang, Liu, Dahai, and Zhang, Wenqing

Subjects

ESSENTIAL amino acids, EVIDENCE gaps, PEPTIDES, BIOACTIVE compounds, FUNCTIONAL foods

Abstract

Among cyanobacterium, Arthrospira platensis (A. platensis) is a rich source of diverse bioactive compounds due to its high protein, essential amino acid, vitamin, and mineral content. A. platensis is one of the most abundant sources of protein (50–70%). In the food industry, A. platensis is being used as an ingredient for the development of food flavor, taste, and nutritional composition. Several in vitro and in vivo studies have revealed the potential use of A. platensis in the prevention and treatment of various metabolic diseases. Recently, extensive research has focused on the production and bioactivity of the A. platensis-derived bioactive peptides. A series of steps were used for the production of bioactive peptides including hydrolysis, ultrafiltration, and chromatographic techniques, coupled with an advanced detector. A. platensis peptides showed health benefits such as anti-hypertension, anti-diabetes, anti-microbial, antioxidant, anti-obesity, and anti-cancer activities. This review aims to present the main nutritional composition of A. platensis, the processes of purification, and the identification of bioactive peptides, and the potential health benefits such as antihypertensive, antidiabetic, anti-cancer, anti-obesity, antioxidant, and anti-microbial activities associated with the consumption of A. platensis-derived peptides are discussed. The originality of this review over the old review is that our review comprehensively studies the macro- and micronutrient composition and listed bioactive peptides to date, which can play an important role in the treatment of various diseases. Moreover, this review provides information related the research gaps of the various technologies that should be used for the development of the peptide as a pharmaceutical and functional food. [ABSTRACT FROM AUTHOR]

Published

2024

71. The Nature and Nurture of Extracellular Vesicle–Mediated Signaling.

Author

Buck, Amy H. and Nolte-'t Hoen, Esther N.M.

Abstract

In the last decade, it has become clear that extracellular vesicles (EVs) are a ubiquitous component of living systems. These small membrane-enclosed particles can confer diverse functions to the cells that release, capture, or coexist with them in an environment. We use examples across living systems to produce a conceptual framework that classifies three modes by which EVs exert functions: (a) EV release that serves a function for producing cells, (b) EV modification of the extracellular environment, and (c) EV interactions with, and alteration of, receiving cells. We provide an overview of the inherent properties of EVs (i.e., their nature) as well as factors in the environment and receiving cell (i.e., nurture) that determine whether transmission of EV cargo leads to functional cellular responses. This review broadens the context for ruminating on EV functions and highlights the emergent properties of EVs that define their role in biology and will shape their applications in medicine. [ABSTRACT FROM AUTHOR]

Published

2024

72. Antioxidant Function and Application of Plant-Derived Peptides.

Author

Zhu, Zhengqing, Xu, Ziwu, Li, Yuhang, Fan, Yutong, Zhou, Yingqian, Song, Kaixin, and Meng, Lei

Subjects

OXIDANT status, PLANT development, OXIDATIVE stress, PEPTIDES, HUMAN body

Abstract

With the development of society and the improvement of people's health consciousness, the demand for antioxidants is increasing. As a natural antioxidant with no toxic side effects, antioxidant peptides are widely used in food, cosmetics, medicine, and other fields because of their strong antioxidant capacity and easy absorption by the human body. Plant-derived antioxidant peptides have attracted more attention than animal-derived antioxidant peptides because plants are more diverse than animals and produce a large number of protein-rich by-products during the processing of their products, which are the main source of antioxidant peptides. In this review, we summarize the source, structure and activity, other biological functions, mechanism of action, and comprehensive applications of plant antioxidant peptides, and look forward to their future development trends, which will provide a reference for further research and development of plant antioxidant peptides. [ABSTRACT FROM AUTHOR]

Published

2024

73. SVX Spider Silk-Inspired Biopolymer and Enhanced Cosmetics Efficacy.

Author

Press, Konstantin, Hadar, Noa, Sklan, Ella, Meir, Alon, Idelson, Gregory, Karakouz, Tanya, Gubelbank, Miriam, Abu Znaid, Ali, and Shen, Shlomzion

Subjects

SUSTAINABLE chemistry, SPIDER silk, TOPICAL drug administration, GREEN products, SKIN care

Abstract

The cosmetics industry is undergoing a shift towards sustainability and efficacy, driven by consumer demand for eco-friendly and safe products. This paper introduces SVX, a spider silk-inspired raw material intended to transform cosmetic formulations. Produced through fermentation, SVX is a biopolymer composed of self-assembled proteins characterized by a porous structure for delivering active ingredients safely to the skin. The study utilized in vitro and ex vivo methods to assess SVX's ability to protect against oxidative stress, enhance skin hydration, and support ingredient delivery. Safety assays, including the HET-CAM, patch test, and HRIPT, demonstrated that SVX is non-irritating and safe for topical application. Additionally, FTIR analysis confirmed SVX's capacity for sustained release of active ingredients, such as hyaluronic acid, over an 8 h period. Results showed that SVX significantly improved skin barrier protection and exhibited superior antioxidant properties compared to control formulations. Its biocompatibility, along with a vegan and biodegradable composition, aligns with the principles of sustainability, with over 60% biodegradability achieved within 10 days. Furthermore, SVX displayed antioxidant efficacy approximately 130 times greater than L-ascorbic acid, based on DPPH assay results. These findings suggest that SVX offers a versatile and sustainable solution for skincare formulations, combining environmental responsibility with benefits for skin health and performance. [ABSTRACT FROM AUTHOR]

Published

2024

74. Metabolome and Transcriptome Joint Analysis Reveals That Different Sucrose Levels Regulate the Production of Flavonoids and Stilbenes in Grape Callus Culture.

Author

Gu, Xiaojiao, Fan, Zhiyi, Wang, Yuan, He, Jiajun, Zheng, Chuanlin, and Ma, Huiqin

Subjects

VITICULTURE, METABOLITES, CHALCONE synthase, GENE expression, CINNAMIC acid, SUCROSE, ISOFLAVONES, PHENOLIC acids, RESVERATROL

Abstract

To reveal the effect of sucrose concentration on the production of secondary metabolites, a metabolome and transcriptome joint analysis was carried out using callus induced from grape variety Mio Red cambial meristematic cells. We identified 559 metabolites—mainly flavonoids, phenolic acids, and stilbenoids—as differential content metabolites (fold change ≥2 or ≤0.5) in at least one pairwise comparison of treatments with 7.5, 15, or 30 g/L sucrose in the growing media for 15 or 30 days (d). Resveratrol, viniferin, and amurensin contents were highest at 15 d of subculture; piceid, ampelopsin, and pterostilbene had higher contents at 30 d. A transcriptome analysis identified 1310 and 498 (at 15 d) and 1696 and 2211 (at 30 d) differentially expressed genes (DEGs; log2(fold change) ≥ 1, p < 0.05) in 7.5 vs. 15 g/L and 15 vs. 30 g/L sucrose treatments, respectively. In phenylpropane and isoflavone pathways, DEGs encoding cinnamic acid 4-hydroxylase, chalcone synthase, chalcone isomerase, and flavanone 3-hydroxylase were more highly expressed at 15 d than at 30 d, while other DEGs showed different regulation patterns corresponding to sucrose concentrations and cultivation times. For all three sucrose concentrations, the stilbene synthase (STS) gene exhibited significantly higher expression at 15 vs. 30 d, while two resveratrol O-methyltransferase (ROMT) genes related to pterostilbene synthesis showed significantly higher expression at 30 vs. 15 d. In addition, a total of 481 DEGs were annotated as transcription factors in pairwise comparisons; an integrative analysis suggested MYB59, WRKY20, and MADS8 as potential regulators responding to sucrose levels in flavonoid and stilbene biosynthesis in grape callus. Our results provide valuable information for high-efficiency production of flavonoids and stilbenes using grape callus. [ABSTRACT FROM AUTHOR]

Published

2024

75. Genetic Modification of Alfalfa (Medicago Sativa L.)for Quality Improvement and Production of Novel Compounds

Author

Vlahova, M., Stefanova, G., Petkov, P., Barbulova, A., Petkova, D., Kalushkov, P., and Atanassov, A.

Published

2005

76. Primary Asymmetric Division and Embryo Formation in a Single Cell Suspension of Embryogenic Medicago Falcata

Author

Iantcheva, A., Barbulova, A., Vlahova, M., and Atanassov, A.

Abstract

ABSTRACTSingle cell suspension culture of highly embryogenic line 47/1/150 M. falcata was initiated. The cell suspension was composed of different types of single cells. Most of the cells were capable to give rise to embryos following asymmetric division. In order to visualise and study this process and cells active and competent for division, transgenic Medicago falcata plants carrying the β-glucoronidase gene (gus A) under the control of the two promoters cdc2aAt and cyc3aAt from cell cycle regulating genes, have been obtained. Cell suspension cultures initiated from controls and transgenic plants were induced following the procedure for direct somatic embryogenesis in liquid medium. The fine fraction of single cells obtained after 15 days following culture initiation was used to investigate the asymmetry of the first cell division. The process of plant regeneration via somatic embryogenesis was characterised from single cell until conversion to plantlets.

Published

2004

77. Exploring female consumers' attitudes toward green cosmetics.

Author

Kazançoğlu, İpek and Köse, Şirin Gizem

Published

2024

78. Integration of Transcriptomics and WGCNA to Characterize Trichoderma harzianum -Induced Systemic Resistance in Astragalus mongholicus for Defense against Fusarium solani.

Author

Niu, Jingping, Yan, Xiang, Bai, Yuguo, Li, Wandi, Lu, Genglong, Wang, Yuanyuan, Liu, Hongjun, Shi, Zhiyong, and Liang, Jianping

Subjects

FUSARIUM solani, MITOGEN-activated protein kinases, GENE regulatory networks, PLANT hormones, SALICYLIC acid, TRICHODERMA harzianum

Abstract

Beneficial fungi of the genus Trichoderma are among the most widespread biocontrol agents that induce a plant's defense response against pathogens. Fusarium solani is one of the main pathogens that can negatively affect Astragalus mongholicus production and quality. To investigate the impact of Trichoderma harzianum on Astragalus mongholicus defense responses to Fusarium solani, A. mongholicus roots under T. harzianum + F. solani (T + F) treatment and F. solani (F) treatment were sampled and subjected to transcriptomic analysis. A differential expression analysis revealed that 6361 differentially expressed genes (DEGs) responded to T. harzianum induction. The Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analysis of the 6361 DEGs revealed that the genes significantly clustered into resistance-related pathways, such as the plant–pathogen interaction pathway, phenylpropanoid biosynthesis pathway, flavonoid biosynthesis pathway, isoflavonoid biosynthesis pathway, mitogen-activated protein kinase (MAPK) signaling pathway, and plant hormone signal transduction pathway. Pathway analysis revealed that the PR1, formononetin biosynthesis, biochanin A biosynthesis, and CHIB, ROS production, and HSP90 may be upregulated by T. harzianum and play important roles in disease resistance. Our study further revealed that the H2O2 content was significantly increased by T. harzianum induction. Formononetin and biochanin A had the potential to suppress F. solani. Weighted gene coexpression network analysis (WGCNA) revealed one module, including 58 DEGs associated with T. harzianum induction. One core hub gene, RPS25, was found to be upregulated by T. harzianum, SA (salicylic acid) and ETH (ethephon). Overall, our data indicate that T. harzianum can induce induced systemic resistance (ISR) and systemic acquired resistance (SAR) in A. mongholicus. The results of this study lay a foundation for a further understanding of the molecular mechanism by which T. harzianum induces resistance in A. mongholicus. [ABSTRACT FROM AUTHOR]

Published

2024

79. Multiomic Profiling and Neuroprotective Bioactivity of Salvia Hairy Root-Derived Extracellular Vesicles in a Cellular Model of Parkinson's Disease.

Author

Vestuto, Vincenzo, Conte, Marisa, Vietri, Mariapia, Mensitieri, Francesca, Santoro, Valentina, Muro, Anna Di, Alfieri, Mariaevelina, Moros, Maria, Miranda, Maria Rosaria, Amante, Chiara, Carri, Matteo Delli, Campiglia, Pietro, Piaz, Fabrizio Dal, Del Gaudio, Pasquale, De Tommasi, Nunziatina, Leone, Antonietta, Moltedo, Ornella, Pepe, Giacomo, Cappetta, Elisa, and Ambrosone, Alfredo

Published

2024

80. Plant Defense Mechanisms against Polycyclic Aromatic Hydrocarbon Contamination: Insights into the Role of Extracellular Vesicles.

Author

Barathan, Muttiah, Ng, Sook Luan, Lokanathan, Yogeswaran, Ng, Min Hwei, and Law, Jia Xian

Subjects

PLANT defenses, POLYCYCLIC aromatic hydrocarbons, EXTRACELLULAR vesicles, CELL communication, ENVIRONMENTAL degradation, PERSISTENT pollutants

Abstract

Polycyclic aromatic hydrocarbons (PAHs) are persistent organic pollutants that pose significant environmental and health risks. These compounds originate from both natural phenomena, such as volcanic activity and wildfires, and anthropogenic sources, including vehicular emissions, industrial processes, and fossil fuel combustion. Their classification as carcinogenic, mutagenic, and teratogenic substances link them to various cancers and health disorders. PAHs are categorized into low-molecular-weight (LMW) and high-molecular-weight (HMW) groups, with HMW PAHs exhibiting greater resistance to degradation and a tendency to accumulate in sediments and biological tissues. Soil serves as a primary reservoir for PAHs, particularly in areas of high emissions, creating substantial risks through ingestion, dermal contact, and inhalation. Coastal and aquatic ecosystems are especially vulnerable due to concentrated human activities, with PAH persistence disrupting microbial communities, inhibiting plant growth, and altering ecosystem functions, potentially leading to biodiversity loss. In plants, PAH contamination manifests as a form of abiotic stress, inducing oxidative stress, cellular damage, and growth inhibition. Plants respond by activating antioxidant defenses and stress-related pathways. A notable aspect of plant defense mechanisms involves plant-derived extracellular vesicles (PDEVs), which are membrane-bound nanoparticles released by plant cells. These PDEVs play a crucial role in enhancing plant resistance to PAHs by facilitating intercellular communication and coordinating defense responses. The interaction between PAHs and PDEVs, while not fully elucidated, suggests a complex interplay of cellular defense mechanisms. PDEVs may contribute to PAH detoxification through pollutant sequestration or by delivering enzymes capable of PAH degradation. Studying PDEVs provides valuable insights into plant stress resilience mechanisms and offers potential new strategies for mitigating PAH-induced stress in plants and ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

81. Exosome-like Nanoparticles, High in Trans-δ-Viniferin Derivatives, Produced from Grape Cell Cultures: Preparation, Characterization, and Anticancer Properties.

Author

Shkryl, Yury, Tsydeneshieva, Zhargalma, Menchinskaya, Ekaterina, Rusapetova, Tatiana, Grishchenko, Olga, Mironova, Anastasia, Bulgakov, Dmitry, Gorpenchenko, Tatiana, Kazarin, Vitaly, Tchernoded, Galina, Bulgakov, Victor, Aminin, Dmitry, and Yugay, Yulia

Subjects

PLANT cell culture, TRIPLE-negative breast cancer, VITICULTURE, VITIS vinifera, CELL cycle

Abstract

Background: Recent interest in plant-derived exosome-like nanoparticles (ENs) has surged due to their therapeutic potential, which includes antioxidant, anti-inflammatory, and anticancer activities. These properties are attributed to their cargo of bioactive metabolites and other endogenous molecules. However, the properties of ENs isolated from plant cell cultures remain less explored. Methods: In this investigation, grape callus-derived ENs (GCENs) were isolated using differential ultracentrifugation techniques. Structural analysis through electron microscopy, nanoparticle tracking analysis, and western blotting confirmed that GCENs qualify as exosome-like nanovesicles. Results: These GCENs contained significant amounts of microRNAs and proteins characteristic of plant-derived ENs, as well as trans-δ-viniferin, a notable stilbenoid known for its health-promoting properties. Functional assays revealed that the GCENs reduced the viability of the triple-negative breast cancer cell line MDA-MB-231 in a dose-dependent manner. Moreover, the GCENs exhibited negligible effects on the viability of normal human embryonic kidney (HEK) 293 cells, indicating selective cytotoxicity. Notably, treatment with these GCENs led to cell cycle arrest in the G1 phase and triggered apoptosis in the MDA-MB-231 cell line. Conclusions: Overall, this study underscores the potential of grape callus-derived nanovectors as natural carriers of stilbenoids and proposes their application as a novel and effective approach in the management of cancer. [ABSTRACT FROM AUTHOR]

Published

2024

82. Potential of Plant Stem Cells as Helpful Agents for Skin Disorders—A Narrative Review.

Author

Hermosaningtyas, Anastasia Aliesa, Chanaj-Kaczmarek, Justyna, Kikowska, Małgorzata, Gornowicz-Porowska, Justyna, Budzianowska, Anna, and Pawlaczyk, Mariola

Subjects

PLANT cell culture, CELLULAR aging, PREMATURE aging (Medicine), PLANT stems, STEM cells, SKIN aging

Abstract

Recently, cellular senescence has been of great interest due to its pleiotropic nature and association with both physiological (e.g., aging) and pathological conditions. Excessive accumulation of reactive oxygen species (ROS) can induce inflammation, which accelerates skin aging (also premature aging) and may cause several dermatoses. It has been postulated that plant-derived antioxidants, especially plant stem cells, may prevent cell damage by preserving stemness and reducing cellular senescence by ROS targeting. Therefore, this paper aims to review and summarize recent developments and innovative techniques associated with plant-derived stem cells in relation to skin senescence. This review also presents the possible pathways involved in this process. Particular attention was paid to the potential applications of plant stem cells as senostatics/senomorphics produced by modern plant biotechnology methods. Furthermore, the advantages, limitations, and future directions of this technology are also discussed. This knowledge allows the development of personalized strategies to create a healthy balance in skin care. Plant stem cells could be a more feasible and practical approach to combating the adverse effects of skin senescence processes. [ABSTRACT FROM AUTHOR]

Published

2024

83. The Mediterranean Species Calendula officinalis and Foeniculum vulgare as Valuable Source of Bioactive Compounds.

Author

Vella, Filomena Monica, Pignone, Domenico, and Laratta, Bruna

Subjects

SCIENTIFIC knowledge, FENNEL, CALENDULA officinalis, PLANT metabolites, METABOLITES, PHYTOCHEMICALS

Abstract

Research studies on plant secondary metabolites have increased over the last decades as a consequence of the growing consumer demand for natural products in pharmaceutics and therapeutics, as well as in perfumery and cosmetics. In this perspective, many Mediterranean plant species could be an appreciated source of bioactive compounds with pharmacological and health-promoting properties, including antioxidant, antimicrobial, antiviral, anti-inflammatory, and antitumor ones. Calendula officinalis and Foeniculum vulgare are commercially important plants of the Mediterranean flora, with great therapeutic use in the treatment of many disorders since ancient times, and are now listed in several world pharmacopoeias and drug agencies. The present review offers an overview of the main phytochemicals, phenols, terpenes, and alkaloids, biosynthesized in C. officinalis and F. vulgare, both species endemic to the Mediterranean region. Further, all current knowledge and scientific data on taxonomic classification, botanical description, traditional uses, pharmacological studies, and potential toxicity of both species were reported. The principal aim of this review is to point out the prospective use of C. officinalis and F. vulgare as valuable reservoirs of beneficial plant-derived products with interesting biological properties, also providing suggestions and future challenges for the full exploitation of these two Mediterranean species for human life improvement. [ABSTRACT FROM AUTHOR]

Published

2024

84. High-Tech Sustainable Beauty: Exploring Nanotechnology for the Development of Cosmetics Using Plant and Animal By-Products.

Author

Nhani, Gabriela Braga Barros, Di Filippo, Leonardo Delello, de Paula, Geanne Aparecida, Mantovanelli, Vitoria Ribeiro, da Fonseca, Patricia Pereira, Tashiro, Felipe Mota, Monteiro, Diana Coêlho, Fonseca-Santos, Bruno, Duarte, Jonatas L., and Chorilli, Marlus

Subjects

SUSTAINABILITY, ENVIRONMENTAL management, COSMETICS, CIRCULAR economy, NANOTECHNOLOGY, NANOBIOTECHNOLOGY

Abstract

In a world increasingly focused on eco-conscious living, the cosmetic industry is actively adopting nanotechnology to transform plant and animal by-products into high-value beauty products. This comprehensive review explores the innovative and sustainable approaches for extracting and utilizing bioactive compounds from these by-products. The application of nanocarrier systems is highlighted for their role in enhancing the delivery efficacy and safety of these ingredients in skincare and beauty products. Consumer demand and environmental concerns drive the shift towards natural and sustainable cosmetic products. Traditional cosmetic production often involves significant ecological impacts, prompting the industry to seek greener alternatives. This review addresses the critical need for sustainable beauty solutions that align with global sustainability goals, particularly those outlined in the 2030 Agenda for Sustainable Development. The review provides valuable insights into current trends and future directions in sustainable cosmetics by focusing on nanotechnology and by-products. The review uniquely integrates nanotechnology with sustainability practices in the cosmetic industry. It details the benefits of using nanocarriers to improve the stability, bioavailability, and efficacy of bioactive compounds derived from natural waste. This intersection of high-tech methodologies and sustainability offers a novel perspective on cosmetic innovation. Future research should focus on overcoming the technical, regulatory, and economic challenges of scaling up nanotechnology applications. Investigations should include the development of transparent supply chains, standardization methods for characterizing nanoparticles, and comprehensive lifecycle assessments to ensure environmental safety. Additionally, fostering collaboration between scientific research, industry practices, and consumer education is vital for advancing sustainable practices. This review contributes to the broader discourse on sustainable beauty by presenting a clear pathway for integrating these innovative approaches. It ensures that future cosmetic products meet consumer expectations for efficacy and safety and promote environmental stewardship and a circular economy, ultimately benefiting both the skin and the planet. [ABSTRACT FROM AUTHOR]

Published

2024

85. Potential Use of Tomato Peel, a Rich Source of Lycopene, for Cancer Treatment.

Author

Jiménez Bolaño, Diana Carolina, Insuasty, Daniel, Rodríguez Macías, Juan David, and Grande-Tovar, Carlos David

Abstract

Tomatoes are well known for their impressive nutritional value among vegetables. However, the industrial processing of tomatoes generates a significant amount of waste. Specifically, 10% to 18% of the raw materials used in tomato processing become waste. This waste can seriously affect ecosystems, such as freshwater bodies, wetlands, rivers, and other natural environments, if not properly managed. Interestingly, tomato waste, specifically the skin, contains lycopene, a potent antioxidant and antimutagenic that offers a range of health benefits. This makes it a valuable ingredient in industries such as food and cosmetics. In addition, researchers are exploring the potential of lycopene in the treatment of various types of cancer. This systematic review, guided by the PRISMA 2020 methodology, examined studies exploring the possibility of tomato peel as a source of lycopene and carotenoids for cancer treatment. The findings suggest that tomato peel extracts exhibit promising anticancer properties, underscoring the need for further investigation of possible therapeutic applications. The compiled literature reveals significant potential for using tomato peel to create new cancer treatments, which could potentially revolutionize the field of oncology. This underscores the importance of continued research and exploration, emphasizing the urgency and importance of the scientific community’s contribution to this promising area of study [ABSTRACT FROM AUTHOR]

Published

2024

86. The Utilization and Roles of Nitrogen in Plants.

Author

Wang, Qian, Li, Shasha, Li, Junrong, and Huang, Dong

Subjects

PLANT breeding, ROOT development, ROOT growth, NUCLEIC acids, PLANT growth

Abstract

Nitrogen (N) is an essential mineral element for plants and is the main component of protein, nucleic acid, phospholipid, chlorophyll, hormones, vitamins and alkaloids. It is involved in all stages of plant growth and development. Low-N stress seriously hinders plant growth and reduces yield and quality. Plants have evolved a series of elaborate regulatory mechanisms for N uptake and assimilation to cope with different soil N states. After N is absorbed and utilized by plants, it plays important regulatory roles in phytohormones, microRNA (miRNA), root development and mycorrhizal symbiosis to cope with environmental stress. Here, we highlight the research progress on the regulation mechanisms for N absorption and assimilation. Then, we emphasize the regulation roles of N regarding hormone signals, miRNA, lateral root growth, drought resistance, anthocyanin synthesis and mycorrhizal symbiosis. A thorough understanding of N uptake, utilization and interaction with other biological processes is helpful to improve N use efficiency and to breed plants with "less-input-more-output". [ABSTRACT FROM AUTHOR]

Published

2024

87. Extracellular vesicles: Function, resilience, biomarker, bioengineering, and clinical implications.

Author

Der-Shan Sun and Hsin-Hou Chang

Subjects

PATHOLOGY, EXTRACELLULAR vesicles, CELL communication, BIOENGINEERING, MEDICAL research

Abstract

Extracellular vesicles (EVs) have emerged as key players in intercellular communication, disease pathology, and therapeutic innovation. Initially overlooked as cellular debris, EVs are now recognized as vital mediators of cell-to-cell communication, ferrying a cargo of proteins, nucleic acids, and lipids, providing cellular resilience in response to stresses. This review provides a comprehensive overview of EVs, focusing on their role as biomarkers in disease diagnosis, their functional significance in physiological and pathological processes, and the potential of bioengineering for therapeutic applications. EVs offer a promising avenue for noninvasive disease diagnosis and monitoring, reflecting the physiological state of originating cells. Their diagnostic potential spans a spectrum of diseases, including cancer, cardiovascular disorders, neurodegenerative diseases, and infectious diseases. Moreover, their presence in bodily fluids such as blood, urine, and cerebrospinal fluid enhances their diagnostic utility, presenting advantages over traditional methods. Beyond diagnostics, EVs mediate crucial roles in intercellular communication, facilitating the transfer of bioactive molecules between cells. This communication modulates various physiological processes such as tissue regeneration, immune modulation, and neuronal communication. Dysregulation of EV-mediated communication is implicated in diseases such as cancer, immune disorders, and neurodegenerative diseases, highlighting their therapeutic potential. Bioengineering techniques offer avenues for manipulating EVs for therapeutic applications, from isolation and purification to engineering cargo and targeted delivery systems. These approaches hold promise for developing novel therapeutics tailored to specific diseases, revolutionizing personalized medicine. However, challenges such as standardization, scalability, and regulatory approval need addressing for successful clinical translation. Overall, EVs represent a dynamic frontier in biomedical research with vast potential for diagnostics, therapeutics, and personalized medicine. [ABSTRACT FROM AUTHOR]

Published

2024

88. On the antigenic composition of diphtheria toxin and toxoid

Author

A, Polikar, E, Barbulova, and M, Yomtov

Subjects

Immunodiffusion, Diphtheria Toxoid, Diphtheria Toxin, Antigens, In Vitro Techniques, Immunoelectrophoresis, Antibodies

Published

1965

89. Cooperative interactions between nitrogen fixation and phosphorus nutrition in legumes.

Author

Zhong Y, Tian J, Li X, and Liao H

Subjects

Humans, Nitrogen Fixation physiology, Glycine max metabolism, Symbiosis physiology, Crops, Agricultural metabolism, Root Nodules, Plant metabolism, Nitrogen metabolism, Phosphorus metabolism, Lotus metabolism, Medicago truncatula metabolism

Abstract

Legumes such as soybean are considered important crops as they provide proteins and oils for humans and livestock around the world. Different from other crops, leguminous crops accumulate nitrogen (N) for plant growth through symbiotic nitrogen fixation (SNF) in coordination with rhizobia. A number of studies have shown that efficient SNF requires the cooperation of other nutrients, especially phosphorus (P), a nutrient deficient in most soils. During the last decades, great progress has been made in understanding the molecular mechanisms underlying the interactions between SNF and P nutrition, specifically through the identification of transporters involved in P transport to nodules and bacteroids, signal transduction, and regulation of P homeostasis in nodules. These studies revealed a distinct N-P interaction in leguminous crops, which is characterized by specific signaling cross talk between P and SNF. This review aimed to present an updated picture of the cross talk between N fixation and P nutrition in legumes, focusing on soybean as a model crop, and Medicago truncatula and Lotus japonicus as model plants. We also discuss the possibilities for enhancing SNF through improving P nutrition, which are important for high and sustainable production of leguminous crops., (© 2022 The Authors. New Phytologist © 2022 New Phytologist Foundation.)

Published

2023

90. Black soldier fly (Hermetia illucens L.): A potential small mighty giant in the field of cosmeceuticals.

Author

Lai‐Foenander, Ashley Sean, Kuppusamy, Giva, Manogoran, Janaranjani, Xu, Tengfei, Chen, Yong, Tang, Siah Ying, Ser, Hooi‐Leng, Yow, Yoon‐Yen, Goh, Khang Wen, Ming, Long Chiau, Chuah, Lay‐Hong, Yap, Wei‐Hsum, and Goh, Bey‐Hing

Subjects

HERMETIA illucens, SKIN care products, NATURAL resources, NATURAL products, DRUG resistance in bacteria

Abstract

Background and Aims: Natural products are widely used in the pharmaceutical and cosmetics industries due to their high‐value bioactive compounds, which make for "greener" and more environmentally friendly ingredients. These natural compounds are also considered a safer alternative to antibiotics, which may result in antibiotic resistance as well as unfavorable side effects. The development of cosmeceuticals, which combine the cosmetic and pharmaceutical fields to create skincare products with therapeutic value, has increased the demand for unique natural resources. The objective of this review is to discuss the biological properties of extracts derived from larvae of the black soldier fly (BSF; Hermetia illucens), the appropriate extraction methods, and the potential of this insect as a novel active ingredient in the formulation of new cosmeceutical products. This review also addresses the biological actions of compounds originating from the BSF, and the possible association between the diets of BSF larvae and their subsequent bioactive composition. Methods: A literature search was conducted using PubMed and Google Scholar to identify and evaluate the various biological properties of the BSF. Results: One such natural resource that may be useful in the cosmeceutical field is the BSF, a versatile insect with numerous potential applications due to its nutrient content and scavenging behavior. Previous research has also shown that the BSF has several biological properties, including antimicrobial, antioxidant, anti‐inflammatory, and wound healing effects. Conclusion: Given the range of biological activities and metabolites possessed by the BSF, this insect may have the cosmeceutical potential to treat a number of skin pathologies. [ABSTRACT FROM AUTHOR]

Published

2024

91. mRNA Technology and Mucosal Immunization.

Author

Toniolo, Antonio, Maccari, Giuseppe, and Camussi, Giovanni

Subjects

MESSENGER RNA, HUMAN-to-human transmission, EXTRACELLULAR vesicles, RNA polymerases, COMBINED vaccines

Abstract

Current mRNA vaccines are mainly administered via intramuscular injection, which induces good systemic immunity but limited mucosal immunity. Achieving mucosal immunity through mRNA vaccination could diminish pathogen replication at the entry site and reduce interhuman transmission. However, delivering mRNA vaccines to mucosae faces challenges like mRNA degradation, poor entry into cells, and reactogenicity. Encapsulating mRNA in extracellular vesicles may protect the mRNA and reduce reactogenicity, making mucosal mRNA vaccines possible. Plant-derived extracellular vesicles from edible fruits have been investigated as mRNA carriers. Studies in animals show that mRNA vehiculated in orange-derived extracellular vesicles can elicit both systemic and mucosal immune responses when administered by the oral, nasal, or intramuscular routes. Once lyophilized, these products show remarkable stability. The optimization of mRNA to improve translation efficiency, immunogenicity, reactogenicity, and stability can be obtained through adjustments of the 5′cap region, poly-A tail, codons selection, and the use of nucleoside analogues. Recent studies have also proposed self-amplifying RNA vaccines containing an RNA polymerase as well as circular mRNA constructs. Data from parenterally primed animals demonstrate the efficacy of nasal immunization with non-adjuvanted protein, and studies in humans indicate that the combination of a parenteral vaccine with the natural exposure of mucosae to the same antigen provides protection and reduces transmission. Hence, mucosal mRNA vaccination would be beneficial at least in organisms pre-treated with parenteral vaccines. This practice could have wide applications for the treatment of infectious diseases. [ABSTRACT FROM AUTHOR]

Published

2024

92. Exploring Phenolic Compounds in Crop By-Products for Cosmetic Efficacy.

Author

Gomez-Molina, Maria, Albaladejo-Marico, Lorena, Yepes-Molina, Lucia, Nicolas-Espinosa, Juan, Navarro-León, Eloy, Garcia-Ibañez, Paula, and Carvajal, Micaela

Subjects

PHENOLS, SKIN aging, PLANT polyphenols, METABOLITES, SKIN diseases, POLYPHENOLS

Abstract

Phenolic compounds represent a group of secondary metabolites that serve essential functions in plants. Beyond their positive impact on plants, these phenolic metabolites, often referred to as polyphenols, possess a range of biological properties that can promote skin health. Scientific research indicates that topically using phenolics derived from plants can be advantageous, but their activity and stability highly depend on storage of the source material and the extraction method. These compounds have the ability to relieve symptoms and hinder the progression of different skin diseases. Because they come from natural sources and have minimal toxicity, phenolic compounds show potential in addressing the causes and effects of skin aging, skin diseases, and various types of skin damage, such as wounds and burns. Hence, this review provides extensive information on the particular crops from which by-product phenolic compounds can be sourced, also emphasizing the need to conduct research according to proper plant material storage practices and the choice of the best extracting method, along with an examination of their specific functions and the mechanisms by which they act to protect skin. [ABSTRACT FROM AUTHOR]

Published

2024

93. Cannabis sativa (Hemp) seed-derived peptides WVYY and PSLPA modulate the Nrf2 signaling pathway in human keratinocytes.

Author

Kim, Euihyun, Jang, Jihyeon, Seo, Hyo Hyun, Lee, Jeong Hun, and Moh, Sang Hyun

Subjects

NUCLEAR factor E2 related factor, CANNABIS (Genus), CELLULAR signal transduction, PEPTIDES, SEED proteins

Abstract

Cannabis sativa (Hemp) seeds are used widely for cosmetic and therapeutic applications, and contain peptides with substantial therapeutic potential. Two key peptides, WVYY and PSLPA, extracted from hemp seed proteins were the focal points of this study. These peptides have emerged as pivotal contributors to the various biological effects of hemp seed extracts. Consistently, in the present study, the biological effects of WVYY and PSLPA were explored. We confirmed that both WVYY and PSLPA exert antioxidant and antibacterial effects and promote wound healing. We hypothesized the involvement of the nuclear factor erythroid 2–related factor 2 (Nrf2) signaling pathway in these observed effects, given that Nrf2 is reported to be a central player in the regulation of these observed effects. Molecular-level investigations unequivocally confirmed the role of the Nrf2 signaling pathway in the observed effects of WVYY and PSLPA, specifically their antioxidant effects. Our study highlights the therapeutic potential of hemp seed-derived peptides WVYY and PSLPA, particularly with respect to their antioxidant effects, and provides a nuanced understanding of their effects. Further, our findings can facilitate the investigation of targeted therapeutic applications and also underscore the broader significance of hemp extracts in biological contexts. [ABSTRACT FROM AUTHOR]

Published

2024

94. Screening, separation and identification of metal-chelating peptides for nutritional, cosmetics and pharmaceutical applications.

Author

Camaño Echavarría, Jairo Andrés, El Hajj, Sarah, Irankunda, Rachel, Selmeczi, Katalin, Paris, Cédric, Udenigwe, Chibuike C., and Canabady-Rochelle, Laetitia

Published

2024

95. Use of Waste from the Food Industry and Applications of the Fermentation Process to Create Sustainable Cosmetic Products: A Review.

Author

Krzyżostan, Monika, Wawrzyńczak, Agata, and Nowak, Izabela

Abstract

In recent years, the sustainability of cosmetic products has received growing interest from the cosmetic industry and consumers due to the recommendation of the implementation of the circular economy and the European Green Deal. The sustainable development strategy takes into account the reduction of waste and energy consumption, and covers all processes of producing and using cosmetics, starting from the method of obtaining raw materials, through to the process of producing cosmetics bulk, to the selection of packaging. Particularly, the selection of raw materials has a large impact on sustainability of cosmetic emulsion. One way of resource recovery is the use of agro-food by-products and discarded waste to produce cosmetic raw materials, because most of them possess value-added bioactive compounds, such as enzymes and nutrients with high functionality. Their recovery may be performed by more sustainable extraction processes, leading to natural oils, extracts, polymers, phytosterols, vitamins, minerals, and unsaturated fatty acids. A relatively new and innovative form of designing sustainable and bioavailable cosmetic raw materials is fermentation, where bioferments are obtained from plant-based and food waste raw materials. In addition, optimization of the emulsification process by applying low-energy methods is a crucial step in obtaining sustainable cosmetics. This allows not only a reduction in the carbon footprint, but also the preservation of the valuable properties of the used raw materials. The following paper discusses methods of creating sustainable cosmetic emulsions with energy-saving procedures and by using raw materials from food waste and the fermentation process. [ABSTRACT FROM AUTHOR]

Published

2024

96. Allium sativum nanovesicles exhibit anti-inflammatory and antifibrotic activity in a bleomycin-induced lung fibrosis model.

Author

Santos-Álvarez JC, Velázquez-Enríquez JM, Reyes-Jiménez E, Ramírez-Hernández AA, Iñiguez-Palomares R, Rodríguez-Beas C, Canseco SP, Aguilar-Ruiz SR, Castro-Sánchez L, Vásquez-Garzón VR, and Baltiérrez-Hoyos R

Subjects

Animals, Mice, Humans, Antifibrotic Agents pharmacology, Antifibrotic Agents therapeutic use, Fibroblasts drug effects, Fibroblasts metabolism, Pulmonary Fibrosis chemically induced, Pulmonary Fibrosis drug therapy, Pulmonary Fibrosis pathology, Lung pathology, Lung drug effects, Lung metabolism, Plant Extracts pharmacology, Extracellular Matrix metabolism, Extracellular Matrix drug effects, Male, Mice, Inbred C57BL, Collagen metabolism, Nanoparticles chemistry, Bleomycin, Garlic chemistry, Disease Models, Animal, Anti-Inflammatory Agents pharmacology, Idiopathic Pulmonary Fibrosis chemically induced, Idiopathic Pulmonary Fibrosis drug therapy, Idiopathic Pulmonary Fibrosis pathology, Idiopathic Pulmonary Fibrosis metabolism

Abstract

Background: Idiopathic pulmonary fibrosis (IPF) is a chronic and highly fatal disease characterized by excessive accumulation of extracellular matrix (ECM), foci of myofibroblasts, and a usual pattern of interstitial pneumonia. As suggested by international guidelines, the treatment for this disease involves supportive therapies, as there is currently no effective treatment. Plant-derived nanovesicles have emerged as a new treatment for various diseases and have been tested in cellular and murine models., Methods and Results: This research aimed to test the use of Allium sativum nanovesicles (AS-NV) in a murine model of IPF induced by bleomycin. AS-NV reduced the amount of collagen and restored lung architecture in the mouse model. AS-NV was tested on human lung fibroblasts, which do not affect the viability of healthy cells. AS-NV treatment decreases the mRNA levels of genes related to fibrosis, inflammation, and ECM deposition (Mmp2,Timp-2,Vegf,Pcna,Col1a1,Tgf-β,α-Sma,IL-1β,and Hif1a) in bleomycin-induced idiopathic pulmonary fibrosis., Conclusions: This research highlights the anti-inflammatory and antifibrotic activity of AS-NV, which contributes to plant nanovesicle mechanisms in IPF; however, more AS-NV studies are needed to identify alternative treatments for idiopathic pulmonary fibrosis., Competing Interests: Declarations Ethical approval All the experimental animal studies were performed with the approval of the Ethics Committee of the Faculty of Medicine and Surgery – Autonomous University “Benito Juarez” of Oaxaca with registration number 0047-CEI-2022. Informed consent Not applicable. Competing interests The authors declare no competing interests., (© 2024. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2024

97. Innovative Approaches to an Eco-Friendly Cosmetic Industry: A Review of Sustainable Ingredients.

Author

Sasounian, Rafaela, Martinez, Renata Miliani, Lopes, André Moreni, Giarolla, Jeanine, Rosado, Catarina, Magalhães, Wagner Vidal, Velasco, Maria Valéria Robles, and Baby, André Rolim

Subjects

COSMETICS industry, SUSTAINABLE chemistry, COVID-19 pandemic, GREEN technology, COSMETICS, CELL culture, BIOMATERIALS, SUSTAINABILITY

Abstract

Sustainable ingredients in cosmetics have been discussed for the past decade, and the COVID-19 pandemic has increased awareness of this significant topic. Consumers are informed and vigilant about clean labels, driving the necessity for sustainability throughout the cosmetic production chain. Moreover, nanotechnology and green chemistry approaches have emerged as innovative perspectives to develop sustainable and eco-friendly cosmetic ingredients. In this sense, in this review, we present examples and applications of sustainable ingredients derived from several types of sources (i.e., plants, animals, microorganisms, cell cultures, and recycled materials/biomaterials). The benefits and drawbacks of all classes of compounds were organized and discussed in relation to novel formulations/products. Finally, we addressed perspectives on cosmetic ingredients that prioritize sustainability and safety, with an emphasis on exploring sustainable ingredients, compounds, or molecules as promising areas for research and development. [ABSTRACT FROM AUTHOR]

Published

2024

98. Heat stress memory differentially regulates the expression of nitrogen transporter genes in the filamentous red alga 'Bangia' sp. ESS1.

Author

Natsumi Sato, Ho Viet Khoa, and Koji Mikami

Subjects

GENE expression, GENES, MEMORY, NITROGEN, HYDROGEN peroxide

Abstract

Introduction: To withstand high temperatures that would be lethal to a plant in the naïve state, land plants must establish heat stress memory. The acquisition of heat stress tolerance via heat stress memory in algae has only been observed in the red alga 'Bangia' sp. ESS1. Methods: In this study, we further evaluated the intrinsic ability of this alga to establish heat stressmemory bymonitoring hydrogen peroxide (H2O2) production and examining the relationship between heat stress memory and the expression of genes encoding nitrogen transporters, since heat stress generally reduces nitrogen absorption. Next, genes encoding nitrogen transporters were selected from our unpublished transcriptome data of 'Bangia' sp. ESS1. Results: We observed a reduction in H2O2 content when heat stress memory was established in the alga. In addition, six ammonium transporter genes, a singlecopy nitrate transporter gene and two urea transporter genes were identified. Two of these nitrogen transporter genes were induced by heat stress but not by heat stress memory, two genes showed heat stress memory--dependent expression, and one gene was induced by both treatments. Heat stress memory therefore differentially regulated the expression of the nitrogen transporter genes by reducing heat stress--inducible gene expression and inducing heat stress memory--dependent gene expression. Discussion: These findings point to the functional diversity of nitrogen transporter genes, which play different roles under various heat stress conditions. The characteristic effects of heat stress memory on the expression of individual nitrogen transporter genes might represent an indispensable strategy for reducing the threshold of sensitivity to recurrent high-temperature conditions and for maintaining nitrogen absorption under such conditions in 'Bangia' sp. ESS1. [ABSTRACT FROM AUTHOR]

Published

2024

99. Edible Plant-Derived Extracellular Vesicles for Oral mRNA Vaccine Delivery.

Author

Gai, Chiara, Pomatto, Margherita Alba Carlotta, Deregibus, Maria Chiara, Dieci, Marco, Piga, Alessandro, and Camussi, Giovanni

Subjects

HUMORAL immunity, EXTRACELLULAR vesicles, ORAL vaccines, TH1 cells, ORAL drug administration, VIRAL antigens

Abstract

Nucleic acid delivery through extracellular vesicles (EVs) is a well-preserved evolutionary mechanism in all life kingdoms including eukaryotes, prokaryotes, and plants. EVs naturally allow horizontal transfer of native as well as exogenous functional mRNAs, which once incorporated in EVs are protected from enzymatic degradation. This observation has prompted researchers to investigate whether EVs from different sources, including plants, could be used for vaccine delivery. Several studies using human or bacterial EVs expressing mRNA or recombinant SARS-CoV-2 proteins showed induction of a humoral and cell mediated immune response. Moreover, EV-based vaccines presenting the natural configuration of viral antigens have demonstrated advantages in conferring long-lasting immunization and lower toxicity than synthetic nanoparticles. Edible plant-derived EVs were shown to be an alternative to human EVs for vaccine delivery, especially via oral administration. EVs obtained from orange juice (oEVs) loaded with SARS-CoV-2 mRNAs protected their cargo from enzymatic degradation, were stable at room temperature for one year, and were able to trigger a SARS-CoV-2 immune response in mice. Lyophilized oEVs containing the S1 mRNA administered to rats via gavage induced a specific humoral immune response with generation of blocking antibodies, including IgA and Th1 lymphocyte activation. In conclusion, mRNA-containing oEVs could be used for developing new oral vaccines due to optimal mucosal absorption, resistance to stress conditions, and ability to stimulate a humoral and cellular immune response. [ABSTRACT FROM AUTHOR]

Published

2024

100. In Vitro Safety and Efficacy Evaluation of a Juniperus communis Callus Culture Extract and Matricaria recutita Processing Waste Extract Combination as a Cosmetic Ingredient.

Author

Ramata-Stunda, Anna, Boroduskis, Martins, Pastare, Laura, Berga, Marta, Kienkas, Liene, Patetko, Liene, Skudrins, Gundars, Reihmane, Dace, and Nakurte, Ilva

Subjects

GERMAN chamomile, CALLUS (Botany), JUNIPERS, MATRIX metalloproteinases, PLANT extracts

Abstract

For skin health promotion and cosmetic applications, combinations of plant cell extracts are extensively utilized. As most natural ingredient suppliers offer crude extracts from individual plants or specific isolated compounds, the potential interactions between them are assessed in the development phase of cosmetic products. The industry seeks extract combinations that have undergone optimization and scrutiny for their bioactivities. This study presents a combination of two sustainably produced botanical ingredients and outlines their chemical composition, in vitro safety, and bioactivity for skin health enhancement. The amalgamation comprises the extract of Matricaria recutita processing waste and the extract from Juniperus communis callus culture. Chemical analysis revealed distinct compounds within the extracts, and their combination led to a broader array of potentially synergistic compounds. In vitro assessments on skin cells demonstrated that the combination possesses robust antioxidant properties and the ability to stimulate keratinocyte proliferation, along with regulating collagen type I and matrix metalloproteinase 1 (MMP-1) production by dermal fibroblasts. The identified traits of this combination render it an appealing cosmetic component. To the best of our knowledge, this represents the first case when the extracts derived from medicinal plant processing waste and biotechnological plant cell cultivation processes have been combined and evaluated for their bioactivity. [ABSTRACT FROM AUTHOR]

Published

2024