Plant cell culture extract of Cirsium eriophorum with skin pore refiner activity by modulating sebum production and inflammatory response.

Szczegóły
Abstrakt

Tytuł:: Plant cell culture extract of Cirsium eriophorum with skin pore refiner activity by modulating sebum production and inflammatory response.
Autorzy:: Laneri S; Department of Pharmacy, University of Naples Federico II, Naples, Italy.
Dini I; Department of Pharmacy, University of Naples Federico II, Naples, Italy.
Tito A; Arterra Bioscience SpA, Naples, Italy.
Di Lorenzo R; Department of Pharmacy, University of Naples Federico II, Naples, Italy.
Bimonte M; Arterra Bioscience SpA, Naples, Italy.
Tortora A; Arterra Bioscience SpA, Naples, Italy.
Zappelli C; Vitalab srl, Naples, Italy.
Angelillo M; Vitalab srl, Naples, Italy.
Bernardi A; Department of Pharmacy, University of Naples Federico II, Naples, Italy.
Sacchi A; Department of Pharmacy, University of Naples Federico II, Naples, Italy.
Colucci MG; Arterra Bioscience SpA, Naples, Italy.; Vitalab srl, Naples, Italy.
Apone F; Arterra Bioscience SpA, Naples, Italy.; Vitalab srl, Naples, Italy.
Źródło:: Phytotherapy research : PTR [Phytother Res] 2021 Jan; Vol. 35 (1), pp. 530-540. Date of Electronic Publication: 2020 Aug 20.
Typ publikacji:: Journal Article
Język:: English
Imprint Name(s):: Publication: : Chichester : Wiley
Original Publication: London : Heyden & Son, c1987-
MeSH Terms:: Anti-Inflammatory Agents/*pharmacology
Cirsium/*chemistry
Plant Extracts/*pharmacology
Sebum/*metabolism
Skin/*drug effects
Acne Vulgaris ; Adult ; Cell Culture Techniques ; Cosmetics ; Face ; Female ; Fibroblasts/drug effects ; HaCaT Cells ; Humans ; Inflammation ; Male ; Skin/metabolism ; Skin Physiological Phenomena ; Young Adult
References:: An, Q., Sun, M., Qi, R. Q., Zhang, L., Zhai, J. L., Hong, Y. X., … Gao, X. H. (2017). High Staphylococcus epidermidis colonization and impaired permeability barrier in facial Seborrheic dermatitis. Chinese Medical Journal, 130(14), 1662-1669.
Apone, F., Tito, A., Arciello, S., Carotenuto, G., & Colucci, M. G. (2020). Plant tissue cultures as sources of ingredients for skin care applications. Annual Plant Reviews, 3, 135-150.
Boğa, M., Yılmaz, P., Cebe, D., Fatima, M., Siddiqui, B. S., & Kolak, U. (2015). Chemical constituents and biological activities of Cirsium leucopsis, C. sipyleum, and C. eriophorum. Zeitschrift für Naturforschung C, 69(9-10), 381-390.
D'Antuono, I., Carola, A., Sena, L. M., Linsalata, V., Cardinali, A., Logrieco, A. F., … Apone, F. (2018). Artichoke polyphenols produce skin anti-age effects by improving endothelial cell integrity and functionality. Molecules, 23(11), E2729. https://doi.org/10.3390/molecules23112729.
Das, U., Behera, S. S., & Pramanik, K. (2017). Ethno-herbal-medico in wound repair: An incisive review. Phototherapy Research, 31, 579-590.
di Martino, O., Tito, A., De Lucia, A., Cimmino, F., Cicotti, F., Apone, F., … Calabrò, V. (2017). Hibiscus syriacus extract from an established cell culture stimulates skin wound healing. Biomedical Research International, 2017, 7932019. https://doi.org/10.1155/2017/7932019.
Dini, I., & Laneri, S. (2019). Nutricosmetics: A brief overview. Phototherapy Research, 33(12), 3054-3063.
Dong, J. B. A., Lanoue, J. M. D., & Goldenberg, G. M. D. (2016). Enlarged facial pores: An update on treatments. Cutis, 98(1), 33-36.
Eibl, R., Meier, P., Stutz, I., Schildberger, D., Hühn, T., & Eibl, D. (2018). Plant cell culture technology in the cosmetics and food industries: Current state and future trends. Applied Microbiology and Biotechnology, 102, 8661-8675.
Fabbrocini, G., Annunziata, M. C., D'Arco, V., De Vita, V., Lodi, G., Mauriello, M. C., … Monfrecola, G. (2010). Acne scars: Pathogenesis, classification and treatment. Dermatology Research and Practice, 13, 1-13. https://doi.org/10.1155/2010/893080.
Igawa, S., Kishibe, M., Minami-Hori, M., Honma, M., Tsujimura, H., Ishikawa, J., … Ishida-Yamamoto, A. (2017). Incomplete KLK7 secretion and upregulated LEKTI expression underlie hyperkeratotic stratum corneum in atopic dermatitis. Journal of Investigative Dermatology, 137(2), 449-456.
Inui, S., Aoshima, H., Nishiyama, A., & Itami, S. (2011). Improvement of acne vulgaris by topical fullerene application: Unique impact on skin care. Nanomedicine Nanotechnology Biology and Medicine, 7, 238-241.
Jeong, D. M., Jung, H. A., & Choi, J. S. (2008). Comparative antioxidant activity and HPLC profiles of some selected Korean thistles. Archives of Pharmacol Research, 31, 28-33.
Juliano, C., & Magrini, G. (2018). Cosmetic, functional ingredients from botanical sources for anti-pollution skincare products. Cosmetics, 5, 19. https://doi.org/10.3390/cosmetics5010019.
Karg, S., & Kallio, P. T. (2009). The production of biopharmaceuticals in plant systems. Biotechnology Advances, 27, 879-894.
Katsuta, Y., Iida, T., Inomata, S., & Yoshida, S. (2004). Improving the appearance of facial pores. Cosmetics & Toiletries, 119(10), 59-64.
Ki, V., & Rotstein, C. (2008). Bacterial skin and soft tissue infections in adults: A review of their epidemiology, pathogenesis, diagnosis, treatment, and site of care. The Canadian Journal of Infectious Diseases & Medical Microbiology, 19(2), 173-184.
Li, Y., Zhang, X., Zeng, L., Yang, Y., & Deng, Y. (2011). Chemical profiling of bioactive constituents in Sarcandra glabra and its preparations using ultra-high-pressure liquid chromatography coupled with LTQ Orbitrap mass spectrometry. Rapid Communication in Mass Spectrometry, 25(17), 2439-2447. https://doi.org/10.1002/rcm.5123.
Lijnen, P., & Petrov, V. (2002). Transforming growth factor-beta 1-induced collagen production in cultures of cardiac fibroblasts is the result of the appearance of myofibroblasts. Methods and Findings in Experimental and Clinical Pharmacology, 24, 333-344.
Logger, J. G. M., Olydam, J. I., Wietsker-van der Weg, W., & van Erp, P. E. J. (2019). Noninvasive skin barrier assessment: Multiparametric approach and pilot study. Cosmetics, 6(1), 20. https://doi.org/10.3390/cosmetics6010020.
Maia Campos, P. M. B. G., Melo, M. O., & Mercurio, D. G. (2019). Use of advanced imaging techniques for the characterization of oily skin. Frontiers in Physiology, 10, 254-263.
Murakami, M., Kawamura, A., Jie, G., & Tanno, O. (2006). Morphological analysis of facial pores and factors related to changes with aging in pore shape. New York, NY: IFSCC Congress.
Rattanachitthawat, N., Pinkhien, T., Opanasopit, P., Ngawhirunpat, T., & Chanvorachote, P. (2019). Finasteride enhances stem cell signals of human dermal papilla cells. In Vivo, 33(4), 1209-1220.
Regueiro, J., Sánchez-González, C., Vallverdú-Queralt, A., Simal-Gándara, J., Lamuela-Raventós, R., & Izquierdo-Pulido, M. (2014). Comprehensive identification of walnut polyphenols by liquid chromatography coupled to linear ion trap-Orbitrap mass spectrometry. Food Chemistry, 152, 340-348.
Roh, M., Han, M., Kim, D., & Chung, K. (2006). Sebum output as a factor contributing to the size of facial pores. British Journal of Dermatology, 155, 890-894.
Saunders, J., & Wainwright, P. (2003). Risk, Helsinki 2000 and the use of placebo in medical research. Clin Med, 3, 435-9.
Schütz, R., Rawlings, A. V., Wandeler, E., Jackson, E., Trevisan, S., Monneuse, J. M., … Imfeld, D. (2019). Bio-derived hydroxystearic acid ameliorates skin age spots and conspicuous pores. International Journal of Cosmetic Science, 41(3), 240-256.
Seo, J. O., Yumnam, S., Jeong, K. W., & Kim, S. Y. (2018). Finasteride inhibits melanogenesis through regulation of the adenylate cyclase in melanocytes and melanoma cells. Archives of Pharmacal Research, 41(3), 324-332. https://doi.org/10.1007/s12272-018-1002-x.
Stefanini, A. C., da Cunha, B. R., Henrique, T., & Tajara, E. H. (2015). Involvement of Kallikrein-related peptidases in normal and pathologic processes. Dis Markers, 2015, 946572. https://doi.org/10.1155/2015/946572.
Thiboutot, D., Bayne, E., Thorne, J., Gilliland, K., Flanagan, J., Shao, Q., … Helm, K. (2000). Immunolocalization of 5alpha-reductase isozymes in acne lesions and normal skin. Archives of Dermatology, 136(9), 1125-1129.
Thielitz, A., Abdel-Naser, M. B., Fluhr, J. W., Zouboulis, C. C., & Gollnick, H. (2008). Topical retinoids in acne-An evidence-based overview. Journal der Deutschen Dermatologischen Gesellschaft, 6(12), 1023-1031.
Troise, A. D., Ferracane, R., Palermo, M., & Fogliano, V. (2014). Targeted metabolite profile of food bioactive compounds by Orbitrap high resolution mass spectrometry: The “FancyTiles” approach. Food Research International, 63B, 139-146.
Wang, Y., Bell, J. C., Keeney, D. S., & Strobel, H. W. (2010). Gene regulation of CYP4F11 in human keratinocyte HaCaT cells. Drug Metabolism and Disposition: The Biological Fate of Chemicals, 38(1), 100-107. https://doi.org/10.1124/dmd.109.029025.
Yamamoto, A., Takenouchi, K., & Ito, M. (1995). Impaired water barrier function in acne vulgaris. Archives of Dermatological Research, 287(2), 214-218.
Yin, J., Hwang, I. H., & Lee, M. W. (2019). Anti-acne vulgaris effect including skin barrier improvement and 5α-reductase inhibition by tellimagrandin I from Carpinus tschonoskii. BMC Complementary Medicine Research, 19, 323. https://doi.org/10.1186/s12906-019-2734-y.
Zhang, L., Ferreyros, M., Feng, W., Hupe, M., Crumrine, D. A., Chen, J., … Roop, D. R. (2016). Defects in stratum Corneum desquamation are the predominant effect of impaired ABCA12 function in a novel mouse model of harlequin Ichthyosis. PLoS One, 11(8), 0161465.
Zouboulis, C. C., Dessinioti, C., Tsatsou, F., & Gollnick, H. P. M. (2017). Anti-acne drugs in phase 1 and 2 clinical trials. Expert Opinion on Investigational Drugs, 26, 813-823.
Grant Information:: PMI2014-2020 PON (National Operational Program) "Imprese e competitività" - Iniziativa
Contributed Indexing:: Keywords: C. eriophorum cell cultures; acne-prone; dermo-cosmetic; mattifying effect; oily skin; sebum-normalizing
Substance Nomenclature:: 0 (Anti-Inflammatory Agents)
0 (Cosmetics)
0 (Plant Extracts)
Entry Date(s):: Date Created: 20200821 Date Completed: 20210223 Latest Revision: 20210223
Update Code:: 20240105
DOI:: 10.1002/ptr.6832
PMID:: 32816329
: Czasopismo naukowe

Full Text Finder

Facial pore enlargement is considered a significant esthetic and health concern in skincare cosmetics. The pores fulfill the critical function of keeping the skin surface hydrated and protected against microbial infections. The hyperseborrhea, the stress factors, and the hormonal triggers can cause pore size enlargement, causing higher susceptibility of the skin to microbe aggressions and inflammatory reactions. Thus, reducing excessive sebum production and keeping functional pores are two of the most requested activities in skincare cosmetics. A Cirsium eriophorum cell culture extract was investigated for its role in sebum regulation, stratum corneum desquamation, and anti-inflammation. The extract was able to regulate essential markers associated with sebum secretion and pore enlargements, such as the enzyme 5α-reductase, which plays a central role in sebum production, and the trypsin-like serine protease Kallikrein 5, which promotes skin exfoliation and antimicrobial response. Moreover, the extract showed a sebum-normalizing and pore refining activity in individuals having seborrheic or acne-prone skins, suggesting a role of the C. eriophorum extract in rebalancing altered skin conditions responsible for pore enlargement.
(© 2020 John Wiley & Sons Ltd.)

Informacja