Publicado

2024-01-22

Study to determine the regenerative activity of tincture of Hamamelis virginiana L. (Hamamelidaceae), Maytenus ilicifolia Mart. ex Reissek (Celastraceae) and Casearia sylvestris Sw. (Salicaceae) in an experimental model using Escherichia coli cultures

Estudio para determinar la actividad regeneradora de la tintura de Hamamelis virginiana L. (Hamamelidaceae), Maytenus ilicifolia Mart. ex Reissek (Celastraceae) y Casearia sylvestris Sw. (Salicaceae) en un modelo experimental utilizando cultivos de Escherichia coli

Estudo para determinar a atividade regenerativa da tintura de Hamamelis virginiana L. (Hamamelidaceae), Maytenus ilicifolia Mart. ex Reissek (Celastraceae) e Casearia sylvestris Sw. (Salicaceae) em modelo experimental utilizando culturas de Escherichia coli

DOI:

https://doi.org/10.15446/rcciquifa.v52n2.110744

Palabras clave:

Hamamelis virginiana, Maytenus ilicifolia , Casearia sylvestris , Escherichia coli, spectrophotometric (en)
Hamamelis virginiana, Maytenus ilicifolia, Casearia sylvestris, Escherichia coli, espectrofotometría (es)
Hamamelis virginiana , Maytenus ilicifolia , Casearia sylvestris , Escherichia coli, espectrofotometria (pt)

Descargas

Autores/as

  • Evelise Camila Primon Pontifical Catholic University of Campinas
  • Susana Beatriz da Rocha Pontifical Catholic University of Campinas
  • Renan Marcel Bonilha Dezena Pontifical Catholic University of Campinas
  • Gustavo Henrique da Silva Pontifical Catholic University of Campinas

Introduction: The induction of bacterial growth, in the experimental design used, was proposed as a strategy for evaluating the regeneration of epithelial tissue through the production of extracellular matrix by the fibroblast, collaborating with the healing process, in addition to inducing the production of glycocalyx in epithelial cells, facilitating adhesion and migration to recover the injured region. Aim: To determine the action of the tinctures of Hamamelis virginiana, Maytenus ilicifolia and Casearia sylvestris on the growth of Escherichia coli cultures, to simulate, in this type of model, the potential regenerative activity of connective and epithelial cells, especially the fibroblast, by means of the disk-diffusion and spectrophotometric. Results: The tinctures of Hamamelis virginiana, Maytenus ilicifolia and Casearia sylvestris at high and medium concentrations (above 1.6%) inhibit the development of Escherichia coli in culture, but at low concentrations (from 0.4 to 1.6%) induce bacterial proliferation, especially in the case of Maytenus ilicifolia and Casearia sylvestris tinctures.

 

Introducción: la inducción del crecimiento bacteriano, en el diseño experimental utilizado, se propuso como estrategia para evaluar la regeneración del tejido epitelial a través de la producción de matriz extracelular por parte del fibroblasto, colaborando con el proceso de cicatrización, además de inducir la producción de glicocálix en las células epiteliales, facilitando la adhesión y migración para la recuperación de la región lesionada. Objetivo: determinar la acción de las tinturas de Hamamelis virginiana, Maytenus ilicifolia y Casearia sylvestris sobre el crecimiento de cultivos de Escherichia coli, con el fin de simular, en este tipo de modelo, la potencial actividad regeneradora de células conectivas y epiteliales, especialmente fibroblastos por medio de disco-difusión y espectrofotometría. Resultados: las tinturas de Hamamelis virginiana, Maytenus ilicifolia y Casearia sylvestris en concentraciones altas y medias (superiores a 1,6 %) inhiben el desarrollo de Escherichia coli en cultivo, pero en concentraciones bajas (de 0,4 a 1,6 %) inducen la proliferación bacteriana, especialmente en el caso de las tinturas de Maytenus ilicifolia y Casearia sylvestris.

Introdução: a indução do crescimento bacteriano, no delineamento experimental utilizado, foi proposta como estratégia para avaliar a regeneração do tecido epitelial por meio da produção de matriz extracelular pelo fibroblasto, colaborando com o processo de cicatrização, além de induzir a produção de glicocálix nas células epiteliais, facilitando a adesão e migração para recuperação da região lesada. Objetivo: determinar a ação das tinturas de Hamamelis virginiana, Maytenus ilicifolia e Casearia sylvestris sobre o crescimento de culturas de Escherichia coli, a fim de simular, neste tipo de modelo, a potencial atividade regenerativa de células conjuntivas e epiteliais, especialmente fibroblasto, por meio do disco-difusão e espectrofotometria. Conclusão: as tinturas de Hamamelis virginiana, Maytenus ilicifolia e Casearia sylvestris em altas e médias concentrações (acima de 1,6%) inibem o desenvolvimento de Escherichia coli em cultura, mas em baixas concentrações (de 0,4 a 1,6%) induzem a proliferação bacteriana, principalmente no caso das tinturas de Maytenus ilicifolia e Casearia sylvestris.

Referencias

M.A. Potenza, M. Montagnani, L. Santacroce, I.A. Charitos, L. Bottalico, Ancient herbal therapy: A brief history of Panax ginseng, J. Ginseng Res., 47(3), 359-365 (2023).

H.M. Amer, A.A. Mohammad, Medicinal plants and their validation challenges in traditional Egyptian medicine, J. Appl. Pharm. Sci., 12(3), 023-033 (2022).

A.B. Mekonnen, A.S. Mohammed, A.K. Tefera, Ethnobotanical study of traditional medicinal plants used to treat human and animal diseases in Sedie Muja District, South Gondar, Ethiopia, Evid. Based Complement. Altern. Med., 2022, 7328613 (2022).

M. Simbar, S. Nazarpour, F. Mojab, F.K. Badr, M. Khorrami, Z.J. Torkamani, H. Alavi-Majd, A comparative study on the effects of “honey and fenugreek” with “fenugreek” on the breastfeeding success: A randomized trial, Evid. Based Complement. Altern. Med., 2022, 6048280 (2022).

A. Sharma, P. Sabharwal, R. Dada, Herbal medicine—An introduction to its history, in: R. Henkel, A. Agarwal, Herbal Medicine in Andrology: An Evidence- Based Update, Academic Press, 2021. p. 1-8.

K.K. Solis-Arevalo, M.T. Garza-Gonzalez, H.D. Lopez-Calderon, C. Solis- Rojas, K. Arevalo-Nino, Electrospun membranes based on schizophyllan-pvoh and Hamamelis virginiana extract: Antimicrobial activity against microorganisms of medical importance, IEEE Trans. Nanobiosci., 18(4), 522-527 (2019).

T.F. Abbas, M.F. Abbas, A.J. Lafta, Antibacterial activity and medical properties of Witch Hazel Hamamelis virginiana, Ann. Trop. Med. Public Health, 23(11), 1-9 (2020).

M.J. Cheesman, S. Alcorn, V. Verma, I.E. Cock, An assessment of the growth inhibition profiles of Hamamelis virginiana L. extracts against Streptococcus and Staphylococcus spp, J. Tradit. Complement. Med., 11(5), 457-465 (2021).

S. Piazza, G. Martinelli, U. Vrhovsek, D. Masuero, M. Fumagalli, A. Magnavacca, C. Pozzoli, L. Canilli, M. Terno, M. Angarano, M. Dell’Agli, E. Sangiovanni, Anti-inflammatory and anti-acne effects of Hamamelis virginiana bark in human keratinocytes, Antioxidants (Basel), 11(6), 1119 (2022).

C.C. Veloso, G.L. Soares, A.C. Perez, V.G. Rodrigues, F.C. Silva Pharmacological potential of Maytenus species and isolated constituents, especially tingenone, for treatment of painful inflammatory diseases, Rev. Bras. Farmacogn., 27, 533- 540 (2017).

C. Hernandes, L. Miguita, R. Oliveira de Sales, E.d.P. Silva, P.O. Ribeiro de Mendonça, B. Lorencini da Silva, M.d.F.G. Klingbeil, M.B. Mathor, E.B. Rangel, L.C. Marti, J.d.S. Coppede, F.D. Nunes, A.M.S. Pereira, P. Severino, Anticancer activities of the quinone-methide triterpenes maytenin and 22-β-hydroxymaytenin obtained from cultivated Maytenus ilicifolia roots associated with down-regulation of miRNA-27a and miR-20a/miR-17-5p, Molecules, 25(3), 760 (2020).

N. Paulino, G.F. Vieira, M.I.d.S. Braga, L.B.d.L. Carvalho, I.P. Bernardo, V.F. Nogueira, Development of effervescent medical powder containing Maytenus ilicifolia extract Mart. ex Reissek for treatment of gastric disorders, Int. J. Phytocosmet. Nat. Ingred., 6(1), 14 (2019).

G.d.C. Meirelles, S.E. Bianchi, I.R. Siqueira, V.L. Bassani, Phytochemistry and pharmaceutical technology studies on Monteverdia ilicifolia (Maytenus ilicifolia): A traditionally used medicinal plant, Rev. Bras. Farmacogn., 32(6), 859-870 (2022).

B.M. Magalhães de Oliveira, P.Z. Serpa, M.E.d.C. Zanatta, B.A. Aires, A.M. Steffler, L.B. Somensi, B.J. Cury, A.C. Dos Santos, L. Venzon, T. Boeing, L. Mota da Silva, W.A. Roman Junior, Gastroprotective and gastric healing effects of the aqueous extract of Casearia sylvestris in rodents: Ultrasound, histological and biochemical analyzes, J. Ethnopharmacol., 298, 115660 (2022).

M.N. Albano, M.R da Silveira, L.G. Danielski, D. Florentino, F. Petronilho, A.P. Piovezan, Anti-inflammatory and antioxidant properties of hydroalcoholic crude extract from Casearia sylvestris Sw. (Salicaceae), J. Ethnopharmacol., 147(3), 612-617 (2013).

M. Lemos, J.R. Santin, C.S. Mizuno, T. Boeing, J.P. Barreto de Sousa, D. Nanayakkara, J.K. Bastos, S. Faloni de Andrade, Copaifera langsdorffii: Evaluation of potential gastroprotective of extract and isolated compounds obtained from leaves, Rev. Bras. Farmacogn., 25, 238-245 (2015).

R. Vu, S. Jin, P. Sun, D. Haensel, Q.H. Nguyen, M. Dragan, K. Kessenbrock, Q. Nie, X. Dai, Wound healing in aged skin exhibits systems-level alterations in cellular composition and cell-cell communication, Cell Rep., 40(5), 111155 (2022).

V.L. Pereira dos Santos, C.R.C. Franco, R. Wagner, C.D. Silva, G. Favretto dos Santos, R. Stafim da Cunha, A.E.M. Stinghen, L.M. Monteiro, J.E. Bussade, J.M. Budel, I.J. de Messias-Reason, In vitro study after exposure to the aqueous extract of Piper amalago L. shows changes of morphology, proliferation, cytoskeleton and molecules of the extracellular matrix, Res. Soc. Dev., 10(4), e0110413289 (2021).

L. Hendriati, S. Kuncorojakti, T. Widodo, H.K. Meitasari, W. Prasasti, The influence of Channa Striata extract emulgel on incision wound healing in white rats, Trad. Med. J., 24(3), 210-215 (2019).

S. Barrientos, O. Stojadinovic, M.S. Golinko, H. Brem, M. Tomic-Canic. Growth factors and cytokines in wound healing, Wound Repair Regener., 16(5), 585-601 (2008).

P. Krzyszczyk, R. Schloss, A. Palmer, F. Berthiaume, The role of macrophages in acute and chronic wound healing and interventions to promote pro-wound healing phenotypes, Front. Physiol., 9, 419 (2018).

Y. Chen, H. Zhong, Y. Zhao, X. Luo, W. Gao, Role of platelet biomarkers in inflammatory response, Biomark. Res., 8, 28 (2020).

N. Paulino, G.F. Vieira, M.I.d.S. Braga, L.B.d.L. Carvalho, I.P. Bernardo, V.F. Nogueira, Development of effervescent medical powder containing Maytenus ilicifolia extract Mart. ex Reissek for treatment of gastric disorders, Int. J. Phytocosmet. Nat. Ingred., 6(1), 14 (2019).

S.K. Deshmukh, K.R. Sridhar, S. Saxena, M.K. Gupta, Recent advances in the discovery of bioactive metabolites from Hill ex Schrank, in: A. Arya, K. Rusevska (editors), Biology, Cultivation and Applications of Mushrooms, Springer, 2022, pp. 47-116.

L.T.S. Domingos, F.G. Pereira, D.C. de Moraes, R. Marquete, M.E.d.N. Rocha, D.d.L. Moreira, E. Mansur, A. Ferreira-Pereira, Casearia sylvestris essential oil and its fractions inhibit Candida albicans ABC transporters related to multidrug resistance (MDR), Rodriguésia, 72, e00432020 (2021).

A.L. dos Santos, M. Amaral, F.R. Hasegawa, J.H.G. Lago, A.G. Tempone, P. Sartorelli, (-)-T-Cadinol—a sesquiterpene isolated from Casearia sylvestris (Salicaceae)— Displayed in vitro activity and causes hyperpolarization of the membrane potential of Trypanosoma cruzi, Front. Pharmacol., 12, 734127 (2021).

D. Shore, B. Albert, Ribosome biogenesis and the cellular energy economy, Curr. Biol., 32(12), 611-617 (2022).

S. Kumar, C. Schmitt, O. Gorgette, M. Marbouty, M. Duchateau, Q.G. Gianetto, M. Matondo, J.-M. Guigner, H. De Reuse, Bacterial membrane vesicles as a novel strategy for extrusion of antimicrobial bismuth drug in Helicobacter pylori, mBio, 13(5), e0163322 (2022).

B. Péter, E. Farkas, S. Kurunczi, Z. Szittner, S. Bősze, J.J. Ramsden, I. Szekacs, R. Horvath, Review of label-free monitoring of bacteria: From challenging practical applications to basic research perspectives, Biosensors (Basel), 12(4), 188 (2022).

M.R. Farrell, A.J. Perecman, A.J. Vanni, The molecular profile of urethral stricture disease, in: M.D. Hofer (editor), Scientific advances in reconstructive urology and tissue engineering, Academic Press, 2022, p. 125-143.

H. Chaudhry, The role of phosphoinositide-3 kinases and rac gtpases in vascular inflammation, Ph. D. thesis, King’s College London, 2022.

Z. Szittner, B. Péter, S. Kurunczi, I. Székács, R. Horvath, Functional blood cell analysis by label-free biosensors and single-cell technologies, Adv. Colloid Interface Sci., 308, 102727 (2022).

A. Deters, A. Dauer, E. Schnetz, M. Fartasch, A. Hensel, High molecular compounds (polysaccharides and proanthocyanidins) from Hamamelis virginiana bark: Influence on human skin keratinocyte proliferation and differentiation and influence on irritated skin, Phytochemistry, 58(6), 949-958 (2001).

S. Piazza, G. Martinelli, A. Magnavacca, M. Fumagalli, C. Pozzoli, M. Terno, L. Canilli, M. Angarano, N. Maranta, M. Dell’Agli, E. Sangiovanni, Unveiling the ability of Witch Hazel (Hamamelis virginiana L.) Bark extract to impair keratinocyte inflammatory cascade typical of atopic eczema, Int. J. Mol. Sci., 23(16), 9279 (2022).

F.B. Rosa de Moura, B.A. Ferreira, S.R. Deconte, B.C. Landim, A.B. Justino, A.A. de Aro, F.S. Espindola, R.A.F. Rodrigues, D.L. Ribeiro, F.d.A. Araújo, T.C. Tomiosso, Wound healing activity of the hydroethanolic extract of the leaves of Maytenus ilicifolia Mart. Ex Reis, J. Tradit. Complement. Med., 11(5), 446-456 (2021).

R. Niero, S. Faloni de Andrade, V. Cechinel Filho, A review of the ethnopharmacology, phytochemistry and pharmacology of plants of the Maytenus genus, Curr. Pharm. Des., 17(18), 1851-1871 (2011).

R.R.H. Amin, B.H. Marouf, Clinical biomarkers and use of herbal products in gastric injury, Al-Rafidain J. Med. Sci., 2, 8-15 (2022).

A. Martelli, V. Theodoro, F.O.G. Gaspi, M.E.C. Amaral, R.A. Dalia, A.A. Aro, M.A.M. Esquisatto, F.A.S. Mendonça, T.A.M. Andrade, G.M.T. Santos, Casearia sylvestris improved cutaneous burn repair in diabetic rats, J. Pharm. Pharmacol., 6(6), 551-562 (2018).

J.A.R. Neto, B.R.P. Tarôco, H.B. Dos Santos, R.G. Thomé, E. Wolfram, R.I.M.d.A. Ribeiro, Using the plants of Brazilian Cerrado for wound healing: From traditional use to scientific approach, J. Ethnopharmacol., 260, 112547 (2020).

Cómo citar

APA

Primon, E. C., da Rocha, S. B., Bonilha Dezena, R. M. y da Silva, G. H. (2024). Study to determine the regenerative activity of tincture of Hamamelis virginiana L. (Hamamelidaceae), Maytenus ilicifolia Mart. ex Reissek (Celastraceae) and Casearia sylvestris Sw. (Salicaceae) in an experimental model using Escherichia coli cultures. Revista Colombiana de Ciencias Químico-Farmacéuticas, 52(2). https://doi.org/10.15446/rcciquifa.v52n2.110744

ACM

[1]
Primon, E.C., da Rocha, S.B., Bonilha Dezena, R.M. y da Silva, G.H. 2024. Study to determine the regenerative activity of tincture of Hamamelis virginiana L. (Hamamelidaceae), Maytenus ilicifolia Mart. ex Reissek (Celastraceae) and Casearia sylvestris Sw. (Salicaceae) in an experimental model using Escherichia coli cultures. Revista Colombiana de Ciencias Químico-Farmacéuticas. 52, 2 (ene. 2024). DOI:https://doi.org/10.15446/rcciquifa.v52n2.110744.

ACS

(1)
Primon, E. C.; da Rocha, S. B.; Bonilha Dezena, R. M.; da Silva, G. H. Study to determine the regenerative activity of tincture of Hamamelis virginiana L. (Hamamelidaceae), Maytenus ilicifolia Mart. ex Reissek (Celastraceae) and Casearia sylvestris Sw. (Salicaceae) in an experimental model using Escherichia coli cultures. Rev. Colomb. Cienc. Quím. Farm. 2024, 52.

ABNT

PRIMON, E. C.; DA ROCHA, S. B.; BONILHA DEZENA, R. M.; DA SILVA, G. H. Study to determine the regenerative activity of tincture of Hamamelis virginiana L. (Hamamelidaceae), Maytenus ilicifolia Mart. ex Reissek (Celastraceae) and Casearia sylvestris Sw. (Salicaceae) in an experimental model using Escherichia coli cultures. Revista Colombiana de Ciencias Químico-Farmacéuticas, [S. l.], v. 52, n. 2, 2024. DOI: 10.15446/rcciquifa.v52n2.110744. Disponível em: https://revistas.unal.edu.co/index.php/rccquifa/article/view/110744. Acesso em: 12 jul. 2024.

Chicago

Primon, Evelise Camila, Susana Beatriz da Rocha, Renan Marcel Bonilha Dezena, y Gustavo Henrique da Silva. 2024. «Study to determine the regenerative activity of tincture of Hamamelis virginiana L. (Hamamelidaceae), Maytenus ilicifolia Mart. ex Reissek (Celastraceae) and Casearia sylvestris Sw. (Salicaceae) in an experimental model using Escherichia coli cultures». Revista Colombiana De Ciencias Químico-Farmacéuticas 52 (2). https://doi.org/10.15446/rcciquifa.v52n2.110744.

Harvard

Primon, E. C., da Rocha, S. B., Bonilha Dezena, R. M. y da Silva, G. H. (2024) «Study to determine the regenerative activity of tincture of Hamamelis virginiana L. (Hamamelidaceae), Maytenus ilicifolia Mart. ex Reissek (Celastraceae) and Casearia sylvestris Sw. (Salicaceae) in an experimental model using Escherichia coli cultures», Revista Colombiana de Ciencias Químico-Farmacéuticas, 52(2). doi: 10.15446/rcciquifa.v52n2.110744.

IEEE

[1]
E. C. Primon, S. B. da Rocha, R. M. Bonilha Dezena, y G. H. da Silva, «Study to determine the regenerative activity of tincture of Hamamelis virginiana L. (Hamamelidaceae), Maytenus ilicifolia Mart. ex Reissek (Celastraceae) and Casearia sylvestris Sw. (Salicaceae) in an experimental model using Escherichia coli cultures», Rev. Colomb. Cienc. Quím. Farm., vol. 52, n.º 2, ene. 2024.

MLA

Primon, E. C., S. B. da Rocha, R. M. Bonilha Dezena, y G. H. da Silva. «Study to determine the regenerative activity of tincture of Hamamelis virginiana L. (Hamamelidaceae), Maytenus ilicifolia Mart. ex Reissek (Celastraceae) and Casearia sylvestris Sw. (Salicaceae) in an experimental model using Escherichia coli cultures». Revista Colombiana de Ciencias Químico-Farmacéuticas, vol. 52, n.º 2, enero de 2024, doi:10.15446/rcciquifa.v52n2.110744.

Turabian

Primon, Evelise Camila, Susana Beatriz da Rocha, Renan Marcel Bonilha Dezena, y Gustavo Henrique da Silva. «Study to determine the regenerative activity of tincture of Hamamelis virginiana L. (Hamamelidaceae), Maytenus ilicifolia Mart. ex Reissek (Celastraceae) and Casearia sylvestris Sw. (Salicaceae) in an experimental model using Escherichia coli cultures». Revista Colombiana de Ciencias Químico-Farmacéuticas 52, no. 2 (enero 22, 2024). Accedido julio 12, 2024. https://revistas.unal.edu.co/index.php/rccquifa/article/view/110744.

Vancouver

1.
Primon EC, da Rocha SB, Bonilha Dezena RM, da Silva GH. Study to determine the regenerative activity of tincture of Hamamelis virginiana L. (Hamamelidaceae), Maytenus ilicifolia Mart. ex Reissek (Celastraceae) and Casearia sylvestris Sw. (Salicaceae) in an experimental model using Escherichia coli cultures. Rev. Colomb. Cienc. Quím. Farm. [Internet]. 22 de enero de 2024 [citado 12 de julio de 2024];52(2). Disponible en: https://revistas.unal.edu.co/index.php/rccquifa/article/view/110744

Descargar cita

CrossRef Cited-by

CrossRef citations0

Dimensions

PlumX

Visitas a la página del resumen del artículo

63

Descargas

Los datos de descargas todavía no están disponibles.

Licencia

Creative Commons License

Esta obra está bajo una licencia internacional Creative Commons Atribución 4.0.

El Departamento de Farmacia de la Facultad de Ciencias de la Universidad Nacional de Colombia  autoriza la fotocopia de artículos y textos para fines de uso académico o interno de las instituciones citando la fuente. Las ideas emitidas por los autores son responsabilidad expresa de estos y no de la revista.

Todo el contenido de esta revista, excepto dónde está identificado, está bajo una Licencia Creative Commons de Atribución 4.0 aprobada en Colombia. Consulte la normativa en: http://co.creativecommons.org/?page_id=13