Τόμος 34 (2020) – Τεύχος 3 –Άρθρο 3 – Review of Clinical Pharmacology and Pharmacokinetics – Διεθνής Έκδοση – Volume 34 (2020) – Issue 3 – Article 3 – Review of Clinical Pharmacology and Pharmacokinetics – International Edition

Title

Papain: an enzyme of multiple applications

Author

Fotini Mellou, Athanasia Varvaresou, Spyridon Papageorgiou, Evagelia Protopapa, Ekaterini Liatsopoulou

Laboratory of Chemistry, Biochemistry and Cosmetic Science, Division of Aesthetics and Cosmetic Science, Department of Biomedical Sciences, Faculty of Health and Caring Sciences, University of West Attica, 28 Agios Spyridonos Street, GR-12243 Egaleo, Athens, Greece

Citation

F. Mellou, A. Varvaresou, S. Papageorgiou, E. Protopapa, E. Liatsopoulou. Papain: an enzyme of multiple applications. Review Clin. Pharmacol. Pharmacokinet. 2020, 34, 3, 107-111

Publication Date
10-07-2020
Full Text Language

English

article
Keywords

papain, enzyme, stability, cosmetics, formulations

 Other Terms

Research

Summary

Papain is a sulphydryl, proteolytic enzyme isolated from papaya latex and is readily available from a number of sources. This enzyme has been widely used in pharmaceutical, cosmetic and nutrition area.

It is used in topical formulations as a debriding agent for the healing of open, extensive wounds and burnings. It is also employed as an enhancer for cutaneous permeation of active molecules, chemical peeling and as a progressive depilatory agent. The stability of formulations containing enzymes is a difficult parameter, thus alternatives are required to improve papain’s properties in order to allow the industry-scale manufacture of formulations in a stable manner that makes them viable for commercialization.

References
  1. Papagianni, P., Varvaresou, A., Papageorgiou, S., Panderi, I., Development and validation of an ion-pair RP-HPLC method for the determination of oligopeptide-20 in cosmeceuticals, Journal of Pharmaceutical and Biomedical Analysis, 56, 645-649, (2011).
  2. Varvaresou, A., Papageorgiou, S., Mellou, F., Protopapa, E., Study in anti-wrinkle activity of a night cream containing a combination of antioxidants, phyto-steroids and acetyl-tetrapeptide-9 by biophysical methods and objective evaluation, Review of Clinical Pharmacology and Pharmacokinetics, Int Ed. 30, 67-70, (2016).
  3. Giannakou, M., Varvaresou, A., Kiriazopoulos, E., Papageorgiou, S., Kavvalou, E., Tsirivas, E., Panderi, I., Quantification of oligopeptide‐20 and oligopeptide‐24 in cosmetic creams using hydrophilic interaction liquid chromatography with electrospray ionization mass spectrometry, Separation Science plus, 1, 159-167, (2018).
  4. Mellou, F, Varvaresou, A., Papageorgiou, S., Renewable sources: Applications in personal care formulations, International Journal of Cosmetic Science, 41, 517-525 (2019).
  5. Varvaresou, Α., Papageorgiou, S., Protopapa, E., Katsarou, A., Efficacy and tolerance study of an oligopeptide with potential anti-aging activity cosmetics, Dermatological Sciences and Applications, 1, 133-140, (2011).
  6. Mellou F., Gardiki V., Varvaresou A., Papageorgiou S., Protopapa, E., Kintziou H., Research and development of new products: Applications of Biotechnology in Cosmetic Science, Epitheorese Klinikes Farmakologias kai Farmakokinitikes Gr Ed., 38, 37-44, (2020).
  7. Lopes, P.S., Yamamoto, J.K., Pinto, C.A.S.O., Takano, C.Y., Velasco, M.V.R., Consiglieri, V.O., Kaneko, T.M., Validação de metodologia analítica de avaliação da atividade da papaína, Rev. Bras. Cienc. Farm., 39, .214-216, (2003).
  8. Traversa, E., Ottolenghi, A.T.B., Menegotto, C.P., Marcondes, C.P., Machado-Santelli, G.M., Kaneko, T.M., Consiglieri, V.O., Velasco, M.V.R., Desenvolvimento de formulações cosméticas contendo papaína e avaliação de sua eficácia depilatória, Rev. Bras. Cienc. Farm., 39, 201-203, (2003).
  9. Merck Index. An encyclopedia of chemicals, drugs, and biological, 14ed., Whitehouse Station: Merck, 2564 p., (2006).
  10. The Complete Drug Reference, 36ed., London: Pharmaceutical Press, 1647-1648, (2009).
  11. Butterfield D.A., Lee J., Active site structure and stability of the thiol protease papain studied by electron paramagnetic resonance employing a methanethiosulfonate spin label, ] Arch Biochem Biophys., 310, 167-71, (1994).
  12. Sasmito, T., Demeester, J., Bracke, M., Review on the production, properties and uses of papain, Pharm. Tijdschr. Belg., 59, 149-158, (1982).
  13. Sim, Y.C., Lee, S.G., Lee, D.C., Kang, B.Y., Park, K.M., Lee, J.Y., Kim, M.S., Chang, I.S., Rhee, J.S., Stabilization of papain and lysozyme for application to cosmetic products, Biotechnol. Lett., 22, 137-140, (2000).
  14. Arnon, R. Papain, Meth. Enzymol., 19, 226-244, (1970).
  15. Szabó, A., Kotormán, M., Laczkó, I., Simon, M., Spectroscopic studies of stability of papain in aqueous organic solvents, J. Mol. Catal. B: Enzym., 41, 43-48, (2006).
  16. Kang, C.K., Warner, W.D., Tenderization of meat with papayn latex proteases, J. Food Sci., 39, 812-818, (1974).
  17. Sumner, G., Harris, G., Taylor, M.A. J., Pickersgill, R.W., Owen, A.J., Goodenough, P.W., Factors effecting the thermostability of cysteine proteinases from Carica papaya Ian, Eur. J. Biochem., 214, 129-134, (1993).
  18. Lopes, S., Ruas, G.W., Baby, A.R., de Oliveira Pinto, C.A.S., Ii-sei Watanabe, Velasco, M.V.R., Kaneko, T.M., In vitro safety assessment of papain on human skin: A qualitative Light and Transmission Electron Microscopy (TEM) study, Revista Brasileira de Ciências Farmacêuticas Brazilian, Journal of Pharmaceutical Sciences, 44, (2008).
  19. Traversa, E., Machado-Santelli, G.M., Velasco, M.V.R., Histological evaluation of hair follicle due to papain’s depilatory effect, International Journal of Pharmaceutics, 335, 163-166,( 2007).
  20. Babu K.M., Silk Processing, Properties and Applications A volume in Woodhead Publishing Series in Textiles Book, ISBN 978-1-78242-155-9, p. 200, Woodhead Publishing Limited, (2013).
  21. Afaq, S., Iqbal, J., Immobilization and stabilization of papain on chelating sepharose: a metal chelate regenerable carrier, Electron. J. Biotechnol, 4, (2001).
  1. Li, M., Su, E., You, P., Gong, X., Sun, M., Xu, D., Wei, D., Purification and In Situ Immobilization of Papain with Aqueous Two-Phase System, 5, (2010).
  2. Rajalakshmi N., Sundaram P.V., Stability of native and covalently modified papain, Protein Eng., 8, 1039-47, (1995).
  3. Velasco, M.V.R., Rodrigues, L.B., Dazzi, C., YamamotoO, J.K., Kaneko, T.M., Avaliação da estabilidade da solução de papaína 2% p/v pelo método da coagulação do leite, Rev. Farm. Quim., 32, 8-13, (1999).
  4. de Oliveira Pinto, C.A.S., Lopes, P.S., Sarruf, F.D., Polakiewicz, B., Kaneko, T.M., Baby, A.R., Velasco, M.V.R., Comparative study of the stability of free and modified papain incorporated in topical formulations, Brazilian Journal of Pharmaceutical Sciences, 47, (2011).
  5. Liang Y.Y., Zhang L.M., Bioconjugation of papain on superparamagnetic nanoparticles decorated with carboxymethylated chitosan, Biomacromolecules, 8, 1480-6, (2007).
  6. Chen, Y.Y., Lu, Y.H., Ma, C.H., Tao, W., Zhu, J.J., Zhang, X., A novel elastic liposome for skin delivery of papain and its application on hypertrophic scar Author links open overlay panel Biomedicine & Pharmacotherapy, 87, 82-91, (2017).
  7. Dai H, Ou S., Liu Z., Huang H., Pineapple peel carboxymethyl cellulose/polyvinyl alcohol/mesoporous silica SBA-15 hydrogel composites for papain immobilization, Carbohydrate Polymers, 169, 504-514, (2017).
  8. Holyavka M., Pankova S., Koroleva V., Vyshkvorkina Y., Lukin A., Kondratyev M., Artyukhov V., Influence of UV radiation on molecular structure and catalytic activity of free and immobilized bromelain, ficin and papain, J Photochem Photobiol B., (2019).
  9. Gu YJ, Zhu ML, Li YL, Xiong CH. Research of a new metal chelating carrier preparation and papain immobilization, Int J Biol Macromol., 112, 1175-1182, (2018).
  10. Milošević J., Janković B., Prodanović R., Polović N., Comparative stability of ficin and papain in acidic conditions and the presence of ethanol, Amino Acids, 51, 829-838, (2019).
  11. Saikia D., Deka J.R., Wu C.E., Yang Y.C., Kao H.M., pH responsive selective protein adsorption by carboxylic acid functionalized large pore mesoporous silica nanoparticles SBA-1, Mater Sci Eng C Mater Biol Appl., 94, 344-356, (2019).
  12. El-Kadi, K.N., Rawlings, A.V., Feinberg, C., Watkonson, A., Nunn, C.C., Battaglia, A., Chandar, P., Pocalyko, N.R.D.J., Broad specificity alkaline proteases efficiently reduce the visual scaling associated with soap-induced xerosis, Arch. Dermatol., 293, 500-507, (2001).
  13. Sim, Y.C., Nam, Y.S., Shin, Y.H., Shin, E., Kim, S., Chang, I.S., Rhee, J.S., Proteolytic enzyme conjugated to SC-glucan as an enzymatic transdermal drug penetration enhancer, Pharmazie., 58, 252-256, (2003).
Relative Papers

Online ISSN 1011-6583

Άρθρα Δημοσιευμένα σε αυτό το Περιοδικό Καταχωρούνται στα:
• Chemical Abstracts

• Elsevier’s Bibliographic Databases: Scopus, EMBASE, EMBiology, Elsevier BIOBASE
SCImago Journal and Country Rank Factor

Articles published in this Journal are Indexed or Abstracted in:
• Chemical Abstracts
• Elsevier’s Bibliographic Databases: Scopus, EMBASE, EMBiology, Elsevier BIOBASE
SCImago Journal and Country Rank Factor

Τι είναι η Review of Clinical Pharmacology and Pharmacokinetics-Διεθνής Έκδοση-Οδηγίες προς τους Συγγραφείς
What is Review of Clinical Pharmacology and Pharmacokinetics-International Edition-Instrunctions to Authors

Άρθρα Δημοσιευμένα στην Review of Clinical Pharmacology and Pharmacokinetics-Διεθνής Έκδοση
Articles Published in Review of Clinical Pharmacology and Pharmacokinetics-International Edition

Συντακτικη Επιτροπή-Editorial Board

Tagged , , , , , , , , , , . Bookmark the permalink.

Comments are closed.