Research Article
BibTex RIS Cite
Year 2018, Volume: 14 Issue: 2, 223 - 228, 30.06.2018
https://doi.org/10.18466/cbayarfbe.403152

Abstract

References

  • 1. Wolf, F, Juestel, C, Schreiber, J, Klier, M, Sphingolipids as antimicrobial agents, German Patent 1997, 19602108. 2. Lersch, P, Schick, U, Choosing the right ingredients for cosmeceuticals, Speciality Chemicals Magazine, 2003, 23, 30-31. 3. Gupta, A.K, Fisher, G.J, Elder, J.T, Nickoloff, B.J, Voorhees, J.J, Sphingosine inhibits phorbol esterinduced inflammation, ornithine decarboxylase activity, and activation of protein kinase C in mouse skin. Journal of Investigative Dermatology, 1988, 91, 486–491.
  • 4. Rawlings, A.V, 2003. Trends in stratum corneum research and the management of dry skin conditions, International Journal of Cosmetic Science, 53, 63–95.
  • 5. Drake, D.R, Brogden, K.A, Dawson, D.V, Wertz, P.W, Thematic review series: skin lipids. Antimicrobial lipids at the skin surface. Journal of Lipid Research, 2008, 49, 4 –11.
  • 6. Mason, T.G, Wilking, J.N, Meleson, K, Chang, C.B, Graves, S.M, Nanoemulsions: Formation, structure and physical properties. Journal of Physics: Condensed Matter, 2006, 18, 635–666.
  • 7. Bibel, D.J, Aly, R, Shinefield, H.R, Antimicrobial activity of spingosines. Journal of Investigative Dermatology, 1992, 98, 269– 273.
  • 8. Fischer, C.L, Drake D.R, Dawson D.V, Blanchette, D.R, Brogden, K.A, Wertz P.W, Antibacterial Activity of Sphingoid Bases and Fatty Acids against GramPositive and Gram-Negative Bacteria, Antimicrobial Agents and Chemotherapy, 2012, 56(3), 1157-1161.
  • 9. Baspinar, Y, Keck, C, Borchert, H.H, Development of a positively charged prednicarbate nanoemulsion, International Journal of Pharmaceutics, 2010, 383, 201–208.
  • 10. Baspinar, Y, and Borchert, H.H, Penetration and release studies of positively and negatively charged nanoemulsions—Is there a benefit of the positive charge? International Journal of Pharmaceutics, 2012, 430, 247-252.
  • 11. Kotmakçı, M, Öztürk, İ, Kantarcı, G, Ermertcan, Ş. Characterization and antimicrobial activity of novel hazelnut oil microemulsion loaded with Mitomycin C. Latin American Journal of Pharmacy, 2015, 34: 529– 36.
  • 12. Fischer, C.L, Walters, K.S, Drake, D.R, Blanchette, D.R, Dawson, D.V, Brogden, K.A, Wertz, P.W, Sphingoid bases are taken up by Escherischia coli and Staphylococcus aureus and induce ultrastructural damage, Skin Pharmacology and Physiology, 2013, 26, 36–44.
  • 13. Fischer, C.L, Blanchette, D.R, Brogden, K.A, Dawson, D.V, Drake, D.R, Hill, J.R, Wertz, P.W, The roles of cutaneous lipids in host defense, Biochimica et Biophysica Acta, 2014, 1841(3), 319322.
  • 14. Drake, D.R, Brogden, K.A, Dawson, D.V, Wertz, P.W, Thematic review series: skin lipids. Antimicrobial lipids at the skin surface. Journal of Lipid Research, 2008, 49, 4–11.
  • 15. Pavicic, T, Wollenweber, U, Farwick, M, Korting, H.C, Anti-microbial and -inflammatory activity and efficacy of phytosphingosine: an in vitro and in vivo study addressing acne vulgaris. International Journal of Cosmetic Science, 2007, 29, 181–190.
  • 16. Hoeller, S, Sperger, A, Valenta, C, Lecithin based nanoemulsions: a comparative study of the influence of non-ionic surfactants and the cationic phytosphingosine on physicochemical behaviour and skin permeation. International Journal of Pharmaceutics, 2009, 370, 181–186.
  • 17. Hasanovic, A, Hoeller, S, Valenta, C, Analysis of skin penetration of phytosphingosine by fluorescence detection and influence of the thermotropic behaviour of DPPC liposomes, International Journal of Pharmaceutics, 2010, 4, 383(1-2), 14-17.
  • 18. Bergsson, G, Arnfinnsson, J, Steingrimsson, O, Thormar, H, In vitro killing of Candida albicans by fatty acids and monoglycerides, Antimicrobial Agents and Chemotherapy, 2001, 45, 3209 –3212.
  • 19. Veerman, E.C, Valentijn-Benz, M, van't Hof, W, Nazmi, K, van Marle, J, Amerongen, A.V, Phytosphingosine kills Candida albicans by disrupting its cell membrane, Biological Chemistry, 2010, 391(1), 65-71.
  • 20. Garg, S.K, Volpe, E, Palmiero, G, Mattei, M, Galati, D, Martino, A, Piccioni, M.S, Valente, E, Bonanno, E, De Vito, P, Baldini, P.M, Spagnoli, L.G, Cilizzi, V, Fraziano, M, Sphingosine 1-phosphate induces antimicrobial activity both in vitro and in vivo. Journal of Infectious Diseases, 2004, 189, 2129–2138.

Antimicrobial Activity of Phytosphingosine Nanoemulsions against Bacteria and Yeasts

Year 2018, Volume: 14 Issue: 2, 223 - 228, 30.06.2018
https://doi.org/10.18466/cbayarfbe.403152

Abstract

Phytosphingosine
(PS) is a natural antimicrobial ingredient present in the mammalian stratum
corneum of the skin. The skin surface is the first line defense system against
microbial colonization and infections. The aim of this study was to investigate
in vitro antimicrobial effects of PS
and PS-hydrochloride (PSHCl) nanoemulsion (NE) formulations and solutions
against bacteria and fungi. Minimum inhibitory concentrations (MICs) of the
PS-NE and PSHCl-NE formulations and PS/PSHCl solutions were determined by
microdilution method against Gram-positive/Gram-negative bacteria and yeasts.
Inhibitory effects were also examined by disc diffusion method and inhibition
zone diameters were determined. PS/PSHCl solutions and PS-NE/PSHCl-NE
formulations were prepared in different conditions. Physicochemical properties
of the NEs were characterized and antimicrobial activities were evaluated. In
this study we reported that the PS and PSHCl and NEs had variable antimicrobial
activities for a variety of Gram-positive bacteria (MIC range 1 µg/ml to 1024
µg/ml), Gram-negative bacteria (MIC range 8 µg/ml to 1024 µg/ml) and Candida
strains (MIC range 8 µg/ml to 512 µg/ml). Sphingolipids are part of the natural
defense system of the body. We demonstrated that PS and PSHCl solutions and NEs
have broad antimicrobial activity against bacteria and yeasts. In addition, the
newly developed formulations may have potential for prophylactic and
therapeutic intervention in infections.

References

  • 1. Wolf, F, Juestel, C, Schreiber, J, Klier, M, Sphingolipids as antimicrobial agents, German Patent 1997, 19602108. 2. Lersch, P, Schick, U, Choosing the right ingredients for cosmeceuticals, Speciality Chemicals Magazine, 2003, 23, 30-31. 3. Gupta, A.K, Fisher, G.J, Elder, J.T, Nickoloff, B.J, Voorhees, J.J, Sphingosine inhibits phorbol esterinduced inflammation, ornithine decarboxylase activity, and activation of protein kinase C in mouse skin. Journal of Investigative Dermatology, 1988, 91, 486–491.
  • 4. Rawlings, A.V, 2003. Trends in stratum corneum research and the management of dry skin conditions, International Journal of Cosmetic Science, 53, 63–95.
  • 5. Drake, D.R, Brogden, K.A, Dawson, D.V, Wertz, P.W, Thematic review series: skin lipids. Antimicrobial lipids at the skin surface. Journal of Lipid Research, 2008, 49, 4 –11.
  • 6. Mason, T.G, Wilking, J.N, Meleson, K, Chang, C.B, Graves, S.M, Nanoemulsions: Formation, structure and physical properties. Journal of Physics: Condensed Matter, 2006, 18, 635–666.
  • 7. Bibel, D.J, Aly, R, Shinefield, H.R, Antimicrobial activity of spingosines. Journal of Investigative Dermatology, 1992, 98, 269– 273.
  • 8. Fischer, C.L, Drake D.R, Dawson D.V, Blanchette, D.R, Brogden, K.A, Wertz P.W, Antibacterial Activity of Sphingoid Bases and Fatty Acids against GramPositive and Gram-Negative Bacteria, Antimicrobial Agents and Chemotherapy, 2012, 56(3), 1157-1161.
  • 9. Baspinar, Y, Keck, C, Borchert, H.H, Development of a positively charged prednicarbate nanoemulsion, International Journal of Pharmaceutics, 2010, 383, 201–208.
  • 10. Baspinar, Y, and Borchert, H.H, Penetration and release studies of positively and negatively charged nanoemulsions—Is there a benefit of the positive charge? International Journal of Pharmaceutics, 2012, 430, 247-252.
  • 11. Kotmakçı, M, Öztürk, İ, Kantarcı, G, Ermertcan, Ş. Characterization and antimicrobial activity of novel hazelnut oil microemulsion loaded with Mitomycin C. Latin American Journal of Pharmacy, 2015, 34: 529– 36.
  • 12. Fischer, C.L, Walters, K.S, Drake, D.R, Blanchette, D.R, Dawson, D.V, Brogden, K.A, Wertz, P.W, Sphingoid bases are taken up by Escherischia coli and Staphylococcus aureus and induce ultrastructural damage, Skin Pharmacology and Physiology, 2013, 26, 36–44.
  • 13. Fischer, C.L, Blanchette, D.R, Brogden, K.A, Dawson, D.V, Drake, D.R, Hill, J.R, Wertz, P.W, The roles of cutaneous lipids in host defense, Biochimica et Biophysica Acta, 2014, 1841(3), 319322.
  • 14. Drake, D.R, Brogden, K.A, Dawson, D.V, Wertz, P.W, Thematic review series: skin lipids. Antimicrobial lipids at the skin surface. Journal of Lipid Research, 2008, 49, 4–11.
  • 15. Pavicic, T, Wollenweber, U, Farwick, M, Korting, H.C, Anti-microbial and -inflammatory activity and efficacy of phytosphingosine: an in vitro and in vivo study addressing acne vulgaris. International Journal of Cosmetic Science, 2007, 29, 181–190.
  • 16. Hoeller, S, Sperger, A, Valenta, C, Lecithin based nanoemulsions: a comparative study of the influence of non-ionic surfactants and the cationic phytosphingosine on physicochemical behaviour and skin permeation. International Journal of Pharmaceutics, 2009, 370, 181–186.
  • 17. Hasanovic, A, Hoeller, S, Valenta, C, Analysis of skin penetration of phytosphingosine by fluorescence detection and influence of the thermotropic behaviour of DPPC liposomes, International Journal of Pharmaceutics, 2010, 4, 383(1-2), 14-17.
  • 18. Bergsson, G, Arnfinnsson, J, Steingrimsson, O, Thormar, H, In vitro killing of Candida albicans by fatty acids and monoglycerides, Antimicrobial Agents and Chemotherapy, 2001, 45, 3209 –3212.
  • 19. Veerman, E.C, Valentijn-Benz, M, van't Hof, W, Nazmi, K, van Marle, J, Amerongen, A.V, Phytosphingosine kills Candida albicans by disrupting its cell membrane, Biological Chemistry, 2010, 391(1), 65-71.
  • 20. Garg, S.K, Volpe, E, Palmiero, G, Mattei, M, Galati, D, Martino, A, Piccioni, M.S, Valente, E, Bonanno, E, De Vito, P, Baldini, P.M, Spagnoli, L.G, Cilizzi, V, Fraziano, M, Sphingosine 1-phosphate induces antimicrobial activity both in vitro and in vivo. Journal of Infectious Diseases, 2004, 189, 2129–2138.
There are 18 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Yücel Başpınar

Mustafa Kotmakçı This is me

İsmail Öztürk This is me

Publication Date June 30, 2018
Published in Issue Year 2018 Volume: 14 Issue: 2

Cite

APA Başpınar, Y., Kotmakçı, M., & Öztürk, İ. (2018). Antimicrobial Activity of Phytosphingosine Nanoemulsions against Bacteria and Yeasts. Celal Bayar University Journal of Science, 14(2), 223-228. https://doi.org/10.18466/cbayarfbe.403152
AMA Başpınar Y, Kotmakçı M, Öztürk İ. Antimicrobial Activity of Phytosphingosine Nanoemulsions against Bacteria and Yeasts. CBUJOS. June 2018;14(2):223-228. doi:10.18466/cbayarfbe.403152
Chicago Başpınar, Yücel, Mustafa Kotmakçı, and İsmail Öztürk. “Antimicrobial Activity of Phytosphingosine Nanoemulsions Against Bacteria and Yeasts”. Celal Bayar University Journal of Science 14, no. 2 (June 2018): 223-28. https://doi.org/10.18466/cbayarfbe.403152.
EndNote Başpınar Y, Kotmakçı M, Öztürk İ (June 1, 2018) Antimicrobial Activity of Phytosphingosine Nanoemulsions against Bacteria and Yeasts. Celal Bayar University Journal of Science 14 2 223–228.
IEEE Y. Başpınar, M. Kotmakçı, and İ. Öztürk, “Antimicrobial Activity of Phytosphingosine Nanoemulsions against Bacteria and Yeasts”, CBUJOS, vol. 14, no. 2, pp. 223–228, 2018, doi: 10.18466/cbayarfbe.403152.
ISNAD Başpınar, Yücel et al. “Antimicrobial Activity of Phytosphingosine Nanoemulsions Against Bacteria and Yeasts”. Celal Bayar University Journal of Science 14/2 (June 2018), 223-228. https://doi.org/10.18466/cbayarfbe.403152.
JAMA Başpınar Y, Kotmakçı M, Öztürk İ. Antimicrobial Activity of Phytosphingosine Nanoemulsions against Bacteria and Yeasts. CBUJOS. 2018;14:223–228.
MLA Başpınar, Yücel et al. “Antimicrobial Activity of Phytosphingosine Nanoemulsions Against Bacteria and Yeasts”. Celal Bayar University Journal of Science, vol. 14, no. 2, 2018, pp. 223-8, doi:10.18466/cbayarfbe.403152.
Vancouver Başpınar Y, Kotmakçı M, Öztürk İ. Antimicrobial Activity of Phytosphingosine Nanoemulsions against Bacteria and Yeasts. CBUJOS. 2018;14(2):223-8.