Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2018, Cilt: 48 Sayı: 3, 68 - 72, 01.12.2018

Öz

Kaynakça

  • Ah YM, Kim AJ, Lee JY (2014). Colistin resistance in Klebsiella pneumoniae. Int J Antimicrob Agents, 44(1): 8-15.
  • Band VI, Weiss DS (2014). Mechanisms of antimicrobial peptide resistance in Gram-negative bacteria. Antibiot, 4(1): 18-41.
  • Bolla JM, Alibert-Franco S, Handzlik J, Chevalier J, Mahamoud A, Boyer G, Kieć-Kononowicz K (2011). Strategies for bypassing the membrane barrier in multidrug resistant Gram‐negative bacteria. FEBS lett, 585(11): 1682-1690.
  • Bozkurt-Guzel C, Savage PB, Akcali A, Ozbek-Celik B (2014). Potential synergy activity of the novel ceragenin, CSA-13, against carbapenem-resistant Acinetobacter baumannii strains isolated from bacteremia patients. Biomed Res Int, 2014: 710273.
  • Bozkurt-Güzel Ç, Tüysüz M, İnan N, & Savage PB (2014). Katyonik steroid antibiyotiklerden olan CSA-8, CSA-13, CSA-44, CSA-131 ve CSA-138’in, kan kültürlerinden izole edilen Candida albicans suşlarına karşı antifungal etkilerinin araştırılması. Ankem Derg, 28(1): 8-13.
  • Chin JN, Jones RN, Sader HS, Savage PB, Rybak MJ (2007). Potential synergy activity of the novel ceragenin, CSA-13, against clinical isolates of Pseudomonas aeruginosa, including multidrug-resistant P. aeruginosa. J Antimicrob Chemother, 61(2): 365-370.
  • Döşler, S (2017). Antimicrobial peptides: Coming to the end of antibiotic era, the most promising agents. Istanbul J Pharm, 47(2): 72-76.
  • Durnaś B, Wnorowska U, Pogoda K, Deptuła P, Wątek M, Piktel E (2016). Candidacidal activity of selected ceragenins and human cathelicidin LL-37 in experimental settings mimicking infection sites. PloS one,11(6): e0157242.
  • Durnaś B, Wnorowska U, Pogoda K, Deptuła P, Wątek M, Piktel E, Bucki R (2016). Candidacidal activity of selected ceragenins and human cathelicidin LL-37 in experimental settings mimicking infection sites. PloS one, 11(6): e0157242.
  • Guan Q LC, Schmidt EJ, Boswell JS, Walsh JP, Allman GW (2000). Preparation and Characterization of Cholic Acid-Derived Antimicrobial Agents with Controlled Stabilities. Org lett, 2(18): 2837-40.
  • Hashemi MM, Rovig J, Weber S, Hilton B, Forouzan MM, Savage PB (2017). Susceptibility of colistin-resistant, Gram-negative bacteria to antimicrobial peptides and ceragenins. Antimicrob Agents Chemother, 61: e00292-17.
  • International Organization for Standards. 15 November 2006, posting date. Susceptibility testing of infectious agents and evaluation of performance of antimicrobial susceptibility testing devices. 1. Reference method for testing the in vitro activity of antimicrobial agents against rapidly growing anaerobic bacteria involved in infectious diseases. ISO 20776-1. International Organization for Standards, Geneva, Switzerland.
  • Lai XZ, Feng Y, Pollard J, Chin JN, Rybak MJ, Bucki R, Epand RF, Epand RM, Savage PB (2008). Ceragenins: cholic acid-based mimics of antimicrobial peptides. Acc Chem Res, 41(10): 1233-1240.
  • Leszczyńska K, Namiot D, Byfield FJ, Cruz K, Zendzian-Piotrowska M, Fein DE, Savage PB, Diamond S, McCulloch CA, Janmey PA, Bucki R (2013). Antibacterial activity of the human host defence peptide LL-37 and selected synthetic cationic lipids against bacteria associated with oral and upper respiratory tract infections. J Antimicrob Chemother, 68: 610-618.
  • Magiorakos AP, Srinivasan A, Carey RB, Carmeli Y, Falagas ME, Giske CG, Paterson DL (2012). Multidrug‐resistant, extensively drug‐resistant and pandrug‐resistant bacteria: an international expert proposal for interim standard definitions for acquired resistance. Clin Microbiol Infect, 18(3): 268-281.
  • Marchaim D, Chopra T, Pogue JM, Perez F, Hujer AM, Rudin S, Endimiani A, Navon-Venezia S, Hothi J, Slim J, Blunden, C (2011). Outbreak of colistin-resistant, carbapenem-resistant Klebsiella pneumoniae in metropolitan Detroit, Michigan. Antimicrob Agents Chemother, 55(2): 593-599.
  • Olekson MA, You T, Savage PB, Leung KP (2017). Antimicrobial ceragenins inhibit biofilms and affect mammalian cell viability and migration in vitro. FEBS Open Bio, 7(7): 953-967.
  • Otter JA, Doumith M, Davies F, Mookerjee S, Dyakova E, Gilchrist M, Brannigan ET, Bamford K, Galletly T, Donaldson H, Aanensen DM, Ellington MJ, Hill R, Turton JF, Hopkins KL, Woodford N, Holmes A, Aanensen DM (2017). Emergence and clonal spread of colistin resistance due to multiple mutational mechanisms in carbapenemase-producing Klebsiella pneumoniae in London. Sci Rep, 7(1): 12711.
  • Pollard JE, Snarr J, Chaudhary V, Jennings JD, Shaw H, Christiansen B, Wright J, Jia W, Bishop RE, Savage PB (2012). In vitro evaluation of the potential for resistance development to ceragenin CSA-13. J Antimicrob Chemother, 67(11): 2665-2672.
  • Rojas LJ, Salim M, Cober E, Richter SS, Perez F, Salata RA, Kalayjian RC, Watkins RR, Marshall S, Rudin SD, Domitrovic TN, Hujer AM, Hujer KM, Doi Y, Kaye K, Evans S, Fowler VG, Bonomo RA (2016). Colistin resistance in carbapenem-resistant Klebsiella pneumoniae: laboratory detection and impact on mortality. Clin Infect Dis, 64(6): 711-718.
  • Rossi F, Girardello R, Cury AP, Di Gioia TSR, Almeida JND, Duarte AJDS (2017). Emergence of colistin resistance in the largest university hospital complex of São Paulo, Brazil, over five years. Braz J Infect Dis, 21(1): 98-101.
  • Saha S, Savage PB, Bal M (2008). Enhancement of the efficacy of erythromycin in multiple antibiotic‐resistant Gram‐negative bacterial pathogens. J Appl Microbiol, 105(3): 822-828.
  • Sonnevend Á, Ghazawi A, Alqahtani M, Shibl A, Jamal W, Hashmey R, Pal T (2016). Plasmid-mediated colistin resistance in Escherichia coli from the Arabian Peninsula. Int J Infect Dis, 50: 85-90.
  • The European Committee on Antimicrobial Susceptibility Testing (EUCAST) (2018). Breakpoint tables for interpretation of MICs and zone diameters. Version 8.0. http://www.eucast.org
  • The European Committee on Antimicrobial Susceptibility Testing (EUCAST) (2018). Routine and extended internal quality control for MIC determination and disk diffusion as recommended by EUCAST. Version 8.0. http://www.eucast.org
  • Vila-Farrés X, Callarisa AE, Gu X, Savage PB, Giralt E, Vila J (2015). CSA-131, a ceragenin active against colistin-resistant Acinetobacter baumannii and Pseudomonas aeruginosa clinical isolates. Int J Antimicrob Agents, 46(5): 568-571.
  • World Health Organization (WHO) (2017). Global priority list of antibiotic-resistant bacteria to guide research, discovery, and development of new antibiotics. Geneva: World Health Organization.
  • Zaman SB, Hussain MA, Nye R, Mehta V, Mamun KT, Hossain N (2017). A review on antibiotic resistance: alarm bells are ringing. Cureus, 9(6): e1403.

Ceragenins exhibiting promising antimicrobial activity against various multidrug resistant Gram negative bacteria

Yıl 2018, Cilt: 48 Sayı: 3, 68 - 72, 01.12.2018

Öz

DOI: 10.26650/IstanbulJPharm.2018.400730


Ceragenins are novel promising agents for
the treatment of infections caused by multi-drug resistant microorganisms.
Since colistin resistance has become a worldwide problem, the need for new
treatment agents has been increasing steadily. Therefore, this study aimed to
investigate in vitro antimicrobial activities of ceragenins (Cationic Steroid
Antibiotics) (CSA-8, CSA-13, CSA-142 and CSA-192) against multidrug resistant
Gram negative isolates from Turkey. Experiments were performed by using broth
microdilution method against Klebsiella pneumoniae, Morganella morganii,
Pseudomonas aeruginosa and Stenotrophomonas maltophilia isolates. All
microorganisms except for three isolates were identified as multidrug
resistant. Among tested ceragenins, CSA-13 showed the best results (MIC: 8-64
µg/ml). Nevertheless, the antimicrobial activity of CSA-8 was not significant.
In conclusion, ceragenins appear to be a good candidate as antimicrobial
therapy in the presence of multidrug (including colistin) resistant
microorganisms.

Kaynakça

  • Ah YM, Kim AJ, Lee JY (2014). Colistin resistance in Klebsiella pneumoniae. Int J Antimicrob Agents, 44(1): 8-15.
  • Band VI, Weiss DS (2014). Mechanisms of antimicrobial peptide resistance in Gram-negative bacteria. Antibiot, 4(1): 18-41.
  • Bolla JM, Alibert-Franco S, Handzlik J, Chevalier J, Mahamoud A, Boyer G, Kieć-Kononowicz K (2011). Strategies for bypassing the membrane barrier in multidrug resistant Gram‐negative bacteria. FEBS lett, 585(11): 1682-1690.
  • Bozkurt-Guzel C, Savage PB, Akcali A, Ozbek-Celik B (2014). Potential synergy activity of the novel ceragenin, CSA-13, against carbapenem-resistant Acinetobacter baumannii strains isolated from bacteremia patients. Biomed Res Int, 2014: 710273.
  • Bozkurt-Güzel Ç, Tüysüz M, İnan N, & Savage PB (2014). Katyonik steroid antibiyotiklerden olan CSA-8, CSA-13, CSA-44, CSA-131 ve CSA-138’in, kan kültürlerinden izole edilen Candida albicans suşlarına karşı antifungal etkilerinin araştırılması. Ankem Derg, 28(1): 8-13.
  • Chin JN, Jones RN, Sader HS, Savage PB, Rybak MJ (2007). Potential synergy activity of the novel ceragenin, CSA-13, against clinical isolates of Pseudomonas aeruginosa, including multidrug-resistant P. aeruginosa. J Antimicrob Chemother, 61(2): 365-370.
  • Döşler, S (2017). Antimicrobial peptides: Coming to the end of antibiotic era, the most promising agents. Istanbul J Pharm, 47(2): 72-76.
  • Durnaś B, Wnorowska U, Pogoda K, Deptuła P, Wątek M, Piktel E (2016). Candidacidal activity of selected ceragenins and human cathelicidin LL-37 in experimental settings mimicking infection sites. PloS one,11(6): e0157242.
  • Durnaś B, Wnorowska U, Pogoda K, Deptuła P, Wątek M, Piktel E, Bucki R (2016). Candidacidal activity of selected ceragenins and human cathelicidin LL-37 in experimental settings mimicking infection sites. PloS one, 11(6): e0157242.
  • Guan Q LC, Schmidt EJ, Boswell JS, Walsh JP, Allman GW (2000). Preparation and Characterization of Cholic Acid-Derived Antimicrobial Agents with Controlled Stabilities. Org lett, 2(18): 2837-40.
  • Hashemi MM, Rovig J, Weber S, Hilton B, Forouzan MM, Savage PB (2017). Susceptibility of colistin-resistant, Gram-negative bacteria to antimicrobial peptides and ceragenins. Antimicrob Agents Chemother, 61: e00292-17.
  • International Organization for Standards. 15 November 2006, posting date. Susceptibility testing of infectious agents and evaluation of performance of antimicrobial susceptibility testing devices. 1. Reference method for testing the in vitro activity of antimicrobial agents against rapidly growing anaerobic bacteria involved in infectious diseases. ISO 20776-1. International Organization for Standards, Geneva, Switzerland.
  • Lai XZ, Feng Y, Pollard J, Chin JN, Rybak MJ, Bucki R, Epand RF, Epand RM, Savage PB (2008). Ceragenins: cholic acid-based mimics of antimicrobial peptides. Acc Chem Res, 41(10): 1233-1240.
  • Leszczyńska K, Namiot D, Byfield FJ, Cruz K, Zendzian-Piotrowska M, Fein DE, Savage PB, Diamond S, McCulloch CA, Janmey PA, Bucki R (2013). Antibacterial activity of the human host defence peptide LL-37 and selected synthetic cationic lipids against bacteria associated with oral and upper respiratory tract infections. J Antimicrob Chemother, 68: 610-618.
  • Magiorakos AP, Srinivasan A, Carey RB, Carmeli Y, Falagas ME, Giske CG, Paterson DL (2012). Multidrug‐resistant, extensively drug‐resistant and pandrug‐resistant bacteria: an international expert proposal for interim standard definitions for acquired resistance. Clin Microbiol Infect, 18(3): 268-281.
  • Marchaim D, Chopra T, Pogue JM, Perez F, Hujer AM, Rudin S, Endimiani A, Navon-Venezia S, Hothi J, Slim J, Blunden, C (2011). Outbreak of colistin-resistant, carbapenem-resistant Klebsiella pneumoniae in metropolitan Detroit, Michigan. Antimicrob Agents Chemother, 55(2): 593-599.
  • Olekson MA, You T, Savage PB, Leung KP (2017). Antimicrobial ceragenins inhibit biofilms and affect mammalian cell viability and migration in vitro. FEBS Open Bio, 7(7): 953-967.
  • Otter JA, Doumith M, Davies F, Mookerjee S, Dyakova E, Gilchrist M, Brannigan ET, Bamford K, Galletly T, Donaldson H, Aanensen DM, Ellington MJ, Hill R, Turton JF, Hopkins KL, Woodford N, Holmes A, Aanensen DM (2017). Emergence and clonal spread of colistin resistance due to multiple mutational mechanisms in carbapenemase-producing Klebsiella pneumoniae in London. Sci Rep, 7(1): 12711.
  • Pollard JE, Snarr J, Chaudhary V, Jennings JD, Shaw H, Christiansen B, Wright J, Jia W, Bishop RE, Savage PB (2012). In vitro evaluation of the potential for resistance development to ceragenin CSA-13. J Antimicrob Chemother, 67(11): 2665-2672.
  • Rojas LJ, Salim M, Cober E, Richter SS, Perez F, Salata RA, Kalayjian RC, Watkins RR, Marshall S, Rudin SD, Domitrovic TN, Hujer AM, Hujer KM, Doi Y, Kaye K, Evans S, Fowler VG, Bonomo RA (2016). Colistin resistance in carbapenem-resistant Klebsiella pneumoniae: laboratory detection and impact on mortality. Clin Infect Dis, 64(6): 711-718.
  • Rossi F, Girardello R, Cury AP, Di Gioia TSR, Almeida JND, Duarte AJDS (2017). Emergence of colistin resistance in the largest university hospital complex of São Paulo, Brazil, over five years. Braz J Infect Dis, 21(1): 98-101.
  • Saha S, Savage PB, Bal M (2008). Enhancement of the efficacy of erythromycin in multiple antibiotic‐resistant Gram‐negative bacterial pathogens. J Appl Microbiol, 105(3): 822-828.
  • Sonnevend Á, Ghazawi A, Alqahtani M, Shibl A, Jamal W, Hashmey R, Pal T (2016). Plasmid-mediated colistin resistance in Escherichia coli from the Arabian Peninsula. Int J Infect Dis, 50: 85-90.
  • The European Committee on Antimicrobial Susceptibility Testing (EUCAST) (2018). Breakpoint tables for interpretation of MICs and zone diameters. Version 8.0. http://www.eucast.org
  • The European Committee on Antimicrobial Susceptibility Testing (EUCAST) (2018). Routine and extended internal quality control for MIC determination and disk diffusion as recommended by EUCAST. Version 8.0. http://www.eucast.org
  • Vila-Farrés X, Callarisa AE, Gu X, Savage PB, Giralt E, Vila J (2015). CSA-131, a ceragenin active against colistin-resistant Acinetobacter baumannii and Pseudomonas aeruginosa clinical isolates. Int J Antimicrob Agents, 46(5): 568-571.
  • World Health Organization (WHO) (2017). Global priority list of antibiotic-resistant bacteria to guide research, discovery, and development of new antibiotics. Geneva: World Health Organization.
  • Zaman SB, Hussain MA, Nye R, Mehta V, Mamun KT, Hossain N (2017). A review on antibiotic resistance: alarm bells are ringing. Cureus, 9(6): e1403.
Toplam 28 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Sağlık Kurumları Yönetimi
Bölüm Original Article
Yazarlar

Özlem Oyardı

Paul B. Savage Bu kişi benim

Alper Akçalı

Zayre Erturan

Çağla Bozkurt-güzel Bu kişi benim

Yayımlanma Tarihi 1 Aralık 2018
Gönderilme Tarihi 2 Mart 2018
Yayımlandığı Sayı Yıl 2018 Cilt: 48 Sayı: 3

Kaynak Göster

APA Oyardı, Ö., Savage, P. B., Akçalı, A., Erturan, Z., vd. (2018). Ceragenins exhibiting promising antimicrobial activity against various multidrug resistant Gram negative bacteria. İstanbul Journal of Pharmacy, 48(3), 68-72.
AMA Oyardı Ö, Savage PB, Akçalı A, Erturan Z, Bozkurt-güzel Ç. Ceragenins exhibiting promising antimicrobial activity against various multidrug resistant Gram negative bacteria. iujp. Aralık 2018;48(3):68-72.
Chicago Oyardı, Özlem, Paul B. Savage, Alper Akçalı, Zayre Erturan, ve Çağla Bozkurt-güzel. “Ceragenins Exhibiting Promising Antimicrobial Activity Against Various Multidrug Resistant Gram Negative Bacteria”. İstanbul Journal of Pharmacy 48, sy. 3 (Aralık 2018): 68-72.
EndNote Oyardı Ö, Savage PB, Akçalı A, Erturan Z, Bozkurt-güzel Ç (01 Aralık 2018) Ceragenins exhibiting promising antimicrobial activity against various multidrug resistant Gram negative bacteria. İstanbul Journal of Pharmacy 48 3 68–72.
IEEE Ö. Oyardı, P. B. Savage, A. Akçalı, Z. Erturan, ve Ç. Bozkurt-güzel, “Ceragenins exhibiting promising antimicrobial activity against various multidrug resistant Gram negative bacteria”, iujp, c. 48, sy. 3, ss. 68–72, 2018.
ISNAD Oyardı, Özlem vd. “Ceragenins Exhibiting Promising Antimicrobial Activity Against Various Multidrug Resistant Gram Negative Bacteria”. İstanbul Journal of Pharmacy 48/3 (Aralık 2018), 68-72.
JAMA Oyardı Ö, Savage PB, Akçalı A, Erturan Z, Bozkurt-güzel Ç. Ceragenins exhibiting promising antimicrobial activity against various multidrug resistant Gram negative bacteria. iujp. 2018;48:68–72.
MLA Oyardı, Özlem vd. “Ceragenins Exhibiting Promising Antimicrobial Activity Against Various Multidrug Resistant Gram Negative Bacteria”. İstanbul Journal of Pharmacy, c. 48, sy. 3, 2018, ss. 68-72.
Vancouver Oyardı Ö, Savage PB, Akçalı A, Erturan Z, Bozkurt-güzel Ç. Ceragenins exhibiting promising antimicrobial activity against various multidrug resistant Gram negative bacteria. iujp. 2018;48(3):68-72.