Restraining the multidrug efflux transporter STY4874 of Salmonella Typhi by reserpine and plant extracts

Institut for Engelsk, Germansk og Romansk

Restraining the multidrug efflux transporter STY4874 of Salmonella Typhi by reserpine and plant extracts

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Standard

Restraining the multidrug efflux transporter STY4874 of Salmonella Typhi by reserpine and plant extracts. / Tariq, A.; Sana, M; Shaheen, A; Ismat, F; Mahboob, S; Rauf, W; Mirza, O; Iqbal, M; Rahman, M.

I: Letters in Applied Microbiology, Bind 69, Nr. 3, 2019, s. 161-167.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Tariq, A, Sana, M, Shaheen, A, Ismat, F, Mahboob, S, Rauf, W, Mirza, O, Iqbal, M & Rahman, M 2019, 'Restraining the multidrug efflux transporter STY4874 of Salmonella Typhi by reserpine and plant extracts', Letters in Applied Microbiology, bind 69, nr. 3, s. 161-167. https://doi.org/10.1111/lam.13196

APA

Tariq, A., Sana, M., Shaheen, A., Ismat, F., Mahboob, S., Rauf, W., Mirza, O., Iqbal, M., & Rahman, M. (2019). Restraining the multidrug efflux transporter STY4874 of Salmonella Typhi by reserpine and plant extracts. Letters in Applied Microbiology, 69(3), 161-167. https://doi.org/10.1111/lam.13196

Vancouver

Tariq A, Sana M, Shaheen A, Ismat F, Mahboob S, Rauf W o.a. Restraining the multidrug efflux transporter STY4874 of Salmonella Typhi by reserpine and plant extracts. Letters in Applied Microbiology. 2019;69(3):161-167. https://doi.org/10.1111/lam.13196

Author

Tariq, A. ; Sana, M ; Shaheen, A ; Ismat, F ; Mahboob, S ; Rauf, W ; Mirza, O ; Iqbal, M ; Rahman, M. / Restraining the multidrug efflux transporter STY4874 of Salmonella Typhi by reserpine and plant extracts. I: Letters in Applied Microbiology. 2019 ; Bind 69, Nr. 3. s. 161-167.

Bibtex

@article{114086f7dc2947a78f2b6add348c83aa,

title = "Restraining the multidrug efflux transporter STY4874 of Salmonella Typhi by reserpine and plant extracts",

abstract = "Efflux-mediated multidrug resistance is a well-known phenomenon facilitated by multidrug resistant (MDR) transporters. One of the approaches to counteract efflux-mediated resistance is the use of MDR pump inhibitors, and thus be used in combination with the conventional antibiotics to treat deadly diseases like typhoid fever. We have previously reported that STY4874, an efflux transporter of Salmonella serotype Typhi, exhibited promising characteristics as MDR pump. In this study, we aimed to get an insight into possible STY4874 inhibitors of plant origin. STY4874 was overexpressed in Escherichia coli and extracts from pomegranate peel, milk thistle seeds and reserpine, a synthetic plant alkaloid, were screened for inhibition of ciprofloxacin efflux. The extracts of milk thistle seeds and reserpine when incubated with ciprofloxacin showed statistically significant STY4874-mediated inhibitory activity, rendering the efflux pump inactive and hence early growth inhibition of host cells compared with cells expressing efflux pump and incubated only with ciprofloxacin. This efflux pump inhibitory activity was further confirmed by time-kill experiments. This study is the first to report on efflux pump inhibition of S. Typhi STY4874 and results can be extended towards its close homologues such as MdfA and MdtM from E. coli. SIGNIFICANCE AND IMPACT OF THE STUDY: Understanding and combating resistance governed by multidrug efflux transporters is an ongoing research intensive area, affecting treatment of various nosocomial and endemic/epidemic infections. Confronting drug resistance requires that inhibitors debilitating the underlying mechanisms should be included in combination therapy. One such example is the prescription of clavulanic acid as combination therapy with amoxicillin, collectively called as co-amoxiclav to combat β-lactamase-mediated resistance. However, research related to finding the inhibitors of efflux transporters, the resistance mechanism distinct from β-lactamase mediated resistance is at an early stage. The current study finds that plant-derived inhibitors can be an option towards restraining efflux-mediated resistance.",

author = "A. Tariq and M Sana and A Shaheen and F Ismat and S Mahboob and W Rauf and O Mirza and M Iqbal and M Rahman",

note = "{\textcopyright} 2019 The Society for Applied Microbiology.",

year = "2019",

doi = "10.1111/lam.13196",

language = "English",

volume = "69",

pages = "161--167",

journal = "Proceedings of the Society for Applied Bacteriology",

issn = "0370-1778",

publisher = "Wiley-Blackwell",

number = "3",

}

RIS

TY - JOUR

T1 - Restraining the multidrug efflux transporter STY4874 of Salmonella Typhi by reserpine and plant extracts

AU - Tariq, A.

AU - Sana, M

AU - Shaheen, A

AU - Ismat, F

AU - Mahboob, S

AU - Rauf, W

AU - Mirza, O

AU - Iqbal, M

AU - Rahman, M

PY - 2019

Y1 - 2019

N2 - Efflux-mediated multidrug resistance is a well-known phenomenon facilitated by multidrug resistant (MDR) transporters. One of the approaches to counteract efflux-mediated resistance is the use of MDR pump inhibitors, and thus be used in combination with the conventional antibiotics to treat deadly diseases like typhoid fever. We have previously reported that STY4874, an efflux transporter of Salmonella serotype Typhi, exhibited promising characteristics as MDR pump. In this study, we aimed to get an insight into possible STY4874 inhibitors of plant origin. STY4874 was overexpressed in Escherichia coli and extracts from pomegranate peel, milk thistle seeds and reserpine, a synthetic plant alkaloid, were screened for inhibition of ciprofloxacin efflux. The extracts of milk thistle seeds and reserpine when incubated with ciprofloxacin showed statistically significant STY4874-mediated inhibitory activity, rendering the efflux pump inactive and hence early growth inhibition of host cells compared with cells expressing efflux pump and incubated only with ciprofloxacin. This efflux pump inhibitory activity was further confirmed by time-kill experiments. This study is the first to report on efflux pump inhibition of S. Typhi STY4874 and results can be extended towards its close homologues such as MdfA and MdtM from E. coli. SIGNIFICANCE AND IMPACT OF THE STUDY: Understanding and combating resistance governed by multidrug efflux transporters is an ongoing research intensive area, affecting treatment of various nosocomial and endemic/epidemic infections. Confronting drug resistance requires that inhibitors debilitating the underlying mechanisms should be included in combination therapy. One such example is the prescription of clavulanic acid as combination therapy with amoxicillin, collectively called as co-amoxiclav to combat β-lactamase-mediated resistance. However, research related to finding the inhibitors of efflux transporters, the resistance mechanism distinct from β-lactamase mediated resistance is at an early stage. The current study finds that plant-derived inhibitors can be an option towards restraining efflux-mediated resistance.

AB - Efflux-mediated multidrug resistance is a well-known phenomenon facilitated by multidrug resistant (MDR) transporters. One of the approaches to counteract efflux-mediated resistance is the use of MDR pump inhibitors, and thus be used in combination with the conventional antibiotics to treat deadly diseases like typhoid fever. We have previously reported that STY4874, an efflux transporter of Salmonella serotype Typhi, exhibited promising characteristics as MDR pump. In this study, we aimed to get an insight into possible STY4874 inhibitors of plant origin. STY4874 was overexpressed in Escherichia coli and extracts from pomegranate peel, milk thistle seeds and reserpine, a synthetic plant alkaloid, were screened for inhibition of ciprofloxacin efflux. The extracts of milk thistle seeds and reserpine when incubated with ciprofloxacin showed statistically significant STY4874-mediated inhibitory activity, rendering the efflux pump inactive and hence early growth inhibition of host cells compared with cells expressing efflux pump and incubated only with ciprofloxacin. This efflux pump inhibitory activity was further confirmed by time-kill experiments. This study is the first to report on efflux pump inhibition of S. Typhi STY4874 and results can be extended towards its close homologues such as MdfA and MdtM from E. coli. SIGNIFICANCE AND IMPACT OF THE STUDY: Understanding and combating resistance governed by multidrug efflux transporters is an ongoing research intensive area, affecting treatment of various nosocomial and endemic/epidemic infections. Confronting drug resistance requires that inhibitors debilitating the underlying mechanisms should be included in combination therapy. One such example is the prescription of clavulanic acid as combination therapy with amoxicillin, collectively called as co-amoxiclav to combat β-lactamase-mediated resistance. However, research related to finding the inhibitors of efflux transporters, the resistance mechanism distinct from β-lactamase mediated resistance is at an early stage. The current study finds that plant-derived inhibitors can be an option towards restraining efflux-mediated resistance.

U2 - 10.1111/lam.13196

DO - 10.1111/lam.13196

M3 - Journal article

C2 - 31267555

VL - 69

SP - 161

EP - 167

JO - Proceedings of the Society for Applied Bacteriology

JF - Proceedings of the Society for Applied Bacteriology

SN - 0370-1778

IS - 3

ER -

ID: 224619085