Mehdi Yousefi scite author profile

Colistin is an effective antibiotic for treatment of most multidrug-resistant Gram-negative bacteria. It is used currently as a last-line drug for infections due to severe Gram-negative bacteria followed by an increase in resistance among Gram-negative bacteria. Colistin resistance is considered a serious problem, due to a lack of alternative antibiotics. Some bacteria, including Pseudomonas aeruginosa , Acinetobacter baumannii , Enterobacteriaceae members, such as Escherichia coli, Salmonella spp., and Klebsiella spp. have an acquired resistance against colistin. However, other bacteria, including Serratia spp., Proteus spp. and Burkholderia spp. are naturally resistant to this antibiotic. In addition, clinicians should be alert to the possibility of colistin resistance among multidrug-resistant bacteria and development through mutation or adaptation mechanisms. Rapidly emerging bacterial resistance has made it harder for us to rely completely on the discovery of new antibiotics; therefore, we need to have logical approaches to use old antibiotics, such as colistin. This review presents current knowledge about the different mechanisms of colistin resistance.

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Role of oral microbiome on oral cancers, a review

Gholizadeh

Eslami

Yousefi

et al. 2016

Biomedicine & Pharmacotherapy

210

150

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Phage display as a promising approach for vaccine development

et al. 2016

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Bacteriophages are specific antagonists to bacterial hosts. These viral entities have attracted growing interest as optimal vaccine delivery vehicles. Phages are well-matched for vaccine design due to being highly stable under harsh environmental conditions, simple and inexpensive large scale production, and potent adjuvant capacities. Phage vaccines have efficient immunostimulatory effects and present a high safety profile because these viruses have made a constant relationship with the mammalian body during a long-standing evolutionary period. The birth of phage display technology has been a turning point in the development of phage-based vaccines. Phage display vaccines are made by expressing multiple copies of an antigen on the surface of immunogenic phage particles, thereby eliciting a powerful and effective immune response. Also, the ability to produce combinatorial peptide libraries with a highly diverse pool of randomized ligands has transformed phage display into a straightforward, versatile and high throughput screening methodology for the identification of potential vaccine candidates against different diseases in particular microbial infections. These libraries can be conveniently screened through an affinity selection-based strategy called biopanning against a wide variety of targets for the selection of mimotopes with high antigenicity and immunogenicity. Also, they can be panned against the antiserum of convalescent individuals to recognize novel peptidomimetics of pathogen-related epitopes. Phage display has represented enormous promise for finding new strategies of vaccine discovery and production and current breakthroughs promise a brilliant future for the development of different phage-based vaccine platforms.

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Utilization of nanoparticle technology in rheumatoid arthritis treatment

Dolati

Sadreddini

Rostamzadeh

et al. 2016

Biomedicine & Pharmacotherapy

150

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CD73 as a potential opportunity for cancer immunotherapy

Ghalamfarsa

Kazemi

Mohseni

et al. 2018

Expert Opinion on Therapeutic Targets

119

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Mehdi Yousefi

<p>Molecular mechanisms related to colistin resistance in Enterobacteriaceae</p>

Role of oral microbiome on oral cancers, a review

Phage display as a promising approach for vaccine development

Utilization of nanoparticle technology in rheumatoid arthritis treatment

CD73 as a potential opportunity for cancer immunotherapy

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