Biomedical Applications of Nisin

Overview

Journal J Appl Microbiol

Publisher Oxford University Press

Date 2015 Dec 19

PMID 26678028

Citations 197

Authors

J M Shin

J W Gwak

P Kamarajan

J C Fenno

A H Rickard

Y L Kapila

Affiliations

Soon will be listed here.

Abstract

Nisin is a bacteriocin produced by a group of Gram-positive bacteria that belongs to Lactococcus and Streptococcus species. Nisin is classified as a Type A (I) lantibiotic that is synthesized from mRNA and the translated peptide contains several unusual amino acids due to post-translational modifications. Over the past few decades, nisin has been used widely as a food biopreservative. Since then, many natural and genetically modified variants of nisin have been identified and studied for their unique antimicrobial properties. Nisin is FDA approved and generally regarded as a safe peptide with recognized potential for clinical use. Over the past two decades the application of nisin has been extended to biomedical fields. Studies have reported that nisin can prevent the growth of drug-resistant bacterial strains, such as methicillin-resistant Staphylococcus aureus, Streptococcus pneumoniae, Enterococci and Clostridium difficile. Nisin has now been shown to have antimicrobial activity against both Gram-positive and Gram-negative disease-associated pathogens. Nisin has been reported to have anti-biofilm properties and can work synergistically in combination with conventional therapeutic drugs. In addition, like host-defence peptides, nisin may activate the adaptive immune response and have an immunomodulatory role. Increasing evidence indicates that nisin can influence the growth of tumours and exhibit selective cytotoxicity towards cancer cells. Collectively, the application of nisin has advanced beyond its role as a food biopreservative. Thus, this review will describe and compare studies on nisin and provide insight into its future biomedical applications.

Citing Articles

Development of a Pre-Modification Strategy to Overcome Restriction-Modification Barriers and Enhance Genetic Engineering in for Nisin Biosynthesis.

Chen C, Zhang Y, Chen R, Liu K, Wu H, Qiao J Int J Mol Sci. 2025; 26(5).

PMID: 40076820 PMC: 11900431. DOI: 10.3390/ijms26052200.

A New Insight into Phage Combination Therapeutic Approaches Against Drug-Resistant Mixed Bacterial Infections.

Rahimian M, Jafari-Gharabaghlou D, Mohammadi E, Zarghami N Phage (New Rochelle). 2025; 5(4):203-222.

PMID: 40045937 PMC: 11876824. DOI: 10.1089/phage.2024.0011.

Inhibitory Effects of Nisin and Gallium (III) Nitrate Hydrate on Planktonic and Adhered Cells and Implications for the Viable but Non-Culturable State.

Poscente V, Di Gregorio L, Bernini R, Bevivino A Microorganisms. 2025; 13(2).

PMID: 40005643 PMC: 11857811. DOI: 10.3390/microorganisms13020276.

Bactofencin A Displays a Delayed Killing Effect on a Clinical Strain of Which Is Greatly Accelerated in the Presence of Nisin.

OConnor P, Cotter P, Hill C, Ross R Antibiotics (Basel). 2025; 14(2).

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Failure or future? Exploring alternative antibacterials: a comparative analysis of antibiotics and naturally derived biopolymers.

Sceglovs A, Skadins I, Chitto M, Kroica J, Salma-Ancane K Front Microbiol. 2025; 16:1526250.

PMID: 39963493 PMC: 11830819. DOI: 10.3389/fmicb.2025.1526250.

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