In pursuit of next-generation therapeutics: Antimicrobial peptides against superbugs, their sources, mechanism of action, nanotechnology-based delivery, and clinical applications

Akshita Thakur; Akanksha Sharma; Hema K. Alajangi; Pradeep Kumar Jaiswal; Yong beom Lim; Gurpal Singh; Ravi Pratap Barnwal

doi:10.1016/j.ijbiomac.2022.07.103

In pursuit of next-generation therapeutics: Antimicrobial peptides against superbugs, their sources, mechanism of action, nanotechnology-based delivery, and clinical applications

Akshita Thakur, Akanksha Sharma, Hema K. Alajangi, Pradeep Kumar Jaiswal, Yong beom Lim, Gurpal Singh, Ravi Pratap Barnwal

Department of Materials Science and Engineering

Research output: Contribution to journal › Review article › peer-review

7 Citations (Scopus)

Abstract

Antimicrobial peptides (AMPs) attracted attention as potential source of novel antimicrobials. Multi-drug resistant (MDR) infections have emerged as a global threat to public health in recent years. Furthermore, due to rapid emergence of new diseases, there is pressing need for development of efficient antimicrobials. AMPs are essential part of the innate immunity in most living organisms, acting as the primary line of defense against foreign invasions. AMPs kill a wide range of microorganisms by primarily targeting cell membranes or intracellular components through a variety of ways. AMPs can be broadly categorized based on their physico-chemical properties, structure, function, target and source of origin. The synthetic analogues produced either with suitable chemical modifications or with the use of suitable delivery systems are projected to eliminate the constraints of toxicity and poor stability commonly linked with natural AMPs. The concept of peptidomimetics is gaining ground around the world nowadays. Among the delivery systems, nanoparticles are emerging as potential delivery tools for AMPs, amplifying their utility against a variety of pathogens. In the present review, the broad classification of various AMPs, their mechanism of action (MOA), challenges associated with AMPs, current applications, and novel strategies to overcome the limitations have been discussed.

Original language	English
Pages (from-to)	135-156
Number of pages	22
Journal	International Journal of Biological Macromolecules
Volume	218
DOIs	https://doi.org/10.1016/j.ijbiomac.2022.07.103
Publication status	Published - 2022 Oct 1

Bibliographical note

Funding Information:
DBT (BT/PR27444/BRB/10/1645/2018) and ICMR (35/2/2020-Nano/BMS), Government of India.RPB and GS appreciate the support granted by UGC, New Delhi, India, under Faculty Recharge Program. RPB and GS gratefully acknowledge the financial grant received from DBT (BT/PR27444/BRB/10/1645/2018) and ICMR (35/2/2020-Nano/BMS), Government of India. AS is supported by ICMR-SRF fellowship (HIV/STI/18/02/2022-ECD-II) whereas HKA acknowledges DHR, Government of India (YSS/2020/000047/PRCYSS) for the financial support.

Funding Information:
RPB and GS appreciate the support granted by UGC , New Delhi, India, under Faculty Recharge Program. RPB and GS gratefully acknowledge the financial grant received from DBT ( BT/PR27444/BRB/10/1645/2018 ) and ICMR ( 35/2/2020-Nano/BMS ), Government of India. AS is supported by ICMR - SRF fellowship ( HIV/STI/18/02/2022-ECD-II ) whereas HKA acknowledges DHR , Government of India ( YSS/2020/000047/PRCYSS ) for the financial support.

Publisher Copyright:
© 2022

All Science Journal Classification (ASJC) codes

Structural Biology
Biochemistry
Molecular Biology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.ijbiomac.2022.07.103

Cite this

Thakur, A., Sharma, A., Alajangi, H. K., Jaiswal, P. K., Lim, Y. B., Singh, G., & Barnwal, R. P. (2022). In pursuit of next-generation therapeutics: Antimicrobial peptides against superbugs, their sources, mechanism of action, nanotechnology-based delivery, and clinical applications. International Journal of Biological Macromolecules, 218, 135-156. https://doi.org/10.1016/j.ijbiomac.2022.07.103

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title = "In pursuit of next-generation therapeutics: Antimicrobial peptides against superbugs, their sources, mechanism of action, nanotechnology-based delivery, and clinical applications",

abstract = "Antimicrobial peptides (AMPs) attracted attention as potential source of novel antimicrobials. Multi-drug resistant (MDR) infections have emerged as a global threat to public health in recent years. Furthermore, due to rapid emergence of new diseases, there is pressing need for development of efficient antimicrobials. AMPs are essential part of the innate immunity in most living organisms, acting as the primary line of defense against foreign invasions. AMPs kill a wide range of microorganisms by primarily targeting cell membranes or intracellular components through a variety of ways. AMPs can be broadly categorized based on their physico-chemical properties, structure, function, target and source of origin. The synthetic analogues produced either with suitable chemical modifications or with the use of suitable delivery systems are projected to eliminate the constraints of toxicity and poor stability commonly linked with natural AMPs. The concept of peptidomimetics is gaining ground around the world nowadays. Among the delivery systems, nanoparticles are emerging as potential delivery tools for AMPs, amplifying their utility against a variety of pathogens. In the present review, the broad classification of various AMPs, their mechanism of action (MOA), challenges associated with AMPs, current applications, and novel strategies to overcome the limitations have been discussed.",

author = "Akshita Thakur and Akanksha Sharma and Alajangi, {Hema K.} and Jaiswal, {Pradeep Kumar} and Lim, {Yong beom} and Gurpal Singh and Barnwal, {Ravi Pratap}",

note = "Funding Information: DBT (BT/PR27444/BRB/10/1645/2018) and ICMR (35/2/2020-Nano/BMS), Government of India.RPB and GS appreciate the support granted by UGC, New Delhi, India, under Faculty Recharge Program. RPB and GS gratefully acknowledge the financial grant received from DBT (BT/PR27444/BRB/10/1645/2018) and ICMR (35/2/2020-Nano/BMS), Government of India. AS is supported by ICMR-SRF fellowship (HIV/STI/18/02/2022-ECD-II) whereas HKA acknowledges DHR, Government of India (YSS/2020/000047/PRCYSS) for the financial support. Funding Information: RPB and GS appreciate the support granted by UGC , New Delhi, India, under Faculty Recharge Program. RPB and GS gratefully acknowledge the financial grant received from DBT ( BT/PR27444/BRB/10/1645/2018 ) and ICMR ( 35/2/2020-Nano/BMS ), Government of India. AS is supported by ICMR - SRF fellowship ( HIV/STI/18/02/2022-ECD-II ) whereas HKA acknowledges DHR , Government of India ( YSS/2020/000047/PRCYSS ) for the financial support. Publisher Copyright: {\textcopyright} 2022",

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Thakur, A, Sharma, A, Alajangi, HK, Jaiswal, PK, Lim, YB, Singh, G & Barnwal, RP 2022, 'In pursuit of next-generation therapeutics: Antimicrobial peptides against superbugs, their sources, mechanism of action, nanotechnology-based delivery, and clinical applications', International Journal of Biological Macromolecules, vol. 218, pp. 135-156. https://doi.org/10.1016/j.ijbiomac.2022.07.103

In pursuit of next-generation therapeutics : Antimicrobial peptides against superbugs, their sources, mechanism of action, nanotechnology-based delivery, and clinical applications. / Thakur, Akshita; Sharma, Akanksha; Alajangi, Hema K. et al.

In: International Journal of Biological Macromolecules, Vol. 218, 01.10.2022, p. 135-156.

Research output: Contribution to journal › Review article › peer-review

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AU - Singh, Gurpal

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N1 - Funding Information: DBT (BT/PR27444/BRB/10/1645/2018) and ICMR (35/2/2020-Nano/BMS), Government of India.RPB and GS appreciate the support granted by UGC, New Delhi, India, under Faculty Recharge Program. RPB and GS gratefully acknowledge the financial grant received from DBT (BT/PR27444/BRB/10/1645/2018) and ICMR (35/2/2020-Nano/BMS), Government of India. AS is supported by ICMR-SRF fellowship (HIV/STI/18/02/2022-ECD-II) whereas HKA acknowledges DHR, Government of India (YSS/2020/000047/PRCYSS) for the financial support. Funding Information: RPB and GS appreciate the support granted by UGC , New Delhi, India, under Faculty Recharge Program. RPB and GS gratefully acknowledge the financial grant received from DBT ( BT/PR27444/BRB/10/1645/2018 ) and ICMR ( 35/2/2020-Nano/BMS ), Government of India. AS is supported by ICMR - SRF fellowship ( HIV/STI/18/02/2022-ECD-II ) whereas HKA acknowledges DHR , Government of India ( YSS/2020/000047/PRCYSS ) for the financial support. Publisher Copyright: © 2022

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N2 - Antimicrobial peptides (AMPs) attracted attention as potential source of novel antimicrobials. Multi-drug resistant (MDR) infections have emerged as a global threat to public health in recent years. Furthermore, due to rapid emergence of new diseases, there is pressing need for development of efficient antimicrobials. AMPs are essential part of the innate immunity in most living organisms, acting as the primary line of defense against foreign invasions. AMPs kill a wide range of microorganisms by primarily targeting cell membranes or intracellular components through a variety of ways. AMPs can be broadly categorized based on their physico-chemical properties, structure, function, target and source of origin. The synthetic analogues produced either with suitable chemical modifications or with the use of suitable delivery systems are projected to eliminate the constraints of toxicity and poor stability commonly linked with natural AMPs. The concept of peptidomimetics is gaining ground around the world nowadays. Among the delivery systems, nanoparticles are emerging as potential delivery tools for AMPs, amplifying their utility against a variety of pathogens. In the present review, the broad classification of various AMPs, their mechanism of action (MOA), challenges associated with AMPs, current applications, and novel strategies to overcome the limitations have been discussed.

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In pursuit of next-generation therapeutics: Antimicrobial peptides against superbugs, their sources, mechanism of action, nanotechnology-based delivery, and clinical applications

Abstract

Bibliographical note

All Science Journal Classification (ASJC) codes

UN SDGs

Access to Document

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