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Light Induced Gasotransmitter Donors for Spatio-temporal Combinatorial Release of Gaseous Molecules for Bacterial Biofilm Eradication

Implementing Organization

Indian Institute of Technology (IIT), Kharagpur
Principal Investigator
Prof. Pradeep ND Singh
Indian Institute Of Technology (IIT) Kharagpur, West Bengal
CO-Principal Investigator
Prof. Mahitosh Mandal
Indian Institute Of Technology (IIT) Kharagpur, West Bengal-721302

Project Overview

Bacterial biofilm mediated infections are a major threat to the public health sector. Currently, the best available method to treat these infections is with antibiotics, but the emergence of antibiotic-resistant strains has rendered most of the antibiotics less effective. An alternative strategy to combat biofilm-mediated infections and the evolving antibiotic resistance via gasotransmitters has been gaining a lot of interest recently. Nitric oxide (NO), hydrogen sulfide (H₂S), and carbon monoxide (CO) are important gasotransmitters that, along with the reactive oxygen species, singlet oxygen molecule (¹O₂), has a significant role in cellular processes. These gaseous molecules have well-known therapeutic properties too. Nitric oxide induces biofilm dispersal in various bacterial species, including human pathogens like Pseudomonas aeruginosa. Thus, NO is employed here as the base gasotransmitter, which in combination with other gaseous molecules like H₂S, CO, and ¹O₂ will be used in a combinatorial anti-biofilm approach. To date, gasotransmitters are released using various stimuli-responsive drug delivery systems (DDSs) to treat different pathological conditions. Light-induced release of gasotransmitters using photoactivable protecting groups provides a non-invasive and spatiotemporal control over the release of these molecules. Especially, using visible to NIR light provide better tissue penetration and low cytotoxicity. Hence, we propose here the development of new light induced gasotransmitter donors for simultaneous or sequential combinatorial release of gaseous molecules for the inhibition and eradication of bacterial biofilms.

Source

Source
Science and Engineering Research Board (SERB), DST 2022-23
Funding Organization
Funding Organization
Science and Engineering Research Board (SERB), New Delhi
Quick Information
Area of Research
Chemical Sciences
Start Date
2023
End Date
2026
Status
completed
Contact
ndpradeep@chem.iitkgp.ernet.in
Output
No. of Research Paper
00
Technologies (If Any)
00
No. of PhD Produced
00
Publications
00
No. of Patents
Filed : 00
Grant : 00
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