Discovery of Two Bacterial Nitric Oxide-Responsive Proteins and Their Roles in Bacterial Biofilm Regulation

Abstract: CONSPECTUS Bacterial biofilms form when bacteria adhere to a surface and produce an exopolysaccharide matrix (Costerton et al. Science 1999, 284, 1318; Davies et al. Science 1998, 280, 295; Flemming et al. Nat. Rev. Microbiol. 2010, 8, 623). Because biofilms are resistant to antibiotics, they are problematic in many aspects of human health and welfare, causing, for instance, persistent fouling of medical implants such as catheters and artificial joints (Brunetto et al. Chimia 2008, 62, 249). They are responsib… Show more

“…With additional protection afforded by an EPS, these communities of bacteria are highly resistant to traditional antibiotics . Though the exact mechanism of NO's antibiofilm action remains unclear, it is known that NO facilitates biofilm dispersal at low NO concentrations (10 −12 –10 −9 m ) and complete biofilm eradication at higher NO concentrations (10 −6 –10 −3 m ) . Large concentrations of NO from macrophage‐generated iNOS, therefore, act as a broad‐spectrum antimicrobial against both planktonic and biofilm‐based bacteria, reducing bacterial loads to a level at which normal wound healing processes are able to proceed …”

Nitric Oxide Therapy for Diabetic Wound Healing

“…With additional protection afforded by an EPS, these communities of bacteria are highly resistant to traditional antibiotics . Though the exact mechanism of NO's antibiofilm action remains unclear, it is known that NO facilitates biofilm dispersal at low NO concentrations (10 −12 –10 −9 m ) and complete biofilm eradication at higher NO concentrations (10 −6 –10 −3 m ) . Large concentrations of NO from macrophage‐generated iNOS, therefore, act as a broad‐spectrum antimicrobial against both planktonic and biofilm‐based bacteria, reducing bacterial loads to a level at which normal wound healing processes are able to proceed …”

Nitric Oxide Therapy for Diabetic Wound Healing

“…[16] Although the mechanisms or pathways of NO-regulated biofilm dispersal are still not clear, one popular hypothesis is that NO mediates the biofilm structure via cyclic-di-GMP (c-di-GMP), a signaling molecule involved in the production and maintenance of the biofilm EPS matrix. [15a, 17] Recent experimental evidence indicates the similarity of heme-NO/oxygen domains (H-NOX) and the genes coding for c-di-GMP cyclases or phosphodiesterases in bacteria, suggesting that the ligation of H-NOX with NO results in NO-mediated regulation of biofilms through a c-di-GMP signaling. [17] …”

“…[15a, 17] Recent experimental evidence indicates the similarity of heme-NO/oxygen domains (H-NOX) and the genes coding for c-di-GMP cyclases or phosphodiesterases in bacteria, suggesting that the ligation of H-NOX with NO results in NO-mediated regulation of biofilms through a c-di-GMP signaling. [17] …”

“…[15a,17] Recent experimental evidence indicates the similarity of hemeNO/oxygen domains (HNOX) and the genes coding for cdiGMP cyclases or phosphodiester ases in bacteria, suggesting that the ligation of HNOX with NO results in NOmediated regulation of biofilms through a cdiGMP signaling. [17] Barraud et al reported the benefit of low levels of exogenous NO on biofilm dispersal using low molecular weight NO donors. In an early study, NO was shown to disperse mature P. aeruginosa biofilms at ≈(0.025-0.50) × 10 −9 m over 24 h, ultimately initi ating detachment of bacteria without compromising the viability of planktonic bacteria.…”

Nitric Oxide–Releasing Macromolecular Scaffolds for Antibacterial Applications

“…Identification of nitric oxide (NO) as an endogenously produced diatomic free radical with various biochemical roles leads to the Nobel Prize in 1998 , . This radical is associated with a wide range of physiological roles, including platelet aggregation and adhesion, vasodilation,, wound repair, the immune response, and carcinogenesis , . Usage of various NO donors (nitroglycerin and etc.)…”

Synthesis of the Ruthenium Nitrosyl Complex with Coordinated Ammonia and Pyridine at Room Temperature