Nitrocefin

Nitrocefin
Systematic (IUPAC) name
(2S,5R,6R)-6-{[carboxy(phenyl)acetyl]amino}-
3,3-dimethyl-7-oxo-4-thia-1-azabicyclo[3.2.0]
heptane-2-carboxylic acid
Identifiers
CAS Number 41906-86-9 YesY
PubChem CID 6436140
ChemSpider 4940809 YesY
Chemical data
Formula C21H16N4O8S2
Molar mass 516.5 g/mol
  (verify)

Nitrocefin is a chromogenic cephalosporin substrate routinely used to detect the presence of beta-lactamase enzymes produced by various microbes. Beta-lactamase mediated resistance to beta-lactam antibiotics such as penicillin is a widespread mechanism of resistance for a number of bacteria including members of the Enterobacteriaceae family; a major group of enteric Gram-negative bacteria. Other methods for beta-lactamase detection exist including PCR; however, nitrocefin allows for rapid beta-lactamase detection using few materials and inexpensive equipment.[1][2]

Structure

As a cephalosporin, nitrocefin contains a beta-lactam ring which is susceptible to beta-lactamase mediated hydrolysis. Once hydrolyzed, the degraded nitrocefin compound rapidly changes color from yellow to red. Although nitrocefin is considered a cephalosporin, it does not appear to have antimicrobial properties.[3]

Degradation and chromogenic properties

Intact beta-lactam antibiotics act as an analog to penicillin binding proteins (PBPs) involved in peptidoglycan synthesis. Beta-lactamases hydrolyze the amide bond between the carbonyl carbon and the nitrogen in the beta-lactam ring of susceptible beta-lactams and members of beta-lactam subclasses (including certain cephalosporins). After hydrolysis of the amide bond, the antibiotic lacks the ability to mimic bacterial PBPs and is rendered useless. Visual detection of this process is essentially impossible with most cephalosporins because the shift of ultraviolet absorption from the intact versus hydrolyzed product occurs outside of the visible spectrum. Hydrolysis of nitrocefin however, produces a shift of ultraviolet absorption inside the visible light spectrum from intact (yellow) nitrocefin (~380 nm) to degraded (red) nitrocefin (~500 nm) allowing visual detection of beta-lactamase activity on a macroscopic level.[4]

Detection assays

The following assays describe methods in which nitrocefin can be used to detect beta-lactamase enzymes using inexpensive materials and equipment.[5] Working solutions of nitrocefin lie within 0.5 mg/mL to 1.0 mg/mL.

Slide Surface Assay

  1. Add one drop of 0.5 mg/ml Nitrocefin to the surface of a clean glass slide.
  2. Select a colony from an agar surface using a sterile loop and mix with the drop.
  3. Appearance of red color within 20-30 min. indicates beta-lactamase activity.

Direct Contact Assay

  1. Place one drop of 0.5 mg/ml Nitrocefin directly on the surface of an isolated colony.
  2. Appearance of red color within 20-30 min. indicates beta-lactamase activity.

Broth Suspension Assay

  1. Add 3-5 drops of 0.5 mg/ml Nitrocefin to 1 ml of broth suspension.
  2. Appearance of red color within 20-30 min. indicates beta-lactamase activity.

Lysed Cell Assay

  1. Lyse 1ml of cell suspension by sonication.
  2. Add 3-5 drops of 0.5 mg/ml Nitrocefin to lysed cell suspension.
  3. Appearance of red color within 20-30 min. indicates beta-lactamase activity.

Filter Paper Assay

  1. Place a small piece of filter paper (~3 x 3 cm) in a clean petri dish or another clean isolated surface and saturate (3-5 ml) with 0.5 mg/ml Nitrocefin
  2. Select an isolated colony and smear over the surface of the impregnated filter paper.
  3. Appearance of red color within 20-30 min. indicates beta-lactamase activity

[6]

See also

References

  1. O'Callaghan, Cynthia H. et al. "Novel Method for Detection of B-Lactamases by Using a Chromogenic Cephalosporin Substrate." Antimicrobial Agents and Chemotherapy 1.4 (1972): 283-88. Ncbi.gov. Web. 10 Oct. 2012.
  2. Coudron, P. E., E. S. Moland, and C. C. Sanders. "Occurrence and Detection of Extended-spectrum Beta-lactamases in Members of the Family Enterobacteriaceae at a Veterans Medical Center: Seek and You May Find." Journal of Clinical Microbiology 35.10 (1997): 2593-597. Jcm.asm.org. Web. 9 Jan. 2013
  3. O'Callaghan, Cynthia H. et al. "Novel Method for Detection of B-Lactamases by Using a Chromogenic Cephalosporin Substrate." Antimicrobial Agents and Chemotherapy 1.4 (1972): 283-88. Ncbi.gov. Web. 10 Oct. 2012. 35.10 (1997): 2593-597. Jcm.asm.org. Web. 9 Jan. 2013
  4. O'Callaghan, Cynthia H. et al. "Novel Method for Detection of B-Lactamases by Using a Chromogenic Cephalosporin Substrate." Antimicrobial Agents and Chemotherapy 1.4 (1972): 283-88. Ncbi.gov. Web. 10 Oct. 2012
  5. Parr, T. R., Jr. "Simple Screening Method for Beta-lactamase-positive and -negative Ampicillin-resistant Haemophilus Influenzae Isolates." Journal of Clinical Microbiology 20.1 (1984): 131-32. Ncbi.gov. Web. 10 Oct. 2012.
  6. http://www.toku-e.com/Assets/Protocols/Nitrocefin_Protocol.pdf
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