Neisseria flavescens was first isolated from cerebrospinal fluid in the midst of an epidemic meningitis outbreak in Chicago.[2] These gram-negative, aerobic bacteria reside in the mucosal membranes of the upper respiratory tract, functioning as commensals.[3] However, this species can also play a pathogenic role in immunocompromised and diabetic individuals.[4] In rare cases, it has been linked to meningitis, pneumonia, empyema, endocarditis, and sepsis.
These bacteria are gram-negative and diplococcus, rendering them virtually indistinguishable from the other Neisseria species.[2] Yet, Neisseria flavescens remains distinct due to its signature pigmented colonies, yellow-gold in color.[5] And it is through this yellow-gold color that this bacteria earned its name, with flavescens precisely translating as "becoming a golden yellow."[2] This pigmentation also indicates N. flavescens' similarity to saccharolytic Neisseria species, which also exhibit pigmentation.[6] In addition, these pigmented species differ from meningococcus, which lack pigmentation.[2]
Similar to saccharolytic species, N. flavescens strains are capable of producing polysaccharides from sucrose and are colistin-susceptible.[6] This bacteria is also catalase and oxidase positive.[3] It is not capable of acid-production from glucose, maltose, fructose, sucrose, mannose, or lactose, in contrast to meningococcus, which are active-fermenters.[2] Furthermore, fundamental differences between these two species are again shown, as serological testing reveals N. flavescens' lack of cross-agglutination.[2] At the same time, biochemical testing distinguishes Neisseria flavescens from other gram-negative diplococci, with N. flavescens being DNase negative, weakly positive to Superoxol, and capable of prolyl aminopeptidase production in an enzyme-substrate test.[5]
Though it shares many similarities with the saccharolytic species, Neisseria flavescens has a greater genetic relation to pathogenic Neisseria species,[6] as molecular studies have shown.[7] In addition, studies implicate that this species plays a role in penicillin-resistant strains of Neisseria meningitidis. The increasing selective pressure from penicillin treatment has led to N. meningitidis' uptake of an altered penicillin-binding protein gene, penA, from Neisseria flavescens via transformation.[8] This modified penicillin-binding protein, also known as mecA, inhibits Neisseria meningitidis' transpeptidases from binding to the β-lactam portion of penicillin.
Typically serving as a commensal, Neisseria flavescens has also played a pathogenic role, ever since its origin. Arising from an epidemic meningitis outbreak in Chicago, N. flavescens was isolated from the cerebrospinal fluid of infected individuals. In particular, out of forty-seven total cases of meningitis, fourteen individuals were found to carry N. flavescens, in contrast to carrying one of the typical four meningococci.[2] Additionally, the mortality rate among these fourteen individuals was close to thirty percent, indicating that this bacterium's role as a possible causative agent for meningitis should not be overlooked.[2] Since then, four other cases of meningitis have also found Neisseria flavescens to be the causative agent.[9]
Along with meningitis, this organism has also been linked to sepsis following surgery.[9] A patient presented with clinical signs typical of meningococcal-strains: fever, chills, headache, myalgia, arthralgia, and skin rash.[9] To identify the causative agent, smears from skin lesions and blood cultures were obtained from the patient.[9] Gram-negative, diplococci were present in the smear, narrowing the organism down to a Neisseria species. Ultimately, blood cultures revealed N. flavescens to be the culprit, due to observation of yellow-gold colony formation and no sugar fermentation.[9]
In addition to blood and CSF, Neisseria flavescens can also act as a pathogen in the lower respiratory tract.[4] Isolation via a transthoracic pulmonary fine-needle aspiration identified N. flavescens as the cause of pneumonia and empyema in a diabetic patient.[4] More specifically, the aspirate was sent off to the respiration department, where it underwent acid fast and gram staining, inoculation, and biochemical testing to identify N. flavescens.[4] Next, 16S rRNA sequencing was done, further confirming that Neisseria flavescens was indeed the causative agent.[4]
Lastly, this bacteria has also been the pathogen behind a case of endocarditis. Testing β-lactamase positive, Neisseria flavescens rendered penicillin an ineffective treatment for the patient and, instead, was targeted by cefotaxime.[10]
Neisseria flavescens was first isolated from cerebrospinal fluid in the midst of an epidemic meningitis outbreak in Chicago. These gram-negative, aerobic bacteria reside in the mucosal membranes of the upper respiratory tract, functioning as commensals. However, this species can also play a pathogenic role in immunocompromised and diabetic individuals. In rare cases, it has been linked to meningitis, pneumonia, empyema, endocarditis, and sepsis.