Neisseria meningitidis

Videos

Notes

Microbiology

Bacteriology

Introduction to bacteria
Gram positive bacteria
Gram negative bacteria
Mycobacteria
Other bacteria

Assessments
Neisseria meningitidis

Flashcards

0 / 15 complete

Questions

0 / 6 complete
High Yield Notes
6 pages
Flashcards

Neisseria meningitidis

15 flashcards
Preview

Neisseria meningitidis is a gram (positive/negative) organism, and as such stains pink on gram staining.

Questions

USMLE® Step 1 style questions USMLE

4 questions

USMLE® Step 2 style questions USMLE

5 questions
Preview

A 20-year-old man is brought to the emergency department with high fever, headache, and confusion for one day’s duration. He reports a skin rash that began earlier today. His temperature is 40°C (104°F); pulse is 120/min; respirations are 26/min, and blood pressure is 100/60 mmHg. Physical examination shows a toxic appearing male oriented only to himself with a positive Brudzinski sign. A petechial rash is seen on the trunk and upper extremities. Laboratory analysis shows normal electrolytes and renal function, a white blood cell count of 30,000 cells/uL, and a platelet count of 400,000/uL. His prothrombin time is 14 seconds. The patient's roomate and 8-year-old brother have been in contact with the patient since this morning. Which of the following antibiotics should be given to the brother and roommate as prophylaxis?

External References
Transcript

Content Reviewers:

Neisseria meningitidis, also called N. meningitidis or just meningococcus, is a gram-negative round bacterium that causes meningitis in humans, as well as life-threatening conditions like sepsis and disseminated intravascular coagulation.

Now, N. meningitidis has a thin peptidoglycan layer, so it doesn’t retain the crystal violet dye during Gram staining.

Instead, like any other Gram-negative bacteria, it stains pink with safranin dye.

N. meningitidis typically live in pairs called diplococci, stacked side to side, so the pair looks like a coffee bean.

They are also non-motile, non-spore forming, and obligate aerobes, which means that they absolutely need oxygen to grow.

Finally, they’re catalase and oxidase positive - which means they produce both these enzymes.

N. meningitidis grows on a special chocolate medium called Thayer-Martin agar, which mainly consists of sheep’s blood... err, yum?

Some antimicrobials, like vancomycin and nystatin are usually added to the Thayer-Martin agar, to inhibit the possible growth of undesired bacteria or fungi, and maximize the growth of Neisseria species.

However, other Neisseria species, like N gonorrhoeae, also share these properties.

So the maltose fermentation test is done to differentiate the two.

The gist of it is that N. meningitidis can ferment maltose, whereas N. gonorrhoeae cannot.

To check for this, a pure sample from the culture is transferred to a sterile tube containing a mix of phenol red and maltose, which is then incubated at 36 degrees Celsius for 24 hours.

N. meningitidis causes acidic fermentation of maltose, and the resulting byproducts make the solution go yellow.

With N. gonorrhoeae, the solution stays red.

Now, N. meningitidis has a number of virulence factors, that are like assault weaponry that help it attack and destroy the host cells, and evade the immune system.

First, N. meningitidis is encapsulated - meaning it’s covered by a polysaccharide layer called a capsule.

The capsule has pili, which are hair-like extensions that help the bacteria attach to host cells.

Underneath the capsule, there’s the outer cell membrane, which has two opacity proteins, called Opa and Opc, that also help N. meningitidis attach to host cells.

Additionally, N. meningitidis produces toxins - and the most important one is IgA protease, a toxic protein that this bacterium uses to destroy Immunoglobulin A – IgA.

IgA is an immune system protein found in the nasopharyngeal mucosa secretions that normally osponizes invading bacteria - meaning it tags them so neutrophils can recognize and destroy them. So IgA protease neutralizes the first line of mucosal defense!

However, not all IgA molecules get neutralized, so some N meningitidis bacteria are still opsonized, and they get attacked by the neutrophils.

Within a neutrophil, N meningitidis gets wrapped in a phagosome, which is like a bubble inside which reactive oxygen species, such as H2O2, are released to kill it.

However, N. meningitidis releases catalase, which breaks down H2O2. Unfortunately, this translates as a win for N. meningitidis, which now takes over the neutrophil and uses its energetic resources to multiply.

The neutrophil eventually becomes too full, bursting open, and releasing N. meningitidis in the bloodstream, what’s known as meningococcemia.

Inside the bloodstream, N. meningitidis uses another toxin called factor H binding protein, which disables factor H, a protein involved in the alternate complement pathway, which plays a role in anti-bacterial immunity.

This allows N. meningitidis to spread, multiply and produce toxins in the bloodstream, causing destruction of the capillary endothelial cells, which result into leaky capillaries.

N. meningitidis also has a cell wall antigen called Lipooligosaccharide, or LOS, which can trigger a widespread immune reaction that results in sepsis - meaning blood vessels dilate, so blood pressure drops, and vital organs don’t get enough blood. Yikes!