STD Awareness: Why Should You Care About Oral Gonorrhea?

Image: CDC

An illustration of Neisseria gonorrhoeae, the bacteria that cause gonorrhea. Image: CDC

When I say “gonorrhea,” you might think of genitals that feel as though they have been set ablaze, or perhaps a viscous fluid oozing from the urethra. But gonococci, the bacteria that cause gonorrhea, can also set up camp in the pharynx after being transmitted into a mouth and down a throat when its new host gave oral sex to its old host. Indeed, performing oral sex on multiple partners has been found to increase risk for an oral gonorrhea infection (more properly called pharyngeal gonorrhea).

If you read our September 2012 article on gonorrhea of the throat, you might remember these fun facts: Oral gonorrhea goes away within three months, even without treatment! Plus, these infections rarely have symptoms. Why, then, should you care about a gonorrhea infection in your throat? You’re not likely to notice it’s there, and it’ll go away on its own anyway.


Many researchers believe that the throat is an incubator for antibiotic-resistant gonorrhea.


Well, aside from the possibility of transmitting a gonorrhea infection from your throat to someone’s genitals, there’s one other thing to care about: the development of antibiotic resistance.

The emergence of antibiotic-resistant gonorrhea is considered one of the most pressing problems in infectious disease — just two years ago, the Centers for Disease Control and Prevention named it an “urgent threat,” and indeed, gonorrhea seems to be evolving resistance to drugs at quite a rapid clip. If gonorrhea evolves complete resistance to the drugs we use to cure it, we could find ourselves sent back in time, to the days when gonorrhea was untreatable — and responsible for infertility, blindness, and chronic pain. While scientists figure out how to address this emerging threat, you can do your part by avoiding gonorrhea in the first place — and that includes using condoms and dental dams to prevent oral gonorrhea infections.

So, while it sounds like a blessing that gonorrhea of the throat rarely has symptoms, there’s actually a drawback: An oral gonorrhea infection probably won’t be effectively treated — or even identified in the first place. And these hidden throat infections are likely to be helping to drive the development of antibiotic resistance. Continue reading

STD Awareness: Genetics and the Gonococcus

Image: CDC

Ever since the discovery of effective antibacterial therapies less than a century ago, humans have been able to easily cure gonorrhea, the sexually transmitted scourge that laid waste to fallopian tubes and robbed newborns of vision. Most of us in the developed world have forgotten that this disease was once a leading cause of infertility in women and blindness in babies — and still is in much of the developing world.

Unfortunately, gonococci — the species of bacteria that cause gonorrhea — have been evolving resistance to every antibiotic we’ve thrown at them, including sulfonamides, penicillins, tetracyclines, macrolides, fluoroquinolones, and narrow-spectrum cephalosporins. We have one remaining first-line gonorrhea treatment left: extended-spectrum cephalosporins, which include cefixime, which is taken orally, and ceftriaxone, which is administered as a shot — and resistance is emerging to those drugs, as well.


Gonococci don’t swap potato salad recipes at family reunions — they swap genetic material!


The emergence of antibiotic-resistant gonorrhea is considered one of the most pressing problems in infectious disease — just two years ago, the Centers for Disease Control and Prevention named it an “urgent threat,” and indeed, gonorrhea seems to be evolving resistance to drugs at quite a rapid clip. Gonococci can acquire resistance to antibiotics in three ways.

First, a genetic mutation can endow bacteria with special antibiotic-fighting powers, making it harder for a drug like penicillin to attach to their cells and destroy them. Such a mutant is more likely to gain evolutionary traction if it finds itself in an antibiotic-drenched environment in which resistance to that drug allows it to “outcompete” other bacteria. Indeed, antibiotic resistance was first documented in the 1940s, just years after sulfonamides and penicillin were introduced as the first effective cures for gonorrhea. Continue reading