Researchers from the NYU Langone Medical Center in New York have discovered how Streptococcus pneumoniae
) which are responsible for the deaths of almost 500,000 children under the age of 5, across the world each year
, are able to stealthily move from person to person, and the answer may surprise you.
are the culprits behind most pneumonia cases, and they can also cause “ear infections, sinus infections, meningitis, and bacteremia,” according to the Centers for Disease Control and Prevention (CDC
). The bacteria “are spread through coughing, sneezing, and close contact with an infected person.”
Those who are most susceptible to the bacteria include individuals who are >
65 years of age, children younger than 2, those who have weakened immune systems, and those have “diabetes, heart disease, lung disease, HIV/AIDS, or people who smoke cigarettes or have asthma.” (Of note: news outlets have recently reported
that former President George WH Bush, who is 92, and the former First Lady, Barbara Bush, 91, have been hospitalized with pneumonia.)
In their research study
, published in the journal, Cell Host & Microbe
, the researchers from Langone detail how S. pneumoniae
spreads between hosts and why it utilizes a destructive method to accomplish this.
Through experimentation in mouse models, the researchers found that a host’s nasal secretions are increased by a pore-forming cytotoxin (pneumolysin) produced by S. pneumoniae
. This increase in mucus enables cells in the mucous membranes to “expel the bacteria from the body.” The bacteria then travel in the nasal secretions on to the next host. According to the researchers, when they genetically altered S. pneumoniae
so that it was unable to produce pneumolysin, the bacteria was unable to spread to the next host.
Speaking on their findings, Jeffrey Weiser, MD, chair of the Department of Microbiology at NYU Langone stated in a press release
, "Factors that allow for the host-to-host transmission of disease-causing bacteria have not been thoroughly investigated by the field as a means of prevention. Our findings provide evidence of the tool used by these bacteria to spread, which promises to guide the design of new kinds of countermeasures."
Because healthy hosts do not expel contents from their airways in a regular manner, as they do for the contents of their gut, nor do airways supply the same readily available nutrients as the gut, the researchers state that bacteria need to "get creative" in both finding nutrients and leaving the host (for another). As such, the bacteria create the toxin which essentially “drill[s] holes (pores) into cells to get at the nutrients inside them” and allows the bacteria to survive long enough to infect the host. While the host’s immune system attacks the bacteria, the toxin simultaneously triggers the increase in secretions in which the bacteria can reside, and make their way to a new host, potentially one with a weaker immune system.