Bacteria undergo rapid genetic evolution during infection
23 Sept 2010
Bacteria undergo rapid genetic change during the course of a
single infection, making it difficult for the immune system to eradicate
them, according to a landmark study at Allegheny General Hospital in the
US.
Researchers from the Center for Genomic Sciences at Allegheny
General Hospital (AGH) in Pittsburgh report in the journal PLos
Pathogens, that bacteria engage in a process called horizontal
gene transfer to evolve rapidly during the course of a single
infection.
The result is a group of highly-related bacterial strains that
are changing genetically so fast that it is likely nearly impossible
for the host's immune system to effectively track and eradicate it,
said Dr Garth Ehrlich, scientific director of the Center for Genomic
Sciences and the paper's senior author.
"Much like we see with other successful pathogens, such as
viruses and certain parasitic organisms, which are designed to
mutate and confuse the immune system, bacteria — which cause the
vast majority of chronic infectious disease in the United States —
appear to be using a similar tactic. And they are doing so through a
dynamic, real-time process of altering their genetic code that until
now has not been understood and which is counter to conventional
wisdom about the typical pace of species evolution," Dr Ehrlich
said.
Using advanced high-throughput bacterial DNA sequencing, Dr
Ehrlich and his colleagues investigated the tempo and relevance of
horizontal gene transfer among nasopharyngeal strains of
Streptococcus pneumoniae recovered from a child with chronic
respiratory and middle ear infections. Specimens were collected
during the child's clinic visits over a seven month period.
"We identified extensive gene transfer among multiple infecting
strains of the bacteria. Comparing the original strain that started
the infection with strains sequenced at its end, approximately 7.5%
of the entire genome had changed. In just a seven month period of
time, we documented a remarkable ongoing evolution of this species
that appears to be precisely orchestrated to confound the host's
immune surveillance," Dr Ehrlich said.
The immune system works in a similar fashion, Dr. Ehrlich said,
by continuously realigning the genomes of white blood cells so they
can recognize and destroy foreign pathogens.
Dr Ehrlich said, "It is essentially a genomic chess match where
bacteria, through horizontal gene transfer, are always staying one
step ahead.
"Once we have verified that horizontal gene transfer is indeed a
common occurrence in chronic bacterial infections, and we expect
that to be the case, it opens the door to a realm of promising new
directions in the study and treatment of these diseases."