In the news ... 2008
Science uncovers “couch potato” type of fat and lazy
TB
by Alan McCord
April 23, 2008
The global tuberculosis (TB) epidemic is in enormous need of newer
ways to combat the disease. Each year, 9 million people develop
TB and about 2 million die. Newer drug resistant and multi-drug
resistant strains are complicating treatment efforts worldwide,
especially in resource-poor nations and when combined with treating
HIV disease. Now, results from a recent British study looking at
how tuberculosis (TB) survives during transmission have uncovered “fat
and lazy” bacteria, which may present a new avenue for prevention
and treatment.
This study built upon a separate recent observation that some
TB cells contain a substance called triacylglycerol synthase that
is found in TB bacteria as they enter a very slow or non-replication
state in their life cycle. The researchers set out to investigate
the phenomenon further in newly diagnosed people. Samples of mucous
from the lungs (sputum) of untreated people in the United
Kingdom and Gambia were examined for the presence of lipid bodies
and compared to TB samples grown in the lab. Over time, the lab
samples were exposed to different stressors, such as a
lack of oxygen, to find out how the TB responded.
The reason for the “fat” remark directed at this very
slow or non-replicating TB is due to discovering lipid bodies containing
the fat triacylglycerol within the cells. More triacylglycerol built
up as the lab cultures were continually stressed during this state.
The more stress that TB encountered, the more fat that accrued
and the slower it replicated. This phenomenon may also apply to
TB being stressed from anti-TB drugs, though this study did not
evaluate that.
What appears to be happening is that one of TB’s survival
techniques is to build up fat and slow down its replication cycle.
Stressors — like its access to less oxygen or other factors
present — force TB into a slow state of replication. The
researchers concluded that TB may need to enter this state of “fatty
laziness” in order to survive during transmission and infection.
This is likely also a reason why TB is so persistent and difficult
to treat. A normal course of treatment lasts six months, while
some people need longer courses.
Not much is known about this persistent non-replicating part of
TB’s life cycle. It has been generally accepted that sputum
contains rapidly growing bacteria that are released from infected
areas of the lungs. Yet these results show that fat and lazy TB
bacteria actually outweigh active TB in sputum. Finding these populations
of fat and lazy TB in all the sputum samples presents new considerations
for changing how the disease is treated.
Treatments for TB have
remained static for decades, so finding new avenues to stop TB
transmission and infection have become critically important. The
results from this study may provide researchers new targets to
exploit the components of these TB “couch potatoes”.
Drugs could then be designed to interfere with this cycle, ultimately
finding new ways to treat and perhaps cure TB infection and disease.
At the least, treating TB in this fat and lazy state might reduce
the burden that people face by having to take six months of drugs.
