DNA from the heart's own cells plays a role in heart failure by
mistakenly activating the body's immune system, researchers have found.
Scientists from King's College London and Osaka University Medical
School in Japan showed that during heart failure -- a debilitating
condition affecting 750,000 people in the UK -- this 'rogue DNA' can
kick start the body's natural response to infection, contributing to the
process of heart failure.
During heart failure immune cells invade the heart, a process called
inflammation. The process makes heart muscle less efficient, reducing
its ability to pump blood around the body. Inflammation is usually only
activated when the body is facing a threat, such as an infection by a
bacteria or virus.
The study, published in the journal Nature, shows in mice
that inflammation in the heart can be caused by the body's own DNA. The
DNA escapes when a natural process to break down damaged cell
components, called autophagy, becomes less efficient. Autophagy can stop
working correctly when cells are under stress, such as during heart
failure.
The problem DNA comes from energy-generating structures in heart
cells, called mitochondria. Mitochondrial DNA triggers inflammation
because it resembles DNA from bacteria, triggering a receptor in immune
cells called Toll-like Receptor 9 (TLR9).
Mitochondria fascinate scientists because they seem to have evolved
from bacteria more than 1.5 billion years ago, when primitive forms of
life recruited bacteria to help them produce their energy. Although this
pact with bacteria is one of evolution's success stories, this study
shows that the human immune system still recognises the bacterial
fingerprint in mitochondrial DNA, triggering a response from the immune
system.
Professor Kinya Otsu, recently announced as BHF Professor of
Cardiology at King's College London, who led the study, said: 'When
mitochondria are damaged by stress, such as during heart failure, they
become a problem because their DNA still retains an ancient bacterial
fingerprint that mobilises the body's defences.
'We previously showed that damaged mitochondria build-up during heart
failure, when the natural processes of cell breakdown become less
effective. Now we've shown that the DNA fingerprint that we retain in
our mitochondria causes our own immune system to turn against us.'
Dr Shannon Amoils, Research Advisor at the BHF, said: 'This
intriguing discovery is an important breakthrough in our understanding
of why, during heart failure, the immune system becomes activated
without the presence of any obvious external threat. This inflammation
in the heart plays an important role in the disease process.
'Heart cells are packed with mitochondria, which provide the power
the heart needs to pump blood around the body, and this study shows
that, during heart failure, DNA from these mitochondria at least partly
causes the problem. This research points towards new avenues of
exploration that could hopefully lead to treatments for heart failure in
the future.'
Professor Kinya Otsu was recently awarded more than £3 million by the BHF to carry out his pioneering work.
Journal Reference:
- Takafumi Oka, Shungo Hikoso, Osamu Yamaguchi, Manabu Taneike, Toshihiro Takeda, Takahito Tamai, Jota Oyabu, Tomokazu Murakawa, Hiroyuki Nakayama, Kazuhiko Nishida, Shizuo Akira, Akitsugu Yamamoto, Issei Komuro, Kinya Otsu. Mitochondrial DNA that escapes from autophagy causes inflammation and heart failure. Nature, 2012; DOI: 10.1038/nature10992
Courtesy: ScienceDaily
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