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Inflammatory proteins offer insights into how TB spreads in the lungs
31 May 2017 | Story Mohlopheni Marakalala and Hlumani Ndlovu
Tuberculosis – the bacterial lung disease – remains a leading global health problem more than a century after it was first discovered. It is still responsible for about 1.5 million deaths every year. The problem is aggravated by drug resistance and HIV/AIDS co-infection.
According to the World Health Organisation, one-third of the world’s population is latently infected with the bacteria that cause TB. Only between 5% and 10% of these people develop the active TB disease in their lifetime.
The rest of the latently infected population will never develop the active disease. This is because they’re protected by a strong immune system that helps the body to defend itself against the infection.
Scientists still do not fully understand why people with latent TB develop active TB. Ongoing research has centred on understanding the state of the immune system and what goes wrong that results in the TB worsening.
Our research looked at one component of the immune system and found that there were proteins in the body that promote lung inflammation which helps the bacteria that causes TB to spread throughout the lung.
Now that we have identified these proteins that are associated with disease progression, the next step is to find the drugs that will inhibit these proteins and limit lung inflammation.
Although most TB drugs have been focused on tackling the bacteria, these new drugs are likely to help, along with currently available treatments, shorten the treatment course.
Immune response against TB
To fight TB infection, cells of the immune system are recruited to the area where the bacteria is located in the lung. These cells then form wall-like structures around the bacteria to confine it. These wall-like structures are called granulomas.
As the disease progresses the granulomas can undergo changes. Initially, some of the cells in the granulomas die and form a mass structure where bacteria can thrive. Subsequently cavities are formed in the granulomas. This allows the bacteria to spread throughout the lung. Through these holes, the bacteria can also escape to the airways and be coughed out. This leads to the bacteria spreading and infecting other people.
Although granulomas are formed to contain the bacteria, their deterioration may result in lung tissue destruction and worsening of the disease.
The detailed mechanisms behind granuloma formation and dissociation during disease progression are still poorly understood. Our study tried to understand why the granulomas deteriorate.
We looked at the proteins and lipids present in various regions of the granuloma. We analysed granulomas from tissues removed from TB patients who had undergone surgery because of severe lung damage.
Analysing the inflammation
We used tools that allowed us to analyse all the proteins associated with each region of a specific granuloma type. More than 3000 proteins were identified across all granuloma types.
Within this list some of the proteins belonged to a category of pro-inflammatory proteins, which encourage inflammation – or tissue damage – in the lung, and anti-inflamatory proteins that are known to limit inflammation. We found that the proteins that encouraged inflammation were close to the granulomas that had deteriorated while the proteins that fought inflammation where closer to the areas that were intact.
One of the proteins we found LTA4H (leukotriene A4 hydrolase) promotes the release of pro-inflammatory lipids called leukotrienes which drive inflammation in the lung.
Another pro-inflammatory protein we found was TNF. In moderate amounts this protein is important for early response to infection but in excess it can promote tissue damage.
This balance between pro and anti-inflammatory proteins signals are important for the disease outcome, as exaggerated inflammation could eventually lead to tissue destruction. If this balance is not attained the TB disease may become worse.
Therapies that limit inflammation
Recently TB research efforts have focused on the development of immune-specific treatment strategies that help the body to control infections. Such strategies are known as host-directed therapies.
Host-directed therapies in TB have two major approaches:
improving the immune system; and
limiting lung tissue destruction that speeds up the disease progression.
Our study identified some protein candidates that could be explored in guiding development of host-directed therapies that hamper inflammation during TB disease.
By limiting inflammation, these therapies are likely going to inhibit tissue destruction and reduce bacterial spread throughout the lung.
These molecules work by modulating inflammation and activating anti-bacterial defences within immune cells. Those that work by limiting tissue damage include Zileuton, which blocks leukotriene synthesis and reduce lung bacterial growth and damaging pathology.
In addition, other non-steroidal anti-inflammatory drugs such as Aspirin are been explored for their ability to reduce inflammation.
Success of these efforts will surely add huge value in addressing the clinical demands in the treatment of TB. Currently, the disease is treated with first-line drugs that target the bacteria, but are also marred by the problem of drug resistance.
A number of patients respond poorly to standard treatment protocols due to drug resistance. Host-directed therapies will provide much-needed treatment alternatives for such patients.
By Mohlopheni Marakalala, Senior Lecturer and Group Leader in the Division of Immunology, University of Cape Town and Hlumani Ndlovu, Senior Postdoctoral Fellow in TB Immunopathogenesis, University of Cape Town. Photo of researchers by Michael Hammond.
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