Collagen plays protective role during pancreatic cancer development

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Contrary to long-held beliefs, Type I collagen produced by cancer-associated fibroblasts may not promote cancer development but instead plays a protective role in controlling pancreatic cancer progression, reports a new study from researchers at The University of Texas MD Anderson Cancer Center, USA.

This new understanding supports novel therapeutic approaches that bolster collagen rather than suppress it.

The study finds that collagen works in the tumour microenvironment to stop the production of immune signals, called chemokines, that lead to suppression of the anti-tumour immune response.

When collagen is lost, chemokine levels increase, and the cancer is allowed to grow more rapidly.

The research was published today in Cancer Cell.

“Collagen has been the most highly studied component of the tumour microenvironment for decades, but its precise role has remained unclear,” said senior author Raghu Kalluri, M.D., Ph.D., chair of Cancer Biology. “Now, we understand that it is part of a cancer defensive strategy of the body. If we can better understand that strategy, even if it may be suboptimal, we can work to shore up our body’s natural defences to have therapeutic impact.”

Collagen, the most abundant protein in the human body, is produced by a class of cells called fibroblasts and is found mostly in bones, tendons and skin.

The protein also tends to accumulate in and around tumours during cancer development and growth, leading researchers to hypothesise that it helps promote tumour growth, metastasis or drug resistance, Kalluri explained.

To investigate these possibilities and clarify the role of collagen, the research team created a mouse model in which collagen is not produced by cancer-associated fibroblasts during pancreatic cancer development.

After genetically deleting collagen from these cells, called myofibroblasts, more than 50% of the total collagen was absent in the tumour microenvironment.

With collagen reduced, pancreatic cancer growth accelerated, and the overall survival of the mice significantly decreased, suggesting that collagen plays an important role in blocking cancer progression.

The researchers looked further to understand how collagen was impacting tumour development. In tumours with reduced collagen, the cancer cells produced higher levels of chemokines known to attract myeloid-derived suppressor cells (MDSCs), a type of immune cell that dampens anti-tumour immune response.

Indeed, the researchers found that collagen-deficient tumours had more MDSCs present and fewer immune cells, such as T cells and B cells, that could mount an effective anti-tumour response. Interestingly, blocking chemokine signaLling activity with targeted therapies reversed the immune profile in these tumours and slowed tumour progression, bringing it back to a level similar to that of controls.

“This was somewhat surprising because we think of pancreatic cancer as a cancer with poor immune surveillance – with an immunosuppressive tumour microenvironment,” Kalluri said. “However, this study shows that the immune system actually is controlling pancreatic tumour growth to some extent, and we see an even more detrimental immune suppressive tumour microenvironment when collagen is lost.”

Noting that pancreatic cancer is one of the most aggressive tumour types with poor outcomes overall, Kalluri acknowledged that collagen by itself may not be a particularly effective defence mechanism, but it shows that our bodies are doing what they can to control cancer development.

He likens the body’s response to a car with faulty brakes.

The car cannot stop as efficiently as it might with good brakes, but it is better than a car with no brakes at all.

The challenge now, Kalluri explained, is to identify a therapeutic strategy to fix those brakes, by increasing collagen levels or boosting collagen’s downstream effects to further strengthen the anti-tumour response.

Exploring these strategies will be the focus of future work by Kalluri’s team.


Source: University of Texas MD Anderson Cancer Center

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The ONA Editor curates oncology news, views and reviews from Australia and around the world for our readers. In aggregated content, original sources will be acknowledged in the article footer.

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