Keeping tumour cells permanently in check

Feeble, underweight, with a sunken face and suffering from hair loss. This is what people who fight cancer often look like. One in two people in Germany will develop cancer once in their lives. However, the overall cancer mortality rate has consistently decreased over the past twenty years. »One reason for this is the progress in research and treatment,« says Henning Walczak. However, many cancers remain hard to treat or cannot be treated.

Walczak is Alexander von Humboldt Professor at the Centre for Biochemistry of the Faculty of Medicine. He is convinced that we must first understand our body better in order to find entry points for cancer treatments. The focus of his research is not primarily on the cancer cell itself, but on the cells of the body that are located in the immediate vicinity of the disease. He sees the key to success in cancer treatment in the targeted activation of the immune system.

A master of disguise

Even before tumours are treated with surgery, chemotherapy or radiation therapy, the first hurdle for cancer is our immune system. Every day, genetic defects develop in our body which could turn into cancer. The immune system recognizes and eliminates cancer cells that divide uncontrollably. The immune process is very effective in the everyday development of early cancer cells in our body, but at some point it reaches its limits. The reason is that cancer cells can ›disguise themselves‹ – they can pretend to be something they are not. They deceive the immune system. Walczak and his team want to reactivate the immune system in cancer patients to fight the disease.

Although the immune system has mechanisms to distinguish healthy from harmful cells, cancer cells can bypass this detection. For example, so-called checkpoint proteins on their surface. These proteins interact with appropriate receptors on T cells, a type of immune cell, and inhibit their ability to attack the cancer cells. They suggest that ›everything is fine and normal here‹. Drugs such as immune checkpoint inhibitors block this interaction and allow the T cells to recognize and attack the cancer cells again. This enhances the immune response to the tumour. However, a prerequisite for the therapy is that the disguise which the tumour has chosen is known.

Immunotherapy and targeted therapeutics that activate or inhibit certain proteins are now indispensable in cancer treatment. »If something goes wrong, we can now intervene in many processes. However, this requires that we know what precisely is going wrong,« says Walczak. For a long time, most patients being treated for cancer have no longer been given just one medication. A combination of agents serves to simultaneously lift different ›covers‹ of the cancer cell or activate immune cells. Walczak is looking for ways to make the tumour cells susceptible to the powerful effect of the immune system and to achieve the desired deadly effect for the cancer cells. His research group is currently testing several entry points. Their goal: to find signals that lead to the destruction of cancer cells.

Immune checkpoint inhibitors – The immunologists James Patrick Allison and Tasuku Honjo once laid the foundation for the development of immune checkpoint inhibitors that activate the immune system to attack tumour cells. In 2018, they received the Nobel Prize in Physiology or Medicine. At first, they only wanted to understand how immune cells tick and how their regulation works.

Deadly messengers

One approach is so-called death ligands. These are the body’s own proteins that can trigger the death of cells. Among other things, Walczak’s team has identified the so-called death ligand TRAIL (Tumour Necrosis Factor-Related Apoptosis-Inducing Ligand) as a target for cancer therapy. TRAIL is a molecule that occurs in our body and plays an important role in the control of cells. It is usually produced by our immune system to detect and eliminate diseased or damaged cells in our body. If TRAIL encounters a TRAIL receptor on the surface of a cell, it signals to the cell that it should destroy itself. The affected cell follows the signal and decomposes into small parts that can be easily disposed of by other cells without causing damage.

TRAIL is only one of several death ligands, but it has a decisive advantage. Unlike the so-called Tumour Necrosis Factor (TNF) or Fas ligand, the administration of TRAIL is not toxic to the body. Although the reason for the good tolerability of this death ligand is not yet understood, it renders TRAIL particularly attractive as a new cancer therapeutic.

In some cases, Walczak’s team attempts to re-enable an immune attack on the tumour by blocking a death ligand. This allows immune cells that can specifically recognize and kill tumour cells to survive. »Our goal is to integrate knowledge about death receptors and death ligands and the associated signalling processes into tumour therapy in the best possible way,« says the researcher.