A study by the University of Barcelona has discovered why the two main types of lung cancer - adenocarcinoma of the lung and squamous cell carcinoma - respond differently to anti-angiogenic therapy, that is, drugs that block the formation of new blood vessels that tumours need in order to grow. The results, published in the journal C Cell Death & Disease , show that these differences largely depend on the environment surrounding the tumours, particularly on some very abundant benign cells called fibroblasts. This finding opens the door to the development of more personalized therapies, tailored to the specific characteristics of each tumour's microenvironment.
"The study reveals that the fibroblast-rich tumour microenvironment is not merely a spectator but a key player that shapes the tumour's progression. Tumour-associated fibroblasts can influence the vascular network, the availability of oxygen and nutrients and, potentially, also metastatic dissemination and the immune response," explains Jordi Alcaraz, professor at the UB's Faculty of Medicine and Health Sciences and researcher at the Institute for Bioengineering of Catalonia (IBEC), the Hospital Clínic de Barcelona and the CIBER Area for Respiratory Diseases (CIBERES), which has led the research.
This is an international collaborative study, whose first author is UB researcher Natalia Díaz Valdivia, and which involved experts from the Catalan Institute of Oncology, the Bellvitge Biomedical Research Institute (IDIBELL), the Mayo Clinic (United States), the Francis Crick Institute (United Kingdom), and the Garvan Institute of Medical Research and the University of New South Wales (Australia).
Enhancing the impact of immunotherapy
One of the most promising therapies against lung cancer - the leading cause of cancer-related death worldwide - is immunotherapy, a therapeutic approach that boosts the immune system's ability to attack cancer cells. Despite its potential, most patients do not respond to immunotherapy, and one of the strategies proposed to increase its efficacy is to combine it with anti-angiogenic drugs, which can help normalize tumour blood vessels and reduce the suppression of the body's immune response.
"Until now, squamous cell carcinoma, the second most common type of lung cancer, has been excluded from this promising combined therapeutic strategy because it has historically shown resistance to anti-angiogenic therapies, unlike lung adenocarcinoma, which is the most common subtype," explains Jordi Alcaraz.
To analyse these differences, the researchers studied various markers related to blood vessel formation and oxygen deprivation in the main types of lung cancer. This comprehensive analysis enabled the identification of how tumour fibroblasts influence the formation of new blood vessels, an effect that was validated in patient samples and animal models.
The results show that adenocarcinoma exhibits much more active and functional angiogenesis, with higher oxygen levels and less cell death, whereas squamous carcinoma shows poorer formation of blood vessels within the tumour and a more acidic, hypoxic environment. According to the researchers, this difference largely depends on fibroblasts, which provide essential logistical support for tumour development and drug resistance.
"We have observed that, in adenocarcinoma, these fibroblasts promote the formation of blood vessels through a synergy between vascular endothelial growth factor and TIMP-1, a novel proangiogenic factor," says the researcher.
