Pinpointing genetic differences
In his analysis of the most noteworthy data and conclusions from this research, Dr. Pérez noted, “The most significant thing we’ve seen is that both populations have genetic differences. This suggests that our hypothesis is correct. Of course, more studies including a larger number of individuals will be needed to confirm these findings. For the first time, our work has laid the foundation for developing this line of research.”
“Many genetic variants that we have identified as differentials in cases and controls are found in genes relevant to the immune system (HLA system), in genes related to functional pathways that are often altered in tumor development, and in structural proteins and in genes related to cell mobility,” emphasized Dr. Patiño.
Many of the genetic characteristics that were discovered are located in genes with functions related to cancer development, such as immune response, repair of genetic material, regulation of inflammation, etc. This finding is highly significant, said Dr. Pérez. “However, we must remember that these phenotypes may be attributable to multiple causes, not just one cause.”
Furthermore, the specialist explained the next steps to be taken in the context of the line opened up by this research. “First, we must expand these studies, including more individuals with, if possible, even more extreme phenotypes: more smokers who are older and younger, respectively. Once the statistical evidence is stronger, we must also confirm that the alterations observed in lab-based studies truly impact gene function.”
Earlier diagnosis
The clinician also discussed the potential ways that the conclusions of this study could be applied to clinical practice now and in the future, and how the conclusions could benefit these patients. “The results of our line of research may help in early identification of those individuals at high risk of developing lung cancer if they smoke, so that they could be included in prevention programs to keep them from smoking or to help them stop smoking,” said Dr. Pérez. “It would also allow for early diagnosis of cancer at a time when there is a much higher chance of curing it.
“However, the most important thing is that our study may allow us to better understand the mechanisms by which cancer arises and especially why some people do not develop it. This [understanding] could lead to new diagnostic techniques and new treatments for this disease. The techniques needed to develop this line of research (bioinformatic mass sequencing and artificial intelligence) are available and becoming more reliable and more accessible every day. So, we believe our strategy is very realistic,” he added.
Although the line of research opened up by this study depicts a new scenario, the specialists still must face several challenges to discover why some smokers are more likely than others to develop lung cancer.
“There are many lines of research in this regard,” said Dr. Pérez. “But to name a few, I would draw attention to the need to increase the number of cases and controls to improve the comparison, study patients with other tumors related to tobacco use, ask new questions using the data we have already collected, and apply other genomic techniques that would allow us to perform additional studies of genetic variants that have not yet been studied. And, of course, we need to use functional studies to expand our understanding of the function and activity of the genes that have already been identified.”
Dr. Patiño and Dr. Pérez declared that they have no relevant financial conflicts of interest.
This article was translated from the Medscape Spanish Edition. A version appeared on Medscape.com.
