Hello all,

So after I tried to analyze DE(Differentially expressed) gene and read paper about findings of DE gene or mutation that happen in normal/cancer sample, I come up with a newbie idea (I am a newbie btw). How do we interpret the findings itself? Sometimes, we found many DE gene or mutation in normal vs cancer cell. But, actually, how do we interpret the result itself? If the findings is many (one of the paper find some mutation and also a differentially expressed gene), how can we use the information to understand more about the cancer? Also, with many biomarker can be found between normal/cancer sample, I also have a question regarding which one is actually affecting cancer or it is just affected by the cancer. Sorry if my question is so basic and simple and I thank you for your reply and answer so that it can guide me to another new knowledge.

There's no generic answer to your question. Perhaps the DE genes are in a few different pathways, in which case those would be interesting targets for further research or pharmacological manipulation. Perhaps the DE genes share one or two transcription factors, in which case there's probably some mutation in it/them that's driving much of the phenotype (again, that creates a drug target). There are many many many other possibilities that one could come up with. Interpreting results will always require a very good understanding of the underlying biology.

Regarding biomarkers, you're really asking about "driver" vs. "passenger" changes ("changes" to generalize the concept of driver and passenger mutations). Just start searching the literature on "driver mutations" and you should be able to generalize to other types of alterations.

Doing a DE analysis is one of the first steps in an analysis. It gives you a global view of what has changed between normal and tumor cells. It also helps you get a global picture of the biological processes that have been affected by the tumor (or have changed in response to the presence of the tumor) through enrichment analysis. Gaining a better understanding of these global mechanistic changes is one thing to interpret from a DE analysis, but without further targeted analyses you can't move much beyond the global picture. To move beyond a large list of DE genes you have to have a specific hypothesis or question in mind that you are investigating--without a specific direction there are too many rabbit holes to run down with large lists of genes. This is where biological collaborators come in. They generally have their specific hypothesis they are investigating, so can help you narrow down the list of genes and help guide the analysis in a targeted fashion. Thus, you can interpret large DE analyses as "this is how the system has changed globally", then ask if this is what we generally expected or are there surprises we should focus on in future research.

With regards to your biomarker question. In my work, biomarkers are used to differentiate cell types, like tumor vs normal. It doesn't matter if the changes are caused by or a result from the tumor, just that they are diagnostic of the cell type (or other control vs diseased sample) so that we can make a classifier from the expression from these genes and separate unknown samples into one category or the other. There is no way to know for sure if a differentially expressed gene is caused directly by the tumor or is a side effect of the tumor's presence with prior knowledge of the system and/or further experimentation and analysis. For example, we know the body up regulates the immune system to fight off the tumor, thus, we will see these genes being up regulated in a DE analysis. However, it is not the tumor that is regulating these genes, it is the body in response to the tumor. These are the types of things that would have to be weeded out in downstream analyses and experiments for novel findings.