Studies Show That Chemoresistance in Tumors Could Help Cancer Treatments

0
747

Scientists have discovered a molecular mechanism that allows tumors to develop resistance to chemotherapy. The molecular mechanism acts as a backup when a gene called p53, that normally helps healthy cells prevent mutations, is missing. About half of tumors do not have p53.
chemotherapy room
The study found that a measure of the MK2 pathway was very good at predicting which patients responded to chemotherapy.
The backup system is a pathway called MK2. It allows cells with damaged DNA to repair their DNA but does not trigger cell death if the DNA damage is unrepairable – so cells with damaged DNA continue to divide.

Chemotherapy works by damaging DNA so cells stop dividing. But in the absence of p53, cell division continues – thanks to the MK2 pathway – and so cancer cells continue to proliferate after chemotherapy.

In the journal Cancer Cell, researchers from the Massachusetts Institute of Technology (MIT) in Cambridge report how they discovered that an RNA-binding protein called hnRNPA0 is a key player in the backup pathway, as senior author Michael Yaffe, a professor of biology and biological engineering, explains:

“I would argue that this particular RNA-binding protein is really what makes tumor cells resistant to being killed by chemotherapy when p53 is not around.”

In healthy cells, p53 supervises cell division and shuts it down to repair damaged DNA. And if the DNA damage is too great, it triggers apoptosis – programmed cell death.

Prof. He says they discovered the MK2 pathway does not take over all of p53’s function, only part of it:

“It only rescues the bad parts of p53’s function, but it doesn’t rescue the part of p53’s function that you would want, which is killing the tumor cells.”
In the new study, he and his colleagues take a closer look at the MK2 pathway, which is how they found the RNA-binding protein hnRNPA0 is a key player.

All life on Earth today depends on three types of biological molecule: DNA, RNA and proteins. Proteins are the workhorses of cells, while DNA (deoxyribonucleic acid) and RNA (ribonucleic acid) carry the genetic information that passes from one generation to the next.

While DNA and RNA are similar in structure, they play different roles: RNA helps to pass the genetic information encoded in DNA onto proteins. RNA is also important for protein synthesis and gene regulation.

RNA-binding proteins are molecules that attach to RNA to control many aspects of gene regulation: switching genes on and off, or increasing and decreasing their expression. however, many of the ways they work at the molecular level are still to be discovered.

Measuring pathway can predict response to chemotherapy
In the new study, the researchers show that the RNA-binding protein hnRNPA0 controls cell division at two important checkpoints in the MK2 pathway. In healthy cells, the checkpoints allow cell division to pause and give time for DNA that may have been damaged during chromosome copying to be repaired.

One of the checkpoints – called G2/M – is normally activated by p53. In lung cancer cells lacking p53, hnRNPA0 helps to stabilize the coding for a key control protein called Gadd45. In the other checkpoint – called G1/S – when p53 is missing, hnRNPA0 stabilizes the coding for a backup protein called p27. Gadd45 and p27 help cancer cells to pause cell division while DNA is repaired.

The researchers found that measuring levels of the mRNA for Gadd45 and p27 could help predict which patients are likely to respond to chemotherapy.

In a trial of patients with stage 2 lung cancers, they showed those with high levels of mRNA for Gadd45 and p27 did not respond as well to chemotherapy as patients who had low levels of both.

Prof. Yaffee says you could use this measure as a surrogate for the presence or absence of the pathway and concludes:

“In this trial, it was very good at predicting which patients responded to chemotherapy and which patients didn’t.”
Using mice, he and his colleagues are already testing whether the MK2 pathway might be a good target for making tumors more susceptible to chemotherapy. One approach they are trying is using nanoparticle sponges that mop up the RNA-binding protein so it can no longer promote cell survival.

The study shows that cancer cells, like healthy cells, have molecular mechanisms that help them maintain their integrity and survive.

LEAVE A REPLY

Please enter your comment!
Please enter your name here