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  • Stem cells produce all of the tissues in our bodies. When we are born, specialized stem

  • cells maintain the health of specific tissues. For example, our colon has specialized stem

  • cells that keep our colon healthy by continuously renewing the tissue. They do this in a very

  • elegant way! In this depiction of our colon, the colonic stem cells are located at the

  • base. The stem cells will divide and produce cells that will move up until they slough

  • off at the top. As the cells move up, they take on specific functions, such as absorbing

  • nutrients into our bloodstream, or secreting mucous needed for the tissue to function.

  • We call these differentiated cells.

  • Interestingly, we also find cells that resemble stem cells in some colon cancers, these are

  • called colorectal cancer stem cells. So what are those?

  • Well, cancerous tumors are composed of all kinds of cancer cells. In particular, certain

  • cancers contain cancer cells that resemble stem cells. It's important to understand that

  • these cells are not identical to normal stem cells: instead of recreating a tissue, like

  • normal stem cells do, they can recreate an entire tumor.

  • Colon cancer is a type of cancer that is thought to arise from cancer stem cells. It is the

  • second-leading cause of cancer deaths and is currently treated with surgery and chemotherapy.

  • However, after surgery, 30-50% of patients experience what we call "disease relapse"

  • where the tumor comes back and can be lethal. There is often very little we can do when

  • a tumor relapses because new tumors can occur all over the body and can be hard to treat.

  • So from a therapeutic standpoint, we'd like to understand which patients are more likely

  • to experience tumor relapse. However, we don't know much about what dictates colon cancer

  • relapse... The Batlle laboratory in the Institute for Research in Biomedicine in Spain wanted

  • to better understand what causes colon cancer relapse by examining what genes, or chunks

  • of DNA, are active in tumors from patients that eventually experience relapse compared

  • to those that don't. Genes are chunks of DNA that produce protein. However, genes only

  • produce proteins when they are active. The activity of genes dictates what sets of proteins

  • are produced and in turn controls how the cell behaves. These scientists' findings are

  • published in their article titled "the intestinal stem cell signature identifies colorectal

  • cancer stem cells and predicts disease relapse" published in Cell Stem Cell in May 2011.

  • First, scientists determined what genes or chunks of DNA are active in normal, non-cancerous,

  • colon stem cells compared to differentiated cells of the NORMAL colon. The sets of active

  • genes in a cell is called a gene signature. Next, the scientists looked at the sets of

  • genes that are active, or gene signature, of a variety of different patient tumors,

  • looking at the DNA inside the tumor. And what they found was that tumors from patients that

  • eventually had relapse and the tumor came back after surgery, had a gene signature that

  • resembled that of colon stem cells (so the genes that were active in the cancers that

  • relapsed were similar to active genes in colon stem cells). On the other hand, tumors that

  • didn't relapse after surgery had a gene signature similar to differentiated normal cells.

  • So the next question is, is this stem cell signature, represented here in BLUE, in all

  • of the cells or only a subset? When zooming into a tumor, the scientists

  • found two types of cells: cancer cells that resembled stem cell and cancer cells that

  • resembled differentiated cells. When injected into mice, only the cancer cells

  • that resembled stem cells could make another tumor whose architecture was identical to

  • that of the tumor it came from: with cancer stem cells and differentiated cancer cells.

  • Scientists could again take just the cancer stem cells of this new tumor, inject them

  • into mice again and those cells would produce a new tumor with the same organization! This

  • is proof that these cells that resemble stem cells are truly cancer stem cells because

  • they are able to make more of themselves over the long term and are able to produce differentiated

  • cancer cells.

  • So what can we take away from this? Thanks to this study, we now know that colon

  • cancer is driven by a special cell that resembles a stem cell but has malignant properties:

  • a cancer stem cell. When we isolate these human cancer stem cells,

  • they can produce tumors in mice that look just like the tumor the cells came from, and

  • looks a little bit like a disorganized normal colon. So could these cells be responsible

  • for remaking a tumor in the case of relapse? Yes, it's possible!

  • This study also tells us that the more the cancer gene signature resembles that of a

  • stem cell the more aggressive the tumor is and the more likely the patient is to experience

  • tumor relapse.

  • So what does this mean for you? Using the gene signature of the tumor (is

  • it stem cell like or does it resemble differentiated cells?), we can now predict tumor relapse

  • better than disease score can! So this is very significant!

  • If two patients present to the clinic with colon cancer: one of them has a tumor with

  • a stem cell gene signature, the other doesn't. The first patient is predicted to relapse

  • more often. In light of this new information, perhaps these 2 patients should get different

  • cancer treatments. However, it is still unknown exactly why these

  • cancer cells with a stem cell gene signature are more likely to cause relapse?

  • As you can tell, we are now digging deeper into the tumor by examining DNA sequences

  • and what genes are active. This will be the future of health care with personalized treatments

  • based on a patient's tumor genetic make up because not every cancer is created equal.

Stem cells produce all of the tissues in our bodies. When we are born, specialized stem

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署名、捺印、尊重されています。大腸がんの遺伝的手がかりの発見 (SIGNED, SEALED, RESECTED: Discovering the genetic clues within colorectal cancers.)

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    楊子儀 に公開 2021 年 01 月 14 日
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