Posts Tagged ‘vogelstein’

Bad luck may play a role in two thirds of cancers

Stem Cell Medical Center | Posted by admin
Jan 08 2015

While environmental factors and genetics play a role in the development of cancer, scientists at Johns Hopkins University have used statistical modeling to show that two-thirds of adult cancers may be attributable to “bad luck,” or random mutations, rather than lifestyle.

Researchers Bert Vogelstein M.D. (Clayton Professor of Oncology at the Johns Hopkins University School of Medicine, co-director of the Ludwig Center at Johns Hopkins and an investigator at the Howard Hughes Medical Institute) and Cristian Tomasetti PhD (assistant professor of oncology at the Johns Hopkins University School of Medicine and Bloomberg School of Public Health) charted the number of stem cell divisions in 31 tissue types and compared them with the lifetime risks of cancer in the same tissues among Americans.

Stem cells “self-renew,” meaning they repopulate cells that die off in a specific organ. Cancer occurs when tissue-specific stem cells make random mistakes, or mutations.The more mutations, the higher the risk of cancer, however it was not previously known how these random mutations contribute to cancer compared to genetic or environmental factors.

“All cancers are caused by a combination of bad luck, the environment and heredity, and weve created a model that may help quantify how much of these three factors contribute to cancer development,” says Vogelstein.

Vogeltsein and Tomasetti determined the correlation between the total number of stem cell divisions and cancer risk to be 0.804. Mathematically, the closer this value is to one, the more stem cell divisions and cancer risk are correlated. Using statistical theory, they calculated that approximately 65 percen of the variation in cancer risk can be explained by the number of stem cell divisions.

Of the pair tissue types studied, the researchers found that 22 cancer types, including head and neck, esophageal, gallbladder and some bone cancers, can be largely explained by the bad luck factor of random DNA mutations during cell division.

The other nine cancer types had incidences higher than predicted by bad luck, so are presumably due to a combination of bad luck as well as environmental or genetic factors. These include lung cancer, which is linked to smoking, and skin cancer, which is linked to sun exposure.

Vogelstein and Tomasetti use the analogy of a car accident to help explain their results. “Our results would be equivalent to showing a high correlation between length of trip and getting into an accident,” they say. “The longer the trip is, the higher the risk of an accident.”

They liken road conditions en-route to the destination to the environmental factors in cancer. Worse conditions are associated with a higher risk of an accident. The mechanical condition of the car is a metaphor for inherited genetic factors. Mechanical problems in the car, such as bad brakes and worn tires, increase the risk of an accident. The more mechanical defects, the greater the risk. Similarly, the amount of inherited genetic mutations contributes to cancer risk.

The length of the trip can be compared to the stem cell divisions and random mutations Vogelstein and Tomasetti discuss in their paper. Regardless of road and car conditions, the probability of an accident increases with distance traveled. Short trips have the lowest risk, while long trips are associated with the highest risk.

Read more:
Bad luck may play a role in two thirds of cancers

Tags: , , , , , , , , , , , , ,
Comments Closed

Scientists explain how stem cells and 'bad luck' cause cancer

Stem Cell Doctors | Posted by admin
Jan 03 2015

Why are some types of cancer so much more common than others? Sometimes its due to faulty genes inherited from ones parents and sometimes to behaviors like smoking a pack of cigarettes every day. But in most cases, it comes down to something else stem cells.

This is the intriguing argument made by a pair of researchers from Johns Hopkins University. In a study published Friday in the journal Science, they found a very high correlation between the differences in risk for 31 kinds of cancer and the frequency with which different types of stem cells made copies of themselves.

Just how strong was this link? On a scale that goes from 0 (absolutely no correlation) to 1 (exact correlation), biostatistician Cristian Tomasetti and cancer geneticist Bert Vogelstein calculated that it was at least a 0.8. When it comes to cancer, thats high.

No other environmental or inherited factors are known to be correlated in this way across tumor types, Tomasetti and Vogelstein wrote.

Researchers have long recognized that when cells copy themselves, they sometimes make small errors in the billions of chemical letters that make up their DNA. Many of these mistakes are inconsequential, but others can cause cells to grow out of control. That is the beginning of cancer.

The odds of making a copying mistake are believed to be the same for all cells. But some kinds of cells copy themselves much more often than others. Tomasetti and Vogelstein hypothesized that the more frequently a type of cell made copies of itself, the greater the odds that it would develop cancer.

The pair focused on stem cells because of their outsized influence in the body. Stem cells can grow into many kinds of specialized cells, so if they contain damaged DNA, those mistakes can spread quickly.

The researchers combed through the scientific literature and found studies that described the frequency of stem cell division for 31 different tissue types. Then they used data from the National Cancer Institutes Surveillance, Epidemiology and End Results database to assess the lifetime cancer risk for each of those tissue types. When they plotted the total number of stem cell divisions against the lifetime cancer risk for each tissue, the result was 31 points clustered pretty tightly along a line.

To put this notion in concrete terms, consider the skin. The outermost layer of the skin is the epidermis, and the innermost layer of the epidermis contains a few types of cells. Basal epidermal cells are the ones that copy themselves frequently, with new cells pushing older ones to the skins surface. Melanocytes are charged with making melanin, the pigment that protects the skin from the suns damaging ultraviolet rays.

When sunlight hits bare skin, both basal epidermal cells and melanocytes get the same exposure to UV. But basal cell carcinoma is far more common than melanoma about 2.8 million Americans are diagnosed with basal cell carcinoma each year, compared with roughly 76,000 new cases of melanoma, according to the Skin Cancer Foundation. A major reason for this discrepancy, Tomasetti and Vogelstein wrote, is that epidermal stem cells divide once every 48 days, while melanocytes divide only once every 147 days.

Continue reading here:
Scientists explain how stem cells and 'bad luck' cause cancer

Tags: , , , , , , , , ,
Comments Closed

Two-thirds of adult cancers largely due to bad luck, study suggests

Stem Cell Medicine | Posted by admin
Jan 03 2015

Lifestyle choices and genetics are big risk factors for certain cancers, but a new study concludes that the majority of cancer incidence is due mostly to bad luck when our cells divide.

The study comes from scientists at the Johns Hopkins Kimmel Cancer Center who created a statistical model to measure the proportion of cancer cases that are caused mainly by random DNA mutations during stem cell division.

By their calculations, two-thirds of adult cancer incidents can be explained by bad luck when stem cells divide.

All cancers are caused by a combination of bad luck, the environment and heredity, says lead researcher Dr. Bert Vogelstein, a professor of oncology at the Johns Hopkins University School of Medicine.

“Weve created a model that may help quantify how much of these three factors contribute to cancer development, he said in a statement.

Cancer occurs when stem cells in tissues make random mistakes, or mutations, during the replication process in cell division. The more that these mutations accumulate, the higher the risk that cells will begin to grow, unchecked, into tumours.

But Vogelstein says it’s never been clearly understood how much of a contribution these random mistakes made to cancer incidence, compared to genetic inheritance, lifestyle, or environmental factors.

So they focused on 31 tissue types, looking at the number of stem cell divisions in each cancer. They then compared these rates with lifetime cancer risk among the same cancer types in the American population.

Significantly, they did not include breast cancer and prostate cancer in their study, even though these are two of the most commonly diagnosed cancers among adults. The researchers explained that they could not find reliable stem cell division rates on these cancer types.

Of the 31 cancer types they did look at, they found that 22 could be largely explained by the bad luck factor of random DNA mutations during cell division.

See the rest here:
Two-thirds of adult cancers largely due to bad luck, study suggests

Tags: , , , , , , , , , ,
Comments Closed