Scientists have found a cancer-fighting chemical in human skin bacteria
Bacteria that commonly live on your skin's surface just might be protecting you from cancer.
'Because each person has many different [staph] strains on their body, we found 6-HAP genes on about 20 percent of the normal population, ' the researcher said. "Still, the revelation that it engages in anti-cancer activity is entirely new".
The findings could lead to a new way to decrease the risk of skin cancer or a less toxic way to treat existing cancer, the lead researcher told.
"It is early to say for sure", the researcher said. The scientists described that a specific bacteria strain of Staphylococcus epidermidis secretes a chemical that eliminates harmful bacteria which have been depicted as responsible for infections. But the specific bacteria in question - a strain called Staphylococcus epidermidis - appears to produce a specific anti-cancer compound known as 6-N-hydroxyaminopurine (6-HAP), the researchers found. The chemical did not inhibit the growth of normal human skin cells, because they possess 6-HAP-deactivating enzymes that were not present on cancerous cells.
One in five Americans will be diagnosed with skin cancer by age 70, according to data from the Centers for Disease Control and Prevention.
Perhaps, the research findings of this study is bit different from the previous research.
They conducted a research in which testing was performed on mice. More than 95 percent of these are non-melanoma skin cancer, which is typically caused by overexposure to the sun's UV rays.
Those with the bacteria on their skin that did not make 6-HAP had many skin tumors, but mice with the S. epidermidis strain producing 6-HAP did not. It's still unclear if the absence of this bacteria will trigger the growth and development of cancerous tissue.
A researcher has discovered approximately 2 years ago that a type of common skin bacteria protect against cancer because it produces a protein which can protect humans against the oxidative stress caused by free radicals. We further need to understand how these microbiomes play an important role in human biology. Because of this, future studies seeking to exploit the protective potential of skin bacteria "would have to be attempted with high caution", the researcher warned.
However, she added that bacteria tend to have a high mutation rate, and thus a high potential for giving rise to antibiotic resistance.
'Because each person has many different [staph] strains on their body, we found 6-HAP genes on about 20 percent of the normal population, ' the researcher said. "Still, the revelation that it engages in anti-cancer activity is entirely new".
The findings could lead to a new way to decrease the risk of skin cancer or a less toxic way to treat existing cancer, the lead researcher told.
"It is early to say for sure", the researcher said. The scientists described that a specific bacteria strain of Staphylococcus epidermidis secretes a chemical that eliminates harmful bacteria which have been depicted as responsible for infections. But the specific bacteria in question - a strain called Staphylococcus epidermidis - appears to produce a specific anti-cancer compound known as 6-N-hydroxyaminopurine (6-HAP), the researchers found. The chemical did not inhibit the growth of normal human skin cells, because they possess 6-HAP-deactivating enzymes that were not present on cancerous cells.
One in five Americans will be diagnosed with skin cancer by age 70, according to data from the Centers for Disease Control and Prevention.
Perhaps, the research findings of this study is bit different from the previous research.
They conducted a research in which testing was performed on mice. More than 95 percent of these are non-melanoma skin cancer, which is typically caused by overexposure to the sun's UV rays.
Those with the bacteria on their skin that did not make 6-HAP had many skin tumors, but mice with the S. epidermidis strain producing 6-HAP did not. It's still unclear if the absence of this bacteria will trigger the growth and development of cancerous tissue.
A researcher has discovered approximately 2 years ago that a type of common skin bacteria protect against cancer because it produces a protein which can protect humans against the oxidative stress caused by free radicals. We further need to understand how these microbiomes play an important role in human biology. Because of this, future studies seeking to exploit the protective potential of skin bacteria "would have to be attempted with high caution", the researcher warned.
However, she added that bacteria tend to have a high mutation rate, and thus a high potential for giving rise to antibiotic resistance.
THIS IS ONLY FOR INFORMATION, ALWAYS CONSULT YOU PHYSICIAN BEFORE
HAVING ANY PARTICULAR FOOD/ MEDICATION/EXERCISE/OTHER REMEDIES.
PS- THOSE INTERESTED IN RECIPES ARE FREE TO VIEW MY BLOG-
HTTP:GSEASYRECIPES.BLOGSPOT.COM/
HTTP:GSEASYRECIPES.BLOGSPOT.COM/
FOR INFO ABOUT KNEE REPLACEMENT, YOU CAN VIEW MY BLOG-
HTTP://KNEE REPLACEMENT-STICK CLUB.BLOGSPOT.COM/
FOR CROCHET DESIGNS
HTTP://MY CROCHET CREATIONS.BLOGSPOT.COM
FOR CROCHET DESIGNS
HTTP://MY CROCHET CREATIONS.BLOGSPOT.COM
Labels: 6-HAP genes, anti-cancer, antibiotic resistance, compounds, less toxic, non-melanoma, over-exposure, oxidative stress, skin bacteria, staph strains, staphylococcus epidermis, UV rays
posted by G S Iyer at 10:00 AM
0 Comments:
Post a Comment
<< Home