Skip to main content

Oxygen deficiency rewires mitochondria


Oxygen deficiency rewires mitochondria

Image result for mitochondria
Mitochondria burn oxygen and provide energy for the body. Cells lacking oxygen or nutrients have to change their energy supply quickly in order to keep growing. Scientists from the Max Planck Institute for Biology of Ageing have now shown that mitochondria are reprogrammed under depleted oxygen and nutrients. Tumours of the pancreas may also use this reprogramming mechanism to keep growing despite reduced nutrient and oxygen levels. The researchers believe that proteins in this newly discovered signaling pathway could be a good target for therapies against pancreatic cancer, for which no drug is currently available.
Cells adapt to oxygen deficiency by switching their energy supply to glycolysis, in which sugar is fermented without oxygen. This may be necessary in old age, for example, as the cells in the body are often less supplied with oxygen and nutrients. Also, cancer cells can face this problem, because some tumours have poor blood supply and thus little oxygen and nutrients reach the cells.
"It has been known for some time that cells reduce the number of mitochondria when they lack oxygen and switch to glycolysis. We have now discovered that the remaining mitochondria are additionally reprogrammed to meet the new requirements," explains Max Planck Director Thomas Langer.
Changeover with built-in timer
This happens via a newly discovered signalling pathway in the cell: a protease in the membrane of mitochondria is activated during the conversion to glycolysis and then breaks down various proteins in the organelles. As a result, no new mitochondria can be formed and the remaining mitochondria change their metabolism. This process eventually stops on its own, as the protease begins to degrade itself at high activity. "This signalling pathway not only has a built-in timer, but also enables a very rapid response to oxygen deficiency," said Langer.
Reduced growth of tumour cells
The researchers examined cancer cells originating from patients with pancreatic tumours. These tumours grow under oxygen deficiency and are highly aggressive. The scientists were able to reduce tumour growth by switching off the signalling pathway in the mitochondria. This was seen in cancer cells in the Petri dish as well as in pancreatic tumours in mice. "There is currently no treatment available for pancreatic cancer. I believe that this protease can be a very interesting therapeutic target because we have seen that the signalling pathway is also active in human patients with pancreatic cancer," explains Langer. "However, there are no known substances that have an effect on this protease."
Story Source:
Materials provided by Max-Planck-GesellschaftNote: Content may be edited for style and length.
Journal Reference:
  1. Thomas MacVicar, Yohsuke Ohba, Hendrik Nolte, Fiona Carola Mayer, Takashi Tatsuta, Hans-Georg Sprenger, Barbara Lindner, Yue Zhao, Jiahui Li, Christiane Bruns, Marcus Krüger, Markus Habich, Jan Riemer, Robin Schwarzer, Manolis Pasparakis, Sinika Henschke, Jens C. Brüning, Nicola Zamboni, Thomas Langer. Lipid signalling drives proteolytic rewiring of mitochondria by YME1LNature, 2019; DOI: 10.1038/s41586-019-1738-6
Labels:

Comments

Post a Comment

Popular posts from this blog

Essential Minerals

Minerals: Functions and Sources The body needs many minerals; these are called essential minerals . Essential minerals are sometimes divided up into major minerals (macrominerals) and trace minerals (microminerals).  A balanced diet usually provides all of the essential minerals. The two tables below list minerals, what they do in the body (their functions), and their sources. Major minerals Mineral Function Sources Sodium Needed for proper fluid balance, nerve transmission, and muscle contraction Table salt, soy sauce; large amounts in processed foods; small amounts in milk, breads, vegetables, and unprocessed meats Chloride Needed for proper fluid balance, stomach acid Table salt, soy sauce; large amounts in processed foods; small amounts in milk, meats, breads, and vegetables Potassium Needed for proper fluid balance, nerve transmission, and muscle contraction Meats, milk, fresh fruits and vegetables, whole grains, legumes Calciu...
5 comments
Read more

Vitamin C Can Reduce High Blood Pressure, Study Finds

Vitamin C Can Reduce High Blood Pressure, Study Finds CORVALLIS, Ore. - Researchers have discovered that a 500 milligram daily supplement of vitamin C can significantly reduce high blood pressure in hypertensive patients. The study, published this month in the medical journal Lancet, was done by scientists at the Boston University School of Medicine and the Linus Pauling Institute at Oregon State University. It was supported by the National Heart, Lung and Blood Institute of the National Institutes of Health. "Hypertension is a serious health problem in much of the world," said Balz Frei, professor and director of the Linus Pauling Institute, and a co-author of the research along with principal investigator Dr. Joseph Vita at Boston University. "It's a key risk factor in heart disease and strokes." "We believe this is a significant finding that may be of considerable value to patients who have moderately elevated blood pressure," Frei s...
Post a Comment
Read more

Zinc can halt the growth of cancer cells, study says

Zinc can halt the growth of cancer cells, study says Zinc supplements can significantly inhibit the proliferation of esophageal cancer cells, according to a new study co-authored by a University of Texas at Arlington researcher. Previous studies had shown that zinc is essential for maintaining human health and protects the esophagus from cancer. However, it has never been fully understood why zinc has the ability to prevent cancer in the esophagus. In this study, a team led by Zui Pan, an associate professor of nursing at UTA's College of Nursing and Health Innovation and a noted esophageal cancer researcher, discovered that zinc selectively halts the growth of cancer cells but not normal esophageal epithelial cells. The finding was published this month in  The FASEB Journal , the official journal of the Federation of American Societies for Experimental Biology. Esophageal cancer is the sixth leading cause of human cancer deaths around the world, according to the Nation...
Post a Comment
Read more