Daily non-political popular news in brief.

Scientists explain how insulin secreting cells maintain their glucose sensitivity

Scientists at the leading Swedish medical university Karolinska Institutet have now disclosed the mystery how the insulin-secreting cells maintain an appropriate number of ATP sensing ion channel proteins on their surface. This mechanism, which is described in the latest issue of Cell Metabolism, explains how the human body can keep the blood glucose concentration within the normal range and thereby avoid the development of diabetes.

Read more »

Keywords: scientists, explain, insulin, secreting, cells, maintain, glucose, sensitivity, scientist, cell

« Previous | Next »

Similar news on "Scientists explain how insulin secreting cells maintain their glucose sensitivity":

1. Glucose levels trigger compensation for type 2 diabetics
   01-02-2007 · EurekAlert!
   Many individuals with type 2 diabetes are diabetic because their body no longer responds to the hormone insulin. Before they become clinically diabetic their body tries to compensate for the lack of insulin responsiveness by increasing the mass of insulin-secreting cells (beta cells) in the pancreas. A new study shows that in mice with high-fat diet-induced insulin resistance, changes in glucose concentration are likely to be the main trigger of increased beta-cell mass.
   Similar news · Read more »
   
2. Forsyth scientists gain new understanding of adult stem cell regulation
   08-01-2007 · EurekAlert!
   Forsyth Institute scientists have discovered an important mechanism for controlling the behavior of adult stem cells. Research with the flatworm, planaria, found a novel role for the proteins involved in cell-to-cell communication. This work has the potential to help scientists understand the nature of the messages that control stem cell regulation -- such as the message that maintain and tells a stem cell to specialize and to become part of an organ (e.g., liver or skin).
   Similar news · Read more »
   
3. Research yields new insights into the cause of diabetes
   12-05-2006 · EurekAlert!
   The cause of insulin-dependent, permanent diabetes in newborn babies may be a deficiency in the PERK enzyme during a critical period of development before birth, according to a new hypothesis be published in the journal Cell Metabolism on Dec. 6, 2006. Using special strains of mice bred to be PERK-deficient, the researchers found that what happens during fetal development predisposes people either to be able to maintain glucose levels normally or to have diabetes.
   Similar news · Read more »
   
4. Scientists overcome obstacles to stem cell heart repair
   12-12-2007 · EurekAlert!
   Scientists have overcome two significant obstacles on the road to harnessing stem cells to build patches for damaged hearts. Presenting the research at a UK Stem Cell Initiative conference the researchers will explain how they have made significant progress in maturing beating heart cells derived from embryonic stem cells and in developing the physical scaffolding that would be needed to hold the patch in place in the heart in any future clinical application.
   Similar news · Read more »
   
5. Fat cells send message that aids insulin secretion
   11-06-2007 · EurekAlert!
   The body's fat cells help the pancreas do its job of secreting insulin, according to research at Washington University School of Medicine in St. Louis. This previously unrecognized process ultimately could lead to new methods to improve glucose metabolism in type 2 diabetic or insulin-resistant people.
   Similar news · Read more »
   
6. New test predicts blood cancer's sensitivity to experimental cancer drug
   01-22-2007 · EurekAlert!
   A test developed by Dana-Farber Cancer Institute scientists is the first to identify which malignant blood cells are highly vulnerable to a promising type of experimental drugs that unleash pent-up "cell suicide" factors to destroy the cancer.
   Similar news · Read more »
   
7. Extracellular protein sensitizes ovarian cancer cells to chemotherapy
   12-10-2007 · EurekAlert!
   Scientists have uncovered critical new details about the mechanisms that modulate the response of ovarian cancer cells to chemotherapy. The research, published by Cell Press in the December issue of Cancer Cell, helps to explain why many patients develop resistance to the taxane class of drugs and may lead to improved treatment of ovarian cancer.
   Similar news · Read more »
   
8. UVA researchers explain cell response to skin-damaging UV rays
   10-01-2007 · EurekAlert!
   Researchers at the University of Virginia Health System have published a new study that helps scientists around the world expand the body of knowledge on how cells protect themselves (or not) from DNA damage caused by UV rays. Their study reveals part of a 'simple switch' mechanism inside cells, triggered by UV exposure from the sun, that helps our cells survive and thrive after being exposed. This mechanism involves an unanticipated connection between several proteins in the cell, the researchers discovered.
   Similar news · Read more »
   
9. Columbia scientists determine 3-dimensional structure of cell's 'fuel gauge'
   02-08-2007 · EurekAlert!
   Researchers at Columbia University Medical Center have uncovered the complex structure of a protein that serves as a central energy gauge for cells, providing crucial details about the molecule necessary for developing useful new therapies for diabetes and possibly obesity. A paper published online today in the journal Science details this structure, helping to explain one of the cell's most basic and critical processes.
   Similar news · Read more »
   
10. Sensitivity to diverse range of chemotherapeutic drugs linked to common pathway
    06-11-2007 · EurekAlert!
    Using a functional genomic screen, scientists have defined elements that impact the responsiveness of cancer cells to drugs commonly used as anticancer therapeutics. The research, published in the June issue of the journal Cancer Cell, published by Cell Press, identifies individual genes that are associated with resistance to chemotherapeutic drugs, and sets the stage for future studies that may significantly enhance the ability to predict whether or not a particular tumor will respond to treatment.
    Similar news · Read more »