Now, a study published in Cell Communication and Signaling describes new molecular mechanisms to understand insulin resistance in skeletal muscle and to outline future drug targets for DM2.

They say the authors share compelling evidence that sheds light on the interplay between genetic attributes and environmental conditions in shaping insulin signaling in skeletal muscle – a ...

New research reveals how exercise transforms muscles into communication hubs that release beneficial molecules throughout the ...

The skeletal muscles of men and women process glucose and fats in different ways. A study conducted by the University ...

This is the percentage of the body's mass that is fluid. The human body is 50 to 75 percent water, and how much you have at ...

Researchers at Karolinska Institutet have discovered a previously unknown molecule that may explain why people with type 2 ...

Insulin is a peptide hormone that controls the absorption of glucose by the liver, fat and skeletal muscle cells. It is key in regulating the use and storage of carbohydrates to meet the body’s ...

Researchers at Pennington Biomedical Research Center have revealed critical insights into how impaired mitochondrial dynamics and quality control mechanisms in skeletal muscle influence insulin ...

A landmark study has shed new light on the molecular roots of insulin resistance, a hallmark of type 2 diabetes, by mapping protein-level changes in human skeletal muscle. The findings may pave the ...

This study indicated that when TAK1 is activated in skeletal muscle cells, it promotes protein synthesis, and the growth of myofibers. TAK1 has already been found to play a role in signaling pathways ...