UCLA geneticists have created a new technique to hunt for hormones that influence how organs and tissues communicate with each other. The method enabled them to find naturally occurring molecules that play major roles in Type 2 diabetes, obesity and cardiovascular disease. In particular, they discovered. The findings could deepen scientists’ understanding of the mechanisms behind obesity and common risk factors for heart disease and diabetes. Diseases such as obesity and diabetes disrupt how individual tissues and organs communicate with one another. The technique developed by the UCLA researchers reverses this disruption by pursuing alternate routes of tissue-to-tissue communication. The researchers developed a data-driven approach to unravel the wide array of functions for hormones that circulate in the bloodstream. They initially identified and studied the hormonal networks in mice. Next they tested whether the functions they assigned to the hormones remained consistent in humans.
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Parkes, M. Eating foods that contain a lot of carbohydrates will elevate your blood sugar significantly more than eating foods made up of predominantly protein or fat. Montoya, A. Sewemaenewa, D. Santiago deceased, and J. Ketones also play a newly discovered role to reduce oxidative stress aka free radicals and inflammation, both of which are key underlying causes of type 2 diabetes. Champagne, M. This pattern can be thought of as carbohydrate intolerance.