Alpha and beta cells produce signaling molecules that affect blood sugar levels in opposite ways (see the diagram below). Epinephrine is a hormone often released during periods of exercise, that...

Alpha and beta cells produce signaling molecules that affect blood sugar levels in opposite ways (see the diagram below). Epinephrine is a hormone often released during periods of exercise, that ultimately causes an increase in blood sugar levels in the body. Using the diagram, identify which of the following statements most accurately explains how exercise causes blood glucose levels to rise? Epinephrine Alpha Cells Beta cells Glucagon Insulin Glucose released from the liver into the blood stream Glucose absorbed from the bloodstream and stored in the liver A .Epinephrine activates alpha cells, blocking the release of glucagon, and inhibits beta cells, causing the release of insulin B .Epinephrine activates alpha cells, causing the release of glucagon, and inhibits beta cells, blocking the release of insulin C. Epinephrine inhibits alpha cells, blocking the release of glucagon, and activates beta cells, causing the release of insulin D. Epinephrine inhibits alpha cells, causing the release of glucagon, and activates beta cells, blocking the release of insulin