Blood glucose regulation
Cards (17)
- Glucose is an essential substrate for energy supply
- Is broken down in aerobic and anaerobic respiration to release energy for ATP production
- Is because high blood glucose levels cause complications such as increased blood pressure, cardiovascular disease, nerve damage, blindness and increased infections
- Body therefore has homeostatic processes, including negative feedback, that operate to keep glucose levels within the tolerance range
- Chemoreceptors in the Islets of Langerhans in the pancreas detects changes in blood glucose levels in the blood
- In response to an elevated blood glucose level (e.g. after eating carbohydrates), insulin (peptide hormone) is released from the beta (b) cells of the Islet of Langerhans into the blood
- Insulin binds to specific receptors on cells, especially liver, muscle and adipose (fat) cells, stimulating them to take up glucose from the blood
- Under normal circumstances (non diabetic), the blood glucose levels will decrease to normal tolerance range as a result
- This is detected by the chemoreceptors, resulting in the termination of insulin release
- This is an example of negative feedback, where the response reverses the stimulus
- Glucose can be used for respiration by these cells or stored
- The liver is the major store of carbohydrates, and converts excess glucose absorbed from the blood into a complex carbohydrate called glycogen
- In response to decreased blood glucose levels (e.g. when exercising or fasting), glucagon (peptide hormone) is released from the alpha (A) cells of the Islets of Langerhans into the blood
- Glucagon binds to specific receptors on liver cells, which stimulates them to break down their glycogen stores into glucose and release the glucose into the blood
- This increased blood glucose levels back into the normal tolerated range
- This is detected by the chemoreceptors, resulting in the termination of glucagon release
- This is also an example of negative feedback