What is the Difference Between Insulin and Glucagon?
🆚 Go to Comparative Table 🆚Insulin and glucagon are two hormones that play crucial roles in regulating blood sugar levels. They are secreted by the islet cells within the pancreas, with insulin being released by the beta cells and glucagon by the alpha cells. Here are the main differences between insulin and glucagon:
- Effect on blood sugar levels: Insulin decreases blood sugar levels, while glucagon increases them.
- Function: Insulin controls whether sugar is used as energy or stored as glycogen, causing cells to take in glucose from the bloodstream. Glucagon, on the other hand, signals cells to convert glycogen back into sugar, raising blood glucose levels.
- Release mechanism: Insulin is released when blood sugar levels are high, while glucagon is released when they are low.
Insulin and glucagon work together in a balance to maintain homeostasis and provide sufficient energy to the cells while preventing damage that can result from fluctuating blood sugar levels. When this balance is disrupted, conditions such as diabetes can occur.
Comparative Table: Insulin vs Glucagon
Insulin and glucagon are two hormones that help regulate blood sugar levels in the body. They are produced by the pancreas, with insulin being released by beta cells and glucagon being released by alpha cells. Here is a table highlighting the differences between insulin and glucagon:
| Feature | Insulin | Glucagon |
|---|---|---|
| Hormone | Produced by beta cells | Produced by alpha cells |
| Primary function | Facilitates the uptake of glucose into body cells, helps regulate whether sugar is used as energy or stored as glycogen | Stimulates mechanisms that increase blood glucose levels, such as the catabolism of glycogen into glucose |
| Effect on glucose levels | Decreases blood glucose levels | Increases blood glucose levels |
| Secretion trigger | Secreted most often in response to high blood sugar levels, but also when certain keto acids, fatty acids, and amino acids are present | Secreted in response to low blood sugar levels and in response to exercise |
| Molecular structure | Consists of 51 amino acids formed from an A and B chain that is linked together | Contains 29 amino acids |
| Precursor molecule | Formed from a proinsulin precursor | Formed from a proglucagon precursor |
Insulin and glucagon work together to regulate blood sugar levels, ensuring proper body function. Dysfunction of either hormone can lead to diabetes, a disorder characterized by high blood glucose levels.
- Glucagon vs Glycogen
- Insulin vs Blood Sugar
- Hypoglycemia vs Diabetes
- Hypoglycemia vs Hyperglycemia
- Glycogen vs Glucose
- Dextrose vs Glucose
- Basal vs Bolus Insulin
- Insulin Resistance vs Diabetes
- NPH vs Regular Insulin
- Sulfonylureas vs Meglitinides
- Prediabetes vs Diabetes
- Biguanides vs Sulfonylureas
- Human Insulin vs Porcine Insulin
- Sugar vs Glucose
- A1C vs Glucose
- Glycogenolysis vs Gluconeogenesis
- Type 1 vs Type 2 Diabetes Mellitus
- Sucrose vs Glucose
- Insulin Resistance vs Prediabetes