1 / 17

Hormones and the regulation of blood glucose

Hormones and the regulation of blood glucose. Aim:. Hormones. Chemical messenger Endocrine glands secrete the hormone into the blood Has its effect at a different site (target site) to where it is made Fits into receptor molecules on target cells and is therefore specific to the target

ryann
Download Presentation

Hormones and the regulation of blood glucose

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Hormones and the regulation of blood glucose Aim:

  2. Hormones • Chemical messenger • Endocrine glands secrete the hormone into the blood • Has its effect at a different site (target site) to where it is made • Fits into receptor molecules on target cells and is therefore specific to the target • Small soluble organic molecules that travels in blood plasma • Effective in low concentrations and effects generally long lasting • Released by glands

  3. Second messenger mechanism • Bind to receptors on the cell surface membrane creating a hormone-receptor complex • Second messenger released within the cell causing a series of enzyme controlled reactions • Required response is produced

  4. Importance of blood glucose levels • Main respiratory substrate (only energy source for brain cells) • Lack of glucose causes fainting • Normal level per 100cm3 of blood is 90mg but can vary between 70-150mg

  5. Sources of blood glucose • Diet – glucose released from breakdown of other carbohydrates eg starch, maltose, lactose and sucrose • Break down of glycogen – Broken down in the liver or muscles cells • Gluconeogenesis – Production of new glucose molecules from non-carbohydrates eg glycerol and amino acids

  6. Involves 6 hormones • 2 negative feedback systems • Rise – hyperglycaemia stimulates insulin secretion • Decrease –hypoglycaemia inhibits insulin secretion

  7. Factors influencing blood glucose levels • When eating takes place and the types of food eaten • The amount of physical and mental activity • The presence of 3 hormones … insulinglucagon and adrenaline

  8. Insulin • Globular protein made up of 51 aa • Released by the islets of langerhans β cells in the pancreas in response to high blood sugar levels

  9. Effects of insulin • Binds to the glycoprotein receptors found on almost all body cells, increasing absorbtion of glucose into cells (especially muscle cells) by the following mechanisms • The binding to receptors changes the structure of glucose transport protein channels (channels open) • An increase in number of carrier molecules in the membrane • Increases rate of respiratory processes lowering the cell glucose levels, therefore leading to a greater intake of glucose

  10. Effects of insulin • Activates enzymes that convert glucose to glycogen (glycogenesis) in liver and muscle cells Glucose glucose phosphate glycogen • Increases conversion of glucose to fat Insulin

  11. Glucagon • Released by islet of Langerhans α cells the pancreas in response to low blood glucose levels • Activates the enzyme phosphorylase • The phoshorylase enzyme catalyses the breakdown of glycogen in the liver (glycogenolysis) Glycogen glucose phosphate glucose phosphorylase

  12. Glucagon • Stimulates the synthesis of glucose from glycerol and amino acids (gluconeogenesis) Glycerol  glucose Amino acids  glucose

  13. Adrenalin • Adrenalin released by the adrenal medulla in times of danger, stress and cold. • Stimulates conversion of glycogen to glucose (glycogenolysis) by activating an enzyme • Stimulates the synthesis of glucose from glycerol and amino acids (gluconeogenesis) • Inactivates an enzyme that synthesises glycogen from glucose

  14. The role of the liver • The liver is the site where the following processes occur Glycogenesis - (glucose to glycogen) Gluconeogenesis (amino acids/glycerol to glucose Glycogenolysis (glycogen to glucose)

  15. Role of the pancreas • Produces insulin and glucagon • Islets of Langerhans β cells – Detect high glucose levels - produce insulin • Islets of Langerhans α cells – Detect low glucose levels - produce glucagon

  16. The factors that influence blood glucose concentration. • The role of the liver in glycogenesis and gluconeogenesis. • The role of insulin and glucagon in controlling the uptake of glucose by cells and in • activating enzymes involved in the interconversion of glucose and glycogen. The • effect of adrenaline on glycogen breakdown and synthesis. • The second messenger model of adrenaline and glucagon action. • Types I and II diabetes and control by insulin and manipulation of the diet.

  17. TASK • Research and presentation of findings on Type I and Type II diabetes and how they can be controlled by insulin and diet.

More Related