Insulin and Glucagon PDF

Summary

This document provides an overview of insulin and glucagon, their roles in carbohydrate, lipid, and protein metabolism in the body. It details the factors that stimulate insulin and glucagon secretion, the mechanisms involved, and the various effects of each hormone.

Full Transcript

Endocrine Part of Pancreas
( Islets Of Langerhans)

Dr. Sherif Diaaeldin
QUIZ next week (10 marks)
 Endocrine Part of Pancreas
( Islets Of Langerhans)
Endocrine part of pancreas constitute 1- 2% of
pancreatic tissue.
Hormones secreted by the pancreas are:-
Insulin: Secreted from β cells.
Glucagon: secreted from α cells.
Somatostatin: Secreted from D cells of the pancreas
and has inhibitory effect on insulin and glucagon
secretion
Pancreatic polypeptide: secreted from F cells.

Pancreatic hormones are not under
control of pituitary gland.
 Insulin
The glucose transporters
Glucose enter the cells by facilitated
diffusion i.e., a carrier protein called
glucose transporter, or GLUT moves
glucose down its concentration gradient
from ECF into the cell without need to
energy.
 MECHANISM OF INSULIN SECRETION
The beta cells have a large number of
glucose transporters that permit glucose
influx. Once inside the cells, glucose is
oxidized to form adenosine triphosphate
(ATP), which inhibits the ATP-sensitive
potassium channels of the cell. Closure of
the potassium channels depolarizes the cell
membrane, thereby opening voltage-gated
calcium channels this effect produces an
influx of calcium that stimulates fusion of
the insulin-containing vesicles with the cell
membrane and secretion of insulin into the
extracellular fluid by exocytosis.
7 types of GLUTs were discovered.
The GLUT4 is the only one that is stimulated by insulin and is kept in
vesicles in the cytoplasm of insulin sensitive cells.
 Insulin is secreted from b –cells of the pancreas upon stimulation by the following factors:
1. Increased blood glucose level: It is the major stimulus of insulin release. It increase both release of
preformed hormone as well as synthesis of new hormone.
2. Increased amino acid level in the blood: Some amino acids like arginine are potent stimulants for
insulin release
3. Gut hormones: Gastric inhibiting peptide (GIP), Gastrin, and cholycystokinin increase insulin release.
This explains why oral glucose stimulates insulin release more than I.V glucose
4. Parasympathetic stimulation
Insulin exert the following effects:
(A) Carbohydrate metabolism ‫هرمون التخزين والبناء‬
Increasing glucose utilization by the cells, thus blood glucose
level is decreased.
❖ Increased glucose uptake by insulin sensitive tissue
which are rich in GLUT4 e.g., all types of muscle, bone,
skin, and adipose tissue.
❖ Increased glucose oxidation by body cells
❖ In the liver, insulin hormone causes an increase in
glycogen synthesis, decrease glucogenolysis and
gluconeogenesis.
❖ In the skeletal muscle, insulin hormone increase
glycogenesis.
(B) Lipid metabolism
Increase storage as fat by adipose tissue
cells and liver.
Inhibits lipolysis.
Inhibits ketogenesis.
(C) Protein metabolism ‫يساعد على النمو‬
Increase uptake of amino acids into the
cells and increase protein synthesis in the
muscle and liver.
Decrease protein catabolism.

Treated
 Glucagon
Glucagon is secreted from a- cells of the pancreas in response to:
1. Decreased blood glucose level. e.g., during fasting.
2. Some amino acids ( alanine).
3. Gut hormones ( CCK, gastrin & GIP ).
Functions of glucagon is to increase blood glucose level. This occurs by:
1. Breakdown of glycogen stores in the liver to glucose.
2. Synthesis of new glucose from gluconeogenic amino acids or glycerol (.i.e.
gluconeogenesis)
3. Inhibition of glucose utilization by fat cells & skeletal muscle.
4. Lipolysis
 After meals During fasting

Glucagon
Insulin
Decreaase blood sugar
Glucose Glucose Glucose Glucose

Glucose
Glycogen

Glucagon release
Glucose from the
Cardiac
pancreas
muscle
Liver
Fat Skeletal
cell muscle

Decreaase blood sugar
Increased blood
Glucose sugar
Glucose
 Diabetes Mellitus
It is the commonest endocrine disorder in the
population.
It is characterized by decreased body ability to
metabolize glucose.
It has the following symptoms & signs:-
1. Hyperglycemia.
2. Poluria.
3. Polydypsia.
4. Weight loss.
It is caused by:-
1. Decreased insulin secretion by pancreas (Type I
diabetes).
2. Insulin resistance ( Type II diabetes).
 Type I & type II diabetes

Type I Type II
Onset Young age Middle age
Incidence Less common More common
20% 80%
Insulin level Low Normal, but
tissue sensitivity
is decreased
Severity Severe Moderate
hyperglycemia hyperglycemia
Diabetic frequent Less common
coma
Management Insulin injection Diet control
weight control