Introduction to diabtes mellitus

Question 1

Describe the basic effects of insulin on glucose

Answer 1

decrease HGO

increase muscle uptake

Question 2

Describe the basic effects of insulin on protein

Answer 2

decrease proteolysis

Question 3

Describe the basic effects of insulin on lipids

Answer 3

Decrease lipolysis

Decrease ketogenesis

Question 4

Describe the mitogenic actions of insulin

Answer 4

Lipoproteins
Smooth muscle hypertrophy- Important in high blood pressure 
Ovarian function
Clotting
Energy expenditure

Question 5

Describe the structure of the GLUT 4 receptor

Answer 5

Outer core is hydrophobic- to keep it embedded in the hydrophobic core of the phospholipid bilayer
Inner region is hydrophilic- to allow glucose, which is also hydrophilic, to move through the transporter by facilitated diffusion

Question 6

What is the action of insulin on the expression of GLUT 4 channels and what is the consequence of this

Answer 6

Vesicles containing GLUT 4 are insulin responsive. Insulin acts on these pre-made GLUT 4 receptors and recruits them into the plasma membrane of muscle cells and adipose tissue, driving glucose into these cells. This results in a 7-fold increased glucose uptake into the cell.

Question 7

What is the main glucose sink in the body

Answer 7

Muscle

Question 8

What happens to protein synthesis inside a muscle cell when insulin is released

Answer 8

When insulin is present, as well as IGF1, protein synthesis is driven.
Amino acids — Protein

Question 9

What happens to proteins in muscle cells in the absence of insulin

Answer 9

Proteolysis is stimulated- cortisol stimulates this too.
Protein — Amino Acids
These amino acids can be respired in the Krebs cycle.
If they are gluconeogenic amino acids (alanine) they can enter the bloodstream and be taken to the Liver, where they can be used to make glucose

Question 10

Describe the presence of glucose in the blood

Answer 10

Glucose present in blood all time, not only after meals

Question 11

What is glycogen

Answer 11

Glycogen in liver is stored glucose

Question 12

Describe the effect of insulin on protein synthesis in the Liver

Answer 12

In the presence of insulin, protein synthesis is stimulated.

Amino acids — Protein

Question 13

Describe the effects of an absence of insulin on proteolysis in the liver.

Answer 13

A lack of insulin, protein deficiency and glucagon stimulates the proteolysis of protein into amino acids in the liver.
Protein — amino acid

Question 14

What is the potential fate of these amino acids in the liver

Answer 14

In the absence of insulin, but in the presence of glucagon, cortisol, and catecholamines, these amino acids may be converted into glucose via gluconeogenesis.
This glucose is then released into the blood stream (increased hepatic glucose output).

Question 15

What else can be used in gluconeogenesis

Answer 15

Pyruvate and lactate

Question 16

Describe the characteristics of fat fuel stores in the body

Answer 16

Weight (9-10kg)
Energy (37kJ/G)
Time (30-40 days)

Question 17

Describe the characteristics of protein fuel stores in the body

Answer 17

Weight (8-9kg)
Energy (17KJ/G)
Time (15 days)

Question 18

Describe the characteristics of carbohydrate fuel stores in the body

Answer 18

Weight ( 0.5kg)
Energy (16KJ/g)
Time ( 16 hours)

Question 19

What takes longer to breakdown, fat or protein

Answer 19

Fat

Question 20

Describe the events that take place in lipoproteins in response to insulin

Answer 20

Lipoprotein lipase in lipoproteins is sensitive to insulin. Catalyses the breakdown of triglycerides into NEFA and Glycerol, NEFA enters

Question 21

Why is it important that we breakdown Triglycerides

Answer 21

Triglycerides are too big to pass through plasma membranes on their own, hence they need to be broken down

Question 22

What happens in adipocytes in response to insulin

Answer 22

Increased expression of GLUT 4 channel proteins on surface.
Glucose enters the adipocyte
Glucose – acetyl co-A — NEFA
Some glucose is also converted into glycerol-3-phosphate
Glycerol-3-phosphate + NEFA — Triglyceride.

Question 23

What happens to the triglycerides in adipocytes in the absence of insulin

Answer 23

In the absence of insulin, but in the presence of catecholamines, cortisol, and growth hormone, triglycerides will be broken down into glycerol and NEFAs

Question 24

Why is it important that we have separate circulation for the gut and liver

Answer 24

So that food can be processed before it enters the circulation

Question 25

What is a consequence of this different circulation for the gut

Answer 25

Adipocytes in omental circulation are different to that of the systemic circulation, such as in the arms and legs. As a result of their different anatomical location, they are more metabolically active, and have a faster turnover rate. Omental adipocytes predict ischaemic heart disease

Question 26

Can NEFAs be used in gluconeogenesis

Answer 26

No, they are used in the TCA cycle instead

Question 27

Describe gluconeogenesis in the liver

Answer 27

In absence of insulin, presence of glucagon.
Glycerol enters the liver- converted into glycerol-3-phosphate.
Some triglycerides in the liver are also broken down into glycerol-3-phosphate.
This glycerol-3-phosphate is converted into glucose in gluconeogenesis.

Question 28

What percentage of the HGO does gluconeogenesis account for after a 10 hour fast

Answer 28

25%

Question 29

Describe the different fuels for the brain

Answer 29

Can use
Glucose
Ketone bodies
Can not use 
Fatty acids

Question 30

What does insulin prevent the formation of

Answer 30

Ketone bodies

Question 31

What allows the brain to survive during a fast

Answer 31

Ketone bodies

Question 32

What is a key sign of insulin deficiency

Answer 32

The presence of ketones in the blood when blood glucose levels are also high

Question 33

Describe glycogen stores in the muscle

Answer 33

The glucose released can only be used by the muscle cells themselves.

Question 34

Describe the formation of ketone bodies in the liver

Answer 34

NEFA taken into the liver
NEFA is converted into fatty acyl coA (shuttle on mitochondrial membrane)
In the presence of glucagon, absence of insulin:
Fatty acyl coA – Acetyl coA
Acetyl coA- – Acetoacetate
Acetoacetate — Acetone + 3-hydroxybutyrate

Question 35

Describe the process of glycogenesis in the presence of insulin

Answer 35

Glucose is taken into the liver.
Glucose — Glucose-6-phosphate
G6P — Glycogen

Question 36

Describe the process of glycogenolysis

Answer 36

In the absence of insulin, presence of glucagon
Glycogen— G6P
G6P — Glucose
This glucose is then released into the bloodstream to increase HGO

Question 37

Describe the characteristics of the fasted state

Answer 37

low insulin to glucagon ratio
[glucose] 3.0-5.5mmol/l
 [NEFA]
low  [amino acid] when prolonged
Increased  Proteolysis
Increased  Lipolysis
Increased  HGO from glycogen and gluconeogensis
Muscle to use lipid
Brain to use glucose, later ketones
 Ketogenesis when prolonged

Question 38

Describe the characteristics of the fed state

Answer 38

Stored insulin released then 2nd phase
High [insulin] to [glucagon] ratio 
Stop HGO, 
 Glycogen                          gluconeogenesis
 protein synthesis
 proteolysis 
 Lipogenesis

Question 39

What do patients with ischaemic heart disease and obesity normally have

Answer 39

Insulin resistance- regardless of whether they are diabetic or not.

Question 40

What is T1DM defined as

Answer 40

Absolute insulin deficiency (although not always the case)

Question 41

Describe the presentation of T1DM

Answer 41

Absolute insulin deficiency
Proteolysis with weight loss
Hyperglycaemia- Increased HGO
Glycosuria with osmotic symptoms
Ketonuria
Increased lipolysis

Question 42

Explain why glycosuria occurs

Answer 42

As GLUT 4 is not activated, glucose is not transported into the relevant cells, so although there is a lot of glucose in the circulation, it is not available for cellular metabolism. The increase in plasma glucose overcomes the renal threshold for glucose reabsorption, and glycosuria results. The glucose draws water with it by osmosis, so the patients claim of passing large amount of urine night and day, making them very thirsty, so they complain of polydipsia and polyuria

Question 43

What is a more serious aspect of type 1 diabetes

Answer 43

The enormous increase in ketogenesis. Although ketones are a useful fuel when needed, if produced in excess they cause a fall in pH, as they are weak ketoacids. The danger is that the pH can fall dangerously low, which in turn can have a negative impact on the activity of a number of brain and other enzymes. This is known as diabetic ketoacidosis.

Question 44

What is cachexia

Answer 44

The extreme loss of weight

Question 45

Describe insulin induced hypoglycaemia

Answer 45

Increased:  insulin
 Glucagon 
 Catecholamines
 Cortisol
 Growth hormone
Glucose enters muscles
Increased  HGO later with glycogenolysis and gluconeogenesis (glucagon triumphs)
Lipolysis increased
Patients cannot switch off the insulin injected, prolonged effect. However, it will get better, glucagon produced

Question 46

What is the role of subcutaneous insulin

Answer 46

To switch HGO off

Question 47

What is the role of intramuscular glucagon

Answer 47

Administered when the patient is unconscious.
Reverse insulin induced hypoglycaemia.
Restores HGO.

Question 48

Where does insulin resistance reside

Answer 48

All metabolic sites and all arms of intermediary metabolism

Question 49

In T2DM, what is there enough insulin to suppress

Answer 49

Enough insulin to suppress
Ketogenesis
proteolysis

Question 50

Describe the two different reaction pathways of insulin

Answer 50

Binding of insulin to the insulin receptor may cause tyrosine kinase to phosphorylate IRS (insulin receptor substrate). This passes down the PI3K-Akt pathway
and is responsible for the metabolic effects of insulin.
However, it may also phosphorylate different substrates in the MAPK pathway to simulate mitogenesis- also important in blood pressure and dyslipidaemia.

Question 51

Which pathway is resistant to insulin

Answer 51

PI3K-Akt pathway

Question 52

Describe what happens in insulin resistance when the patient can still make insulin

Answer 52

Beta cells try to overcome the resistance by making more insulin, so the patient becomes hyperinsulinemic and euglycemic. Increased mitogenic reactions.

Question 53

Describe the metabolic actions of insulin in insulin resistance

Answer 53

GLUCOSE
PROTEIN
LIPID
All normal

Question 54

Describe the mitogenic reactions of insulin in insulin resistance

Answer 54

Lipoproteins- low HDL
Smooth muscle hypertrophy- high blood pressure
Ovarian function- polycystic ovarian syndrome
Clotting- abnormal effects
Energy expenditure- abnormal effects

Question 55

What can patients with DM have

Answer 55

Urinary tract infections- due to high presence of glucose.

Question 56

Describe the presentation of T2DM

Answer 56

Insulin resistance
60-80% obese 
Dyslipidaemia
Later insulin deficiency
Hyperglycaemia
Less osmotic symptoms
With complications
Adipocytokines
Inflammatory state
Energy expenditure
High [TG]
Low [HDL
Hypertension
BP>135/80
Waist circumference
Men>102   
Women>88
Fasting glucose
>6.0mmol/l

Question 57

What is meant by dyslipidaemia

Answer 57

Abnormal carriage of lipoproteins in the blood

Question 58

Is insulin resistance a disease

Answer 58

No, it is a pathophysiological state

Question 59

What does T2DM usually present with

Answer 59

Myocardial infarction

Question 60

Describe a diet for T2DM

Answer 60

Total calories control
reduce calories as fat 
reduce calories as refined carbohydrate
increase calories as complex carbohydrate
increase soluble fibre
Decrease sodium

Question 61

What is key for the diet in patients with T2DM

Answer 61

Control portion sizes