ENI - Diabetes Mellitus and Insulin resistance

Question 1

What is diabetes mellitus?

Answer 1

Insufficiency or inability of insulin/insulin’s functionality

Question 2

What are the effects of relative/absolute insulin deficiency?

Answer 2

• Decreased tissue utilisation of glucose
• Increased tissue utilisation of amino acids and fatty acids
• Increased hepatic glycogenolysis and hepatic gluconeogenesis
• Leading to hyperglycaemia

Question 3

What are the different types of diabetes mellitus?

Answer 3

• Type I

- Type II

Question 4

Describe type I diabetes

Answer 4

• Beta-cell destruction, usually leading to absolute insuline deficiency
• Immune mediated (including LADA)
• Idiopathic
• Inflammation of pancreas leading to damage of islets

Question 5

Describe type II diabetes

Answer 5

• May range from predominantly insulin resistance with relative insulin deficiency
• To predominantly secretory defect with or without insulin resistance

Question 6

What may be some other causes of diabetes mellitus?

Answer 6

• Disease of exocrine pancreas - inflammation of pancreas in general may lead to damage of islets showing as type ! diabetes
• Endocrinopathies e.g. Cushing’s, acromegaly, phaechromocytoma, glucagonoma, hyperthyroidism, produciogn of excess insulin antagonistic (more similar to type 2)
• Genetic defects, drugs, chemical induced, infections

Question 7

What is the effect of glucose on islet cells?

Answer 7

Toxic

Question 8

Defined by insulin, what are the 2 types of diabetes?

Answer 8

• Insulin dependent

- Non-insulin dependent

Question 9

Explain how insulin resistance can lead to insulin deficiency

Answer 9

• Insulin resistance, so get glucose increase
• Glucose toxic to islet cells
• Destruction, and so further reduction in insulin production
• Escalates until no insulin production

Question 10

Describe insulin dependent diabetes mellitus

Answer 10

• Insulin deficiency
• i.e. the primary problem is lack of insulin
• Need to treat with insulin or will die
• Common in dogs
• In cats may be able to treat by changing diet to low carb to bring glucose back to manageable level

Question 11

Describe non-insulin dependent diabetes mellitus

Answer 11

• Cats: common, obesity induced insulin resistance

- Dogs: insulin antagonism , drugs such as glucocorticoids, progestogens, condition such as dioestrus

Question 12

Give examples of causes of diabetes mellitus in dogs

Answer 12

• Genetic suscpetibility
• Immune mediated destruction of beta cells
• Pancreatitis
• Obesity induced insulin resistance
• Insulin antagonistic disease/conditions
• Insulin-antagonistic drugs

Question 13

Describe the immune mediated destruction of Beta cells leading to diabetes mellitus

Answer 13

• T cells
• Autoantibodies against insulin and/or beta cells
• Progressive decrease in glucose stimulated insulin secretion

Question 14

Describe pancreatitis as a cause of diabetes mellitus

Answer 14

• Beta-cell destruction
• Spontaneous inflammation of pancreas with associated residual damage to islets and beta cells
• Insulin deficiency

Question 15

Give examples of insulin antagonistic diseases/conditions

Answer 15

• Hyperadrenocorticism (cortisol)
• Dioestrus
• Acromegaly (growth hormone)
• Phaechromocytoma (catecholamines0
• Glucagonoma (glucagon)

Question 16

Explain how dioestrus is an insulin antagonistic condition in the bitch

Answer 16

• High progesterone
• Stimulates systemic increase in growth hormone and growth factor
• Inhibit insulin
• Usually ok when enoguh can be produced to overcome this but in some circumstances may not be able to

Question 17

Give an example of insulin antagonistic drugs

Answer 17

Glucocorticoids

Question 18

Give common causes of diabetes mellitus in cats

Answer 18

• Obesity induced insulin resistance
• Islet amyloidosis
• Pancreatitis
• Insulin antagonistic drugs
• Insulin antagonistic disease
• Genetics

Question 19

How may insulin resistance occur?

Answer 19

• Diminished ability of cells to respond to action of insulin in transporting glucose from blood to tissues
• Insulin resistance may be due to inadequate number of receptors
• Defective receptor structure
• Cell signalling pathway defect
• Defective GLUT4 transport or translocation to membrane
• Interference with function of GLUT4

Question 20

Explain islet amyloidosis in cats

Answer 20

• Amylin
• Co-secreted with insulin by feline beta cells
• Chronic increased secretion (high carb diet) with obesity and insulin resistant states
• Consequence of chronic hyperglycaemia/glucose toxicity
• Amylin deposited in iselts as amyloid
• Amyloid fibrils are cytotoxic, cause apoptosis of islet cells, leading to defective insulin secretion
• Progressive can lead to diabetes mellitus

Question 21

Explain why polyuria occurs in diabetes mellitus

Answer 21

• Blood glucose over amount that can be absorbed
• Glucose in tubules, draws out water
• Osmotic diuresis

Question 22

Why does polydipsia occur in diabetes mellitus?

Answer 22

Compensatory to the polyuria

Question 23

Explain why polyphagia occurs in diabetes mellitus

Answer 23

• Insulin required to signal satiety to hypothalamus

- No signalling to hypothalamus leads to increased appetite

Question 24

Explain why weight loss occurs in diabetes mellitus

Answer 24

• No inhibition of catabolic processes
• Use up sotres
• Decreased peripheral tissue utilisation of glucose
• Insulin:glucagon ratiofalls, promoting starvation process
• AAs used for gluconeogenesis
• Increased protein breakdown leading to muscle wasting

Question 25

Explain why cataracts occur in diabetes mellitus

Answer 25

• Glucose uptake into lens
• Normally metabolised to lactate which diffuses out using hexokinase
• Excess glucose converted into fructose and sorbitol that do not diffuse out (catalysed by aldose reductase)
• trapped fructose and sorbitol draw water into lens

Question 26

Explain diabetic ketoacidosis

Answer 26

• Glucose does not enter cells easily
• Shift to fat metabolism for energy
• Mobilise fatty acids
• More fatty acids leads to ktones
• Ketones gbuild up leading to metabolic acidosis
• Animals appear ill: vomiting, diarrhoea, anorexia, dehydration, often present collapsed

Question 27

List the diagnostic tests for diabetes mellitus

Answer 27

• Blood glucose
• Urinalysis
• Fructosamine
• Blood biochemistry

Question 28

Describe blood glucose in the diagnosis of diabetes mellitus

Answer 28

• Persistent fasting hyperglycaemia
• Blood glucose usually >10mmol/L
• Often 14-16mmol/L
• Persistent glucosuria

Question 29

Explain feline stress induced hyperglycaemia

Answer 29

• Stress induces cortisol and catecholamine release
• This leads to hyperglycaemia
• Ensure sample is stress free (i.e. taken at home) to show a representative glucose result

Question 30

Describe the fructosamine test in the diagnosis of diabetes mellitus

Answer 30

• Glycosylated serum proteins (albumin)
• Non-enzymatic reaction, proportional to blood glucose concentration
• Reflects previous 2-3 weeks of blood glucose
• High glucose for long period leads to more fructossamine
• Over 400umol/L

Question 31

What will be seen on blood biochemistry in diabetes mellitus? Why?

Answer 31

• Hypercholesterolaemia and hypertriglyceridaemia due to fatty acid mobilisation
• Visible lipid in serum/plasma
• Increased liver enzymes due to hepatic lipidosis

Question 32

What will be seen on urinalysis in diabetes mellitus?

Answer 32

• USG >1.025 g/ml (increased due to glucose)
• Glucose
• +/- ketones
• UTI (white and red blood cells, bacteria, protein)

Question 33

Explain how ketones are produced

Answer 33

• Ketones are produced from excess fatty acids
• During starvation state
• Fatty acids into TCA by using oxaloacetate
• Oxaloacetate comes from glucose
• Where there is not enough glucose and too many FFAs, they are diverted into ketone production

Question 34

What are the ketones produced in starvation state called?

Answer 34

• Acetoacetic acid
• Acetone
• beta-hydroxybutyric acid

Question 35

Why are ruminans particularly susceptible to ketosis?

Answer 35

Bacteria within rumen consume all glucose from feed, so ruminants have o generate their own glucose from VFAs

Question 36

Why would obesity make make ketosis worse?

Answer 36

• Likely to have insulin resistance and so less likely to be able to use glucose that is present/being produced
• Greater source of fatty acids as more can be mobilised from adipose
• Insulin’s inhibition of HSL lost and so will be more active in TAG mobilisation

Question 37

How does diabetes mellitus affect lipid mobilisation from adipose stores?

Answer 37

• Increases mobilisation because HSL is not being inhibited by insulin

Question 38

How does diabetes mellitus affect oxaloacetate production?

Answer 38

• Gluconeogenesis overstimulated
• Converted back to glucose via gluoneogenesis in DM patient
• Decreased oxaloacetate so more ketones produced

Question 39

Define insulin resistance

Answer 39

A reduced sensitivity to insulin

Question 40

Give examples of physiological causes of insulin resistance

Answer 40

• Pregnancy

- Stress (cortisol is inhibitory to insulin)

Question 41

Give examples of pathological causes of insulin resistance

Answer 41

• Obesity
• Hereditary predisposition
• Concurrent diseases
• Endocrinopathies

Question 42

Give molecular cuases of insulin resistance

Answer 42

• Inadequate number of insulin receptors
• Defective insulin receptor structure
• Defective cell signalling pathway
• Defective GLUT4 transport proteins
• Problems with translocation of GLUT4 to membrane
• Interference with function of GLUT4

Question 43

What is the effect of insulin resistance on glucose metabolism?

Answer 43

• Impaired uptake into tissues
• Increased gluconeogenesis (insulin usually suppresses this)
• Circulating glucose increase
• Tendency towards hyperglycaemia

Question 44

What is the effect of insulin resistance on lipids?

Answer 44

• Increased lipolysis due to reduced suppression of HSL
• Higher blood FFA levels
• Increases disproportionately when triggered by negative energy balance
• repartitioning:fats stored in adipose tissue, some fat storage in skeletal muscles, increase in blood fatty acid levels shift more lipid into skeletal muscle
• Lipid can interfere with insulin signalling

Question 45

What is the effect of insulin resistance on proteins?

Answer 45

• AAs used for gluconeogenesis
• Inhibition of AA uptake by tissues (anabolic effects suppressed)
• Hepatic insulin resistance also adds to increased gluconeogenesis, more AAs used up

Question 46

What is heptaic insulin resistance?

Answer 46

When insulin fails to suppress gluconeogenesis within the liver

Question 47

Describe the glucose tolerance test

Answer 47

• Dynamic test to stress system and reveal inadequacies
• IV injection of dextorse and serial blood samples
• Assess ability to reduce blood glucose and the amount of insulin needed for this
• Normal: insulin increased, glucose decreased
• Compensated IR: very high insulin, controlled glucose
• Uncompensated IR: very high insulin, very high glucose (or no increased insulin due to secondary insulin deficiency due to glucose toxicity)

Question 48

Describe measurements of obesity

Answer 48

• Body condition scoring
• Ultrasound measurement of subcut fat (esp pigs before slaughter, rump fat)
• Bioelectrical impedance
• Dual energy x-ray absorptiometry (DEXA, similar to CT or MRI, rare)
• Objective definition of degree of “crestiness” in horses

Question 49

Describe compensated insulin resistance

Answer 49

• Initially make more insulin to make up for resistance
• Obesity associated
• Normal concentrations unable to remove glucose from blood, pancreas secretes more insulin, leads to hyperinsulinaemia

Question 50

Describe uncompensated insulin resistance

Answer 50

• Pancreas unable to keep up due to glucose toxicity
• Obesity associated
• beta-cell exhaustion
• High blood glucose and low insulin

Question 51

What is the result of uncompensated insulin resistance?

Answer 51

• Type 2 diabetes melltius, non-insulin dependent (as the primary cause is obesity and not insulin)
• Glucosuria (and thus PUPD)

Question 52

What is the effect of increased body fat mass?

Answer 52

• Expansion of adipocytes (hypertrophy)
• Increased number of adipocytes (hyperplasia)
• Accumulation in subcut adopose tissue, omental, visceral, abdoinal adipose

Question 53

Describe the anabolic/catabolic imbalance in obesity

Answer 53

• Faster input into storage (anabolism) than output
• More fatty acids from diet, and fat produced from carbohydrates
• Slower output from storage pool due to lower demand, differences in metabolic activity between individuals i.e. good doers/easy keepers

Question 54

Outline what is meant by de novo lipogenesis

Answer 54

• Carbohydrates turned into fat

- Herbivores synthesise fat from carbohydrates has have low fat diet

Question 55

What is the link between obesity and insulin resistance?

Answer 55

• Obese animals more likely to suffer from IR
• Not always the case, but common
• 3 theories to explain this association: lipotoxicity, pro-inflammatory theory and adipokine theory (last 2 very closely linked)

Question 56

Describe te lipotoxicity theory iin obesity and insulin resistance

Answer 56

• Failure to store in subcut adipose leads to ectopic lipid in visceral fat and insulin sensitive tissues e.g. liver and skeletal muscle
• Tissues develop state of lipotoxicity
• Insulin signalling and action altered, deterioration of glucose tolerance in whole body
• Cytoplasmic and intercellular functions impaired
• As lipid accumulates within myocytes, insulin signalling pathways disrupted
• Disrupted signalling transduction leads to insulin resistance

Question 57

How does insulin resistance perpetuate itself through lipotoxicity?

Answer 57

• Insulin resistance promotes lipolysis (no inhibition of HSL)
• Increases mobilisation of fatty acids into circulation adn tehn to muscle and liver via portal system

Question 58

Outline the proinflammatory theory of insulin resistance and obesity

Answer 58

• Adipose tissue reaches capacity for fat storage
• Stressed adipocytes release inflammatory cytokines (adipokines), create proinflammatory state
• Alter intracellular signal transduction pathway, leading to IR
• Stretching adipocyte releasing leptin and inflammatory factors, decreased release of adiponectin
• Combined will promote insulin resistance and inflammation

Question 59

Outline the adipokine theory

Answer 59

• Adipocytes produce cytokines that can be classed as hormones (adipokines)
• Obesity alters balance of adipokines produced by adipocytes
• For example, adiponectin production decreases as obesity develops
• Adiponectin enhances action of insulin
• Lower adiponectin levels contribute to IR

Question 60

Outline Equine Metabolic Syndrome

Answer 60

• Peviousy known as peripheral Cushing’s
• Strong link with obesity/regional adiposity
• Primary disorder in EMS is insulin resistance
• Most common clinical sign is laminitis
• High levels of insulin and glucose in ponies with EMS