Investigation of Disease Lectures 7-9

Question 1

How much does the liver weigh in adults?

Answer 1

Approx 1500-1600 grams

Largest organ

Question 2

What are some functions of the liver?

Answer 2

1) Gluconeogenesis/glycogen synthesis
2) Steroid catabolism, lipid metabolism, cholesterol and lipoprotein synthesis
3) Deamination
4) Bilirubin excretion
5) Bile salt production
6) Synthesis of coagulation factors
7) Vitamin (A, B12) and iron storage

Question 3

Describe the blood flow between the liver and the heart

Answer 3

Hepatic artery into liver (25% of input)
Hepatic portal vein into liver (75% of input)
Hepatic vein from liver to inferior vena cava into heart

Question 4

Briefly describe the structure of the liver

Answer 4

Liver lobules are functional units formed by hepatic plates

• middle of each is a central vein
• edge of each is portal triad (Bile duct, portal vein and hepatic artery)
• Bile canaliculus collects bile produced by hepatocytes and moves it to bile duct

Question 5

Describe the process of bilirubin synthesis

Answer 5

• Erythrocytes destroyed in spleen
• Haemoglobin released
• Separated to haem and globin
• Haem to biliverdin by haem oxygenase
• Biliverdin to Bilirubin by biliverdin reductase

Question 6

What colour is bilirubin and how is it carried in the blood?

Answer 6

Yellow

Carried in blood conjugated to albumin

Question 7

Where, why and how is bilirubin conjugated?

Answer 7

Where? In the liver
Why? To render it more soluble
How? By the addition of glucuronic acid by uridine diphoshogluconate (UDP) glucuronosyl transferase

Question 8

What happens to bilirubin after it is conjugated in the liver?

Answer 8

Secreted into first into the gall bladder, then into the bile duct for excretion into the intestine

Question 9

What are the direct and indirect measurements of bilirubin and how are they performed?

Answer 9

Direct measures conjugated bilirubin
Indirect measures unconjugated bilirubin

Van den Bergh reaction measures conjugated bilirubin: React bilirubin with diazotised sulphanilic acid to give purple coloured azobilirubin that absorbs at 600nm
- Addition of caffeine breaks intramolecular hydrogen bonding in unconjugated bilirubin allowing it to react

Question 10

What are the 4 fractions of bilirubin found in plasma?

Answer 10

1) Unconjugated (alpha)
2) Monoglucuronide conjugated (beta)
3) Diglucuronide conjugated (gamma)
4) Bilirubin covalently bound to albumin (delta)

Question 11

What happens to bilirubin in the intestines?

Answer 11

Reduced by bacteria to Urobilinogen
- Most urobilinogen reabsorbed by portal vein to kidney and liver
> Urobilinogen in intestine converted first to stercobilinogen and then oxidised to stercobilin (brown)

Question 12

How is urobilinogen detected in urine?

Answer 12

Reaction with Ehrlich’s reagent

- Degree of colour change (dark pink to red) is proportional to amount of urobilinogen

Question 13

What is jaundice and whn does it occur?

Answer 13

Yellow pigmentation of skin, sclera (whites of eyes) and mucosa
- occurs when plasma bilirubin exceeds ~ 30-50 µmol/L (normal

Question 14

What are the main causes of unconjugated hyperbilirubinemia and give examples

Answer 14

Increased bilirubin production
> Hemolysis
> Erythrocyte abnormality
> Ineffective erythropoiesis (red blood cell production)
Decreased hepatic bilirubin clearance
> Fasting
> Gilberts syndrome
> Crigler-Naijar syndromes

Question 15

What are the main causes of conjugated hyperbilirubinemia and give examples

Answer 15

Intrahepatic disorder
>Hepatocellular disease of any cause
> Cholestatic disease of any cause
> Dubin-Johnson syndrome
> Rotor syndrome
Extrahepatic disorder
> Biliary tarct pathology
> Pancreatic pathology

Question 16

What is Gilbert’s Syndrome?

Answer 16

• Autosomal dominant
• Decreased uptake of bilirubin and decreased conjugation
• Mild unconjucated hyperbilirubinaemia

Question 17

What are Crigler-Naijer syndromes types 1 and 2?

Answer 17

Type 1:

• Autosomal recessive
• absense of UDPG transferase
• severe unconjugated hyperbilirubinaemia
• lethal

Type 2:
Autosomal recessive
Partial defect

Question 18

What is Dubin-Johnsom syndrome?

Answer 18

• AR
• Decreased hepatic excretion of bilirubin
• mild conjugated hyperbilirubinaemia

Question 19

What is Rotor syndrome?

Answer 19

• AR

- similar to D-J but no hepatic pigmentation

Question 20

What is the typical profile of a liver function test (LFTs)

Answer 20

• Albumin
• Bilirubin (total and conjugated)
• Transaminases (alanine and aspartate)
• Alkaline phosphatase
• Gamma-glutamyl transferase

Question 21

What are some other LFTs

Answer 21

• Prothrombin time (PT)
• Urinary bilirubin
• Urobilinogen

Question 22

What are the 2 transamines that are measured in the LFT?

Answer 22

Alanine aminotransferase (ALT)
Aspartate aminotransferase (AST)

Question 23

High levels of ALT and/or AST indicate what about the liver?

Answer 23

Indicate liver disease due to heptocellular intergrity
Causes include:
Infective agents
Autoimmune disorders
Toxins

Question 24

Is ALT or AST better for measuring liver function and explain why?

Answer 24

ALT more specific than AST

- ALT is cytoplasmic and so is more easily released into plasma than AST (cytoplasmic and mitochondrial)

Question 25

What are the 2 biliary tract enzymes measured in LFTs?

Answer 25

Alkaline phosphatase (ALP)
Gamma-glutamyl transferase (yGT)

Question 26

What is the main cause of increased ALP and yGT in the plasma?

Answer 26

Cholestasis (obstruction of bile from the liver to small intestine)

Question 27

Why are ALP and yGT raised in cholestasis?

Answer 27

Usually anchored to biliary canalicular and sinusoidal membranes
- In cholestasis these enzymes are rendered soluble

Question 28

What other factors can cause an increase in plasma yGT?

Answer 28

Alcohol abuse:
- >10 upper limit of normal
Enzyme inducing drugs:
- Phenytoin
- Rifampicin
Weight:
- 50% higher yGT in patients with BMI >30

Question 29

List some possible causes of Early Jaundice (

Answer 29

Haemolysis:
- blood group incompatibility between mother and baby (commonest)
- red cell membrane defects
 G6PD deficiency
Pyruvate kinase deficiency
Infection
Genetic defects of bilirubin metabolism

Question 30

What are some characteristics of physiological jaundice in babies (>48 hours)

Answer 30

• 30 to 70% affected

- Total bilirubin usually

Question 31

What things can exacerbate physiological jaundice?

Answer 31

• Prematurity
• Dehydration
• Haemolysis
• injections
• Hypoglycemia
• Hypothyroidism
• Inadequate calorie intake
• Intestinal obstruction

Question 32

Describe the causes and tests of prolonged jaundice (>14 days) caused by CONJUGATED bilirubin

Answer 32

• alpha1-antitrypsin deficiency (alphaAT concentration)
• Galactosaemia (red cell glalactose-1P-uridyltransferase)
• Cystic fibrosis (sweat test)
• Biliary atresia (pale stools)
• Dubin-Johnson and Rotor syndromes

Question 33

Describe the causes and tests of prolonged jaundice (>14 days) caused by UNCONJUGATED bilirubin

Answer 33

• Breast milk jaundice (benign condition)
• G6PD deficiency
• Congenital hypothyroidism
• Crigler-Najjar syndrome

Question 34

Describe the causes and LFT changes of acute & chronic hepatitis

Answer 34

Causes:
- Hepatitis virus
- Alcohol
- Drugs/toxins
- Cytomegalovirus
- Autoimmune
LFT changes:
- Increased heptocellular enzymes (ALT, AST)
- Mixed hyperbilirubinaemia
- Urine bilirubin +ve
- Increased PT time

Question 35

Describe the causes and LFT changes of Cirrhosis

Answer 35

Causes:
- Chronic alcohol abuse
- Chronic hepatitis
- Primary bilirary cirrhosis
- Wilson's disease
- Haemochromatosis
LFT changes:
- Reduced albumin, gamma/beta bridging
- Normal or increased ALT, AST
- Normal or mixed hyperbilirubinaemia
- Increased PT time

Question 36

Describe the causes and LFT changes of Cholestasis

Answer 36

Causes:
- Gallstones
- Malignancies (pancreas)
- Bile duct stricture (narrowing of ducts)
- Biliary atresia (congenital absense or closure of bile ducts)
LFT changes:
- Increased biliary tract enzymes (ALP, yGT)
- Conjugated hyperbilirubinaemia
- Urine bilirubin +ve
- Decreased urine urobilinogen

Question 37

What is the prevalence of autoimmune hepatitis, how is it tested for and diagnosed and how is it treated?

Answer 37

• 1 in 10,000
• Positive for autoantibodies
• Conformation by liver biopsy
• Managed with prednisolone and azathioprine

Question 38

What is primary biliary cirrhosis?

Answer 38

• Autoimmune disease
• common in middle-old aged women
• Positive for mitochondrial antibodies

Question 39

What does IMD stand for?

Answer 39

Inherited metabolic disorder

Question 40

What is the name of the screening programme run in the UK?

Answer 40

NHS newborn blood spot (NBS) screening programme

Question 41

What disorders does the NHS NBS screening programme test for?

Answer 41

Congenital hypothyroidism
Sickle cell disorders
Cystic fibrosis
IMDs:
- Phenylketonuria
- Medium chain acyl CoA dehydrogenase deficiency (MCADD)
- Maple syrup urine disease (MSUD)
- Isovaleric acidaemia
- Glutaric aciduria type 1
- Homocystinuria

Question 42

What is the cause and what are the symptoms of downs syndrome?

Answer 42

Phenotypic expression of trisomy 21

• severe learning difficulties
• short stature
• increased prevalence of congenital heart disease, hypothyroidism, leukemia and infections

Question 43

When is downs syndrome screened for?

Answer 43

Fetal

Question 44

What government body implements the newborn blood spot screening programme?

Answer 44

The UK National Screening Committee

Question 45

What are the criteria for a screening programme in regards to the condition, the test, the treatment and the programme?

Answer 45

The condition:

• important health problem
• natural history and epidemiology should be understood
• latent pre-symptomatic phase

The test:

• Simple, safe, precise, validated, acceptable to general population
• Agreed policy for diagnostic follow up of screen positive cases

The treatment:

• Effective
• Evidence that treatment leads to improved outcome

The programme:

• Benefits outway harm
• value for money
• QA

Question 46

How is the blood spot test performed?

Answer 46

• Heel is pin pricked and either:
• Collected and released onto spots on card
• Spotted onto card directly from heel
  Card is called a Guthrie Card

Question 47

What is the mode of inheritance of PKU and What is its disease and carrier prevalence ?

Answer 47

Autosomal recessive disorder
Incidence 1 in 10-12,000
Carrier frequency 1 in 50

Question 48

What causes PKU?

Answer 48

Accumulation of phenylalanine as a result of a deficiency in phenylalanine dehydrogenase (PAH) that usually converts phenylalanine into tyrosine

Question 49

What dietary chemical should PKU sufferers stay away from and why?

Answer 49

Aspartame

Because it is a dipeptide of phenylalanine and aspartate

Question 50

What does the spectrum of PKU severity depend on??

Answer 50

Degree of enzyme activity

300 mutations identified (chromosome 12)

Question 51

What blood phenylalanine concentration is associated with hyperphenylalaninaemia?

Answer 51

> 120µmol/L

Question 52

What are the symptoms of untreated children with PKU and how it is diagnosed?

Answer 52

• Severe intellectual impairment
• Microcephaly (small head)
• Hypopigmentation
• Autistic behaviour
• Spasticity

Diagnosed by elevated phenylalanine in blood and detection of phenylketones in urine
- however most diagnosed by newborn screening

Question 53

How does excess phenylalanine cause brain problems?

Answer 53

• Phenylalanine is a large neutral amino acid (LNAA)
• LNAAs compete for transport across blood brain barrier via large neutral AA transporter (LNAAT)
• Transporter saturated with PA
• Leads to decreased levels of other essential LNAAs in brain
• Reduced neurotransmitter and protein synthesis
• Hinders brain development

Question 54

What is the cause of hypopigmentation in PKU?

extra reading

Answer 54

Less tyrosine being produced = less melanin production

Question 55

How is phenylalanine measured?

Answer 55

• Ferric chloride
• Guthrie microbial assay (blood spot test):
  > Bacillus subtilis grown on plate and inhibited by B-2-thienylalanine
  > presence of phenylalanine alows growth to continue
• Paper or thin layer chromatography
• Tandem mass spec

Question 56

What causes congenital hypothyroidism?

Answer 56

Thyroid gland unable to produce thyroxine (T4)
- Results in overproduction of thyroid stimulating hormone (TSH) from anterior pituitary to try and stimulate thyroid to produce more thyroxine

Question 57

What is the diagnostic TSH concentration in babies?

Answer 57

In excess of 200mU/L (milliunits/L)

Normal

Question 58

What are the symptoms of infant congenital hypothyroidism?

Answer 58

Difficulty feeding
Sleepiness
jaundice
constipation

Question 59

How is congenital hypothyroidism treated?

Answer 59

Oral administration of thyroxidine (liquid or tablet)
10µg/kg gradually increased until 12 yo
100 - 200µg/day thereafter

Question 60

What is the prevelence of congenital hypothyroidism in the UK?

Answer 60

1 in 3000 babies born

Question 61

What is the composition of normal adult haemoglobin (HbA)

Answer 61

2alpha and 2 beta polypeptide chains

Question 62

What causes sickle cell disease?

Answer 62

Abnormality in haemoglobin molecule caused by an amino acid change in the beta chain
- This haemoglobin is called HbS
HbS homozygous individuals have sickle cell disease

Question 63

What is the prevalence of sickle cell disease?

Answer 63

1 in 2000 babies born in UK

Question 64

What are the symptoms of sickle cell disease?

Answer 64

• Anemia
• Attacks of severe pain
• Severe infections

Question 65

How are the different haemoglobins in SCD examined?

Answer 65

Following seperation by HPLC or isoelectric focusing

Question 66

What is the name of another inherited disorder that effects haemoglobin chain structure?

Answer 66

Thalassaemias

alpha and beta

Question 67

What is the prevalence of cystic fibrosis and how is it inherited?

Answer 67

Most common single gene disorder in caucasian population - 1 in 2,500
Autosomal recessive (1 in 25 are carriers)

Question 68

What causes cystic fibrosis?

Answer 68

• Mutations in the cystic fibrosis transmembrane conductance regulator gene (CFTR) on
  chromosome 7
• deltaF508 mutation in CFTR gene accounts for more then 75% of CF
  Defective CFTR = defect of chloride transport across membranes, producing excessively viscous mucous

Question 69

What are the symptoms of CF?

Answer 69

• Recurrent lower respiratory tract infections
• pancreatic insufficiency
• high sweat chloride
• male infertility

Question 70

What does the blood spot test test for in relation to CF? what are some other tests?

Answer 70

Blood spot test measures immunoreactive trypsin

• Also, DNA testing for mutations in CFTR gene
• Sweat test

Question 71

Name some ways in which CF is treated

Answer 71

- Airway clearing techniques:
> active cycle of breathing techniques (ACBT)
> autogenic drainage
> modified posture drainage
> airway cleaning devices
> Ivacaftor - helps to reduce mucus
> Dornase alfa - helps to thin mucus
-  Administration of pancreatic enzymes
- Antibiotics for chest infections
In severe cases, lung transplant

Question 72

What is the mode of inheritance and prevalence of medium chain acyl CoA dehydrogenase deficiency (MCADD)?

Answer 72

Autosomal recessive

1 in 8,000 babies born in the UK

Question 73

What is the role of medium chain acyl CoA dehydrogenase in the body?

Answer 73

Enzyme that causes dehydrogenation of fatty acyl CoA’s (fatty acids) with a carbon chain of C6-C10 in beta oxidation of fatty acids

Question 74

What occurs in MCADD?

Answer 74

Deficiency in MCAD
No or less beta oxidation
Accumulation of acyl CoA esters within the mitochondria and corresponding L-carnitine inside and outside mitochondria

Question 75

What do MCADD patients commonly present with?

Answer 75

• present with hypoglycemia as product of beta oxidation is acetyl CoA which is used in glycolysis
• Low conc of plasma and urine ketones (acetyl CoA –> ketones and CO2)
• high plasma free fatty acids (3-hydroxybutyrate)

Question 76

What are the symptoms of MCADD?

Answer 76

Fatigue
vomiting 
sweating
rapid breathing 
seizures

Question 77

How is MCADD diagnosed?

Answer 77

Blood spot test

- measurement of octanoyl carnitine in blood spots by tandem mass spectrometry

Question 78

What is the structure of a fatty acid?

Answer 78

Carbon chain with a carboxylic acid group on the end

Question 79

What is the difference between saturated and unsaturated fatty acids?

Answer 79

Saturated have no double bonds - fully saturated with hydrogen
Unsaturated do have double bonds

Question 80

What is the difference between cis and trans unsaturated fatty acids?

Answer 80

Cis (Oleic acid):
Natural conformation in body
Hydrogen atoms on same side of double bond

Trans (Elaidic acid):
Not part of normal metabolism, harmful
Hydrogens on opposite side to double bond

Question 81

What is a polyunsaturated fatty acid?

Answer 81

A fatty acid with multiple double bonds

Question 82

What is the structure of triacylglycerols?

Answer 82

3 carbon atoms of glycerol as backbone, esterified with 3 FA residues

• Carbons of glycerol labelled Sn1, Sn2 and Sn3
• Sn2 carbon esterified to unsaturated FA

Question 83

Where are triacylglycerols stored and how are they used for energy?

Answer 83

Stored in adipocyte within a lipid droplet coated with perilipin
(adipose tissue)
- When stimulated by GH, glucagon (fasting hormones), hormone sensitive lipase (HSL) converts triacylglycerol into free fatty acids that can be used in beta oxidation

Question 84

What are phospholipids used for?

Answer 84

Main lipid used in biological membranes (around 40-50%)

Question 85

What are the main roles of cholesterol?

Answer 85

• Precursor of steroid hormones
• precursor of vitamin D
• Precursor of bile acids/salts
• Key component of biological membranes

Question 86

What are the 2 types of cholesterol?

Answer 86

1) Free cholesterol

2) Esterified cholesterol (esterified to a FA)

Question 87

How is dietary cholesterol transported from the intestinal lumen (duodenum and jejunum) to the blood?

Answer 87

• CEs hydrolysed to FC which is absorbed into micelles along with plant sterols and moved into intestinal cell by Niemann-Pick C1 like 1 protein (NPC1L1)
• Plant sterols returned to lumen by sterol transporter
• FC esterified back to CEs
• CEs, triacylglycerols and apoB48 delivered to extracellular fluid in chylomicrons by microsomal transport protein
• Mature chylomycrons delivered to blood

Question 88

How are lipoproteins formed?

Answer 88

Water insoluble Lipids associate with apoproteins to form water soluble lipoproteins

Question 89

What are the main 3 types of apoproteins?

Answer 89

A, B and C - referred to as apoA, apoB and apoC

Question 90

How are lipoproteins classified and what are the 5 classes?

Answer 90

Classified according to their density
From low to high density:
Chylomicrons
Very low density
Intermediate density 
low density 
high density

Question 91

What are the functions of the main 4 lipoproteins (chylomicrons, VLDL, LDL and HDL) and which apolipoproteins are involved in each?

Answer 91

Chylomicrons:
- B48, A-I, C-II, E
- largest lipoprotein
- synthesised in intestine after meal
- Main carrier of dietry triglyceride
VLDL:
- B100, C-II, E
- Synthesised in liver
- Main carrier of endogenously produced triglyceride
LDL:
- B100
- Generated from VLDL in the circulation
- Main carrier of cholesterol
HDL:
- A-I and A-II
- Smallest
- Protective function
- Takes cholesterol from extrahepatic tissues to liver for excretion

Question 92

What are the roles of apoC and apocE in chylomicrons?

Answer 92

The apocC components play a role in activating lipase on endothelial surfaces, but also masks recognition of apoE by liver uptake cells
- As facts are stripped out of the particles (lipoproteins) cholesterol is concentrated and the apocC proteins shed so that apoE becomes exposed

Question 93

Which areas of the HDL interact with cholesterol?

Answer 93

The 2 apolipoprotein A-I chains

Question 94

What is the difference between an atheroma and atherosclerosis?

Answer 94

Atheroma - accumulation of lipid that occur on the inner lining of the arteries
Atherosclerosis - narrowing and hardening of the artheries (caused by an atheroma)

Question 95

Describe the process of atheroma formation leading to atherosclerosis

Answer 95

1) Fatty streak
- LDL accumulates in extracellular space between endothelial and connective tissue layers and is oxidised
- Phospholipase A2 can caused damage to LDL particles, promoting their uptake onto macrophages by scavenger receptors –> macrophages become foam cells
- Smooth muscle cells divide and take up cholesterol - initiated by paracrine factors released from macrophages
2) Stable fibrous plaque
- Lipid core accumulates
- Fibrous scar tissue forms over lipid core
- Proliferation of smooth muscle cells thickens wall
- Dying cells in fatty deposits replaced by scar tissue and become calcified
3) Vulnerable plaque
- Converted into vulnerable plaque by degradation of fibrous cap to thin cap by macrophage enzymes
- Rupture in plaques exposes platelets to collagen and initiates blood clot (thrombus)

Question 96

How are both cholesterol and triacylglycerols measured in the lab?

Answer 96

• Both reacted with water in automated analysers with multiple enzymatic steps
• give coloured products
• Cholesterol = 1 H20, 3 enzymatic steps synthesis
• Triacylglycerol = 3H20, 4 enzymatic steps

Question 97

How is hypercholesterolaemia treated?

Answer 97

Lifestyle changes:
- No smoking
- Maintain healthy weight
- Less than 30% fat diet, with less than 10% of total being saturated.
Drug treatments:
Statins - inhibit HMG CoA reductase that catalyses conversion of hydroxymethylglutaryl CoA (HMG-CoA) to Mevalonate in de novo synthesis of cholesterol
Squalene synthetase inhibitors - inhibits squalene synthetase that catalyses conversion of presqualene pyrophospahte to squalene

Question 98

What are the healthy levels of blood total cholesterol, LDL, HDL and Triglycerides for adults and those at risk

Answer 98

Healthy adults:

Total cholesterol -